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authordrebs <drebs@riseup.net>2017-09-17 12:08:25 -0300
committerdrebs <drebs@riseup.net>2017-09-17 15:50:55 -0300
commitcfff46ff9becdbe5cf48816870e625ed253ecc57 (patch)
tree8d239e4499f559d86ed17ea3632008303b25d485 /testing/tests
parentf29abe28bd778838626d12fcabe3980a8ce4fa8c (diff)
[refactor] move tests to root of repository
Tests entrypoint was in a testing/ subfolder in the root of the repository. This was made mainly because we had some common files for tests and we didn't want to ship them (files in testing/test_soledad, which is itself a python package. This sometimes causes errors when loading tests (it seems setuptools is confused with having one python package in a subdirectory of another). This commit moves the tests entrypoint to the root of the repository. Closes: #8952
Diffstat (limited to 'testing/tests')
-rw-r--r--testing/tests/benchmarks/README.md51
-rw-r--r--testing/tests/benchmarks/assets/cert_default.conf15
-rw-r--r--testing/tests/benchmarks/conftest.py154
-rw-r--r--testing/tests/benchmarks/pytest.ini2
-rw-r--r--testing/tests/benchmarks/test_crypto.py109
-rw-r--r--testing/tests/benchmarks/test_legacy_vs_blobs.py305
-rw-r--r--testing/tests/benchmarks/test_misc.py9
-rw-r--r--testing/tests/benchmarks/test_resources.py50
-rw-r--r--testing/tests/benchmarks/test_sqlcipher.py47
-rw-r--r--testing/tests/benchmarks/test_sqlite_blobs_backend.py82
-rw-r--r--testing/tests/benchmarks/test_sync.py92
-rw-r--r--testing/tests/blobs/test_blob_manager.py177
-rw-r--r--testing/tests/blobs/test_decrypter_buffer.py72
-rw-r--r--testing/tests/blobs/test_fs_backend.py173
-rw-r--r--testing/tests/blobs/test_sqlcipher_client_backend.py75
-rw-r--r--testing/tests/client/__init__.py0
-rw-r--r--testing/tests/client/test_api.py36
-rw-r--r--testing/tests/client/test_app.py52
-rw-r--r--testing/tests/client/test_attachments.py81
-rw-r--r--testing/tests/client/test_aux_methods.py132
-rw-r--r--testing/tests/client/test_crypto.py384
-rw-r--r--testing/tests/client/test_deprecated_crypto.py94
-rw-r--r--testing/tests/client/test_doc.py50
-rw-r--r--testing/tests/client/test_http.py60
-rw-r--r--testing/tests/client/test_https.py137
-rw-r--r--testing/tests/client/test_incoming_processing_flow.py197
-rw-r--r--testing/tests/client/test_recovery_code.py38
-rw-r--r--testing/tests/client/test_secrets.py166
-rw-r--r--testing/tests/client/test_shared_db.py40
-rw-r--r--testing/tests/client/test_signals.py149
-rw-r--r--testing/tests/client/test_soledad_doc.py46
-rw-r--r--testing/tests/conftest.py398
-rw-r--r--testing/tests/couch/__init__.py0
-rw-r--r--testing/tests/couch/common.py75
-rw-r--r--testing/tests/couch/test_atomicity.py370
-rw-r--r--testing/tests/couch/test_backend.py111
-rw-r--r--testing/tests/couch/test_command.py31
-rw-r--r--testing/tests/couch/test_ddocs.py60
-rw-r--r--testing/tests/couch/test_state.py32
-rw-r--r--testing/tests/couch/test_sync.py700
-rw-r--r--testing/tests/couch/test_sync_target.py343
-rw-r--r--testing/tests/pipes/test_pipes.py51
-rw-r--r--testing/tests/responsiveness/conftest.py20
-rw-r--r--testing/tests/responsiveness/elastic.py47
-rw-r--r--testing/tests/responsiveness/test_responsiveness.py50
-rw-r--r--testing/tests/responsiveness/watchdog.py53
-rw-r--r--testing/tests/server/__init__.py0
-rw-r--r--testing/tests/server/test__resource.py85
-rw-r--r--testing/tests/server/test__server_info.py43
-rw-r--r--testing/tests/server/test_auth.py138
-rw-r--r--testing/tests/server/test_blobs_resource_validation.py63
-rw-r--r--testing/tests/server/test_blobs_server.py286
-rw-r--r--testing/tests/server/test_config.py70
-rw-r--r--testing/tests/server/test_incoming_flow_integration.py97
-rw-r--r--testing/tests/server/test_incoming_resource.py57
-rw-r--r--testing/tests/server/test_incoming_server.py92
-rw-r--r--testing/tests/server/test_server.py230
-rw-r--r--testing/tests/server/test_session.py195
-rw-r--r--testing/tests/server/test_shared_db.py69
-rw-r--r--testing/tests/server/test_tac.py87
-rw-r--r--testing/tests/server/test_url_mapper.py133
-rw-r--r--testing/tests/sqlcipher/hacker_crackdown.txt13005
-rw-r--r--testing/tests/sqlcipher/test_async.py146
-rw-r--r--testing/tests/sqlcipher/test_backend.py677
-rw-r--r--testing/tests/sync/__init__.py0
-rw-r--r--testing/tests/sync/test_sqlcipher_sync.py719
-rw-r--r--testing/tests/sync/test_sync.py233
-rw-r--r--testing/tests/sync/test_sync_mutex.py133
-rw-r--r--testing/tests/sync/test_sync_target.py968
69 files changed, 0 insertions, 22942 deletions
diff --git a/testing/tests/benchmarks/README.md b/testing/tests/benchmarks/README.md
deleted file mode 100644
index b2465a78..00000000
--- a/testing/tests/benchmarks/README.md
+++ /dev/null
@@ -1,51 +0,0 @@
-Benchmark tests
-===============
-
-This folder contains benchmark tests for Soledad. It aims to provide a fair
-account on the time and resources taken to perform some actions.
-
-These benchmarks are built on top of `pytest-benchmark`, a `pytest` fixture that
-provides means for running test functions multiple times and generating
-reports. The results are printed to screen and also posted to elasticsearch.
-
-`pytest-benchmark` runs tests multiple times so it can provide meaningful
-statistics for the time taken for a tipical run of a test function. The number
-of times that the test is run can be manually or automatically configured. When
-automatically configured, the number of runs is decided by taking into account
-multiple `pytest-benchmark` configuration parameters. See the following page
-for more details on how `pytest-benchmark` works:
-
- https://pytest-benchmark.readthedocs.io/en/stable/calibration.html
-
-Some graphs and analysis resulting from these tests can be seen on:
-
- https://benchmarks.leap.se/
-
-
-Resource consumption
---------------------
-
-For each test, CPU and memory usage statistics are also collected, by querying
-`cpu_percent()` and `memory_percent()` from `psutil.Process` for the current
-test process. Some notes about the current resource consumption estimation process:
-
-* Currently, resources are measured for the whole set of rounds that a test
- function is run. That means that the CPU and memory percentage include the
- `pytest` and `pytest-benchmark` machinery overhead. Anyway, for now this might
- provide a fair approximation of per-run test function resource usage.
-
-* CPU is measured before and after the run of the benchmark function and
- returns the percentage that the currnet process occupied of the CPU time
- between the two calls.
-
-* Memory is sampled during the benchmark run by a separate thread. Sampling
- interval might have to be configured on a per-test basis, as different tests
- take different times to execute (from milliseconds to tens of seconds). For
- now, an interval of 0.1s seems to cover all tests.
-
-
-Benchmarks website
-------------------
-
-To update the benchmarks website, see the documentation in
-``../../../docs/misc/benchmarks-website.rst``.
diff --git a/testing/tests/benchmarks/assets/cert_default.conf b/testing/tests/benchmarks/assets/cert_default.conf
deleted file mode 100644
index 8043cea3..00000000
--- a/testing/tests/benchmarks/assets/cert_default.conf
+++ /dev/null
@@ -1,15 +0,0 @@
-[ req ]
-default_bits = 1024
-default_keyfile = keyfile.pem
-distinguished_name = req_distinguished_name
-prompt = no
-output_password = mypass
-
-[ req_distinguished_name ]
-C = GB
-ST = Test State or Province
-L = Test Locality
-O = Organization Name
-OU = Organizational Unit Name
-CN = localhost
-emailAddress = test@email.address
diff --git a/testing/tests/benchmarks/conftest.py b/testing/tests/benchmarks/conftest.py
deleted file mode 100644
index 80eccb08..00000000
--- a/testing/tests/benchmarks/conftest.py
+++ /dev/null
@@ -1,154 +0,0 @@
-import functools
-import numpy
-import os
-import psutil
-import pytest
-import threading
-import time
-
-from twisted.internet import threads, reactor
-
-
-#
-# pytest customizations
-#
-
-# mark benchmark tests using their group names (thanks ionelmc! :)
-def pytest_collection_modifyitems(items, config):
- for item in items:
- bench = item.get_marker("benchmark")
- if bench and bench.kwargs.get('group'):
- group = bench.kwargs['group']
- marker = getattr(pytest.mark, 'benchmark_' + group)
- item.add_marker(marker)
-
- subdir = config.getoption('subdir')
- if subdir == 'benchmarks':
- # we have to manually setup the events server in order to be able to
- # signal events. This is usually done by the enclosing application
- # using soledad client (i.e. bitmask client).
- from leap.common.events import server
- server.ensure_server()
-
-
-#
-# benchmark fixtures
-#
-
-@pytest.fixture()
-def txbenchmark(monitored_benchmark):
- def blockOnThread(*args, **kwargs):
- return threads.deferToThread(
- monitored_benchmark, threads.blockingCallFromThread,
- reactor, *args, **kwargs)
- return blockOnThread
-
-
-@pytest.fixture()
-def txbenchmark_with_setup(monitored_benchmark_with_setup):
- def blockOnThreadWithSetup(setup, f, *args, **kwargs):
- def blocking_runner(*args, **kwargs):
- return threads.blockingCallFromThread(reactor, f, *args, **kwargs)
-
- def blocking_setup():
- args = threads.blockingCallFromThread(reactor, setup)
- try:
- return tuple(arg for arg in args), {}
- except TypeError:
- return ((args,), {}) if args else None
-
- def bench():
- return monitored_benchmark_with_setup(
- blocking_runner, setup=blocking_setup,
- rounds=4, warmup_rounds=1, iterations=1,
- args=args, kwargs=kwargs)
- return threads.deferToThread(bench)
- return blockOnThreadWithSetup
-
-
-#
-# resource monitoring
-#
-
-class ResourceWatcher(threading.Thread):
-
- sampling_interval = 0.1
-
- def __init__(self, watch_memory):
- threading.Thread.__init__(self)
- self.process = psutil.Process(os.getpid())
- self.running = False
- # monitored resources
- self.cpu_percent = None
- self.watch_memory = watch_memory
- self.memory_samples = []
- self.memory_percent = None
-
- def run(self):
- self.running = True
- self.process.cpu_percent()
- # decide how long to sleep based on need to sample memory
- sleep = self.sampling_interval if not self.watch_memory else 1
- while self.running:
- if self.watch_memory:
- sample = self.process.memory_percent(memtype='rss')
- self.memory_samples.append(sample)
- time.sleep(sleep)
-
- def stop(self):
- self.running = False
- self.join()
- # save cpu usage info
- self.cpu_percent = self.process.cpu_percent()
- # save memory usage info
- if self.watch_memory:
- memory_percent = {
- 'sampling_interval': self.sampling_interval,
- 'samples': self.memory_samples,
- 'stats': {},
- }
- for stat in 'max', 'min', 'mean', 'std':
- fun = getattr(numpy, stat)
- memory_percent['stats'][stat] = fun(self.memory_samples)
- self.memory_percent = memory_percent
-
-
-def _monitored_benchmark(benchmark_fixture, benchmark_function, request,
- *args, **kwargs):
- # setup resource monitoring
- watch_memory = _watch_memory(request)
- watcher = ResourceWatcher(watch_memory)
- watcher.start()
- # run benchmarking function
- benchmark_function(*args, **kwargs)
- # store results
- watcher.stop()
- benchmark_fixture.extra_info.update({
- 'cpu_percent': watcher.cpu_percent
- })
- if watch_memory:
- benchmark_fixture.extra_info.update({
- 'memory_percent': watcher.memory_percent,
- })
- # add docstring info
- if request.scope == 'function':
- fun = request.function
- doc = fun.__doc__ or ''
- benchmark_fixture.extra_info.update({'doc': doc.strip()})
-
-
-def _watch_memory(request):
- return request.config.getoption('--watch-memory')
-
-
-@pytest.fixture
-def monitored_benchmark(benchmark, request):
- return functools.partial(
- _monitored_benchmark, benchmark, benchmark, request)
-
-
-@pytest.fixture
-def monitored_benchmark_with_setup(benchmark, request, *args, **kwargs):
- return functools.partial(
- _monitored_benchmark, benchmark, benchmark.pedantic, request,
- *args, **kwargs)
diff --git a/testing/tests/benchmarks/pytest.ini b/testing/tests/benchmarks/pytest.ini
deleted file mode 100644
index 7a0508ce..00000000
--- a/testing/tests/benchmarks/pytest.ini
+++ /dev/null
@@ -1,2 +0,0 @@
-[pytest]
-twisted = yes
diff --git a/testing/tests/benchmarks/test_crypto.py b/testing/tests/benchmarks/test_crypto.py
deleted file mode 100644
index 3be447a5..00000000
--- a/testing/tests/benchmarks/test_crypto.py
+++ /dev/null
@@ -1,109 +0,0 @@
-"""
-Benchmarks for crypto operations.
-If you don't want to stress your local machine too much, you can pass the
-SIZE_LIMT environment variable.
-
-For instance, to keep the maximum payload at 1MB:
-
-SIZE_LIMIT=1E6 py.test -s tests/perf/test_crypto.py
-"""
-import pytest
-import os
-import json
-from uuid import uuid4
-
-from leap.soledad.common.document import SoledadDocument
-from leap.soledad.client import _crypto
-
-LIMIT = int(float(os.environ.get('SIZE_LIMIT', 50 * 1000 * 1000)))
-
-
-def create_doc_encryption(size):
- @pytest.mark.benchmark(group="test_crypto_encrypt_doc")
- @pytest.inlineCallbacks
- def test_doc_encryption(soledad_client, txbenchmark, payload):
- """
- Encrypt a document of a given size.
- """
- crypto = soledad_client()._crypto
-
- DOC_CONTENT = {'payload': payload(size)}
- doc = SoledadDocument(
- doc_id=uuid4().hex, rev='rev',
- json=json.dumps(DOC_CONTENT))
-
- yield txbenchmark(crypto.encrypt_doc, doc)
- return test_doc_encryption
-
-
-# TODO this test is really bullshit, because it's still including
-# the json serialization.
-
-def create_doc_decryption(size):
- @pytest.inlineCallbacks
- @pytest.mark.benchmark(group="test_crypto_decrypt_doc")
- def test_doc_decryption(soledad_client, txbenchmark, payload):
- """
- Decrypt a document of a given size.
- """
- crypto = soledad_client()._crypto
-
- DOC_CONTENT = {'payload': payload(size)}
- doc = SoledadDocument(
- doc_id=uuid4().hex, rev='rev',
- json=json.dumps(DOC_CONTENT))
-
- encrypted_doc = yield crypto.encrypt_doc(doc)
- doc.set_json(encrypted_doc)
-
- yield txbenchmark(crypto.decrypt_doc, doc)
- return test_doc_decryption
-
-
-def create_raw_encryption(size):
- @pytest.mark.benchmark(group="test_crypto_raw_encrypt")
- def test_raw_encrypt(monitored_benchmark, payload):
- """
- Encrypt raw payload using default mode from crypto module.
- """
- key = payload(32)
- monitored_benchmark(_crypto.encrypt_sym, payload(size), key)
- return test_raw_encrypt
-
-
-def create_raw_decryption(size):
- @pytest.mark.benchmark(group="test_crypto_raw_decrypt")
- def test_raw_decrypt(monitored_benchmark, payload):
- """
- Decrypt raw payload using default mode from crypto module.
- """
- key = payload(32)
- iv, ciphertext = _crypto.encrypt_sym(payload(size), key)
- monitored_benchmark(_crypto.decrypt_sym, ciphertext, key, iv)
- return test_raw_decrypt
-
-
-# Create the TESTS in the global namespace, they'll be picked by the benchmark
-# plugin.
-
-encryption_tests = [
- ('10k', 1E4),
- ('100k', 1E5),
- ('500k', 5E5),
- ('1M', 1E6),
- ('10M', 1E7),
- ('50M', 5E7),
-]
-
-for name, size in encryption_tests:
- if size < LIMIT:
- sz = int(size)
- globals()['test_encrypt_doc_' + name] = create_doc_encryption(sz)
- globals()['test_decrypt_doc_' + name] = create_doc_decryption(sz)
-
-
-for name, size in encryption_tests:
- if size < LIMIT:
- sz = int(size)
- globals()['test_encrypt_raw_' + name] = create_raw_encryption(sz)
- globals()['test_decrypt_raw_' + name] = create_raw_decryption(sz)
diff --git a/testing/tests/benchmarks/test_legacy_vs_blobs.py b/testing/tests/benchmarks/test_legacy_vs_blobs.py
deleted file mode 100644
index 47d6482c..00000000
--- a/testing/tests/benchmarks/test_legacy_vs_blobs.py
+++ /dev/null
@@ -1,305 +0,0 @@
-# "Legacy" versus "Incoming blobs" pipeline comparison
-# ====================================================
-#
-# This benchmarking aims to compare the legacy and new mail incoming pipeline,
-# to asses performance improvements brought by the introduction of blobs.
-#
-# We use the following sizes in these tests:
-#
-# - headers: 4 KB
-# - metadata: 0.1 KB
-# - flags: 0.5 KB
-# - content: variable
-#
-# "Legacy" incoming mail pipeline:
-#
-# - email arrives at MX.
-# - MX encrypts to public key and puts into couch.
-# - pubkey encrypted doc is synced to soledad client as "incoming".
-# - bitmask mail processes "incoming" and generates 3 metadocs + 1 payload
-# doc per message.
-# - soledad client syncs 4 documents back to server.
-#
-# "Incoming blobs" mail pipeline:
-#
-# - email arrives at MX.
-# - MX encyrpts to public key and puts into soledad server.
-# - soledad server writes a blob to filesystem.
-# - soledad client gets the incoming blob from server and generates 3
-# metadocs + 1 blob.
-# - soledad client syncs 3 meta documents and 1 blob back to server.
-#
-# Some notes about the tests in this file:
-#
-# - This is a simulation of the legacy and new incoming mail pipelines.
-# There is no actual mail processing operation done (i.e. no pubkey crypto,
-# no mail parsing), only usual soledad document manipulation and sync (with
-# local 1network and crypto).
-#
-# - Each test simulates a whole incoming mail pipeline, including get new
-# incoming messages from server, create new documents that represent the
-# parsed message, and synchronize those back to the server.
-#
-# - These tests are disabled by default because it doesn't make much sense to
-# have them run automatically for all commits in the repository. Instead,
-# we will run them manually for specific releases and store results and
-# analisys in a subfolder.
-
-import base64
-import pytest
-import random
-import sys
-import treq
-import uuid
-
-from io import BytesIO
-
-from twisted.internet.defer import gatherResults
-from twisted.internet.defer import returnValue
-from twisted.internet.defer import DeferredSemaphore
-
-from leap.soledad.common.blobs import Flags
-from leap.soledad.client._db.blobs import BlobDoc
-
-
-def payload(size):
- random.seed(1337) # same seed to avoid different bench results
- payload_bytes = bytearray(random.getrandbits(8) for _ in xrange(size))
- # encode as base64 to avoid ascii encode/decode errors
- return base64.b64encode(payload_bytes)[:size] # remove b64 overhead
-
-
-PARTS = {
- 'headers': payload(4000),
- 'metadata': payload(100),
- 'flags': payload(500),
-}
-
-
-#
-# "Legacy" incoming mail pipeline.
-#
-
-@pytest.inlineCallbacks
-def load_up_legacy(client, amount, content):
- # make sure there are no document from previous runs
- yield client.sync()
- _, docs = yield client.get_all_docs()
- deferreds = []
- for doc in docs:
- d = client.delete_doc(doc)
- deferreds.append(d)
- yield gatherResults(deferreds)
- yield client.sync()
-
- # create a bunch of local documents representing email messages
- deferreds = []
- for i in xrange(amount):
- deferreds.append(client.create_doc(content))
- yield gatherResults(deferreds)
- yield client.sync()
-
-
-@pytest.inlineCallbacks
-def process_incoming_docs(client, docs):
- deferreds = []
- for doc in docs:
-
- # create fake documents that represent message
- for name in PARTS.keys():
- d = client.create_doc({name: doc.content[name]})
- deferreds.append(d)
-
- # create one document with content
- key = 'content'
- d = client.create_doc({key: doc.content[key]})
- deferreds.append(d)
-
- # delete the old incoming document
- d = client.delete_doc(doc)
- deferreds.append(d)
-
- # wait for all operatios to succeed
- yield gatherResults(deferreds)
-
-
-def create_legacy_test(amount, size):
- group = 'test_legacy_vs_blobs_%d_%dk' % (amount, (size / 1000))
-
- @pytest.inlineCallbacks
- @pytest.mark.skip(reason="avoid running for all commits")
- @pytest.mark.benchmark(group=group)
- def test(soledad_client, txbenchmark_with_setup):
- client = soledad_client()
-
- # setup the content of initial documents representing incoming emails
- content = {'content': payload(size), 'incoming': True}
- for name, data in PARTS.items():
- content[name] = data
-
- @pytest.inlineCallbacks
- def setup():
- yield load_up_legacy(client, amount, content)
- clean_client = soledad_client(force_fresh_db=True)
- yield clean_client.create_index('incoming', 'bool(incoming)')
- returnValue(clean_client)
-
- @pytest.inlineCallbacks
- def legacy_pipeline(client):
- yield client.sync()
- docs = yield client.get_from_index('incoming', '1')
- yield process_incoming_docs(client, docs)
- yield client.sync()
-
- yield txbenchmark_with_setup(setup, legacy_pipeline)
- return test
-
-
-# ATTENTION: update the documentation in ../docs/benchmarks.rst if you change
-# the number of docs or the doc sizes for the tests below.
-test_legacy_10_1000k = create_legacy_test(10, 1000 * 1000)
-test_legacy_100_100k = create_legacy_test(100, 100 * 1000)
-test_legacy_1000_10k = create_legacy_test(1000, 10 * 1000)
-
-
-#
-# "Incoming blobs" mail pipeline:
-#
-
-# used to limit the amount of concurrent accesses to the blob manager
-semaphore = DeferredSemaphore(2)
-
-
-# deliver data to a user by using the incoming api at given url.
-def deliver_using_incoming_api(url, user_uuid, token, data):
- auth = 'Token %s' % base64.b64encode('%s:%s' % (user_uuid, token))
- uri = "%s/incoming/%s/%s?namespace=MX" % (url, user_uuid, uuid.uuid4().hex)
- return treq.put(uri, headers={'Authorization': auth}, data=BytesIO(data))
-
-
-# deliver data to a user by faking incoming using blobs
-@pytest.inlineCallbacks
-def deliver_using_blobs(client, fd):
- # put
- blob_id = uuid.uuid4().hex
- doc = BlobDoc(fd, blob_id=blob_id)
- size = sys.getsizeof(fd)
- yield client.blobmanager.put(doc, size, namespace='MX')
- # and flag
- flags = [Flags.PENDING]
- yield client.blobmanager.set_flags(blob_id, flags, namespace='MX')
-
-
-def reclaim_free_space(client):
- return client.blobmanager.local.dbpool.runQuery("VACUUM")
-
-
-@pytest.inlineCallbacks
-def load_up_blobs(client, amount, data):
- # make sure there are no document from previous runs
- yield client.sync()
- _, docs = yield client.get_all_docs()
- deferreds = []
- for doc in docs:
- d = client.delete_doc(doc)
- deferreds.append(d)
- yield gatherResults(deferreds)
- yield client.sync()
-
- # delete all payload from blobs db and server
- for namespace in ['MX', 'payload']:
- ids = yield client.blobmanager.remote_list(namespace=namespace)
- deferreds = []
- for blob_id in ids:
- d = semaphore.run(
- client.blobmanager.delete, blob_id, namespace=namespace)
- deferreds.append(d)
- yield gatherResults(deferreds)
-
- # create a bunch of incoming blobs
- deferreds = []
- for i in xrange(amount):
- # choose method of delivery based in test being local or remote
- if '127.0.0.1' in client.server_url:
- fun = deliver_using_incoming_api
- args = (client.server_url, client.uuid, client.token, data)
- else:
- fun = deliver_using_blobs
- args = (client, BytesIO(data))
- d = semaphore.run(fun, *args)
- deferreds.append(d)
- yield gatherResults(deferreds)
-
- # empty local blobs db
- yield client.blobmanager.local.dbpool.runQuery(
- "DELETE FROM blobs WHERE 1;")
- yield reclaim_free_space(client)
-
-
-@pytest.inlineCallbacks
-def process_incoming_blobs(client, pending):
- # process items
- deferreds = []
- for item in pending:
- d = process_one_incoming_blob(client, item)
- deferreds.append(d)
- yield gatherResults(deferreds)
-
-
-@pytest.inlineCallbacks
-def process_one_incoming_blob(client, item):
- fd = yield semaphore.run(
- client.blobmanager.get, item, namespace='MX')
-
- # create metadata docs
- deferreds = []
- for name, data in PARTS.items():
- d = client.create_doc({name: data})
- deferreds.append(d)
-
- # put the incoming blob as it would be done after mail processing
- doc = BlobDoc(fd, blob_id=uuid.uuid4().hex)
- size = sys.getsizeof(fd)
- d = semaphore.run(
- client.blobmanager.put, doc, size, namespace='payload')
- deferreds.append(d)
- yield gatherResults(deferreds)
-
- # delete incoming blob
- yield semaphore.run(
- client.blobmanager.delete, item, namespace='MX')
-
-
-def create_blobs_test(amount, size):
- group = 'test_legacy_vs_blobs_%d_%dk' % (amount, (size / 1000))
-
- @pytest.inlineCallbacks
- @pytest.mark.skip(reason="avoid running for all commits")
- @pytest.mark.benchmark(group=group)
- def test(soledad_client, txbenchmark_with_setup):
- client = soledad_client()
- blob_payload = payload(size)
-
- @pytest.inlineCallbacks
- def setup():
- yield load_up_blobs(client, amount, blob_payload)
- returnValue(soledad_client(force_fresh_db=True))
-
- @pytest.inlineCallbacks
- def blobs_pipeline(client):
- pending = yield client.blobmanager.remote_list(
- namespace='MX', filter_flags=Flags.PENDING)
- yield process_incoming_blobs(client, pending)
- # reclaim_free_space(client)
- yield client.sync()
- yield client.blobmanager.send_missing(namespace='payload')
-
- yield txbenchmark_with_setup(setup, blobs_pipeline)
- return test
-
-
-# ATTENTION: update the documentation in ../docs/benchmarks.rst if you change
-# the number of docs or the doc sizes for the tests below.
-test_blobs_10_1000k = create_blobs_test(10, 1000 * 1000)
-test_blobs_100_100k = create_blobs_test(100, 100 * 1000)
-test_blobs_1000_10k = create_blobs_test(1000, 10 * 1000)
diff --git a/testing/tests/benchmarks/test_misc.py b/testing/tests/benchmarks/test_misc.py
deleted file mode 100644
index 8b2178b9..00000000
--- a/testing/tests/benchmarks/test_misc.py
+++ /dev/null
@@ -1,9 +0,0 @@
-import pytest
-
-
-@pytest.mark.benchmark(group="test_instance")
-def test_initialization(soledad_client, monitored_benchmark):
- """
- Soledad client object initialization.
- """
- monitored_benchmark(soledad_client)
diff --git a/testing/tests/benchmarks/test_resources.py b/testing/tests/benchmarks/test_resources.py
deleted file mode 100644
index 173edbd1..00000000
--- a/testing/tests/benchmarks/test_resources.py
+++ /dev/null
@@ -1,50 +0,0 @@
-import pytest
-import random
-import time
-
-from decimal import Decimal
-
-
-def bellardBig(n):
- # http://en.wikipedia.org/wiki/Bellard%27s_formula
- pi = Decimal(0)
- k = 0
- while k < n:
- pi += (Decimal(-1) ** k / (1024 ** k)) * (
- Decimal(256) / (10 * k + 1) +
- Decimal(1) / (10 * k + 9) -
- Decimal(64) / (10 * k + 3) -
- Decimal(32) / (4 * k + 1) -
- Decimal(4) / (10 * k + 5) -
- Decimal(4) / (10 * k + 7) -
- Decimal(1) / (4 * k + 3))
- k += 1
- pi = pi * 1 / (2 ** 6)
- return pi
-
-
-@pytest.mark.skip(reason='not a real use case, used only for instrumentation')
-def test_cpu_intensive(monitored_benchmark):
-
- def _cpu_intensive():
- sleep = [random.uniform(0.5, 1.5) for _ in xrange(3)]
- while sleep:
- t = sleep.pop()
- time.sleep(t)
- bellardBig(int((10 ** 3) * t))
-
- monitored_benchmark(_cpu_intensive)
-
-
-@pytest.mark.skip(reason='not a real use case, used only for instrumentation')
-def test_memory_intensive(monitored_benchmark):
-
- def _memory_intensive():
- sleep = [random.uniform(0.5, 1.5) for _ in xrange(3)]
- bigdata = ""
- while sleep:
- t = sleep.pop()
- bigdata += "b" * 10 * int(10E6)
- time.sleep(t)
-
- monitored_benchmark(_memory_intensive)
diff --git a/testing/tests/benchmarks/test_sqlcipher.py b/testing/tests/benchmarks/test_sqlcipher.py
deleted file mode 100644
index 9108084c..00000000
--- a/testing/tests/benchmarks/test_sqlcipher.py
+++ /dev/null
@@ -1,47 +0,0 @@
-'''
-Tests SoledadClient/SQLCipher interaction
-'''
-import pytest
-
-from twisted.internet.defer import gatherResults
-
-
-def load_up(client, amount, payload, defer=True):
- results = [client.create_doc({'content': payload}) for _ in xrange(amount)]
- if defer:
- return gatherResults(results)
-
-
-def build_test_sqlcipher_async_create(amount, size):
- @pytest.inlineCallbacks
- @pytest.mark.benchmark(group="test_sqlcipher_async_create")
- def test(soledad_client, txbenchmark_with_setup, payload):
- """
- Create many documents of a given size concurrently.
- """
- client = soledad_client()
- yield txbenchmark_with_setup(
- lambda: None, load_up, client, amount, payload(size))
- return test
-
-
-def build_test_sqlcipher_create(amount, size):
- @pytest.mark.skip(reason="this test is lengthy and not a real use case")
- @pytest.mark.benchmark(group="test_sqlcipher_create")
- def test(soledad_client, monitored_benchmark, payload):
- """
- Create many documents of a given size serially.
- """
- client = soledad_client()._dbsyncer
- monitored_benchmark(
- load_up, client, amount, payload(size), defer=False)
- return test
-
-
-test_async_create_10_1000k = build_test_sqlcipher_async_create(10, 1000 * 1000)
-test_async_create_100_100k = build_test_sqlcipher_async_create(100, 100 * 1000)
-test_async_create_1000_10k = build_test_sqlcipher_async_create(1000, 10 * 1000)
-# synchronous
-test_create_10_1000k = build_test_sqlcipher_create(10, 1000 * 1000)
-test_create_100_100k = build_test_sqlcipher_create(100, 100 * 1000)
-test_create_1000_10k = build_test_sqlcipher_create(1000, 10 * 1000)
diff --git a/testing/tests/benchmarks/test_sqlite_blobs_backend.py b/testing/tests/benchmarks/test_sqlite_blobs_backend.py
deleted file mode 100644
index e02cacad..00000000
--- a/testing/tests/benchmarks/test_sqlite_blobs_backend.py
+++ /dev/null
@@ -1,82 +0,0 @@
-import pytest
-import os
-
-from uuid import uuid4
-from io import BytesIO
-
-from twisted.internet.defer import gatherResults
-from twisted.internet.defer import DeferredSemaphore
-
-from leap.soledad.client._db.blobs import SQLiteBlobBackend
-
-
-semaphore = DeferredSemaphore(2)
-
-
-#
-# put
-#
-
-def put(backend, amount, data):
- deferreds = []
- for _ in xrange(amount):
- blob_id = uuid4().hex
- fd = BytesIO(data)
- size = len(data)
- d = semaphore.run(backend.put, blob_id, fd, size)
- deferreds.append(d)
- return gatherResults(deferreds)
-
-
-def create_put_test(amount, size):
-
- @pytest.inlineCallbacks
- @pytest.mark.sqlite_blobs_backend_put
- def test(txbenchmark, payload, tmpdir):
- dbpath = os.path.join(tmpdir.strpath, 'blobs.db')
- backend = SQLiteBlobBackend(dbpath, key='123')
- data = payload(size)
- yield txbenchmark(put, backend, amount, data)
-
- return test
-
-
-test_sqlite_blobs_backend_put_1_10000k = create_put_test(1, 10000 * 1000)
-test_sqlite_blobs_backend_put_10_1000k = create_put_test(10, 1000 * 1000)
-test_sqlite_blobs_backend_put_100_100k = create_put_test(100, 100 * 1000)
-test_sqlite_blobs_backend_put_1000_10k = create_put_test(1000, 10 * 1000)
-
-
-#
-# put
-#
-
-@pytest.inlineCallbacks
-def get(backend):
- local = yield backend.list()
- deferreds = []
- for blob_id in local:
- d = backend.get(blob_id)
- deferreds.append(d)
- yield gatherResults(deferreds)
-
-
-def create_get_test(amount, size):
-
- @pytest.inlineCallbacks
- @pytest.mark.sqlite_blobs_backend_get
- def test(txbenchmark, payload, tmpdir):
- dbpath = os.path.join(tmpdir.strpath, 'blobs.db')
- backend = SQLiteBlobBackend(dbpath, key='123')
- data = payload(size)
-
- yield put(backend, amount, data)
- yield txbenchmark(get, backend)
-
- return test
-
-
-test_sqlite_blobs_backend_get_1_10000k = create_get_test(1, 10000 * 1000)
-test_sqlite_blobs_backend_get_10_1000k = create_get_test(10, 1000 * 1000)
-test_sqlite_blobs_backend_get_100_100k = create_get_test(100, 100 * 1000)
-test_sqlite_blobs_backend_get_1000_10k = create_get_test(1000, 10 * 1000)
diff --git a/testing/tests/benchmarks/test_sync.py b/testing/tests/benchmarks/test_sync.py
deleted file mode 100644
index 45506d77..00000000
--- a/testing/tests/benchmarks/test_sync.py
+++ /dev/null
@@ -1,92 +0,0 @@
-import pytest
-from twisted.internet.defer import gatherResults
-
-
-@pytest.inlineCallbacks
-def load_up(client, amount, payload):
- # create a bunch of local documents
- deferreds = []
- for i in xrange(amount):
- deferreds.append(client.create_doc({'content': payload}))
- yield gatherResults(deferreds)
-
-
-# Each test created with this function will:
-#
-# - get a fresh client.
-# - iterate:
-# - setup: create N docs of a certain size
-# - benchmark: sync() -- uploads N docs.
-def create_upload(uploads, size):
- @pytest.inlineCallbacks
- @pytest.mark.benchmark(group="test_upload")
- def test(soledad_client, txbenchmark_with_setup, payload):
- """
- Upload many documents of a given size.
- """
- client = soledad_client()
-
- def setup():
- return load_up(client, uploads, payload(size))
-
- yield txbenchmark_with_setup(setup, client.sync)
- return test
-
-
-# ATTENTION: update the documentation in ../docs/benchmarks.rst if you change
-# the number of docs or the doc sizes for the tests below.
-test_upload_10_1000k = create_upload(10, 1000 * 1000)
-test_upload_100_100k = create_upload(100, 100 * 1000)
-test_upload_1000_10k = create_upload(1000, 10 * 1000)
-
-
-# Each test created with this function will:
-#
-# - get a fresh client.
-# - create N docs of a certain size
-# - sync (uploads those docs)
-# - iterate:
-# - setup: get a fresh client with empty local db
-# - benchmark: sync() -- downloads N docs.
-def create_download(downloads, size):
- @pytest.inlineCallbacks
- @pytest.mark.benchmark(group="test_download")
- def test(soledad_client, txbenchmark_with_setup, payload):
- """
- Download many documents of the same size.
- """
- client = soledad_client()
-
- yield load_up(client, downloads, payload(size))
- yield client.sync()
- # We could create them directly on couch, but sending them
- # ensures we are dealing with properly encrypted docs
-
- def setup():
- return soledad_client(force_fresh_db=True)
-
- def sync(clean_client):
- return clean_client.sync()
- yield txbenchmark_with_setup(setup, sync)
- return test
-
-
-# ATTENTION: update the documentation in ../docs/benchmarks.rst if you change
-# the number of docs or the doc sizes for the tests below.
-test_download_10_1000k = create_download(10, 1000 * 1000)
-test_download_100_100k = create_download(100, 100 * 1000)
-test_download_1000_10k = create_download(1000, 10 * 1000)
-
-
-@pytest.inlineCallbacks
-@pytest.mark.benchmark(group="test_nothing_to_sync")
-def test_nothing_to_sync(soledad_client, txbenchmark_with_setup):
- """
- Sync two replicas that are already in sync.
- """
- def setup():
- return soledad_client()
-
- def sync(clean_client):
- return clean_client.sync()
- yield txbenchmark_with_setup(setup, sync)
diff --git a/testing/tests/blobs/test_blob_manager.py b/testing/tests/blobs/test_blob_manager.py
deleted file mode 100644
index 7d985768..00000000
--- a/testing/tests/blobs/test_blob_manager.py
+++ /dev/null
@@ -1,177 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_local_backend.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for BlobManager.
-"""
-from twisted.trial import unittest
-from twisted.internet import defer
-from twisted.web.error import SchemeNotSupported
-from leap.soledad.client._db.blobs import BlobManager, BlobDoc, FIXED_REV
-from leap.soledad.client._db.blobs import BlobAlreadyExistsError
-from leap.soledad.client._db.blobs import SyncStatus
-from io import BytesIO
-from mock import Mock
-from uuid import uuid4
-import pytest
-import os
-
-
-class BlobManagerTestCase(unittest.TestCase):
-
- class doc_info:
- doc_id = 'D-deadbeef'
- rev = FIXED_REV
-
- def setUp(self):
- self.cleartext = BytesIO('rosa de foc')
- self.secret = 'A' * 96
- self.manager = BlobManager(
- self.tempdir, '',
- 'A' * 32, self.secret,
- uuid4().hex, 'token', None)
- self.addCleanup(self.manager.close)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_get_missing(self):
- self.manager._download_and_decrypt = Mock(return_value=None)
- missing_blob_id = uuid4().hex
- result = yield self.manager.get(missing_blob_id)
- self.assertIsNone(result)
- args = missing_blob_id, ''
- self.manager._download_and_decrypt.assert_called_once_with(*args)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_get_from_existing_value(self):
- self.manager._download_and_decrypt = Mock(return_value=None)
- msg, blob_id = "It's me, M4r10!", uuid4().hex
- yield self.manager.local.put(blob_id, BytesIO(msg),
- size=len(msg))
- result = yield self.manager.get(blob_id)
- self.assertEquals(result.getvalue(), msg)
- self.assertNot(self.manager._download_and_decrypt.called)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_put_stores_on_local_db(self):
- self.manager._encrypt_and_upload = Mock(return_value=None)
- msg, blob_id = "Hey Joe", uuid4().hex
- doc = BlobDoc(BytesIO(msg), blob_id=blob_id)
- yield self.manager.put(doc, size=len(msg))
- result = yield self.manager.local.get(blob_id)
- self.assertEquals(result.getvalue(), msg)
- self.assertTrue(self.manager._encrypt_and_upload.called)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_put_then_get_using_real_file_descriptor(self):
- self.manager._encrypt_and_upload = Mock(return_value=None)
- self.manager._download_and_decrypt = Mock(return_value=None)
- msg, blob_id = "Fuuuuull cycleee! \o/", uuid4().hex
- tmpfile = os.tmpfile()
- tmpfile.write(msg)
- tmpfile.seek(0)
- doc = BlobDoc(tmpfile, blob_id)
- yield self.manager.put(doc, size=len(msg))
- result = yield self.manager.get(doc.blob_id)
- self.assertEquals(result.getvalue(), msg)
- self.assertTrue(self.manager._encrypt_and_upload.called)
- self.assertFalse(self.manager._download_and_decrypt.called)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_local_list_blobs(self):
- self.manager._encrypt_and_upload = Mock(return_value=None)
- msg, blob_id1, blob_id2 = "1337", uuid4().hex, uuid4().hex
- doc = BlobDoc(BytesIO(msg), blob_id1)
- yield self.manager.put(doc, size=len(msg))
- doc2 = BlobDoc(BytesIO(msg), blob_id2)
- yield self.manager.put(doc2, size=len(msg))
- blobs_list = yield self.manager.local_list()
-
- self.assertEquals(set([blob_id1, blob_id2]), set(blobs_list))
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_send_missing(self):
- fd, missing_id = BytesIO('test'), uuid4().hex
- self.manager._encrypt_and_upload = Mock(return_value=None)
- self.manager.remote_list = Mock(return_value=[])
- yield self.manager.local.put(missing_id, fd, 4)
- yield self.manager.send_missing()
-
- call_list = self.manager._encrypt_and_upload.call_args_list
- self.assertEquals(1, len(call_list))
- call_blob_id, call_fd = call_list[0][0]
- self.assertEquals(missing_id, call_blob_id)
- self.assertEquals('test', call_fd.getvalue())
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_duplicated_blob_error_on_put(self):
- self.manager._encrypt_and_upload = Mock(return_value=None)
- content, existing_id = "Blob content", uuid4().hex
- doc1 = BlobDoc(BytesIO(content), existing_id)
- yield self.manager.put(doc1, len(content))
- doc2 = BlobDoc(BytesIO(content), existing_id)
- self.manager._encrypt_and_upload.reset_mock()
- with pytest.raises(BlobAlreadyExistsError):
- yield self.manager.put(doc2, len(content))
- self.assertFalse(self.manager._encrypt_and_upload.called)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_delete_from_local_and_remote(self):
- self.manager._encrypt_and_upload = Mock(return_value=None)
- self.manager._delete_from_remote = Mock(return_value=None)
- content, blob_id = "Blob content", uuid4().hex
- doc1 = BlobDoc(BytesIO(content), blob_id)
- yield self.manager.put(doc1, len(content))
- yield self.manager.delete(blob_id)
- local_list = yield self.manager.local_list()
- self.assertEquals(0, len(local_list))
- params = {'namespace': ''}
- self.manager._delete_from_remote.assert_called_with(blob_id, **params)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_local_sync_status_pending_upload(self):
- upload_failure = defer.fail(Exception())
- self.manager._encrypt_and_upload = Mock(return_value=upload_failure)
- content, blob_id = "Blob content", uuid4().hex
- doc1 = BlobDoc(BytesIO(content), blob_id)
- with pytest.raises(Exception):
- yield self.manager.put(doc1, len(content))
- pending_upload = SyncStatus.PENDING_UPLOAD
- local_list = yield self.manager.local_list(sync_status=pending_upload)
- self.assertIn(blob_id, local_list)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_upload_retry_limit(self):
- self.manager.remote_list = Mock(return_value=[])
- content, blob_id = "Blob content", uuid4().hex
- doc1 = BlobDoc(BytesIO(content), blob_id)
- with pytest.raises(Exception):
- yield self.manager.put(doc1, len(content))
- for _ in range(self.manager.max_retries + 1):
- with pytest.raises(SchemeNotSupported):
- yield self.manager.send_missing()
- failed_upload = SyncStatus.FAILED_UPLOAD
- local_list = yield self.manager.local_list(sync_status=failed_upload)
- self.assertIn(blob_id, local_list)
diff --git a/testing/tests/blobs/test_decrypter_buffer.py b/testing/tests/blobs/test_decrypter_buffer.py
deleted file mode 100644
index 83fbaad3..00000000
--- a/testing/tests/blobs/test_decrypter_buffer.py
+++ /dev/null
@@ -1,72 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_blobs.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for blobs decrypter buffer. A component which is used as a decryption
-sink during blob stream download.
-"""
-from io import BytesIO
-from mock import Mock
-
-from twisted.trial import unittest
-from twisted.internet import defer
-
-from leap.soledad.client._db.blobs import DecrypterBuffer
-from leap.soledad.client._db.blobs import BlobManager
-from leap.soledad.client._db.blobs import FIXED_REV
-from leap.soledad.client import _crypto
-
-
-class DecrypterBufferCase(unittest.TestCase):
-
- class doc_info:
- doc_id = 'D-BLOB-ID'
- rev = FIXED_REV
-
- def setUp(self):
- self.cleartext = BytesIO('rosa de foc')
- self.secret = 'A' * 96
- self.blob = _crypto.BlobEncryptor(
- self.doc_info, self.cleartext,
- armor=False,
- secret='A' * 96)
-
- @defer.inlineCallbacks
- def test_decrypt_buffer(self):
- encrypted = (yield self.blob.encrypt()).getvalue()
- tag = encrypted[-16:]
- buf = DecrypterBuffer(self.doc_info.doc_id, self.secret, tag)
- buf.write(encrypted)
- fd, size = buf.close()
- self.assertEquals(fd.getvalue(), 'rosa de foc')
-
- @defer.inlineCallbacks
- def test_decrypt_uploading_encrypted_blob(self):
-
- @defer.inlineCallbacks
- def _check_result(uri, data, *args, **kwargs):
- decryptor = _crypto.BlobDecryptor(
- self.doc_info, data,
- armor=False,
- secret=self.secret)
- decrypted = yield decryptor.decrypt()
- self.assertEquals(decrypted.getvalue(), 'up and up')
- defer.returnValue(Mock(code=200))
-
- manager = BlobManager('', '', self.secret, self.secret, 'user')
- fd = BytesIO('up and up')
- manager._client.put = _check_result
- yield manager._encrypt_and_upload(self.doc_info.doc_id, fd)
diff --git a/testing/tests/blobs/test_fs_backend.py b/testing/tests/blobs/test_fs_backend.py
deleted file mode 100644
index 53f3127d..00000000
--- a/testing/tests/blobs/test_fs_backend.py
+++ /dev/null
@@ -1,173 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_fs_backend.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for blobs backend on server side.
-"""
-from twisted.trial import unittest
-from twisted.internet import defer
-from twisted.web.test.test_web import DummyRequest
-from leap.soledad.server import _blobs
-from io import BytesIO
-from mock import Mock
-import mock
-import os
-import base64
-import json
-import pytest
-
-
-class FilesystemBackendTestCase(unittest.TestCase):
-
- @mock.patch.object(_blobs, 'open')
- def test_tag_header(self, open_mock):
- open_mock.return_value = BytesIO('A' * 40 + 'B' * 16)
- expected_tag = base64.urlsafe_b64encode('B' * 16)
- expected_method = Mock()
- backend = _blobs.FilesystemBlobsBackend()
- request = Mock(responseHeaders=Mock(setRawHeaders=expected_method))
- backend.add_tag_header('user', 'blob_id', request)
-
- expected_method.assert_called_once_with('Tag', [expected_tag])
-
- @mock.patch.object(_blobs.static, 'File')
- def test_read_blob(self, file_mock):
- render_mock = Mock()
- file_mock.return_value = render_mock
- backend = _blobs.FilesystemBlobsBackend()
- request = DummyRequest([''])
- backend._get_path = Mock(return_value='path')
- backend.read_blob('user', 'blob_id', request)
-
- backend._get_path.assert_called_once_with('user', 'blob_id', '')
- ctype = 'application/octet-stream'
- _blobs.static.File.assert_called_once_with('path', defaultType=ctype)
- render_mock.render_GET.assert_called_once_with(request)
-
- @mock.patch.object(os.path, 'isfile')
- @defer.inlineCallbacks
- def test_cannot_overwrite(self, isfile):
- isfile.return_value = True
- backend = _blobs.FilesystemBlobsBackend()
- backend._get_path = Mock(return_value='path')
- request = DummyRequest([''])
- yield backend.write_blob('user', 'blob_id', request)
- self.assertEquals(request.written[0], "Blob already exists: blob_id")
- self.assertEquals(request.responseCode, 409)
-
- @pytest.mark.usefixtures("method_tmpdir")
- @mock.patch.object(os.path, 'isfile')
- @defer.inlineCallbacks
- def test_write_cannot_exceed_quota(self, isfile):
- isfile.return_value = False
- backend = _blobs.FilesystemBlobsBackend()
- backend._get_path = Mock(return_value=self.tempdir)
- request = Mock()
-
- backend.get_total_storage = lambda x: 100
- backend.quota = 90
- yield backend.write_blob('user', 'blob_id', request)
-
- request.setResponseCode.assert_called_once_with(507)
- request.write.assert_called_once_with('Quota Exceeded!')
-
- def test_get_path_partitioning_by_default(self):
- backend = _blobs.FilesystemBlobsBackend()
- backend.path = '/somewhere/'
- path = backend._get_path('user', 'blob_id', '')
- expected = '/somewhere/user/default/b/blo/blob_i/blob_id'
- self.assertEquals(path, expected)
-
- def test_get_path_custom(self):
- backend = _blobs.FilesystemBlobsBackend()
- backend.path = '/somewhere/'
- path = backend._get_path('user', 'blob_id', 'wonderland')
- expected = '/somewhere/user/wonderland/b/blo/blob_i/blob_id'
- self.assertEquals(expected, path)
-
- def test_get_path_namespace_traversal_raises(self):
- backend = _blobs.FilesystemBlobsBackend()
- backend.path = '/somewhere/'
- with pytest.raises(Exception):
- backend._get_path('user', 'blob_id', '..')
-
- @pytest.mark.usefixtures("method_tmpdir")
- @mock.patch('leap.soledad.server._blobs.os.walk')
- def test_list_blobs(self, walk_mock):
- backend, _ = _blobs.FilesystemBlobsBackend(self.tempdir), None
- walk_mock.return_value = [('', _, ['blob_0']), ('', _, ['blob_1'])]
- result = json.loads(backend.list_blobs('user', DummyRequest([''])))
- self.assertEquals(result, ['blob_0', 'blob_1'])
-
- @pytest.mark.usefixtures("method_tmpdir")
- @mock.patch('leap.soledad.server._blobs.os.walk')
- def test_list_blobs_limited_by_namespace(self, walk_mock):
- backend, _ = _blobs.FilesystemBlobsBackend(self.tempdir), None
- walk_mock.return_value = [('', _, ['blob_0']), ('', _, ['blob_1'])]
- result = json.loads(backend.list_blobs('user', DummyRequest(['']),
- namespace='incoming'))
- self.assertEquals(result, ['blob_0', 'blob_1'])
- target_dir = os.path.join(self.tempdir, 'user', 'incoming')
- walk_mock.assert_called_once_with(target_dir)
-
- @pytest.mark.usefixtures("method_tmpdir")
- def test_path_validation_on_read_blob(self):
- blobs_path, request = self.tempdir, DummyRequest([''])
- backend = _blobs.FilesystemBlobsBackend(blobs_path)
- with pytest.raises(Exception):
- backend.read_blob('..', '..', request)
- with pytest.raises(Exception):
- backend.read_blob('user', '../../../', request)
- with pytest.raises(Exception):
- backend.read_blob('../../../', 'blob_id', request)
- with pytest.raises(Exception):
- backend.read_blob('user', 'blob_id', request, namespace='..')
-
- @pytest.mark.usefixtures("method_tmpdir")
- @defer.inlineCallbacks
- def test_path_validation_on_write_blob(self):
- blobs_path, request = self.tempdir, DummyRequest([''])
- backend = _blobs.FilesystemBlobsBackend(blobs_path)
- with pytest.raises(Exception):
- yield backend.write_blob('..', '..', request)
- with pytest.raises(Exception):
- yield backend.write_blob('user', '../../../', request)
- with pytest.raises(Exception):
- yield backend.write_blob('../../../', 'id1', request)
- with pytest.raises(Exception):
- yield backend.write_blob('user', 'id2', request, namespace='..')
-
- @pytest.mark.usefixtures("method_tmpdir")
- @mock.patch('leap.soledad.server._blobs.os.unlink')
- def test_delete_blob(self, unlink_mock):
- backend = _blobs.FilesystemBlobsBackend(self.tempdir)
- backend.delete_blob('user', 'blob_id')
- unlink_mock.assert_any_call(backend._get_path('user',
- 'blob_id'))
- unlink_mock.assert_any_call(backend._get_path('user',
- 'blob_id') + '.flags')
-
- @pytest.mark.usefixtures("method_tmpdir")
- @mock.patch('leap.soledad.server._blobs.os.unlink')
- def test_delete_blob_custom_namespace(self, unlink_mock):
- backend = _blobs.FilesystemBlobsBackend(self.tempdir)
- backend.delete_blob('user', 'blob_id', namespace='trash')
- unlink_mock.assert_any_call(backend._get_path('user',
- 'blob_id',
- 'trash'))
- unlink_mock.assert_any_call(backend._get_path('user',
- 'blob_id',
- 'trash') + '.flags')
diff --git a/testing/tests/blobs/test_sqlcipher_client_backend.py b/testing/tests/blobs/test_sqlcipher_client_backend.py
deleted file mode 100644
index daf561c7..00000000
--- a/testing/tests/blobs/test_sqlcipher_client_backend.py
+++ /dev/null
@@ -1,75 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_sqlcipher_client_backend.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for sqlcipher backend on blobs client.
-"""
-from twisted.trial import unittest
-from twisted.internet import defer
-from leap.soledad.client._db.blobs import SQLiteBlobBackend
-from io import BytesIO
-from uuid import uuid4
-import pytest
-
-
-class SQLBackendTestCase(unittest.TestCase):
-
- def setUp(self):
- self.key = "A" * 96
- self.local = SQLiteBlobBackend(self.tempdir, self.key)
- self.addCleanup(self.local.close)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_get_inexisting(self):
- bad_blob_id = uuid4().hex
- self.assertFalse((yield self.local.exists(bad_blob_id)))
- result = yield self.local.get(bad_blob_id)
- self.assertIsNone(result)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_get_existing(self):
- blob_id = uuid4().hex
- content = "x"
- yield self.local.put(blob_id, BytesIO(content), len(content))
- result = yield self.local.get(blob_id)
- self.assertTrue((yield self.local.exists(blob_id)))
- self.assertEquals(result.getvalue(), content)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_delete(self):
- blob_id1, blob_id2 = uuid4().hex, uuid4().hex
- content = "x"
- yield self.local.put(blob_id1, BytesIO(content), len(content))
- yield self.local.put(blob_id2, BytesIO(content), len(content))
- yield self.local.delete(blob_id1)
- self.assertFalse((yield self.local.exists(blob_id1)))
- self.assertTrue((yield self.local.exists(blob_id2)))
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_list(self):
- blob_ids = [uuid4().hex for _ in range(10)]
- content = "x"
- deferreds = []
- for blob_id in blob_ids:
- deferreds.append(self.local.put(blob_id, BytesIO(content),
- len(content)))
- yield defer.gatherResults(deferreds)
- result = yield self.local.list()
- self.assertEquals(set(blob_ids), set(result))
diff --git a/testing/tests/client/__init__.py b/testing/tests/client/__init__.py
deleted file mode 100644
index e69de29b..00000000
--- a/testing/tests/client/__init__.py
+++ /dev/null
diff --git a/testing/tests/client/test_api.py b/testing/tests/client/test_api.py
deleted file mode 100644
index 3c6a8155..00000000
--- a/testing/tests/client/test_api.py
+++ /dev/null
@@ -1,36 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_api.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for soledad api.
-"""
-
-from mock import MagicMock
-
-from test_soledad.util import BaseSoledadTest
-
-
-class ApiTestCase(BaseSoledadTest):
-
- def test_recovery_code_creation(self):
- recovery_code_mock = MagicMock()
- generated_code = '4645a2f8997e5d0d'
- recovery_code_mock.generate.return_value = generated_code
- self._soledad._recovery_code = recovery_code_mock
-
- code = self._soledad.create_recovery_code()
-
- self.assertEqual(generated_code, code)
diff --git a/testing/tests/client/test_app.py b/testing/tests/client/test_app.py
deleted file mode 100644
index 6867473e..00000000
--- a/testing/tests/client/test_app.py
+++ /dev/null
@@ -1,52 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_soledad_app.py
-# Copyright (C) 2014 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Test ObjectStore and Couch backend bits.
-"""
-import pytest
-
-from testscenarios import TestWithScenarios
-
-from test_soledad.util import BaseSoledadTest
-from test_soledad.util import make_soledad_document_for_test
-from test_soledad.util import make_token_soledad_app
-from test_soledad.util import make_token_http_database_for_test
-from test_soledad.util import copy_token_http_database_for_test
-from test_soledad.u1db_tests import test_backends
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_backends`.
-# -----------------------------------------------------------------------------
-
-@pytest.mark.usefixtures('method_tmpdir')
-class SoledadTests(
- TestWithScenarios, test_backends.AllDatabaseTests, BaseSoledadTest):
-
- def setUp(self):
- TestWithScenarios.setUp(self)
- test_backends.AllDatabaseTests.setUp(self)
- BaseSoledadTest.setUp(self)
-
- scenarios = [
- ('token_http', {
- 'make_database_for_test': make_token_http_database_for_test,
- 'copy_database_for_test': copy_token_http_database_for_test,
- 'make_document_for_test': make_soledad_document_for_test,
- 'make_app_with_state': make_token_soledad_app,
- })
- ]
diff --git a/testing/tests/client/test_attachments.py b/testing/tests/client/test_attachments.py
deleted file mode 100644
index 2df5b90d..00000000
--- a/testing/tests/client/test_attachments.py
+++ /dev/null
@@ -1,81 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_attachments.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for document attachments.
-"""
-
-import pytest
-
-from io import BytesIO
-from mock import Mock
-
-from twisted.internet import defer
-from test_soledad.util import BaseSoledadTest
-
-
-from leap.soledad.client import AttachmentStates
-
-
-def mock_response(doc):
- doc._manager._client.get = Mock(
- return_value=defer.succeed(Mock(code=200, json=lambda: [])))
- doc._manager._client.put = Mock(
- return_value=defer.succeed(Mock(code=200)))
-
-
-@pytest.mark.usefixture('method_tmpdir')
-class AttachmentTests(BaseSoledadTest):
-
- @defer.inlineCallbacks
- def test_create_doc_saves_store(self):
- doc = yield self._soledad.create_doc({})
- self.assertEqual(self._soledad, doc.store)
-
- @defer.inlineCallbacks
- def test_put_attachment(self):
- doc = yield self._soledad.create_doc({})
- mock_response(doc)
- yield doc.put_attachment(BytesIO('test'))
- local_list = yield doc._manager.local_list()
- self.assertIn(doc._blob_id, local_list)
-
- @defer.inlineCallbacks
- def test_get_attachment(self):
- doc = yield self._soledad.create_doc({})
- mock_response(doc)
- yield doc.put_attachment(BytesIO('test'))
- fd = yield doc.get_attachment()
- self.assertEqual('test', fd.read())
-
- @defer.inlineCallbacks
- def test_get_attachment_state(self):
- doc = yield self._soledad.create_doc({})
- state = yield doc.get_attachment_state()
- self.assertEqual(AttachmentStates.NONE, state)
- mock_response(doc)
- yield doc.put_attachment(BytesIO('test'))
- state = yield doc.get_attachment_state()
- self.assertEqual(AttachmentStates.LOCAL, state)
-
- @defer.inlineCallbacks
- def test_is_dirty(self):
- doc = yield self._soledad.create_doc({})
- dirty = yield doc.is_dirty()
- self.assertFalse(dirty)
- doc.content = {'test': True}
- dirty = yield doc.is_dirty()
- self.assertTrue(dirty)
diff --git a/testing/tests/client/test_aux_methods.py b/testing/tests/client/test_aux_methods.py
deleted file mode 100644
index 1eb676c7..00000000
--- a/testing/tests/client/test_aux_methods.py
+++ /dev/null
@@ -1,132 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_soledad.py
-# Copyright (C) 2013 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for general Soledad functionality.
-"""
-import os
-
-from pytest import inlineCallbacks
-
-from leap.soledad.client import Soledad
-from leap.soledad.client._db.adbapi import U1DBConnectionPool
-from leap.soledad.client._secrets.util import SecretsError
-
-from test_soledad.util import BaseSoledadTest
-
-
-class AuxMethodsTestCase(BaseSoledadTest):
-
- def test__init_dirs(self):
- sol = self._soledad_instance(prefix='_init_dirs')
- local_db_dir = os.path.dirname(sol.local_db_path)
- secrets_path = os.path.dirname(sol.secrets_path)
- self.assertTrue(os.path.isdir(local_db_dir))
- self.assertTrue(os.path.isdir(secrets_path))
-
- def _close_soledad(results):
- sol.close()
-
- d = sol.create_doc({})
- d.addCallback(_close_soledad)
- return d
-
- def test__init_u1db_sqlcipher_backend(self):
- sol = self._soledad_instance(prefix='_init_db')
- self.assertIsInstance(sol._dbpool, U1DBConnectionPool)
- self.assertTrue(os.path.isfile(sol.local_db_path))
- sol.close()
-
- def test__init_config_with_defaults(self):
- """
- Test if configuration defaults point to the correct place.
- """
-
- class SoledadMock(Soledad):
-
- def __init__(self):
- pass
-
- # instantiate without initializing so we just test
- # _init_config_with_defaults()
- sol = SoledadMock()
- sol.passphrase = u''
- sol.server_url = ''
- sol._init_config_with_defaults()
- # assert value of local_db_path
- self.assertEquals(
- os.path.join(sol.default_prefix, 'soledad.u1db'),
- sol.local_db_path)
-
- def test__init_config_from_params(self):
- """
- Test if configuration is correctly read from file.
- """
- sol = self._soledad_instance(
- 'leap@leap.se',
- passphrase=u'123',
- secrets_path='value_3',
- local_db_path='value_2',
- server_url='value_1',
- cert_file=None)
- self.assertEqual(
- os.path.join(self.tempdir, 'value_3'),
- sol.secrets_path)
- self.assertEqual(
- os.path.join(self.tempdir, 'value_2'),
- sol.local_db_path)
- self.assertEqual('value_1', sol.server_url)
- sol.close()
-
- @inlineCallbacks
- def test_change_passphrase(self):
- """
- Test if passphrase can be changed.
- """
- prefix = '_change_passphrase'
- sol = self._soledad_instance(
- 'leap@leap.se',
- passphrase=u'123',
- prefix=prefix,
- )
-
- doc1 = yield sol.create_doc({'simple': 'doc'})
- sol.change_passphrase(u'654321')
- sol.close()
-
- with self.assertRaises(SecretsError):
- self._soledad_instance(
- 'leap@leap.se',
- passphrase=u'123',
- prefix=prefix)
-
- sol2 = self._soledad_instance(
- 'leap@leap.se',
- passphrase=u'654321',
- prefix=prefix)
- doc2 = yield sol2.get_doc(doc1.doc_id)
-
- self.assertEqual(doc1, doc2)
-
- sol2.close()
-
- def test_get_passphrase(self):
- """
- Assert passphrase getter works fine.
- """
- sol = self._soledad_instance()
- self.assertEqual('123', sol.passphrase)
- sol.close()
diff --git a/testing/tests/client/test_crypto.py b/testing/tests/client/test_crypto.py
deleted file mode 100644
index 5b647b73..00000000
--- a/testing/tests/client/test_crypto.py
+++ /dev/null
@@ -1,384 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_crypto.py
-# Copyright (C) 2013 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for cryptographic related stuff.
-"""
-import binascii
-import base64
-import json
-import os
-
-from io import BytesIO
-
-import pytest
-
-from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
-from cryptography.hazmat.backends import default_backend
-from cryptography.exceptions import InvalidTag
-
-from leap.soledad.common.document import SoledadDocument
-from test_soledad.util import BaseSoledadTest
-from leap.soledad.client import _crypto
-from leap.soledad.client import _scrypt
-from leap.soledad.common.blobs import preamble as _preamble
-
-from twisted.trial import unittest
-from twisted.internet import defer
-
-
-snowden1 = (
- "You can't come up against "
- "the world's most powerful intelligence "
- "agencies and not accept the risk. "
- "If they want to get you, over time "
- "they will.")
-
-
-class ScryptTest(unittest.TestCase):
-
- def test_scrypt(self):
- secret = 'supersikret'
- salt = 'randomsalt'
- key = _scrypt.hash(secret, salt, buflen=32)
- expected = ('47996b569ea58d51ccbcc318d710'
- 'a537acd28bb7a94615ab8d061d4b2a920f01')
- assert binascii.b2a_hex(key) == expected
-
-
-class AESTest(unittest.TestCase):
-
- def test_chunked_encryption(self):
- key = 'A' * 32
-
- fd = BytesIO()
- aes = _crypto.AESWriter(key, _buffer=fd)
- iv = aes.iv
-
- data = snowden1
- block = 16
-
- for i in range(len(data) / block):
- chunk = data[i * block:(i + 1) * block]
- aes.write(chunk)
- aes.end()
-
- ciphertext_chunked = fd.getvalue()
- ciphertext, tag = _aes_encrypt(key, iv, data)
-
- assert ciphertext_chunked == ciphertext
-
- def test_decrypt(self):
- key = 'A' * 32
- iv = 'A' * 16
-
- data = snowden1
- block = 16
-
- ciphertext, tag = _aes_encrypt(key, iv, data)
-
- fd = BytesIO()
- aes = _crypto.AESWriter(key, iv, fd, tag=tag)
-
- for i in range(len(ciphertext) / block):
- chunk = ciphertext[i * block:(i + 1) * block]
- aes.write(chunk)
- aes.end()
-
- cleartext_chunked = fd.getvalue()
- assert cleartext_chunked == data
-
-
-class BlobTestCase(unittest.TestCase):
-
- class doc_info:
- doc_id = 'D-deadbeef'
- rev = '397932e0c77f45fcb7c3732930e7e9b2:1'
-
- def setUp(self):
- self.inf = BytesIO(snowden1)
- self.blob = _crypto.BlobEncryptor(
- self.doc_info, self.inf,
- armor=True,
- secret='A' * 96)
-
- @defer.inlineCallbacks
- def test_unarmored_blob_encrypt(self):
- self.blob.armor = False
- encrypted = yield self.blob.encrypt()
-
- decryptor = _crypto.BlobDecryptor(
- self.doc_info, encrypted, armor=False,
- secret='A' * 96)
- decrypted = yield decryptor.decrypt()
- assert decrypted.getvalue() == snowden1
-
- @defer.inlineCallbacks
- def test_default_armored_blob_encrypt(self):
- encrypted = yield self.blob.encrypt()
- decode = base64.urlsafe_b64decode
- assert map(decode, encrypted.getvalue().split())
-
- @defer.inlineCallbacks
- def test_blob_encryptor(self):
- encrypted = yield self.blob.encrypt()
- preamble, ciphertext = encrypted.getvalue().split()
- preamble = base64.urlsafe_b64decode(preamble)
- ciphertext = base64.urlsafe_b64decode(ciphertext)
- ciphertext = ciphertext[:-16]
-
- assert len(preamble) == _preamble.PACMAN.size
- unpacked_data = _preamble.PACMAN.unpack(preamble)
- magic, sch, meth, ts, iv, doc_id, rev, _ = unpacked_data
- assert magic == _crypto.MAGIC
- assert sch == 1
- assert meth == _crypto.ENC_METHOD.aes_256_gcm
- assert iv == self.blob.iv
- assert doc_id == 'D-deadbeef'
- assert rev == self.doc_info.rev
-
- aes_key = _crypto._get_sym_key_for_doc(
- self.doc_info.doc_id, 'A' * 96)
- assert ciphertext == _aes_encrypt(aes_key, self.blob.iv, snowden1)[0]
-
- decrypted = _aes_decrypt(aes_key, self.blob.iv, self.blob.tag,
- ciphertext, preamble)
- assert str(decrypted) == snowden1
-
- @defer.inlineCallbacks
- def test_init_with_preamble_alone(self):
- ciphertext = yield self.blob.encrypt()
- preamble = ciphertext.getvalue().split()[0]
- decryptor = _crypto.BlobDecryptor(
- self.doc_info, BytesIO(preamble),
- start_stream=False,
- secret='A' * 96)
- assert decryptor._consume_preamble()
-
- @defer.inlineCallbacks
- def test_incremental_blob_decryptor(self):
- ciphertext = yield self.blob.encrypt()
- preamble, ciphertext = ciphertext.getvalue().split()
- ciphertext = base64.urlsafe_b64decode(ciphertext)
-
- decryptor = _crypto.BlobDecryptor(
- self.doc_info, BytesIO(preamble),
- start_stream=False,
- secret='A' * 96,
- tag=ciphertext[-16:])
- ciphertext = BytesIO(ciphertext[:-16])
- chunk = ciphertext.read(10)
- while chunk:
- decryptor.write(chunk)
- chunk = ciphertext.read(10)
- decrypted = decryptor._end_stream()
- assert decrypted.getvalue() == snowden1
-
- @defer.inlineCallbacks
- def test_blob_decryptor(self):
- ciphertext = yield self.blob.encrypt()
-
- decryptor = _crypto.BlobDecryptor(
- self.doc_info, ciphertext,
- secret='A' * 96)
- decrypted = yield decryptor.decrypt()
- assert decrypted.getvalue() == snowden1
-
- @defer.inlineCallbacks
- def test_unarmored_blob_decryptor(self):
- self.blob.armor = False
- ciphertext = yield self.blob.encrypt()
-
- decryptor = _crypto.BlobDecryptor(
- self.doc_info, ciphertext,
- armor=False,
- secret='A' * 96)
- decrypted = yield decryptor.decrypt()
- assert decrypted.getvalue() == snowden1
-
- @defer.inlineCallbacks
- def test_encrypt_and_decrypt(self):
- """
- Check that encrypting and decrypting gives same doc.
- """
- crypto = _crypto.SoledadCrypto('A' * 96)
- payload = {'key': 'someval'}
- doc1 = SoledadDocument('id1', '1', json.dumps(payload))
-
- encrypted = yield crypto.encrypt_doc(doc1)
- assert encrypted != payload
- assert 'raw' in encrypted
- doc2 = SoledadDocument('id1', '1')
- doc2.set_json(encrypted)
- assert _crypto.is_symmetrically_encrypted(encrypted)
- decrypted = (yield crypto.decrypt_doc(doc2)).getvalue()
- assert len(decrypted) != 0
- assert json.loads(decrypted) == payload
-
- @defer.inlineCallbacks
- def test_decrypt_with_wrong_tag_raises(self):
- """
- Trying to decrypt a document with wrong MAC should raise.
- """
- crypto = _crypto.SoledadCrypto('A' * 96)
- payload = {'key': 'someval'}
- doc1 = SoledadDocument('id1', '1', json.dumps(payload))
-
- encrypted = yield crypto.encrypt_doc(doc1)
- encdict = json.loads(encrypted)
- preamble, raw = str(encdict['raw']).split()
- preamble = base64.urlsafe_b64decode(preamble)
- raw = base64.urlsafe_b64decode(raw)
- # mess with tag
- messed = raw[:-16] + '0' * 16
-
- preamble = base64.urlsafe_b64encode(preamble)
- newraw = preamble + ' ' + base64.urlsafe_b64encode(str(messed))
- doc2 = SoledadDocument('id1', '1')
- doc2.set_json(json.dumps({"raw": str(newraw)}))
-
- with pytest.raises(_crypto.InvalidBlob):
- yield crypto.decrypt_doc(doc2)
-
-
-class SoledadSecretsTestCase(BaseSoledadTest):
-
- def test_generated_secrets_have_correct_length(self):
- expected = self._soledad.secrets.lengths
- for name, length in expected.iteritems():
- secret = getattr(self._soledad.secrets, name)
- self.assertEqual(length, len(secret))
-
-
-class SoledadCryptoAESTestCase(BaseSoledadTest):
-
- def test_encrypt_decrypt_sym(self):
- # generate 256-bit key
- key = os.urandom(32)
- iv, cyphertext = _crypto.encrypt_sym('data', key)
- self.assertTrue(cyphertext is not None)
- self.assertTrue(cyphertext != '')
- self.assertTrue(cyphertext != 'data')
- plaintext = _crypto.decrypt_sym(cyphertext, key, iv)
- self.assertEqual('data', plaintext)
-
- def test_decrypt_with_wrong_iv_raises(self):
- key = os.urandom(32)
- iv, cyphertext = _crypto.encrypt_sym('data', key)
- self.assertTrue(cyphertext is not None)
- self.assertTrue(cyphertext != '')
- self.assertTrue(cyphertext != 'data')
- # get a different iv by changing the first byte
- rawiv = binascii.a2b_base64(iv)
- wrongiv = rawiv
- while wrongiv == rawiv:
- wrongiv = os.urandom(1) + rawiv[1:]
- with pytest.raises(InvalidTag):
- _crypto.decrypt_sym(
- cyphertext, key, iv=binascii.b2a_base64(wrongiv))
-
- def test_decrypt_with_wrong_key_raises(self):
- key = os.urandom(32)
- iv, cyphertext = _crypto.encrypt_sym('data', key)
- self.assertTrue(cyphertext is not None)
- self.assertTrue(cyphertext != '')
- self.assertTrue(cyphertext != 'data')
- wrongkey = os.urandom(32) # 256-bits key
- # ensure keys are different in case we are extremely lucky
- while wrongkey == key:
- wrongkey = os.urandom(32)
- with pytest.raises(InvalidTag):
- _crypto.decrypt_sym(cyphertext, wrongkey, iv)
-
-
-class PreambleTestCase(unittest.TestCase):
- class doc_info:
- doc_id = 'D-deadbeef'
- rev = '397932e0c77f45fcb7c3732930e7e9b2:1'
-
- def setUp(self):
- self.cleartext = BytesIO(snowden1)
- self.blob = _crypto.BlobEncryptor(
- self.doc_info, self.cleartext,
- secret='A' * 96)
-
- def test_preamble_starts_with_magic_signature(self):
- preamble = self.blob._encode_preamble()
- assert preamble.startswith(_crypto.MAGIC)
-
- def test_preamble_has_cipher_metadata(self):
- preamble = self.blob._encode_preamble()
- unpacked = _preamble.PACMAN.unpack(preamble)
- encryption_scheme, encryption_method = unpacked[1:3]
- assert encryption_scheme in _crypto.ENC_SCHEME
- assert encryption_method in _crypto.ENC_METHOD
- assert unpacked[4] == self.blob.iv
-
- def test_preamble_has_document_sync_metadata(self):
- preamble = self.blob._encode_preamble()
- unpacked = _preamble.PACMAN.unpack(preamble)
- doc_id, doc_rev = unpacked[5:7]
- assert doc_id == self.doc_info.doc_id
- assert doc_rev == self.doc_info.rev
-
- def test_preamble_has_document_size(self):
- preamble = self.blob._encode_preamble()
- unpacked = _preamble.PACMAN.unpack(preamble)
- size = unpacked[7]
- assert size == _crypto._ceiling(len(snowden1))
-
- @defer.inlineCallbacks
- def test_preamble_can_come_without_size(self):
- # XXX: This test case is here only to test backwards compatibility!
- preamble = self.blob._encode_preamble()
- # repack preamble using legacy format, without doc size
- unpacked = _preamble.PACMAN.unpack(preamble)
- preamble_without_size = _preamble.LEGACY_PACMAN.pack(*unpacked[0:7])
- # encrypt it manually for custom tag
- ciphertext, tag = _aes_encrypt(self.blob.sym_key, self.blob.iv,
- self.cleartext.getvalue(),
- aead=preamble_without_size)
- ciphertext = ciphertext + tag
- # encode it
- ciphertext = base64.urlsafe_b64encode(ciphertext)
- preamble_without_size = base64.urlsafe_b64encode(preamble_without_size)
- # decrypt it
- ciphertext = preamble_without_size + ' ' + ciphertext
- cleartext = yield _crypto.BlobDecryptor(
- self.doc_info, BytesIO(ciphertext),
- secret='A' * 96).decrypt()
- assert cleartext.getvalue() == self.cleartext.getvalue()
- warnings = self.flushWarnings()
- assert len(warnings) == 1
- assert 'legacy preamble without size' in warnings[0]['message']
-
-
-def _aes_encrypt(key, iv, data, aead=''):
- backend = default_backend()
- cipher = Cipher(algorithms.AES(key), modes.GCM(iv), backend=backend)
- encryptor = cipher.encryptor()
- if aead:
- encryptor.authenticate_additional_data(aead)
- return encryptor.update(data) + encryptor.finalize(), encryptor.tag
-
-
-def _aes_decrypt(key, iv, tag, data, aead=''):
- backend = default_backend()
- cipher = Cipher(algorithms.AES(key), modes.GCM(iv, tag), backend=backend)
- decryptor = cipher.decryptor()
- if aead:
- decryptor.authenticate_additional_data(aead)
- return decryptor.update(data) + decryptor.finalize()
diff --git a/testing/tests/client/test_deprecated_crypto.py b/testing/tests/client/test_deprecated_crypto.py
deleted file mode 100644
index 939a2003..00000000
--- a/testing/tests/client/test_deprecated_crypto.py
+++ /dev/null
@@ -1,94 +0,0 @@
-import json
-import pytest
-
-from pytest import inlineCallbacks
-from six.moves.urllib.parse import urljoin
-from uuid import uuid4
-
-from leap.soledad.client import crypto as old_crypto
-from leap.soledad.common.couch import CouchDatabase
-from leap.soledad.common import crypto as common_crypto
-
-from test_soledad.u1db_tests import simple_doc
-from test_soledad.util import SoledadWithCouchServerMixin
-from test_soledad.util import make_token_soledad_app
-from test_soledad.u1db_tests import TestCaseWithServer
-
-
-def deprecate_client_crypto(client):
- secret = client._crypto.secret
- _crypto = old_crypto.SoledadCrypto(secret)
- setattr(client._dbsyncer, '_crypto', _crypto)
- return client
-
-
-def couch_database(couch_url, uuid):
- db = CouchDatabase(couch_url, "user-%s" % (uuid,))
- return db
-
-
-class DeprecatedCryptoTest(SoledadWithCouchServerMixin, TestCaseWithServer):
-
- def setUp(self):
- SoledadWithCouchServerMixin.setUp(self)
- TestCaseWithServer.setUp(self)
-
- def tearDown(self):
- SoledadWithCouchServerMixin.tearDown(self)
- TestCaseWithServer.tearDown(self)
-
- @staticmethod
- def make_app_with_state(state):
- return make_token_soledad_app(state)
-
- @pytest.mark.needs_couch
- @inlineCallbacks
- def test_touch_updates_remote_representation(self):
- self.startTwistedServer()
- user = 'user-' + uuid4().hex
- server_url = 'http://%s:%d' % (self.server_address)
- client = self._soledad_instance(user=user, server_url=server_url)
- deprecated_client = deprecate_client_crypto(
- self._soledad_instance(user=user, server_url=server_url))
-
- self.make_app()
- remote = self.request_state._create_database(replica_uid=client.uuid)
- remote = CouchDatabase.open_database(
- urljoin(self.couch_url, 'user-' + user),
- create=True)
-
- # ensure remote db is empty
- gen, docs = remote.get_all_docs()
- assert gen == 0
- assert len(docs) == 0
-
- # create a doc with deprecated client and sync
- yield deprecated_client.create_doc(json.loads(simple_doc))
- yield deprecated_client.sync()
-
- # check for doc in remote db
- gen, docs = remote.get_all_docs()
- assert gen == 1
- assert len(docs) == 1
- doc = docs.pop()
- content = doc.content
- assert common_crypto.ENC_JSON_KEY in content
- assert common_crypto.ENC_SCHEME_KEY in content
- assert common_crypto.ENC_METHOD_KEY in content
- assert common_crypto.ENC_IV_KEY in content
- assert common_crypto.MAC_KEY in content
- assert common_crypto.MAC_METHOD_KEY in content
-
- # "touch" the document with a newer client and synx
- _, docs = yield client.get_all_docs()
- yield client.put_doc(doc)
- yield client.sync()
-
- # check for newer representation of doc in remote db
- gen, docs = remote.get_all_docs()
- assert gen == 2
- assert len(docs) == 1
- doc = docs.pop()
- content = doc.content
- assert len(content) == 1
- assert 'raw' in content
diff --git a/testing/tests/client/test_doc.py b/testing/tests/client/test_doc.py
deleted file mode 100644
index 36479e90..00000000
--- a/testing/tests/client/test_doc.py
+++ /dev/null
@@ -1,50 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_soledad_doc.py
-# Copyright (C) 2013, 2014 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Test Leap backend bits: soledad docs
-"""
-import pytest
-
-from testscenarios import TestWithScenarios
-
-from test_soledad.u1db_tests import test_document
-from test_soledad.util import BaseSoledadTest
-from test_soledad.util import make_soledad_document_for_test
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_document`.
-# -----------------------------------------------------------------------------
-
-@pytest.mark.usefixtures('method_tmpdir')
-class TestSoledadDocument(
- TestWithScenarios,
- test_document.TestDocument, BaseSoledadTest):
-
- scenarios = ([(
- 'leap', {
- 'make_document_for_test': make_soledad_document_for_test})])
-
-
-@pytest.mark.usefixtures('method_tmpdir')
-class TestSoledadPyDocument(
- TestWithScenarios,
- test_document.TestPyDocument, BaseSoledadTest):
-
- scenarios = ([(
- 'leap', {
- 'make_document_for_test': make_soledad_document_for_test})])
diff --git a/testing/tests/client/test_http.py b/testing/tests/client/test_http.py
deleted file mode 100644
index 47df4b4a..00000000
--- a/testing/tests/client/test_http.py
+++ /dev/null
@@ -1,60 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_http.py
-# Copyright (C) 2013, 2014 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Test Leap backend bits: test http database
-"""
-
-from twisted.trial import unittest
-
-from leap.soledad.client import auth
-from leap.soledad.common.l2db.remote import http_database
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_http_database`.
-# -----------------------------------------------------------------------------
-
-class _HTTPDatabase(http_database.HTTPDatabase, auth.TokenBasedAuth):
-
- """
- Wraps our token auth implementation.
- """
-
- def set_token_credentials(self, uuid, token):
- auth.TokenBasedAuth.set_token_credentials(self, uuid, token)
-
- def _sign_request(self, method, url_query, params):
- return auth.TokenBasedAuth._sign_request(
- self, method, url_query, params)
-
-
-class TestHTTPDatabaseWithCreds(unittest.TestCase):
-
- def test_get_sync_target_inherits_token_credentials(self):
- # this test was from TestDatabaseSimpleOperations but we put it here
- # for convenience.
- self.db = _HTTPDatabase('dbase')
- self.db.set_token_credentials('user-uuid', 'auth-token')
- st = self.db.get_sync_target()
- self.assertEqual(self.db._creds, st._creds)
-
- def test_ctr_with_creds(self):
- db1 = _HTTPDatabase('http://dbs/db', creds={'token': {
- 'uuid': 'user-uuid',
- 'token': 'auth-token',
- }})
- self.assertIn('token', db1._creds)
diff --git a/testing/tests/client/test_https.py b/testing/tests/client/test_https.py
deleted file mode 100644
index 1b6caed6..00000000
--- a/testing/tests/client/test_https.py
+++ /dev/null
@@ -1,137 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_sync_target.py
-# Copyright (C) 2013, 2014 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Test Leap backend bits: https
-"""
-import pytest
-
-from testscenarios import TestWithScenarios
-
-from leap.soledad import client
-
-from leap.soledad.common.l2db.remote import http_client
-from test_soledad.u1db_tests import test_backends
-from test_soledad.u1db_tests import test_https
-from test_soledad.util import (
- BaseSoledadTest,
- make_soledad_document_for_test,
- make_soledad_app,
- make_token_soledad_app,
-)
-
-
-LEAP_SCENARIOS = [
- ('http', {
- 'make_database_for_test': test_backends.make_http_database_for_test,
- 'copy_database_for_test': test_backends.copy_http_database_for_test,
- 'make_document_for_test': make_soledad_document_for_test,
- 'make_app_with_state': make_soledad_app}),
-]
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_https`.
-# -----------------------------------------------------------------------------
-
-def token_leap_https_sync_target(test, host, path, cert_file=None):
- _, port = test.server.server_address
- # source_replica_uid = test._soledad._dbpool.replica_uid
- creds = {'token': {'uuid': 'user-uuid', 'token': 'auth-token'}}
- if not cert_file:
- cert_file = test.cacert_pem
- st = client.http_target.SoledadHTTPSyncTarget(
- 'https://%s:%d/%s' % (host, port, path),
- source_replica_uid='other-id',
- creds=creds,
- crypto=test._soledad._crypto,
- cert_file=cert_file)
- return st
-
-
-@pytest.mark.skip
-class TestSoledadHTTPSyncTargetHttpsSupport(
- TestWithScenarios,
- # test_https.TestHttpSyncTargetHttpsSupport,
- BaseSoledadTest):
-
- scenarios = [
- ('token_soledad_https',
- {
- # 'server_def': test_https.https_server_def,
- 'make_app_with_state': make_token_soledad_app,
- 'make_document_for_test': make_soledad_document_for_test,
- 'sync_target': token_leap_https_sync_target}),
- ]
-
- def setUp(self):
- # the parent constructor undoes our SSL monkey patch to ensure tests
- # run smoothly with standard u1db.
- test_https.TestHttpSyncTargetHttpsSupport.setUp(self)
- # so here monkey patch again to test our functionality.
- api = client.api
- http_client._VerifiedHTTPSConnection = api.VerifiedHTTPSConnection
- client.api.SOLEDAD_CERT = http_client.CA_CERTS
-
- def test_cannot_verify_cert(self):
- self.startServer()
- # don't print expected traceback server-side
- self.server.handle_error = lambda req, cli_addr: None
- self.request_state._create_database('test')
- remote_target = self.getSyncTarget(
- 'localhost', 'test', cert_file=http_client.CA_CERTS)
- d = remote_target.record_sync_info('other-id', 2, 'T-id')
-
- def _assert_raises(result):
- from twisted.python.failure import Failure
- if isinstance(result, Failure):
- from OpenSSL.SSL import Error
- error = result.value.message[0].value
- if isinstance(error, Error):
- msg = error.message[0][2]
- self.assertEqual("certificate verify failed", msg)
- return
- self.fail("certificate verification should have failed.")
-
- d.addCallbacks(_assert_raises, _assert_raises)
- return d
-
- def test_working(self):
- """
- Test that SSL connections work well.
-
- This test was adapted to patch Soledad's HTTPS connection custom class
- with the intended CA certificates.
- """
- self.startServer()
- db = self.request_state._create_database('test')
- remote_target = self.getSyncTarget('localhost', 'test')
- d = remote_target.record_sync_info('other-id', 2, 'T-id')
- d.addCallback(lambda _:
- self.assertEqual(
- (2, 'T-id'),
- db._get_replica_gen_and_trans_id('other-id')
- ))
- d.addCallback(lambda _: remote_target.close())
- return d
-
- def test_host_mismatch(self):
- """
- This test is disabled because soledad's twisted-based http agent uses
- pyOpenSSL, which will complain if we try to use an IP to connect to
- the remote host (see the original test in u1db_tests/test_https.py).
- """
- pass
diff --git a/testing/tests/client/test_incoming_processing_flow.py b/testing/tests/client/test_incoming_processing_flow.py
deleted file mode 100644
index 7bc1e3c6..00000000
--- a/testing/tests/client/test_incoming_processing_flow.py
+++ /dev/null
@@ -1,197 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_incoming_processing_flow.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Unit tests for incoming box processing flow.
-"""
-from mock import Mock, call
-from leap.soledad.client import interfaces
-from leap.soledad.client.incoming import IncomingBoxProcessingLoop
-from twisted.internet import defer
-from twisted.trial import unittest
-from zope.interface import implementer
-
-
-@implementer(interfaces.IIncomingBoxConsumer)
-class GoodConsumer(object):
- def __init__(self):
- self.name = 'GoodConsumer'
- self.processed, self.saved = [], []
-
- def process(self, item, item_id, encrypted=True):
- self.processed.append(item_id)
- return defer.succeed([item_id])
-
- def save(self, parts, item_id):
- self.saved.append(item_id)
- return defer.succeed(None)
-
-
-class ProcessingFailedConsumer(GoodConsumer):
- def __init__(self):
- self.name = 'ProcessingFailedConsumer'
- self.processed, self.saved = [], []
-
- def process(self, item, item_id, encrypted=True):
- return defer.fail()
-
-
-class SavingFailedConsumer(GoodConsumer):
- def __init__(self):
- self.name = 'SavingFailedConsumer'
- self.processed, self.saved = [], []
-
- def save(self, parts, item_id):
- return defer.fail()
-
-
-class IncomingBoxProcessingTestCase(unittest.TestCase):
-
- def setUp(self):
- self.box = Mock()
- self.loop = IncomingBoxProcessingLoop(self.box)
-
- def _set_pending_items(self, pending):
- self.box.list_pending.return_value = defer.succeed(pending)
- pending_iter = iter([defer.succeed(item) for item in pending])
- self.box.fetch_for_processing.side_effect = pending_iter
-
- @defer.inlineCallbacks
- def test_processing_flow_reserves_a_message(self):
- self._set_pending_items(['one_item'])
- self.loop.add_consumer(GoodConsumer())
- yield self.loop()
- self.box.fetch_for_processing.assert_called_once_with('one_item')
-
- @defer.inlineCallbacks
- def test_no_consumers(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- yield self.loop()
- self.box.fetch_for_processing.assert_not_called()
- self.box.delete.assert_not_called()
-
- @defer.inlineCallbacks
- def test_pending_list_with_multiple_items(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = GoodConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- calls = [call('one'), call('two'), call('three')]
- self.box.fetch_for_processing.assert_has_calls(calls)
-
- @defer.inlineCallbacks
- def test_good_consumer_process_all(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = GoodConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.assertEquals(items, consumer.processed)
-
- @defer.inlineCallbacks
- def test_good_consumer_saves_all(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = GoodConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.assertEquals(items, consumer.saved)
-
- @defer.inlineCallbacks
- def test_multiple_good_consumers_process_all(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = GoodConsumer()
- consumer2 = GoodConsumer()
- self.loop.add_consumer(consumer)
- self.loop.add_consumer(consumer2)
- yield self.loop()
- self.assertEquals(items, consumer.processed)
- self.assertEquals(items, consumer2.processed)
-
- @defer.inlineCallbacks
- def test_good_consumer_marks_as_processed(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = GoodConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.box.set_processed.assert_has_calls([call(x) for x in items])
-
- @defer.inlineCallbacks
- def test_good_consumer_deletes_items(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = GoodConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.box.delete.assert_has_calls([call(x) for x in items])
-
- @defer.inlineCallbacks
- def test_processing_failed_doesnt_mark_as_processed(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = ProcessingFailedConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.box.set_processed.assert_not_called()
-
- @defer.inlineCallbacks
- def test_processing_failed_doesnt_delete(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = ProcessingFailedConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.box.delete.assert_not_called()
-
- @defer.inlineCallbacks
- def test_processing_failed_marks_as_failed(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = ProcessingFailedConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.box.set_failed.assert_has_calls([call(x) for x in items])
-
- @defer.inlineCallbacks
- def test_saving_failed_marks_as_processed(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = SavingFailedConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.box.set_processed.assert_has_calls([call(x) for x in items])
-
- @defer.inlineCallbacks
- def test_saving_failed_doesnt_delete(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = SavingFailedConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.box.delete.assert_not_called()
-
- @defer.inlineCallbacks
- def test_saving_failed_marks_as_failed(self):
- items = ['one', 'two', 'three']
- self._set_pending_items(items)
- consumer = SavingFailedConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.box.set_failed.assert_has_calls([call(x) for x in items])
diff --git a/testing/tests/client/test_recovery_code.py b/testing/tests/client/test_recovery_code.py
deleted file mode 100644
index 7bbccc41..00000000
--- a/testing/tests/client/test_recovery_code.py
+++ /dev/null
@@ -1,38 +0,0 @@
-# -*- CODing: utf-8 -*-
-# test_recovery_code.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for recovery code generation.
-"""
-import binascii
-
-from mock import patch
-from twisted.trial import unittest
-from leap.soledad.client._recovery_code import RecoveryCode
-
-
-class RecoveryCodeTestCase(unittest.TestCase):
-
- @patch('leap.soledad.client._recovery_code.os.urandom')
- def test_generate_recovery_code(self, mock_os_urandom):
- generated_random_code = '123456'
- mock_os_urandom.return_value = generated_random_code
- recovery_code = RecoveryCode()
-
- code = recovery_code.generate()
-
- mock_os_urandom.assert_called_with(RecoveryCode.code_length)
- self.assertEqual(binascii.hexlify(generated_random_code), code)
diff --git a/testing/tests/client/test_secrets.py b/testing/tests/client/test_secrets.py
deleted file mode 100644
index 7b643cb4..00000000
--- a/testing/tests/client/test_secrets.py
+++ /dev/null
@@ -1,166 +0,0 @@
-# -*- CODing: utf-8 -*-
-# test_secrets.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for secrets encryption and decryption.
-"""
-import scrypt
-
-from twisted.trial import unittest
-
-from leap.soledad.client._crypto import ENC_METHOD
-from leap.soledad.client._secrets import SecretsCrypto
-
-
-class SecretsCryptoTestCase(unittest.TestCase):
-
- SECRETS = {
- 'remote_secret': 'a' * 512,
- 'local_salt': 'b' * 64,
- 'local_secret': 'c' * 448
- }
- ENCRYPTED_V2 = {
- 'cipher': 2,
- 'length': 1437,
- 'kdf_salt': 'TSgNLeAGFeITeSgNzmYZHh+mzmkZPOqao7CAV/tx3KZCLwsrT0HmWtVK3'
- 'TyWHWNgVdeamMZYRuvZavE2sp0DGw==\n',
- 'iv': 'TKZQKIlRgdnXFhJf08qswg==',
- 'secrets': 'ZNZRi72VDtwZqyuU+uf3yzZt23vCtMS3Ki2bnZyeHUOSGVweJeDadF4oqE'
- 'BW87NN00j9E49BzyzLr9SNgwZjPp0wlUm7kt+s8EUfJUdH8nxaQ+9iqGXM'
- 'cCHmBM8L8DRN2m3BrPGx7m+QGlN9sbrRpl7fqc46RWcYuTEpm4upjdtI7O'
- 'jDd0JG3C0rUzIuKJn9w4rEpX3tLEKXVdZfLvRXS5roR0cauazsDO69E13q'
- 'a01vDuY+UJ+buLQ3FluPnnk8QE7ztPVUmRJJ76yAIhjVX9owiwlp9GnUJY'
- 'sETRCqdRSTwUcHIkzVR0zAvtxTX7eGTitzf4gCYEC4T9v5N/jHxEfPdx28'
- 'MM4KShWN2nFxNFQLQUpMN2OrM7UyUw+DQ3ydqBeBPKPHRN5s05kIK7P/Ra'
- 'aLNcrJWa7DopLbgLlei0Jd7S4sjv1ufaRY7v0qJaVkhh/VaCylTSVw1rv5'
- 'YzSWcHHcLuC0R8xLadz6T+EpsVYxgPYCS7w5xoE82zwNQzw/EBxLIcyLPl'
- 'ipKnr2dttrmm3KXUOT1IdbSbI5elF6yQTAusdqiXuypey+MDqHYWEYWkCn'
- 'e9/uGM9FjklDLE0RtPEDxhq64tw6u2Xu7RzDzyQDI8EIoTdU+4zEMTnelZ'
- 'fKEwdG58EDxTXfUk6IDcRUupz3YuToSMhIOkqgXnbWl/nrK0O9v4JMhQjI'
- 'r+oPICYfFr14kvJXBsfntILTJCxzbqTQcNba3jc8rGqCZ6gM0u4PndwTG2'
- 'UiCqPU2HMnWvVGQOXeLdQY+EqqXQiRDi0DrDmkVwFf+27dPXxmZ43C48W3'
- 'lMhTKXl0rdBFnOD5jiMh0X6q/KYXonyEtMZMsjT7dFePcCy4wQRhuut+ac'
- '/TJWyrr+/IB45E+LZbhV7xCy1dYsbdb52jTRJFpaQ83sj6Iv6SYdiqqXzL'
- 'F5JGMyuovTjwAoIIQzpLv36xY2wGGAH1V8c7QmDR2qumXrHD9R68WjBoSY'
- '7IFM0TFAGZNun56y/zQ4r8yOMSAId+j4kuRH0fENEi0FJ+SpmSdHfpvBhE'
- 'MdGh927E9enEYWmUQMmkxXIw6E+O3cmOWt2hsMbUAikDCpQOnVP2BD55HT'
- '6FfbW7ITVwPINHYexmy2Xcm8H5zzGFSp+uYIyPBYDKA+VJ+QQI8bud9K+T'
- 'NBybUv9u6LbB6BsLpwLoxMPJu0WsN2HpmLYgrg2ML1huMF1OtaGRuUr2PL'
- 'NBaZaL6VOztYrVtQG1+tNyRxn8XQTtx0l6n+EihGVe9Sk5XF6DJA9ZN7uO'
- 'svTUFJ5qG3Erf4AmbUJWoOR/NvapBtifidM7gPZZ6NqBs6v72rU1pGy+p7'
- 'o84KrmB2MNf3yJ0BvKxPvFmltF3Dc7LB5TN8ycbmFM6hgrLvvhPxiHEnG/'
- '8Qcrg0nUXOipFGNgZEU7t7Mz6RJ189Z2Kx1HVGrkAzEgqwZYqijAPlsgzO'
- 'bg6DwzwC7stolQWGCDQUtJVlE8FZ/Up8zFYYZKn52WzjmSN4/hHhEvdkck'
- 'Nez/JVev6fMcVrgdrTZ+uCwxjN/4xPdgog2HV470ea1bvIkSNOOrhm194M'
- '40GmvmBhiSSMjdRQCQtM0t9bUuSQLPDzEiCA9QaLyygtlz9uRR/dXgkEg0'
- 'J4YNpZvhE0wbyp4GHytbPaAmrcd7im9+buTuMwhXpZl0stmfkJxVHJSZ8Y'
- 'IHakHs3W1fdYyI3wxGpel/9eYO3ISukolwrHXESP65wVNKfBwbqVJzQmts'
- 'pyDBOI6DcLKZfE1EVg0+uwQ/5PKZbn0TwlXO1YE3NL3mAply3zQR9hyBrY'
- '6f1jkHVD3irIlWkSiPJsP8sW+nrK8c/Ha8F+dua6DTZmg594OIaQj8mPiY'
- 'GcIusiARWocR5/MmSjupGOgFx4HtmckTJtAta3XP4elOx04teH/P9Cgr1x'
- 'XYf+cEX6gp92L9rTo0FCz3Hw==\n',
- 'version': 2,
- 'kdf': 'scrypt',
- 'kdf_length': 32
- }
-
- ENCRYPTED_V1 = {
- 'version': 1,
- 'active_secret': 'secret_id',
- 'storage_secrets': {
- 'secret_id': {
- 'kdf': 'scrypt',
- 'secret': 'u31ObvxNU8jB0HgMj3TVwQ==:JQwlYq6sAQmHYS3x2CJzObT9h'
- 'j1iiHthvrMh887qedNCcOfJyCA3jpRkc0vjd2Qk/2HSJ+JxM2F'
- 'MrPzzx5O34EHlgF2scen34guZRRIf42WpnMy+PrL4cnMlZLgCh'
- 'H1Jz6wcIMEpU9LQ8OaCShk1/yJ6qcVHOV4DDt3mTF7ttiqI5cp'
- 'msaVtxxYCcpxFiWSeSCEgr0h4/Ih1qHuM6vk+CQjf/zg1f/7HR'
- 'imIyNYXit9Fw3YTkxBen1wG3f5L7OAODRTuqnWpkQFOmclx050'
- 'k0frKRcX6UWhIOWpW2mqJXnvzDtQQVGzqIdSgGTGtUDGQ7Onnc'
- 'NkUlSnuVC7PkDNNRuwit3pCB9YWBWyPAQgs0kLqoV4YcuSctz6'
- 'SAf76ozdcK5/SrOzutOfyPag4V3AYKMv6rCKALJ10OnFJ61FL9'
- 'kd6JZam7WOlEUXyO7Gdgvz+eKiQMTZXbtO2kAKqel513MedPXC'
- 'dzajUe1U2JaGg86UdiDWoPYOiWxnAPwfNJk+1QuNy5NZ7PaMtF'
- 'IKT3/Xema2U8mufS0FbvJyK2flP1VUWcCzHKTSqX6+kU7UpoWa'
- 'hYa7PlO40El+putTQLBmNaEeaWFngO+XB4TReICHSiCdcAb3pw'
- 'sabjtxt+OpK4vbj3yBSfpiZTpVbEjt9U/tUpVp/T2M66lMi3ZC'
- 'oHLlhu45Zo0aEq3UmQ/WBXu6EkO2eLYz2br9YQwRbSJ6z5CHmu'
- 'hjKBQlpvGNfZYObx5lY4o6Ab4f/N8gyukskjmAFAf7Fr8cEog/'
- 'oxmbagoCtUGRYJp2paooqH8L6xXp0Y8+23g7WJaAIr1i4V4aKS'
- 'r9x7iUK6prcZTtMJZEHCswkLN/+DU6/FX3YZcOjseC+Qv3P+9v'
- 'zIDp/92KJzqVqITGwrsc6ZsglMW37qxs6albtw3lMWSHlkcLbj'
- 'Xf/iHPeKnb2WNLdkFNQ1J5OaTJR+E1CrXN+pm1JtB6XaUbaLGV'
- 'CGUo13lAPVDtXcPbo64kMrQtQu4m9m8X8t8tfuJmINfwBnrKzk'
- 'O6pl+LwimFaFEArV6wcaMxmwi0lM7mt4U1u9OIQjghQ/dEmOyV'
- 'dZBnvyG7T/oRuLdUyZ/QGXZMlPQ3lAZ0ONn1Mk4bmKToW8ToE8'
- 'ylld3rLlWDjjoQP8mP05Izg3mguLHXUhikUL8MD5NdYyeZJ1XZ'
- '0OZ5S9uncurYj2ABWJoVaq/tFCdCEo9bbjWsePei26GZjaM3Fx'
- 'RkAICXe/bt6/uLgaPZtO+sdARDuU3DRKMIdgM9NBaIn0kC7Wk4'
- 'bnYShZ/rbhVt2/ds5XinnDBZsxSR3s553DixJ9v6w9Db++9Stw'
- '4DgePd9lLy+6WuVBlKmcNflx9zg7US0AOarX2UNiQ==',
- 'kdf_length': 32,
- 'kdf_salt': 'MYH68QH48nRFMWH44piFWqBnKtU8KCz6Ajh24otrvzJlqPgB'
- 'v6bvFJjRvjRp/0/v1j2nt40RZ6H5hfoKmore0g==\n',
- 'length': 1024,
- 'cipher': 'aes256',
- }
- }
- }
-
- def setUp(self):
- class Soledad(object):
- passphrase = '123'
- soledad = Soledad()
- self._crypto = SecretsCrypto(soledad)
-
- def test__get_key(self):
- salt = 'abc'
- expected = scrypt.hash('123', salt, buflen=32)
- key = self._crypto._get_key(salt)
- self.assertEqual(expected, key)
-
- def test_encrypt(self):
- info = self._crypto.encrypt(self.SECRETS)
- self.assertEqual(8, len(info))
- for key, value in [
- ('kdf', 'scrypt'),
- ('kdf_salt', None),
- ('kdf_length', None),
- ('cipher', ENC_METHOD.aes_256_gcm),
- ('length', None),
- ('iv', None),
- ('secrets', None),
- ('version', 2)]:
- self.assertTrue(key in info)
- if value:
- self.assertEqual(info[key], value)
-
- def test__decrypt_v2(self):
- encrypted = self.ENCRYPTED_V2
- decrypted = self._crypto.decrypt(encrypted)
- self.assertEqual(decrypted, self.SECRETS)
-
- def test__decrypt_v1(self):
- encrypted = self.ENCRYPTED_V1
- decrypted = self._crypto.decrypt(encrypted)
- self.assertEqual(decrypted, self.SECRETS)
-
- def test__no_version_defaults_to_v1(self):
- encrypted = dict(self.ENCRYPTED_V1)
- del encrypted['version']
- decrypted = self._crypto.decrypt(encrypted)
- self.assertEqual(decrypted, self.SECRETS)
- self.assertEqual(encrypted['version'], 1)
diff --git a/testing/tests/client/test_shared_db.py b/testing/tests/client/test_shared_db.py
deleted file mode 100644
index b045e524..00000000
--- a/testing/tests/client/test_shared_db.py
+++ /dev/null
@@ -1,40 +0,0 @@
-from leap.soledad.common.document import SoledadDocument
-from leap.soledad.client.shared_db import SoledadSharedDatabase
-
-from test_soledad.util import BaseSoledadTest
-
-
-class SoledadSharedDBTestCase(BaseSoledadTest):
-
- """
- These tests ensure the functionalities of the shared recovery database.
- """
-
- def setUp(self):
- BaseSoledadTest.setUp(self)
- self._shared_db = SoledadSharedDatabase(
- 'https://provider/', document_factory=SoledadDocument,
- creds=None)
-
- def tearDown(self):
- BaseSoledadTest.tearDown(self)
-
- def test__get_remote_doc(self):
- """
- Ensure the shared db is queried with the correct doc_id.
- """
- doc_id = self._soledad.secrets.storage._remote_doc_id()
- self._soledad.secrets.storage._get_remote_doc()
- self._soledad.secrets.storage._shared_db.get_doc.assert_called_with(
- doc_id)
-
- def test_save_remote(self):
- """
- Ensure recovery document is put into shared recover db.
- """
- doc_id = self._soledad.secrets.storage._remote_doc_id()
- storage = self._soledad.secrets.storage
- storage.save_remote({'content': 'blah'})
- storage._shared_db.get_doc.assert_called_with(doc_id)
- storage._shared_db.put_doc.assert_called_with(self._doc_put)
- self.assertTrue(self._doc_put.doc_id == doc_id)
diff --git a/testing/tests/client/test_signals.py b/testing/tests/client/test_signals.py
deleted file mode 100644
index c7609a74..00000000
--- a/testing/tests/client/test_signals.py
+++ /dev/null
@@ -1,149 +0,0 @@
-from mock import Mock
-from twisted.internet import defer
-
-from leap import soledad
-from leap.common.events import catalog
-from leap.soledad.common.document import SoledadDocument
-
-from test_soledad.util import ADDRESS
-from test_soledad.util import BaseSoledadTest
-
-
-class SoledadSignalingTestCase(BaseSoledadTest):
-
- """
- These tests ensure signals are correctly emmited by Soledad.
- """
-
- EVENTS_SERVER_PORT = 8090
-
- def setUp(self):
- # mock signaling
- soledad.client.signal = Mock()
- soledad.client._secrets.util.events.emit_async = Mock()
- # run parent's setUp
- BaseSoledadTest.setUp(self)
-
- def tearDown(self):
- BaseSoledadTest.tearDown(self)
-
- def _pop_mock_call(self, mocked):
- mocked.call_args_list.pop()
- mocked.mock_calls.pop()
- mocked.call_args = mocked.call_args_list[-1]
-
- def test_stage3_bootstrap_signals(self):
- """
- Test that a fresh soledad emits all bootstrap signals.
-
- Signals are:
- - downloading keys / done downloading keys.
- - creating keys / done creating keys.
- - downloading keys / done downloading keys.
- - uploading keys / done uploading keys.
- """
- soledad.client._secrets.util.events.emit_async.reset_mock()
- # get a fresh instance so it emits all bootstrap signals
- sol = self._soledad_instance(
- secrets_path='alternative_stage3.json',
- local_db_path='alternative_stage3.u1db')
- # reverse call order so we can verify in the order the signals were
- # expected
- soledad.client._secrets.util.events.emit_async.mock_calls.reverse()
- soledad.client._secrets.util.events.emit_async.call_args = \
- soledad.client._secrets.util.events.emit_async.call_args_list[0]
- soledad.client._secrets.util.events.emit_async.call_args_list.reverse()
-
- user_data = {'userid': ADDRESS, 'uuid': ADDRESS}
-
- def _assert(*args, **kwargs):
- mocked = soledad.client._secrets.util.events.emit_async
- mocked.assert_called_with(*args)
- pop = kwargs.get('pop')
- if pop or pop is None:
- self._pop_mock_call(mocked)
-
- _assert(catalog.SOLEDAD_DOWNLOADING_KEYS, user_data)
- _assert(catalog.SOLEDAD_DONE_DOWNLOADING_KEYS, user_data)
- _assert(catalog.SOLEDAD_CREATING_KEYS, user_data)
- _assert(catalog.SOLEDAD_DONE_CREATING_KEYS, user_data)
- _assert(catalog.SOLEDAD_UPLOADING_KEYS, user_data)
- _assert(catalog.SOLEDAD_DOWNLOADING_KEYS, user_data)
- _assert(catalog.SOLEDAD_DONE_DOWNLOADING_KEYS, user_data)
- _assert(catalog.SOLEDAD_DONE_UPLOADING_KEYS, user_data, pop=False)
-
- sol.close()
-
- def test_stage2_bootstrap_signals(self):
- """
- Test that if there are keys in server, soledad will download them and
- emit corresponding signals.
- """
- # get existing instance so we have access to keys
- sol = self._soledad_instance()
- # create a document with secrets
- doc = SoledadDocument(doc_id=sol.secrets.storage._remote_doc_id())
- doc.content = sol.secrets.crypto.encrypt(sol.secrets._secrets)
- sol.close()
- # reset mock
- soledad.client._secrets.util.events.emit_async.reset_mock()
- # get a fresh instance so it emits all bootstrap signals
- shared_db = self.get_default_shared_mock(get_doc_return_value=doc)
- sol = self._soledad_instance(
- secrets_path='alternative_stage2.json',
- local_db_path='alternative_stage2.u1db',
- shared_db_class=shared_db)
- # reverse call order so we can verify in the order the signals were
- # expected
- mocked = soledad.client._secrets.util.events.emit_async
- mocked.mock_calls.reverse()
- mocked.call_args = mocked.call_args_list[0]
- mocked.call_args_list.reverse()
-
- def _assert(*args, **kwargs):
- mocked = soledad.client._secrets.util.events.emit_async
- mocked.assert_called_with(*args)
- pop = kwargs.get('pop')
- if pop or pop is None:
- self._pop_mock_call(mocked)
-
- # assert download keys signals
- user_data = {'userid': ADDRESS, 'uuid': ADDRESS}
- _assert(catalog.SOLEDAD_DOWNLOADING_KEYS, user_data)
- _assert(catalog.SOLEDAD_DONE_DOWNLOADING_KEYS, user_data, pop=False)
-
- sol.close()
-
- def test_stage1_bootstrap_signals(self):
- """
- Test that if soledad already has a local secret, it emits no signals.
- """
- soledad.client.signal.reset_mock()
- # get an existent instance so it emits only some of bootstrap signals
- sol = self._soledad_instance()
- self.assertEqual([], soledad.client.signal.mock_calls)
- sol.close()
-
- @defer.inlineCallbacks
- def test_sync_signals(self):
- """
- Test Soledad emits SOLEDAD_CREATING_KEYS signal.
- """
- # get a fresh instance so it emits all bootstrap signals
- sol = self._soledad_instance()
- soledad.client.signal.reset_mock()
-
- # mock the actual db sync so soledad does not try to connect to the
- # server
- d = defer.Deferred()
- d.callback(None)
- sol._dbsyncer.sync = Mock(return_value=d)
-
- yield sol.sync()
-
- # assert the signal has been emitted
- soledad.client.events.emit_async.assert_called_with(
- catalog.SOLEDAD_DONE_DATA_SYNC,
- {'userid': ADDRESS, 'uuid': ADDRESS},
- )
- sol.close()
diff --git a/testing/tests/client/test_soledad_doc.py b/testing/tests/client/test_soledad_doc.py
deleted file mode 100644
index e158d768..00000000
--- a/testing/tests/client/test_soledad_doc.py
+++ /dev/null
@@ -1,46 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_soledad_doc.py
-# Copyright (C) 2013, 2014 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Test Leap backend bits: soledad docs
-"""
-from testscenarios import TestWithScenarios
-
-from test_soledad.u1db_tests import test_document
-from test_soledad.util import BaseSoledadTest
-from test_soledad.util import make_soledad_document_for_test
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_document`.
-# -----------------------------------------------------------------------------
-
-class TestSoledadDocument(
- TestWithScenarios,
- test_document.TestDocument, BaseSoledadTest):
-
- scenarios = ([(
- 'leap', {
- 'make_document_for_test': make_soledad_document_for_test})])
-
-
-class TestSoledadPyDocument(
- TestWithScenarios,
- test_document.TestPyDocument, BaseSoledadTest):
-
- scenarios = ([(
- 'leap', {
- 'make_document_for_test': make_soledad_document_for_test})])
diff --git a/testing/tests/conftest.py b/testing/tests/conftest.py
deleted file mode 100644
index d3a39289..00000000
--- a/testing/tests/conftest.py
+++ /dev/null
@@ -1,398 +0,0 @@
-import glob
-import base64
-import json
-import os
-import pytest
-import re
-import random
-import requests
-import signal
-import socket
-import subprocess
-import sys
-import time
-import urlparse
-
-from hashlib import sha512
-from six.moves.urllib.parse import urljoin
-from uuid import uuid4
-
-from leap.soledad.common.couch import CouchDatabase
-from leap.soledad.client import Soledad
-
-
-def _select_subdir(subdir, blacklist, items):
-
- # allow blacklisted subdir if explicited in command line
- if subdir and subdir in blacklist:
- blacklist.remove(subdir)
-
- # determine blacklisted subdirs
- dirname = os.path.dirname(__file__)
- blacklisted_subdirs = map(lambda s: os.path.join(dirname, s), blacklist)
-
- # determine base path for selected tests
- path = dirname
- if subdir:
- path = os.path.join(dirname, subdir)
-
- # remove tests from blacklisted subdirs
- selected = []
- deselected = []
- for item in items:
- filename = item.module.__file__
- blacklisted = any(
- map(lambda s: filename.startswith(s), blacklisted_subdirs))
- if blacklisted or not filename.startswith(path):
- deselected.append(item)
- else:
- selected.append(item)
-
- return selected, deselected
-
-
-def pytest_collection_modifyitems(items, config):
-
- # mark tests that depend on couchdb
- marker = getattr(pytest.mark, 'needs_couch')
- for item in items:
- if 'soledad/testing/tests/couch/' in item.module.__file__:
- item.add_marker(marker)
-
- # select/deselect tests based on a blacklist and the subdir option given in
- # command line
- blacklist = ['benchmarks', 'responsiveness']
- subdir = config.getoption('subdir')
- selected, deselected = _select_subdir(subdir, blacklist, items)
- config.hook.pytest_deselected(items=deselected)
- items[:] = selected
-
-
-#
-# default options for all tests
-#
-
-DEFAULT_PASSPHRASE = '123'
-
-DEFAULT_URL = 'http://127.0.0.1:2424'
-DEFAULT_PRIVKEY = 'soledad_privkey.pem'
-DEFAULT_CERTKEY = 'soledad_certkey.pem'
-DEFAULT_TOKEN = 'an-auth-token'
-
-
-def pytest_addoption(parser):
- parser.addoption(
- "--couch-url", type="string", default="http://127.0.0.1:5984",
- help="the url for the couch server to be used during tests")
-
- # the following options are only used in benchmarks, but has to be defined
- # here due to how pytest discovers plugins during startup.
- parser.addoption(
- "--watch-memory", default=False, action="store_true",
- help="whether to monitor memory percentages during test run. "
- "**Warning**: enabling this will impact the time taken and the "
- "CPU used by the benchmarked code, so use with caution!")
-
- parser.addoption(
- "--soledad-server-url", type="string", default=None,
- help="Soledad Server URL. A local server will be started if and only "
- "if no URL is passed.")
-
- # the following option is only used in responsiveness tests, but has to be
- # defined here due to how pytest discovers plugins during startup.
- parser.addoption(
- "--elasticsearch-url", type="string", default=None,
- help="the url for posting responsiveness results to elasticsearch")
-
- parser.addoption(
- "--subdir", type="string", default=None,
- help="select only tests from a certain subdirectory of ./tests/")
-
-
-def _request(method, url, data=None, do=True):
- if do:
- method = getattr(requests, method)
- method(url, data=data)
- else:
- cmd = 'curl --netrc -X %s %s' % (method.upper(), url)
- if data:
- cmd += ' -d "%s"' % json.dumps(data)
- print cmd
-
-
-@pytest.fixture
-def couch_url(request):
- url = request.config.option.couch_url
- request.cls.couch_url = url
-
-
-@pytest.fixture
-def method_tmpdir(request, tmpdir):
- request.instance.tempdir = tmpdir.strpath
-
-
-#
-# remote_db fixture: provides an empty database for a given user in a per
-# function scope.
-#
-
-class UserDatabase(object):
-
- def __init__(self, url, uuid, create=True):
- self._remote_db_url = urljoin(url, 'user-%s' % uuid)
- self._create = create
-
- def setup(self):
- if self._create:
- return CouchDatabase.open_database(
- url=self._remote_db_url, create=True, replica_uid=None)
- else:
- _request('put', self._remote_db_url, do=False)
-
- def teardown(self):
- _request('delete', self._remote_db_url, do=self._create)
-
-
-@pytest.fixture()
-def remote_db(request):
- couch_url = request.config.option.couch_url
-
- def create(uuid, create=True):
- db = UserDatabase(couch_url, uuid, create=create)
- request.addfinalizer(db.teardown)
- return db.setup()
- return create
-
-
-def get_pid(pidfile):
- if not os.path.isfile(pidfile):
- return 0
- try:
- with open(pidfile) as f:
- return int(f.read())
- except IOError:
- return 0
-
-
-#
-# soledad_server fixture: provides a running soledad server in a per module
-# context (same soledad server for all tests in this module).
-#
-
-class SoledadServer(object):
-
- def __init__(self, tmpdir_factory, couch_url):
- tmpdir = tmpdir_factory.mktemp('soledad-server')
- self.tmpdir = tmpdir
- self._pidfile = os.path.join(tmpdir.strpath, 'soledad-server.pid')
- self._logfile = os.path.join(tmpdir.strpath, 'soledad-server.log')
- self._couch_url = couch_url
-
- def start(self):
- self._create_conf_file()
- # start the server
- executable = 'twistd'
- if 'VIRTUAL_ENV' not in os.environ:
- executable = os.path.join(
- os.path.dirname(os.environ['_']), 'twistd')
- subprocess.check_call([
- executable,
- '--logfile=%s' % self._logfile,
- '--pidfile=%s' % self._pidfile,
- 'web',
- '--class=leap.soledad.server.entrypoints.SoledadEntrypoint',
- '--port=tcp:2424'
- ])
-
- def _create_conf_file(self):
-
- # come up with name of the configuration file
- fname = '/etc/soledad/soledad-server.conf'
- if not os.access('/etc', os.W_OK):
- fname = os.path.join(self.tmpdir.strpath, 'soledad-server.conf')
-
- # create the configuration file
- dirname = os.path.dirname(fname)
- if not os.path.isdir(dirname):
- os.mkdir(dirname)
- with open(fname, 'w') as f:
- blobs_path = os.path.join(str(self.tmpdir), 'blobs')
- content = '''[soledad-server]
-couch_url = %s
-blobs = true
-blobs_path = %s''' % (self._couch_url, blobs_path)
- f.write(content)
-
- # update the environment to use that file
- os.environ.update({'SOLEDAD_SERVER_CONFIG_FILE': fname})
-
- def stop(self):
- pid = get_pid(self._pidfile)
- os.kill(pid, signal.SIGTERM)
-
-
-@pytest.fixture(scope='module')
-def soledad_server(tmpdir_factory, request):
-
- # avoid starting a server if the url is remote
- soledad_url = request.config.option.soledad_server_url
- if soledad_url is not None:
- return None
-
- # start a soledad server
- couch_url = request.config.option.couch_url
- server = SoledadServer(tmpdir_factory, couch_url)
- server.start()
- request.addfinalizer(server.stop)
- return server
-
-
-#
-# soledad_dbs fixture: provides all databases needed by soledad server in a per
-# module scope (same databases for all tests in this module).
-#
-
-def _token_dbname():
- dbname = 'tokens_' + \
- str(int(time.time() / (30 * 24 * 3600)))
- return dbname
-
-
-class SoledadDatabases(object):
-
- def __init__(self, url, create=True):
- self._token_db_url = urljoin(url, _token_dbname())
- self._shared_db_url = urljoin(url, 'shared')
- self._create = create
-
- def setup(self, uuid):
- self._create_dbs()
- self._add_token(uuid)
-
- def _create_dbs(self):
- _request('put', self._token_db_url, do=self._create)
- _request('put', self._shared_db_url, do=self._create)
-
- def _add_token(self, uuid):
- token = sha512(DEFAULT_TOKEN).hexdigest()
- content = {'type': 'Token', 'user_id': uuid}
- _request('put', self._token_db_url + '/' + token,
- data=json.dumps(content), do=self._create)
-
- def teardown(self):
- _request('delete', self._token_db_url, do=self._create)
- _request('delete', self._shared_db_url, do=self._create)
-
-
-@pytest.fixture()
-def soledad_dbs(request):
- couch_url = request.config.option.couch_url
-
- def create(uuid, create=True):
- db = SoledadDatabases(couch_url, create=create)
- request.addfinalizer(db.teardown)
- return db.setup(uuid)
- return create
-
-
-#
-# soledad_client fixture: provides a clean soledad client for a test function.
-#
-
-def _get_certfile(url, tmpdir):
-
- # download the certificate
- parsed = urlparse.urlsplit(url)
- netloc = re.sub('^[^\.]+\.', '', parsed.netloc)
- host, _ = netloc.split(':')
- response = requests.get('https://%s/ca.crt' % host, verify=False)
-
- # store it in a temporary file
- cert_file = os.path.join(tmpdir.strpath, 'cert.pem')
- with open(cert_file, 'w') as f:
- f.write(response.text)
-
- return cert_file
-
-
-@pytest.fixture()
-def soledad_client(tmpdir, soledad_server, remote_db, soledad_dbs, request):
- passphrase = DEFAULT_PASSPHRASE
- token = DEFAULT_TOKEN
-
- # default values for local server
- server_url = DEFAULT_URL
- default_uuid = uuid4().hex
- create = True
- cert_file = None
-
- # use values for remote server if server url is passed
- url_arg = request.config.option.soledad_server_url
- if url_arg:
- server_url = url_arg
- default_uuid = 'test-user'
- create = False
- cert_file = _get_certfile(server_url, tmpdir)
-
- remote_db(default_uuid, create=create)
- soledad_dbs(default_uuid, create=create)
-
- # get a soledad instance
- def create(force_fresh_db=False):
- secrets_file = '%s.secret' % default_uuid
- secrets_path = os.path.join(tmpdir.strpath, secrets_file)
-
- # in some tests we might want to use the same user and remote database
- # but with a clean/empty local database (i.e. download benchmarks), so
- # here we provide a way to do that.
- idx = 1
- if force_fresh_db:
- # find the next index for this user
- idx = len(glob.glob('%s/*-*.db' % tmpdir.strpath)) + 1
- db_file = '%s-%d.db' % (default_uuid, idx)
- local_db_path = os.path.join(tmpdir.strpath, db_file)
-
- soledad_client = Soledad(
- default_uuid,
- unicode(passphrase),
- secrets_path=secrets_path,
- local_db_path=local_db_path,
- server_url=server_url,
- cert_file=cert_file,
- auth_token=token,
- with_blobs=True)
- request.addfinalizer(soledad_client.close)
- return soledad_client
- return create
-
-
-#
-# pytest-benchmark customizations
-#
-
-# avoid hooking if this is not a benchmarking environment
-if 'pytest_benchmark' in sys.modules:
-
- def pytest_benchmark_update_machine_info(config, machine_info):
- """
- Add the host's hostname information to machine_info.
-
- Get the value from the HOST_HOSTNAME environment variable if it is set,
- or from the actual system's hostname otherwise.
- """
- hostname = os.environ.get('HOST_HOSTNAME', socket.gethostname())
- machine_info['host'] = hostname
-
-
-#
-# benchmark/responsiveness fixtures
-#
-
-@pytest.fixture()
-def payload():
- def generate(size):
- random.seed(1337) # same seed to avoid different bench results
- payload_bytes = bytearray(random.getrandbits(8) for _ in xrange(size))
- # encode as base64 to avoid ascii encode/decode errors
- return base64.b64encode(payload_bytes)[:size] # remove b64 overhead
- return generate
diff --git a/testing/tests/couch/__init__.py b/testing/tests/couch/__init__.py
deleted file mode 100644
index e69de29b..00000000
--- a/testing/tests/couch/__init__.py
+++ /dev/null
diff --git a/testing/tests/couch/common.py b/testing/tests/couch/common.py
deleted file mode 100644
index 3c272f6e..00000000
--- a/testing/tests/couch/common.py
+++ /dev/null
@@ -1,75 +0,0 @@
-from uuid import uuid4
-from six.moves.urllib.parse import urljoin
-from couchdb.client import Server
-
-from leap.soledad.common import couch
-from leap.soledad.common.document import ServerDocument
-
-from test_soledad import u1db_tests as tests
-
-
-simple_doc = tests.simple_doc
-nested_doc = tests.nested_doc
-
-
-def make_couch_database_for_test(test, replica_uid):
- dbname = ('test-%s' % uuid4().hex)
- db = couch.CouchDatabase.open_database(
- urljoin(test.couch_url, dbname),
- create=True,
- replica_uid=replica_uid or 'test')
- test.addCleanup(test.delete_db, dbname)
- return db
-
-
-def copy_couch_database_for_test(test, db):
- couch_url = test.couch_url
- new_dbname = db._dbname + '_copy'
- new_db = couch.CouchDatabase.open_database(
- urljoin(couch_url, new_dbname),
- create=True,
- replica_uid=db._replica_uid or 'test')
- # copy all docs
- session = couch.Session()
- old_couch_db = Server(couch_url, session=session)[db._dbname]
- new_couch_db = Server(couch_url, session=session)[new_dbname]
- for doc_id in old_couch_db:
- doc = old_couch_db.get(doc_id)
- # bypass u1db_config document
- if doc_id == 'u1db_config':
- pass
- # copy u1db docs
- elif 'u1db_rev' in doc:
- new_doc = {
- '_id': doc['_id'],
- 'u1db_rev': doc['u1db_rev']
- }
- attachments = []
- if ('u1db_conflicts' in doc):
- new_doc['u1db_conflicts'] = doc['u1db_conflicts']
- for c_rev in doc['u1db_conflicts']:
- attachments.append('u1db_conflict_%s' % c_rev)
- new_couch_db.save(new_doc)
- # save conflict data
- attachments.append('u1db_content')
- for att_name in attachments:
- att = old_couch_db.get_attachment(doc_id, att_name)
- if (att is not None):
- new_couch_db.put_attachment(new_doc, att,
- filename=att_name)
- elif doc_id.startswith('gen-'):
- new_couch_db.save(doc)
- # cleanup connections to prevent file descriptor leaking
- return new_db
-
-
-def make_document_for_test(test, doc_id, rev, content, has_conflicts=False):
- return ServerDocument(
- doc_id, rev, content, has_conflicts=has_conflicts)
-
-
-COUCH_SCENARIOS = [
- ('couch', {'make_database_for_test': make_couch_database_for_test,
- 'copy_database_for_test': copy_couch_database_for_test,
- 'make_document_for_test': make_document_for_test, }),
-]
diff --git a/testing/tests/couch/test_atomicity.py b/testing/tests/couch/test_atomicity.py
deleted file mode 100644
index 48e1c01d..00000000
--- a/testing/tests/couch/test_atomicity.py
+++ /dev/null
@@ -1,370 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_couch_operations_atomicity.py
-# Copyright (C) 2013, 2014 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Test atomicity of couch operations.
-"""
-import os
-import pytest
-import threading
-
-from six.moves.urllib.parse import urljoin
-from twisted.internet import defer
-from uuid import uuid4
-
-from leap.soledad.client import Soledad
-from leap.soledad.common.couch.state import CouchServerState
-from leap.soledad.common.couch import CouchDatabase
-
-from test_soledad.util import (
- make_token_soledad_app,
- make_soledad_document_for_test,
- soledad_sync_target,
-)
-from test_soledad.util import CouchDBTestCase
-from test_soledad.u1db_tests import TestCaseWithServer
-
-
-REPEAT_TIMES = 20
-
-
-@pytest.mark.usefixtures('method_tmpdir')
-class CouchAtomicityTestCase(CouchDBTestCase, TestCaseWithServer):
-
- @staticmethod
- def make_app_after_state(state):
- return make_token_soledad_app(state)
-
- make_document_for_test = make_soledad_document_for_test
-
- sync_target = soledad_sync_target
-
- def _soledad_instance(self, user=None, passphrase=u'123',
- prefix='',
- secrets_path='secrets.json',
- local_db_path='soledad.u1db', server_url='',
- cert_file=None, auth_token=None):
- """
- Instantiate Soledad.
- """
- user = user or self.user
-
- # this callback ensures we save a document which is sent to the shared
- # db.
- def _put_doc_side_effect(doc):
- self._doc_put = doc
-
- soledad = Soledad(
- user,
- passphrase,
- secrets_path=os.path.join(self.tempdir, prefix, secrets_path),
- local_db_path=os.path.join(
- self.tempdir, prefix, local_db_path),
- server_url=server_url,
- cert_file=cert_file,
- auth_token=auth_token,
- shared_db=self.get_default_shared_mock(_put_doc_side_effect))
- self.addCleanup(soledad.close)
- return soledad
-
- def make_app(self):
- self.request_state = CouchServerState(self.couch_url)
- return self.make_app_after_state(self.request_state)
-
- def setUp(self):
- TestCaseWithServer.setUp(self)
- CouchDBTestCase.setUp(self)
- self.user = ('user-%s' % uuid4().hex)
- self.db = CouchDatabase.open_database(
- urljoin(self.couch_url, 'user-' + self.user),
- create=True,
- replica_uid='replica')
- self.startTwistedServer()
-
- def tearDown(self):
- self.db.delete_database()
- self.db.close()
- CouchDBTestCase.tearDown(self)
- TestCaseWithServer.tearDown(self)
-
- #
- # Sequential tests
- #
-
- def test_correct_transaction_log_after_sequential_puts(self):
- """
- Assert that the transaction_log increases accordingly with sequential
- puts.
- """
- doc = self.db.create_doc({'ops': 0})
- docs = [doc.doc_id]
- for i in range(0, REPEAT_TIMES):
- self.assertEqual(
- i + 1, len(self.db._get_transaction_log()))
- doc.content['ops'] += 1
- self.db.put_doc(doc)
- docs.append(doc.doc_id)
-
- # assert length of transaction_log
- transaction_log = self.db._get_transaction_log()
- self.assertEqual(
- REPEAT_TIMES + 1, len(transaction_log))
-
- # assert that all entries in the log belong to the same doc
- self.assertEqual(REPEAT_TIMES + 1, len(docs))
- for doc_id in docs:
- self.assertEqual(
- REPEAT_TIMES + 1,
- len(filter(lambda t: t[0] == doc_id, transaction_log)))
-
- def test_correct_transaction_log_after_sequential_deletes(self):
- """
- Assert that the transaction_log increases accordingly with sequential
- puts and deletes.
- """
- docs = []
- for i in range(0, REPEAT_TIMES):
- doc = self.db.create_doc({'ops': 0})
- self.assertEqual(
- 2 * i + 1, len(self.db._get_transaction_log()))
- docs.append(doc.doc_id)
- self.db.delete_doc(doc)
- self.assertEqual(
- 2 * i + 2, len(self.db._get_transaction_log()))
-
- # assert length of transaction_log
- transaction_log = self.db._get_transaction_log()
- self.assertEqual(
- 2 * REPEAT_TIMES, len(transaction_log))
-
- # assert that each doc appears twice in the transaction_log
- self.assertEqual(REPEAT_TIMES, len(docs))
- for doc_id in docs:
- self.assertEqual(
- 2,
- len(filter(lambda t: t[0] == doc_id, transaction_log)))
-
- @defer.inlineCallbacks
- def test_correct_sync_log_after_sequential_syncs(self):
- """
- Assert that the sync_log increases accordingly with sequential syncs.
- """
- sol = self._soledad_instance(
- auth_token='auth-token',
- server_url=self.getURL())
- source_replica_uid = sol._dbpool.replica_uid
-
- def _create_docs():
- deferreds = []
- for i in xrange(0, REPEAT_TIMES):
- deferreds.append(sol.create_doc({}))
- return defer.gatherResults(deferreds)
-
- def _assert_transaction_and_sync_logs(results, sync_idx):
- # assert sizes of transaction and sync logs
- self.assertEqual(
- sync_idx * REPEAT_TIMES,
- len(self.db._get_transaction_log()))
- gen, _ = self.db._get_replica_gen_and_trans_id(source_replica_uid)
- self.assertEqual(sync_idx * REPEAT_TIMES, gen)
-
- def _assert_sync(results, sync_idx):
- gen, docs = results
- self.assertEqual((sync_idx + 1) * REPEAT_TIMES, gen)
- self.assertEqual((sync_idx + 1) * REPEAT_TIMES, len(docs))
- # assert sizes of transaction and sync logs
- self.assertEqual((sync_idx + 1) * REPEAT_TIMES,
- len(self.db._get_transaction_log()))
- target_known_gen, target_known_trans_id = \
- self.db._get_replica_gen_and_trans_id(source_replica_uid)
- # assert it has the correct gen and trans_id
- conn_key = sol._dbpool._u1dbconnections.keys().pop()
- conn = sol._dbpool._u1dbconnections[conn_key]
- sol_gen, sol_trans_id = conn._get_generation_info()
- self.assertEqual(sol_gen, target_known_gen)
- self.assertEqual(sol_trans_id, target_known_trans_id)
-
- # sync first time and assert success
- results = yield _create_docs()
- _assert_transaction_and_sync_logs(results, 0)
- yield sol.sync()
- results = yield sol.get_all_docs()
- _assert_sync(results, 0)
-
- # create more docs, sync second time and assert success
- results = yield _create_docs()
- _assert_transaction_and_sync_logs(results, 1)
- yield sol.sync()
- results = yield sol.get_all_docs()
- _assert_sync(results, 1)
-
- #
- # Concurrency tests
- #
-
- class _WorkerThread(threading.Thread):
-
- def __init__(self, params, run_method):
- threading.Thread.__init__(self)
- self._params = params
- self._run_method = run_method
-
- def run(self):
- self._run_method(self)
-
- def test_correct_transaction_log_after_concurrent_puts(self):
- """
- Assert that the transaction_log increases accordingly with concurrent
- puts.
- """
- pool = threading.BoundedSemaphore(value=1)
- threads = []
- docs = []
-
- def _run_method(self):
- doc = self._params['db'].create_doc({})
- pool.acquire()
- self._params['docs'].append(doc.doc_id)
- pool.release()
-
- for i in range(0, REPEAT_TIMES):
- thread = self._WorkerThread(
- {'docs': docs, 'db': self.db},
- _run_method)
- thread.start()
- threads.append(thread)
-
- for thread in threads:
- thread.join()
-
- # assert length of transaction_log
- transaction_log = self.db._get_transaction_log()
- self.assertEqual(
- REPEAT_TIMES, len(transaction_log))
-
- # assert all documents are in the log
- self.assertEqual(REPEAT_TIMES, len(docs))
- for doc_id in docs:
- self.assertEqual(
- 1,
- len(filter(lambda t: t[0] == doc_id, transaction_log)))
-
- def test_correct_transaction_log_after_concurrent_deletes(self):
- """
- Assert that the transaction_log increases accordingly with concurrent
- puts and deletes.
- """
- threads = []
- docs = []
- pool = threading.BoundedSemaphore(value=1)
-
- # create/delete method that will be run concurrently
- def _run_method(self):
- doc = self._params['db'].create_doc({})
- pool.acquire()
- docs.append(doc.doc_id)
- pool.release()
- self._params['db'].delete_doc(doc)
-
- # launch concurrent threads
- for i in range(0, REPEAT_TIMES):
- thread = self._WorkerThread({'db': self.db}, _run_method)
- thread.start()
- threads.append(thread)
-
- # wait for threads to finish
- for thread in threads:
- thread.join()
-
- # assert transaction log
- transaction_log = self.db._get_transaction_log()
- self.assertEqual(
- 2 * REPEAT_TIMES, len(transaction_log))
- # assert that each doc appears twice in the transaction_log
- self.assertEqual(REPEAT_TIMES, len(docs))
- for doc_id in docs:
- self.assertEqual(
- 2,
- len(filter(lambda t: t[0] == doc_id, transaction_log)))
-
- def test_correct_sync_log_after_concurrent_puts_and_sync(self):
- """
- Assert that the sync_log is correct after concurrent syncs.
- """
- docs = []
-
- sol = self._soledad_instance(
- auth_token='auth-token',
- server_url=self.getURL())
-
- def _save_doc_ids(results):
- for doc in results:
- docs.append(doc.doc_id)
-
- # create documents in parallel
- deferreds = []
- for i in range(0, REPEAT_TIMES):
- d = sol.create_doc({})
- deferreds.append(d)
-
- # wait for documents creation and sync
- d = defer.gatherResults(deferreds)
- d.addCallback(_save_doc_ids)
- d.addCallback(lambda _: sol.sync())
-
- def _assert_logs(results):
- transaction_log = self.db._get_transaction_log()
- self.assertEqual(REPEAT_TIMES, len(transaction_log))
- # assert all documents are in the remote log
- self.assertEqual(REPEAT_TIMES, len(docs))
- for doc_id in docs:
- self.assertEqual(
- 1,
- len(filter(lambda t: t[0] == doc_id, transaction_log)))
-
- d.addCallback(_assert_logs)
- d.addCallback(lambda _: sol.close())
-
- return d
-
- @defer.inlineCallbacks
- def test_concurrent_syncs_do_not_fail(self):
- """
- Assert that concurrent attempts to sync end up being executed
- sequentially and do not fail.
- """
- docs = []
-
- sol = self._soledad_instance(
- auth_token='auth-token',
- server_url=self.getURL())
-
- deferreds = []
- for i in xrange(0, REPEAT_TIMES):
- d = sol.create_doc({})
- d.addCallback(lambda doc: docs.append(doc.doc_id))
- d.addCallback(lambda _: sol.sync())
- deferreds.append(d)
- yield defer.gatherResults(deferreds, consumeErrors=True)
-
- transaction_log = self.db._get_transaction_log()
- self.assertEqual(REPEAT_TIMES, len(transaction_log))
- # assert all documents are in the remote log
- self.assertEqual(REPEAT_TIMES, len(docs))
- for doc_id in docs:
- self.assertEqual(
- 1,
- len(filter(lambda t: t[0] == doc_id, transaction_log)))
diff --git a/testing/tests/couch/test_backend.py b/testing/tests/couch/test_backend.py
deleted file mode 100644
index 9dfa22ac..00000000
--- a/testing/tests/couch/test_backend.py
+++ /dev/null
@@ -1,111 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_couch.py
-# Copyright (C) 2013-2016 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Test ObjectStore and Couch backend bits.
-"""
-
-from uuid import uuid4
-from six.moves.urllib.parse import urljoin
-from testscenarios import TestWithScenarios
-from twisted.trial import unittest
-
-from leap.soledad.common import couch
-
-from test_soledad.util import CouchDBTestCase
-from test_soledad.u1db_tests import test_backends
-
-from .common import COUCH_SCENARIOS
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_common_backend`.
-# -----------------------------------------------------------------------------
-
-class TestCouchBackendImpl(CouchDBTestCase):
-
- def test__allocate_doc_id(self):
- db = couch.CouchDatabase.open_database(
- urljoin(self.couch_url, 'test-%s' % uuid4().hex),
- create=True)
- doc_id1 = db._allocate_doc_id()
- self.assertTrue(doc_id1.startswith('D-'))
- self.assertEqual(34, len(doc_id1))
- int(doc_id1[len('D-'):], 16)
- self.assertNotEqual(doc_id1, db._allocate_doc_id())
- self.delete_db(db._dbname)
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_backends`.
-# -----------------------------------------------------------------------------
-
-class CouchTests(
- TestWithScenarios, test_backends.AllDatabaseTests, CouchDBTestCase):
-
- scenarios = COUCH_SCENARIOS
-
-
-class CouchBackendTests(
- TestWithScenarios,
- test_backends.LocalDatabaseTests,
- CouchDBTestCase):
-
- scenarios = COUCH_SCENARIOS
-
-
-class CouchValidateGenNTransIdTests(
- TestWithScenarios,
- test_backends.LocalDatabaseValidateGenNTransIdTests,
- CouchDBTestCase):
-
- scenarios = COUCH_SCENARIOS
-
-
-class CouchValidateSourceGenTests(
- TestWithScenarios,
- test_backends.LocalDatabaseValidateSourceGenTests,
- CouchDBTestCase):
-
- scenarios = COUCH_SCENARIOS
-
-
-class CouchWithConflictsTests(
- TestWithScenarios,
- test_backends.LocalDatabaseWithConflictsTests,
- CouchDBTestCase):
-
- scenarios = COUCH_SCENARIOS
-
-
-# Notice: the CouchDB backend does not have indexing capabilities, so we do
-# not test indexing now.
-
-# class CouchIndexTests(test_backends.DatabaseIndexTests, CouchDBTestCase):
-#
-# scenarios = COUCH_SCENARIOS
-#
-# def tearDown(self):
-# self.db.delete_database()
-# test_backends.DatabaseIndexTests.tearDown(self)
-
-
-class DatabaseNameValidationTest(unittest.TestCase):
-
- def test_database_name_validation(self):
- inject = couch.state.is_db_name_valid("user-deadbeef | cat /secret")
- self.assertFalse(inject)
- self.assertTrue(couch.state.is_db_name_valid("user-cafe1337"))
diff --git a/testing/tests/couch/test_command.py b/testing/tests/couch/test_command.py
deleted file mode 100644
index 9fb2c153..00000000
--- a/testing/tests/couch/test_command.py
+++ /dev/null
@@ -1,31 +0,0 @@
-from twisted.trial import unittest
-
-from leap.soledad.common.couch import state as couch_state
-from leap.soledad.common.l2db import errors as u1db_errors
-
-from mock import Mock
-
-
-class CommandBasedDBCreationTest(unittest.TestCase):
-
- def test_ensure_db_using_custom_command(self):
- state = couch_state.CouchServerState(
- "url", create_cmd="/bin/echo", check_schema_versions=False)
- mock_db = Mock()
- mock_db.replica_uid = 'replica_uid'
- state.open_database = Mock(return_value=mock_db)
- db, replica_uid = state.ensure_database("user-1337") # works
- self.assertEquals(mock_db, db)
- self.assertEquals(mock_db.replica_uid, replica_uid)
-
- def test_raises_unauthorized_on_failure(self):
- state = couch_state.CouchServerState(
- "url", create_cmd="inexistent", check_schema_versions=False)
- self.assertRaises(u1db_errors.Unauthorized,
- state.ensure_database, "user-1337")
-
- def test_raises_unauthorized_by_default(self):
- state = couch_state.CouchServerState("url",
- check_schema_versions=False)
- self.assertRaises(u1db_errors.Unauthorized,
- state.ensure_database, "user-1337")
diff --git a/testing/tests/couch/test_ddocs.py b/testing/tests/couch/test_ddocs.py
deleted file mode 100644
index 3937f2de..00000000
--- a/testing/tests/couch/test_ddocs.py
+++ /dev/null
@@ -1,60 +0,0 @@
-from uuid import uuid4
-
-from leap.soledad.common import couch
-
-from test_soledad.util import CouchDBTestCase
-
-
-class CouchDesignDocsTests(CouchDBTestCase):
-
- def setUp(self):
- CouchDBTestCase.setUp(self)
- self.create_db()
-
- def create_db(self, dbname=None):
- if not dbname:
- dbname = ('test-%s' % uuid4().hex)
- if dbname not in self.couch_server:
- self.couch_server.create(dbname)
- self.db = couch.CouchDatabase(
- (self.couch_url),
- dbname)
-
- def tearDown(self):
- self.db.delete_database()
- self.db.close()
- CouchDBTestCase.tearDown(self)
-
- def test_ensure_security_doc(self):
- """
- Ensure_security creates a _security ddoc to ensure that only soledad
- will have the lowest privileged access to an user db.
- """
- self.assertFalse(self.db._database.resource.get_json('_security')[2])
- self.db.ensure_security_ddoc()
- security_ddoc = self.db._database.resource.get_json('_security')[2]
- self.assertIn('admins', security_ddoc)
- self.assertFalse(security_ddoc['admins']['names'])
- self.assertIn('members', security_ddoc)
- self.assertIn('soledad', security_ddoc['members']['names'])
-
- def test_ensure_security_from_configuration(self):
- """
- Given a configuration, follow it to create the security document
- """
- configuration = {'members': ['user1', 'user2'],
- 'members_roles': ['role1', 'role2'],
- 'admins': ['admin'],
- 'admins_roles': ['administrators']
- }
- self.db.ensure_security_ddoc(configuration)
-
- security_ddoc = self.db._database.resource.get_json('_security')[2]
- self.assertEquals(configuration['admins'],
- security_ddoc['admins']['names'])
- self.assertEquals(configuration['admins_roles'],
- security_ddoc['admins']['roles'])
- self.assertEquals(configuration['members'],
- security_ddoc['members']['names'])
- self.assertEquals(configuration['members_roles'],
- security_ddoc['members']['roles'])
diff --git a/testing/tests/couch/test_state.py b/testing/tests/couch/test_state.py
deleted file mode 100644
index e5ac3704..00000000
--- a/testing/tests/couch/test_state.py
+++ /dev/null
@@ -1,32 +0,0 @@
-import pytest
-from leap.soledad.common.couch import CONFIG_DOC_ID
-from leap.soledad.common.couch import SCHEMA_VERSION
-from leap.soledad.common.couch import SCHEMA_VERSION_KEY
-from leap.soledad.common.couch.state import CouchServerState
-from uuid import uuid4
-
-from leap.soledad.common.errors import WrongCouchSchemaVersionError
-from leap.soledad.common.errors import MissingCouchConfigDocumentError
-from test_soledad.util import CouchDBTestCase
-
-
-class CouchDesignDocsTests(CouchDBTestCase):
-
- def setUp(self):
- CouchDBTestCase.setUp(self)
- self.db = self.couch_server.create('user-' + uuid4().hex)
- self.addCleanup(self.delete_db, self.db.name)
-
- def test_wrong_couch_version_raises(self):
- wrong_schema_version = SCHEMA_VERSION + 1
- self.db.create(
- {'_id': CONFIG_DOC_ID, SCHEMA_VERSION_KEY: wrong_schema_version})
- with pytest.raises(WrongCouchSchemaVersionError):
- CouchServerState(self.couch_url, create_cmd='/bin/echo',
- check_schema_versions=True)
-
- def test_missing_config_doc_raises(self):
- self.db.create({})
- with pytest.raises(MissingCouchConfigDocumentError):
- CouchServerState(self.couch_url, create_cmd='/bin/echo',
- check_schema_versions=True)
diff --git a/testing/tests/couch/test_sync.py b/testing/tests/couch/test_sync.py
deleted file mode 100644
index c353518e..00000000
--- a/testing/tests/couch/test_sync.py
+++ /dev/null
@@ -1,700 +0,0 @@
-from leap.soledad.common.l2db import vectorclock
-from leap.soledad.common.l2db import errors as u1db_errors
-
-from testscenarios import TestWithScenarios
-
-from test_soledad import u1db_tests as tests
-from test_soledad.util import CouchDBTestCase
-from test_soledad.util import sync_via_synchronizer
-from test_soledad.u1db_tests import DatabaseBaseTests
-
-from .common import simple_doc
-from .common import COUCH_SCENARIOS
-
-
-sync_scenarios = []
-for name, scenario in COUCH_SCENARIOS:
- scenario = dict(scenario)
- scenario['do_sync'] = sync_via_synchronizer
- sync_scenarios.append((name, scenario))
- scenario = dict(scenario)
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_sync`.
-# -----------------------------------------------------------------------------
-
-class CouchBackendSyncTests(
- TestWithScenarios,
- DatabaseBaseTests,
- CouchDBTestCase):
-
- scenarios = sync_scenarios
-
- def create_database(self, replica_uid, sync_role=None):
- if replica_uid == 'test' and sync_role is None:
- # created up the chain by base class but unused
- return None
- db = self.create_database_for_role(replica_uid, sync_role)
- if sync_role:
- self._use_tracking[db] = (replica_uid, sync_role)
- return db
-
- def create_database_for_role(self, replica_uid, sync_role):
- # hook point for reuse
- return DatabaseBaseTests.create_database(self, replica_uid)
-
- def copy_database(self, db, sync_role=None):
- # DO NOT COPY OR REUSE THIS CODE OUTSIDE TESTS: COPYING U1DB DATABASES
- # IS THE WRONG THING TO DO, THE ONLY REASON WE DO SO HERE IS TO TEST
- # THAT WE CORRECTLY DETECT IT HAPPENING SO THAT WE CAN RAISE ERRORS
- # RATHER THAN CORRUPT USER DATA. USE SYNC INSTEAD, OR WE WILL SEND
- # NINJA TO YOUR HOUSE.
- db_copy = self.copy_database_for_test(self, db)
- name, orig_sync_role = self._use_tracking[db]
- self._use_tracking[db_copy] = (
- name + '(copy)', sync_role or orig_sync_role)
- return db_copy
-
- def sync(self, db_from, db_to, trace_hook=None,
- trace_hook_shallow=None):
- from_name, from_sync_role = self._use_tracking[db_from]
- to_name, to_sync_role = self._use_tracking[db_to]
- if from_sync_role not in ('source', 'both'):
- raise Exception("%s marked for %s use but used as source" %
- (from_name, from_sync_role))
- if to_sync_role not in ('target', 'both'):
- raise Exception("%s marked for %s use but used as target" %
- (to_name, to_sync_role))
- return self.do_sync(self, db_from, db_to, trace_hook,
- trace_hook_shallow)
-
- def setUp(self):
- self.db = None
- self.db1 = None
- self.db2 = None
- self.db3 = None
- self.db1_copy = None
- self.db2_copy = None
- self._use_tracking = {}
- DatabaseBaseTests.setUp(self)
-
- def tearDown(self):
- for db in [
- self.db, self.db1, self.db2,
- self.db3, self.db1_copy, self.db2_copy
- ]:
- if db is not None:
- self.delete_db(db._dbname)
- db.close()
- DatabaseBaseTests.tearDown(self)
-
- def assertLastExchangeLog(self, db, expected):
- log = getattr(db, '_last_exchange_log', None)
- if log is None:
- return
- self.assertEqual(expected, log)
-
- def test_sync_tracks_db_generation_of_other(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.assertEqual(0, self.sync(self.db1, self.db2))
- self.assertEqual(
- (0, ''), self.db1._get_replica_gen_and_trans_id('test2'))
- self.assertEqual(
- (0, ''), self.db2._get_replica_gen_and_trans_id('test1'))
- self.assertLastExchangeLog(
- self.db2,
- {'receive': {'docs': [], 'last_known_gen': 0},
- 'return': {'docs': [], 'last_gen': 0}})
-
- def test_sync_autoresolves(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc1 = self.db1.create_doc_from_json(simple_doc, doc_id='doc')
- rev1 = doc1.rev
- doc2 = self.db2.create_doc_from_json(simple_doc, doc_id='doc')
- rev2 = doc2.rev
- self.sync(self.db1, self.db2)
- doc = self.db1.get_doc('doc')
- self.assertFalse(doc.has_conflicts)
- self.assertEqual(doc.rev, self.db2.get_doc('doc').rev)
- v = vectorclock.VectorClockRev(doc.rev)
- self.assertTrue(v.is_newer(vectorclock.VectorClockRev(rev1)))
- self.assertTrue(v.is_newer(vectorclock.VectorClockRev(rev2)))
-
- def test_sync_autoresolves_moar(self):
- # here we test that when a database that has a conflicted document is
- # the source of a sync, and the target database has a revision of the
- # conflicted document that is newer than the source database's, and
- # that target's database's document's content is the same as the
- # source's document's conflict's, the source's document's conflict gets
- # autoresolved, and the source's document's revision bumped.
- #
- # idea is as follows:
- # A B
- # a1 -
- # `------->
- # a1 a1
- # v v
- # a2 a1b1
- # `------->
- # a1b1+a2 a1b1
- # v
- # a1b1+a2 a1b2 (a1b2 has same content as a2)
- # `------->
- # a3b2 a1b2 (autoresolved)
- # `------->
- # a3b2 a3b2
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(simple_doc, doc_id='doc')
- self.sync(self.db1, self.db2)
- for db, content in [(self.db1, '{}'), (self.db2, '{"hi": 42}')]:
- doc = db.get_doc('doc')
- doc.set_json(content)
- db.put_doc(doc)
- self.sync(self.db1, self.db2)
- # db1 and db2 now both have a doc of {hi:42}, but db1 has a conflict
- doc = self.db1.get_doc('doc')
- rev1 = doc.rev
- self.assertTrue(doc.has_conflicts)
- # set db2 to have a doc of {} (same as db1 before the conflict)
- doc = self.db2.get_doc('doc')
- doc.set_json('{}')
- self.db2.put_doc(doc)
- rev2 = doc.rev
- # sync it across
- self.sync(self.db1, self.db2)
- # tadaa!
- doc = self.db1.get_doc('doc')
- self.assertFalse(doc.has_conflicts)
- vec1 = vectorclock.VectorClockRev(rev1)
- vec2 = vectorclock.VectorClockRev(rev2)
- vec3 = vectorclock.VectorClockRev(doc.rev)
- self.assertTrue(vec3.is_newer(vec1))
- self.assertTrue(vec3.is_newer(vec2))
- # because the conflict is on the source, sync it another time
- self.sync(self.db1, self.db2)
- # make sure db2 now has the exact same thing
- self.assertEqual(self.db1.get_doc('doc'), self.db2.get_doc('doc'))
-
- def test_sync_autoresolves_moar_backwards(self):
- # here we test that when a database that has a conflicted document is
- # the target of a sync, and the source database has a revision of the
- # conflicted document that is newer than the target database's, and
- # that source's database's document's content is the same as the
- # target's document's conflict's, the target's document's conflict gets
- # autoresolved, and the document's revision bumped.
- #
- # idea is as follows:
- # A B
- # a1 -
- # `------->
- # a1 a1
- # v v
- # a2 a1b1
- # `------->
- # a1b1+a2 a1b1
- # v
- # a1b1+a2 a1b2 (a1b2 has same content as a2)
- # <-------'
- # a3b2 a3b2 (autoresolved and propagated)
- self.db1 = self.create_database('test1', 'both')
- self.db2 = self.create_database('test2', 'both')
- self.db1.create_doc_from_json(simple_doc, doc_id='doc')
- self.sync(self.db1, self.db2)
- for db, content in [(self.db1, '{}'), (self.db2, '{"hi": 42}')]:
- doc = db.get_doc('doc')
- doc.set_json(content)
- db.put_doc(doc)
- self.sync(self.db1, self.db2)
- # db1 and db2 now both have a doc of {hi:42}, but db1 has a conflict
- doc = self.db1.get_doc('doc')
- rev1 = doc.rev
- self.assertTrue(doc.has_conflicts)
- revc = self.db1.get_doc_conflicts('doc')[-1].rev
- # set db2 to have a doc of {} (same as db1 before the conflict)
- doc = self.db2.get_doc('doc')
- doc.set_json('{}')
- self.db2.put_doc(doc)
- rev2 = doc.rev
- # sync it across
- self.sync(self.db2, self.db1)
- # tadaa!
- doc = self.db1.get_doc('doc')
- self.assertFalse(doc.has_conflicts)
- vec1 = vectorclock.VectorClockRev(rev1)
- vec2 = vectorclock.VectorClockRev(rev2)
- vec3 = vectorclock.VectorClockRev(doc.rev)
- vecc = vectorclock.VectorClockRev(revc)
- self.assertTrue(vec3.is_newer(vec1))
- self.assertTrue(vec3.is_newer(vec2))
- self.assertTrue(vec3.is_newer(vecc))
- # make sure db2 now has the exact same thing
- self.assertEqual(self.db1.get_doc('doc'), self.db2.get_doc('doc'))
-
- def test_sync_autoresolves_moar_backwards_three(self):
- # same as autoresolves_moar_backwards, but with three databases (note
- # all the syncs go in the same direction -- this is a more natural
- # scenario):
- #
- # A B C
- # a1 - -
- # `------->
- # a1 a1 -
- # `------->
- # a1 a1 a1
- # v v
- # a2 a1b1 a1
- # `------------------->
- # a2 a1b1 a2
- # `------->
- # a2+a1b1 a2
- # v
- # a2 a2+a1b1 a2c1 (same as a1b1)
- # `------------------->
- # a2c1 a2+a1b1 a2c1
- # `------->
- # a2b2c1 a2b2c1 a2c1
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'both')
- self.db3 = self.create_database('test3', 'target')
- self.db1.create_doc_from_json(simple_doc, doc_id='doc')
- self.sync(self.db1, self.db2)
- self.sync(self.db2, self.db3)
- for db, content in [(self.db2, '{"hi": 42}'),
- (self.db1, '{}'),
- ]:
- doc = db.get_doc('doc')
- doc.set_json(content)
- db.put_doc(doc)
- self.sync(self.db1, self.db3)
- self.sync(self.db2, self.db3)
- # db2 and db3 now both have a doc of {}, but db2 has a
- # conflict
- doc = self.db2.get_doc('doc')
- self.assertTrue(doc.has_conflicts)
- revc = self.db2.get_doc_conflicts('doc')[-1].rev
- self.assertEqual('{}', doc.get_json())
- self.assertEqual(self.db3.get_doc('doc').get_json(), doc.get_json())
- self.assertEqual(self.db3.get_doc('doc').rev, doc.rev)
- # set db3 to have a doc of {hi:42} (same as db2 before the conflict)
- doc = self.db3.get_doc('doc')
- doc.set_json('{"hi": 42}')
- self.db3.put_doc(doc)
- rev3 = doc.rev
- # sync it across to db1
- self.sync(self.db1, self.db3)
- # db1 now has hi:42, with a rev that is newer than db2's doc
- doc = self.db1.get_doc('doc')
- rev1 = doc.rev
- self.assertFalse(doc.has_conflicts)
- self.assertEqual('{"hi": 42}', doc.get_json())
- VCR = vectorclock.VectorClockRev
- self.assertTrue(VCR(rev1).is_newer(VCR(self.db2.get_doc('doc').rev)))
- # so sync it to db2
- self.sync(self.db1, self.db2)
- # tadaa!
- doc = self.db2.get_doc('doc')
- self.assertFalse(doc.has_conflicts)
- # db2's revision of the document is strictly newer than db1's before
- # the sync, and db3's before that sync way back when
- self.assertTrue(VCR(doc.rev).is_newer(VCR(rev1)))
- self.assertTrue(VCR(doc.rev).is_newer(VCR(rev3)))
- self.assertTrue(VCR(doc.rev).is_newer(VCR(revc)))
- # make sure both dbs now have the exact same thing
- self.assertEqual(self.db1.get_doc('doc'), self.db2.get_doc('doc'))
-
- def test_sync_puts_changes(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc = self.db1.create_doc_from_json(simple_doc)
- self.assertEqual(1, self.sync(self.db1, self.db2))
- self.assertGetDoc(self.db2, doc.doc_id, doc.rev, simple_doc, False)
- self.assertEqual(1, self.db1._get_replica_gen_and_trans_id('test2')[0])
- self.assertEqual(1, self.db2._get_replica_gen_and_trans_id('test1')[0])
- self.assertLastExchangeLog(
- self.db2,
- {'receive': {'docs': [(doc.doc_id, doc.rev)],
- 'source_uid': 'test1',
- 'source_gen': 1, 'last_known_gen': 0},
- 'return': {'docs': [], 'last_gen': 1}})
-
- def test_sync_pulls_changes(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc = self.db2.create_doc_from_json(simple_doc)
- self.assertEqual(0, self.sync(self.db1, self.db2))
- self.assertGetDoc(self.db1, doc.doc_id, doc.rev, simple_doc, False)
- self.assertEqual(1, self.db1._get_replica_gen_and_trans_id('test2')[0])
- self.assertEqual(1, self.db2._get_replica_gen_and_trans_id('test1')[0])
- self.assertLastExchangeLog(
- self.db2,
- {'receive': {'docs': [], 'last_known_gen': 0},
- 'return': {'docs': [(doc.doc_id, doc.rev)],
- 'last_gen': 1}})
- self.assertGetDoc(self.db2, doc.doc_id, doc.rev, simple_doc, False)
-
- def test_sync_pulling_doesnt_update_other_if_changed(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc = self.db2.create_doc_from_json(simple_doc)
- # After the local side has sent its list of docs, before we start
- # receiving the "targets" response, we update the local database with a
- # new record.
- # When we finish synchronizing, we can notice that something locally
- # was updated, and we cannot tell c2 our new updated generation
-
- def before_get_docs(state):
- if state != 'before get_docs':
- return
- self.db1.create_doc_from_json(simple_doc)
-
- self.assertEqual(0, self.sync(self.db1, self.db2,
- trace_hook=before_get_docs))
- self.assertLastExchangeLog(
- self.db2,
- {'receive': {'docs': [], 'last_known_gen': 0},
- 'return': {'docs': [(doc.doc_id, doc.rev)],
- 'last_gen': 1}})
- self.assertEqual(1, self.db1._get_replica_gen_and_trans_id('test2')[0])
- # c2 should not have gotten a '_record_sync_info' call, because the
- # local database had been updated more than just by the messages
- # returned from c2.
- self.assertEqual(
- (0, ''), self.db2._get_replica_gen_and_trans_id('test1'))
-
- def test_sync_doesnt_update_other_if_nothing_pulled(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(simple_doc)
-
- def no_record_sync_info(state):
- if state != 'record_sync_info':
- return
- self.fail('SyncTarget.record_sync_info was called')
- self.assertEqual(1, self.sync(self.db1, self.db2,
- trace_hook_shallow=no_record_sync_info))
- self.assertEqual(
- 1,
- self.db2._get_replica_gen_and_trans_id(self.db1._replica_uid)[0])
-
- def test_sync_ignores_convergence(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'both')
- doc = self.db1.create_doc_from_json(simple_doc)
- self.db3 = self.create_database('test3', 'target')
- self.assertEqual(1, self.sync(self.db1, self.db3))
- self.assertEqual(0, self.sync(self.db2, self.db3))
- self.assertEqual(1, self.sync(self.db1, self.db2))
- self.assertLastExchangeLog(
- self.db2,
- {'receive': {'docs': [(doc.doc_id, doc.rev)],
- 'source_uid': 'test1',
- 'source_gen': 1, 'last_known_gen': 0},
- 'return': {'docs': [], 'last_gen': 1}})
-
- def test_sync_ignores_superseded(self):
- self.db1 = self.create_database('test1', 'both')
- self.db2 = self.create_database('test2', 'both')
- doc = self.db1.create_doc_from_json(simple_doc)
- doc_rev1 = doc.rev
- self.db3 = self.create_database('test3', 'target')
- self.sync(self.db1, self.db3)
- self.sync(self.db2, self.db3)
- new_content = '{"key": "altval"}'
- doc.set_json(new_content)
- self.db1.put_doc(doc)
- doc_rev2 = doc.rev
- self.sync(self.db2, self.db1)
- self.assertLastExchangeLog(
- self.db1,
- {'receive': {'docs': [(doc.doc_id, doc_rev1)],
- 'source_uid': 'test2',
- 'source_gen': 1, 'last_known_gen': 0},
- 'return': {'docs': [(doc.doc_id, doc_rev2)],
- 'last_gen': 2}})
- self.assertGetDoc(self.db1, doc.doc_id, doc_rev2, new_content, False)
-
- def test_sync_sees_remote_conflicted(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc1 = self.db1.create_doc_from_json(simple_doc)
- doc_id = doc1.doc_id
- doc1_rev = doc1.rev
- new_doc = '{"key": "altval"}'
- doc2 = self.db2.create_doc_from_json(new_doc, doc_id=doc_id)
- doc2_rev = doc2.rev
- self.assertTransactionLog([doc1.doc_id], self.db1)
- self.sync(self.db1, self.db2)
- self.assertLastExchangeLog(
- self.db2,
- {'receive': {'docs': [(doc_id, doc1_rev)],
- 'source_uid': 'test1',
- 'source_gen': 1, 'last_known_gen': 0},
- 'return': {'docs': [(doc_id, doc2_rev)],
- 'last_gen': 1}})
- self.assertTransactionLog([doc_id, doc_id], self.db1)
- self.assertGetDoc(self.db1, doc_id, doc2_rev, new_doc, True)
- self.assertGetDoc(self.db2, doc_id, doc2_rev, new_doc, False)
-
- def test_sync_sees_remote_delete_conflicted(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc1 = self.db1.create_doc_from_json(simple_doc)
- doc_id = doc1.doc_id
- self.sync(self.db1, self.db2)
- doc2 = self.make_document(doc1.doc_id, doc1.rev, doc1.get_json())
- new_doc = '{"key": "altval"}'
- doc1.set_json(new_doc)
- self.db1.put_doc(doc1)
- self.db2.delete_doc(doc2)
- self.assertTransactionLog([doc_id, doc_id], self.db1)
- self.sync(self.db1, self.db2)
- self.assertLastExchangeLog(
- self.db2,
- {'receive': {'docs': [(doc_id, doc1.rev)],
- 'source_uid': 'test1',
- 'source_gen': 2, 'last_known_gen': 1},
- 'return': {'docs': [(doc_id, doc2.rev)],
- 'last_gen': 2}})
- self.assertTransactionLog([doc_id, doc_id, doc_id], self.db1)
- self.assertGetDocIncludeDeleted(self.db1, doc_id, doc2.rev, None, True)
- self.assertGetDocIncludeDeleted(
- self.db2, doc_id, doc2.rev, None, False)
-
- def test_sync_local_race_conflicted(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc = self.db1.create_doc_from_json(simple_doc)
- doc_id = doc.doc_id
- doc1_rev = doc.rev
- self.sync(self.db1, self.db2)
- content1 = '{"key": "localval"}'
- content2 = '{"key": "altval"}'
- doc.set_json(content2)
- self.db2.put_doc(doc)
- doc2_rev2 = doc.rev
- triggered = []
-
- def after_whatschanged(state):
- if state != 'after whats_changed':
- return
- triggered.append(True)
- doc = self.make_document(doc_id, doc1_rev, content1)
- self.db1.put_doc(doc)
-
- self.sync(self.db1, self.db2, trace_hook=after_whatschanged)
- self.assertEqual([True], triggered)
- self.assertGetDoc(self.db1, doc_id, doc2_rev2, content2, True)
-
- def test_sync_propagates_deletes(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'both')
- doc1 = self.db1.create_doc_from_json(simple_doc)
- doc_id = doc1.doc_id
- self.sync(self.db1, self.db2)
- self.db3 = self.create_database('test3', 'target')
- self.sync(self.db1, self.db3)
- self.db1.delete_doc(doc1)
- deleted_rev = doc1.rev
- self.sync(self.db1, self.db2)
- self.assertLastExchangeLog(
- self.db2,
- {'receive': {'docs': [(doc_id, deleted_rev)],
- 'source_uid': 'test1',
- 'source_gen': 2, 'last_known_gen': 1},
- 'return': {'docs': [], 'last_gen': 2}})
- self.assertGetDocIncludeDeleted(
- self.db1, doc_id, deleted_rev, None, False)
- self.assertGetDocIncludeDeleted(
- self.db2, doc_id, deleted_rev, None, False)
- self.sync(self.db2, self.db3)
- self.assertLastExchangeLog(
- self.db3,
- {'receive': {'docs': [(doc_id, deleted_rev)],
- 'source_uid': 'test2',
- 'source_gen': 2, 'last_known_gen': 0},
- 'return': {'docs': [], 'last_gen': 2}})
- self.assertGetDocIncludeDeleted(
- self.db3, doc_id, deleted_rev, None, False)
-
- def test_sync_propagates_deletes_2(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json('{"a": "1"}', doc_id='the-doc')
- self.sync(self.db1, self.db2)
- doc1_2 = self.db2.get_doc('the-doc')
- self.db2.delete_doc(doc1_2)
- self.sync(self.db1, self.db2)
- self.assertGetDocIncludeDeleted(
- self.db1, 'the-doc', doc1_2.rev, None, False)
-
- def test_sync_propagates_resolution(self):
- self.db1 = self.create_database('test1', 'both')
- self.db2 = self.create_database('test2', 'both')
- doc1 = self.db1.create_doc_from_json('{"a": 1}', doc_id='the-doc')
- self.db3 = self.create_database('test3', 'both')
- self.sync(self.db2, self.db1)
- self.assertEqual(
- self.db1._get_generation_info(),
- self.db2._get_replica_gen_and_trans_id(self.db1._replica_uid))
- self.assertEqual(
- self.db2._get_generation_info(),
- self.db1._get_replica_gen_and_trans_id(self.db2._replica_uid))
- self.sync(self.db3, self.db1)
- # update on 2
- doc2 = self.make_document('the-doc', doc1.rev, '{"a": 2}')
- self.db2.put_doc(doc2)
- self.sync(self.db2, self.db3)
- self.assertEqual(self.db3.get_doc('the-doc').rev, doc2.rev)
- # update on 1
- doc1.set_json('{"a": 3}')
- self.db1.put_doc(doc1)
- # conflicts
- self.sync(self.db2, self.db1)
- self.sync(self.db3, self.db1)
- self.assertTrue(self.db2.get_doc('the-doc').has_conflicts)
- self.assertTrue(self.db3.get_doc('the-doc').has_conflicts)
- # resolve
- conflicts = self.db2.get_doc_conflicts('the-doc')
- doc4 = self.make_document('the-doc', None, '{"a": 4}')
- revs = [doc.rev for doc in conflicts]
- self.db2.resolve_doc(doc4, revs)
- doc2 = self.db2.get_doc('the-doc')
- self.assertEqual(doc4.get_json(), doc2.get_json())
- self.assertFalse(doc2.has_conflicts)
- self.sync(self.db2, self.db3)
- doc3 = self.db3.get_doc('the-doc')
- self.assertEqual(doc4.get_json(), doc3.get_json())
- self.assertFalse(doc3.has_conflicts)
-
- def test_sync_supersedes_conflicts(self):
- self.db1 = self.create_database('test1', 'both')
- self.db2 = self.create_database('test2', 'target')
- self.db3 = self.create_database('test3', 'both')
- doc1 = self.db1.create_doc_from_json('{"a": 1}', doc_id='the-doc')
- self.db2.create_doc_from_json('{"b": 1}', doc_id='the-doc')
- self.db3.create_doc_from_json('{"c": 1}', doc_id='the-doc')
- self.sync(self.db3, self.db1)
- self.assertEqual(
- self.db1._get_generation_info(),
- self.db3._get_replica_gen_and_trans_id(self.db1._replica_uid))
- self.assertEqual(
- self.db3._get_generation_info(),
- self.db1._get_replica_gen_and_trans_id(self.db3._replica_uid))
- self.sync(self.db3, self.db2)
- self.assertEqual(
- self.db2._get_generation_info(),
- self.db3._get_replica_gen_and_trans_id(self.db2._replica_uid))
- self.assertEqual(
- self.db3._get_generation_info(),
- self.db2._get_replica_gen_and_trans_id(self.db3._replica_uid))
- self.assertEqual(3, len(self.db3.get_doc_conflicts('the-doc')))
- doc1.set_json('{"a": 2}')
- self.db1.put_doc(doc1)
- self.sync(self.db3, self.db1)
- # original doc1 should have been removed from conflicts
- self.assertEqual(3, len(self.db3.get_doc_conflicts('the-doc')))
-
- def test_sync_stops_after_get_sync_info(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc)
- self.sync(self.db1, self.db2)
-
- def put_hook(state):
- self.fail("Tracehook triggered for %s" % (state,))
-
- self.sync(self.db1, self.db2, trace_hook_shallow=put_hook)
-
- def test_sync_detects_identical_replica_uid(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test1', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc1')
- self.assertRaises(
- u1db_errors.InvalidReplicaUID, self.sync, self.db1, self.db2)
-
- def test_sync_detects_rollback_in_source(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc1')
- self.sync(self.db1, self.db2)
- self.db1_copy = self.copy_database(self.db1)
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.sync(self.db1, self.db2)
- self.assertRaises(
- u1db_errors.InvalidGeneration, self.sync, self.db1_copy, self.db2)
-
- def test_sync_detects_rollback_in_target(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id="divergent")
- self.sync(self.db1, self.db2)
- self.db2_copy = self.copy_database(self.db2)
- self.db2.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.sync(self.db1, self.db2)
- self.assertRaises(
- u1db_errors.InvalidGeneration, self.sync, self.db1, self.db2_copy)
-
- def test_sync_detects_diverged_source(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db3 = self.copy_database(self.db1)
- self.db1.create_doc_from_json(tests.simple_doc, doc_id="divergent")
- self.db3.create_doc_from_json(tests.simple_doc, doc_id="divergent")
- self.sync(self.db1, self.db2)
- self.assertRaises(
- u1db_errors.InvalidTransactionId, self.sync, self.db3, self.db2)
-
- def test_sync_detects_diverged_target(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db3 = self.copy_database(self.db2)
- self.db3.create_doc_from_json(tests.nested_doc, doc_id="divergent")
- self.db1.create_doc_from_json(tests.simple_doc, doc_id="divergent")
- self.sync(self.db1, self.db2)
- self.assertRaises(
- u1db_errors.InvalidTransactionId, self.sync, self.db1, self.db3)
-
- def test_sync_detects_rollback_and_divergence_in_source(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc1')
- self.sync(self.db1, self.db2)
- self.db1_copy = self.copy_database(self.db1)
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc3')
- self.sync(self.db1, self.db2)
- self.db1_copy.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.db1_copy.create_doc_from_json(tests.simple_doc, doc_id='doc3')
- self.assertRaises(
- u1db_errors.InvalidTransactionId, self.sync,
- self.db1_copy, self.db2)
-
- def test_sync_detects_rollback_and_divergence_in_target(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id="divergent")
- self.sync(self.db1, self.db2)
- self.db2_copy = self.copy_database(self.db2)
- self.db2.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.db2.create_doc_from_json(tests.simple_doc, doc_id='doc3')
- self.sync(self.db1, self.db2)
- self.db2_copy.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.db2_copy.create_doc_from_json(tests.simple_doc, doc_id='doc3')
- self.assertRaises(
- u1db_errors.InvalidTransactionId, self.sync,
- self.db1, self.db2_copy)
-
- def test_optional_sync_preserve_json(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- cont1 = '{"a": 2}'
- cont2 = '{"b": 3}'
- self.db1.create_doc_from_json(cont1, doc_id="1")
- self.db2.create_doc_from_json(cont2, doc_id="2")
- self.sync(self.db1, self.db2)
- self.assertEqual(cont1, self.db2.get_doc("1").get_json())
- self.assertEqual(cont2, self.db1.get_doc("2").get_json())
diff --git a/testing/tests/couch/test_sync_target.py b/testing/tests/couch/test_sync_target.py
deleted file mode 100644
index 0370a6d1..00000000
--- a/testing/tests/couch/test_sync_target.py
+++ /dev/null
@@ -1,343 +0,0 @@
-import json
-
-from leap.soledad.common.l2db import SyncTarget
-from leap.soledad.common.l2db import errors as u1db_errors
-
-from testscenarios import TestWithScenarios
-
-from test_soledad import u1db_tests as tests
-from test_soledad.util import CouchDBTestCase
-from test_soledad.util import make_local_db_and_target
-from test_soledad.u1db_tests import DatabaseBaseTests
-
-from .common import simple_doc
-from .common import nested_doc
-from .common import COUCH_SCENARIOS
-
-
-target_scenarios = [
- ('local', {'create_db_and_target': make_local_db_and_target}), ]
-
-
-class CouchBackendSyncTargetTests(
- TestWithScenarios,
- DatabaseBaseTests,
- CouchDBTestCase):
-
- # TODO: implement _set_trace_hook(_shallow) in CouchSyncTarget so
- # skipped tests can be succesfully executed.
-
- # whitebox true means self.db is the actual local db object
- # against which the sync is performed
- whitebox = True
-
- scenarios = (tests.multiply_scenarios(COUCH_SCENARIOS, target_scenarios))
-
- def set_trace_hook(self, callback, shallow=False):
- setter = (self.st._set_trace_hook if not shallow else
- self.st._set_trace_hook_shallow)
- try:
- setter(callback)
- except NotImplementedError:
- self.skipTest("%s does not implement _set_trace_hook"
- % (self.st.__class__.__name__,))
-
- def setUp(self):
- CouchDBTestCase.setUp(self)
- # other stuff
- self.db, self.st = self.create_db_and_target(self)
- self.other_changes = []
-
- def tearDown(self):
- self.db.close()
- CouchDBTestCase.tearDown(self)
-
- def receive_doc(self, doc, gen, trans_id):
- self.other_changes.append(
- (doc.doc_id, doc.rev, doc.get_json(), gen, trans_id))
-
- def test_sync_exchange_returns_many_new_docs(self):
- # This test was replicated to allow dictionaries to be compared after
- # JSON expansion (because one dictionary may have many different
- # serialized representations).
- doc = self.db.create_doc_from_json(simple_doc)
- doc2 = self.db.create_doc_from_json(nested_doc)
- self.assertTransactionLog([doc.doc_id, doc2.doc_id], self.db)
- new_gen, _ = self.st.sync_exchange(
- [], 'other-replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id, doc2.doc_id], self.db)
- self.assertEqual(2, new_gen)
- self.assertEqual(
- [(doc.doc_id, doc.rev, json.loads(simple_doc), 1),
- (doc2.doc_id, doc2.rev, json.loads(nested_doc), 2)],
- [c[:-3] + (json.loads(c[-3]), c[-2]) for c in self.other_changes])
- if self.whitebox:
- self.assertEqual(
- self.db._last_exchange_log['return'],
- {'last_gen': 2, 'docs':
- [(doc.doc_id, doc.rev), (doc2.doc_id, doc2.rev)]})
-
- def test_get_sync_target(self):
- self.assertIsNot(None, self.st)
-
- def test_get_sync_info(self):
- self.assertEqual(
- ('test', 0, '', 0, ''), self.st.get_sync_info('other'))
-
- def test_create_doc_updates_sync_info(self):
- self.assertEqual(
- ('test', 0, '', 0, ''), self.st.get_sync_info('other'))
- self.db.create_doc_from_json(simple_doc)
- self.assertEqual(1, self.st.get_sync_info('other')[1])
-
- def test_record_sync_info(self):
- self.st.record_sync_info('replica', 10, 'T-transid')
- self.assertEqual(
- ('test', 0, '', 10, 'T-transid'), self.st.get_sync_info('replica'))
-
- def test_sync_exchange(self):
- docs_by_gen = [
- (self.make_document('doc-id', 'replica:1', simple_doc), 10,
- 'T-sid')]
- new_gen, trans_id = self.st.sync_exchange(
- docs_by_gen, 'replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertGetDoc(self.db, 'doc-id', 'replica:1', simple_doc, False)
- self.assertTransactionLog(['doc-id'], self.db)
- last_trans_id = self.getLastTransId(self.db)
- self.assertEqual(([], 1, last_trans_id),
- (self.other_changes, new_gen, last_trans_id))
- self.assertEqual(10, self.st.get_sync_info('replica')[3])
-
- def test_sync_exchange_deleted(self):
- doc = self.db.create_doc_from_json('{}')
- edit_rev = 'replica:1|' + doc.rev
- docs_by_gen = [
- (self.make_document(doc.doc_id, edit_rev, None), 10, 'T-sid')]
- new_gen, trans_id = self.st.sync_exchange(
- docs_by_gen, 'replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertGetDocIncludeDeleted(
- self.db, doc.doc_id, edit_rev, None, False)
- self.assertTransactionLog([doc.doc_id, doc.doc_id], self.db)
- last_trans_id = self.getLastTransId(self.db)
- self.assertEqual(([], 2, last_trans_id),
- (self.other_changes, new_gen, trans_id))
- self.assertEqual(10, self.st.get_sync_info('replica')[3])
-
- def test_sync_exchange_push_many(self):
- docs_by_gen = [
- (self.make_document('doc-id', 'replica:1', simple_doc), 10, 'T-1'),
- (self.make_document('doc-id2', 'replica:1', nested_doc), 11,
- 'T-2')]
- new_gen, trans_id = self.st.sync_exchange(
- docs_by_gen, 'replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertGetDoc(self.db, 'doc-id', 'replica:1', simple_doc, False)
- self.assertGetDoc(self.db, 'doc-id2', 'replica:1', nested_doc, False)
- self.assertTransactionLog(['doc-id', 'doc-id2'], self.db)
- last_trans_id = self.getLastTransId(self.db)
- self.assertEqual(([], 2, last_trans_id),
- (self.other_changes, new_gen, trans_id))
- self.assertEqual(11, self.st.get_sync_info('replica')[3])
-
- def test_sync_exchange_refuses_conflicts(self):
- doc = self.db.create_doc_from_json(simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- new_doc = '{"key": "altval"}'
- docs_by_gen = [
- (self.make_document(doc.doc_id, 'replica:1', new_doc), 10,
- 'T-sid')]
- new_gen, _ = self.st.sync_exchange(
- docs_by_gen, 'replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- self.assertEqual(
- (doc.doc_id, doc.rev, simple_doc, 1), self.other_changes[0][:-1])
- self.assertEqual(1, new_gen)
- if self.whitebox:
- self.assertEqual(self.db._last_exchange_log['return'],
- {'last_gen': 1, 'docs': [(doc.doc_id, doc.rev)]})
-
- def test_sync_exchange_ignores_convergence(self):
- doc = self.db.create_doc_from_json(simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- gen, txid = self.db._get_generation_info()
- docs_by_gen = [
- (self.make_document(doc.doc_id, doc.rev, simple_doc), 10, 'T-sid')]
- new_gen, _ = self.st.sync_exchange(
- docs_by_gen, 'replica', last_known_generation=gen,
- last_known_trans_id=txid, return_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- self.assertEqual(([], 1), (self.other_changes, new_gen))
-
- def test_sync_exchange_returns_new_docs(self):
- doc = self.db.create_doc_from_json(simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- new_gen, _ = self.st.sync_exchange(
- [], 'other-replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- self.assertEqual(
- (doc.doc_id, doc.rev, simple_doc, 1), self.other_changes[0][:-1])
- self.assertEqual(1, new_gen)
- if self.whitebox:
- self.assertEqual(self.db._last_exchange_log['return'],
- {'last_gen': 1, 'docs': [(doc.doc_id, doc.rev)]})
-
- def test_sync_exchange_returns_deleted_docs(self):
- doc = self.db.create_doc_from_json(simple_doc)
- self.db.delete_doc(doc)
- self.assertTransactionLog([doc.doc_id, doc.doc_id], self.db)
- new_gen, _ = self.st.sync_exchange(
- [], 'other-replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id, doc.doc_id], self.db)
- self.assertEqual(
- (doc.doc_id, doc.rev, None, 2), self.other_changes[0][:-1])
- self.assertEqual(2, new_gen)
- if self.whitebox:
- self.assertEqual(self.db._last_exchange_log['return'],
- {'last_gen': 2, 'docs': [(doc.doc_id, doc.rev)]})
-
- def test_sync_exchange_getting_newer_docs(self):
- doc = self.db.create_doc_from_json(simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- new_doc = '{"key": "altval"}'
- docs_by_gen = [
- (self.make_document(doc.doc_id, 'test:1|z:2', new_doc), 10,
- 'T-sid')]
- new_gen, _ = self.st.sync_exchange(
- docs_by_gen, 'other-replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id, doc.doc_id], self.db)
- self.assertEqual(([], 2), (self.other_changes, new_gen))
-
- def test_sync_exchange_with_concurrent_updates_of_synced_doc(self):
- expected = []
-
- def before_whatschanged_cb(state):
- if state != 'before whats_changed':
- return
- cont = '{"key": "cuncurrent"}'
- conc_rev = self.db.put_doc(
- self.make_document(doc.doc_id, 'test:1|z:2', cont))
- expected.append((doc.doc_id, conc_rev, cont, 3))
-
- self.set_trace_hook(before_whatschanged_cb)
- doc = self.db.create_doc_from_json(simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- new_doc = '{"key": "altval"}'
- docs_by_gen = [
- (self.make_document(doc.doc_id, 'test:1|z:2', new_doc), 10,
- 'T-sid')]
- new_gen, _ = self.st.sync_exchange(
- docs_by_gen, 'other-replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertEqual(expected, [c[:-1] for c in self.other_changes])
- self.assertEqual(3, new_gen)
-
- def test_sync_exchange_with_concurrent_updates(self):
-
- def after_whatschanged_cb(state):
- if state != 'after whats_changed':
- return
- self.db.create_doc_from_json('{"new": "doc"}')
-
- self.set_trace_hook(after_whatschanged_cb)
- doc = self.db.create_doc_from_json(simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- new_doc = '{"key": "altval"}'
- docs_by_gen = [
- (self.make_document(doc.doc_id, 'test:1|z:2', new_doc), 10,
- 'T-sid')]
- new_gen, _ = self.st.sync_exchange(
- docs_by_gen, 'other-replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertEqual(([], 2), (self.other_changes, new_gen))
-
- def test_sync_exchange_converged_handling(self):
- doc = self.db.create_doc_from_json(simple_doc)
- docs_by_gen = [
- (self.make_document('new', 'other:1', '{}'), 4, 'T-foo'),
- (self.make_document(doc.doc_id, doc.rev, doc.get_json()), 5,
- 'T-bar')]
- new_gen, _ = self.st.sync_exchange(
- docs_by_gen, 'other-replica', last_known_generation=0,
- last_known_trans_id=None, return_doc_cb=self.receive_doc)
- self.assertEqual(([], 2), (self.other_changes, new_gen))
-
- def test_sync_exchange_detect_incomplete_exchange(self):
- def before_get_docs_explode(state):
- if state != 'before get_docs':
- return
- raise u1db_errors.U1DBError("fail")
- self.set_trace_hook(before_get_docs_explode)
- # suppress traceback printing in the wsgiref server
- # self.patch(simple_server.ServerHandler,
- # 'log_exception', lambda h, exc_info: None)
- doc = self.db.create_doc_from_json(simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- self.assertRaises(
- (u1db_errors.U1DBError, u1db_errors.BrokenSyncStream),
- self.st.sync_exchange, [], 'other-replica',
- last_known_generation=0, last_known_trans_id=None,
- return_doc_cb=self.receive_doc)
-
- def test_sync_exchange_doc_ids(self):
- sync_exchange_doc_ids = getattr(self.st, 'sync_exchange_doc_ids', None)
- if sync_exchange_doc_ids is None:
- self.skipTest("sync_exchange_doc_ids not implemented")
- db2 = self.create_database('test2')
- doc = db2.create_doc_from_json(simple_doc)
- new_gen, trans_id = sync_exchange_doc_ids(
- db2, [(doc.doc_id, 10, 'T-sid')], 0, None,
- return_doc_cb=self.receive_doc)
- self.assertGetDoc(self.db, doc.doc_id, doc.rev, simple_doc, False)
- self.assertTransactionLog([doc.doc_id], self.db)
- last_trans_id = self.getLastTransId(self.db)
- self.assertEqual(([], 1, last_trans_id),
- (self.other_changes, new_gen, trans_id))
- self.assertEqual(10, self.st.get_sync_info(db2._replica_uid)[3])
-
- def test__set_trace_hook(self):
- called = []
-
- def cb(state):
- called.append(state)
-
- self.set_trace_hook(cb)
- self.st.sync_exchange([], 'replica', 0, None, self.receive_doc)
- self.st.record_sync_info('replica', 0, 'T-sid')
- self.assertEqual(['before whats_changed',
- 'after whats_changed',
- 'before get_docs',
- 'record_sync_info',
- ],
- called)
-
- def test__set_trace_hook_shallow(self):
- st_trace_shallow = self.st._set_trace_hook_shallow
- target_st_trace_shallow = SyncTarget._set_trace_hook_shallow
- same_meth = st_trace_shallow == self.st._set_trace_hook
- same_fun = st_trace_shallow.im_func == target_st_trace_shallow.im_func
- if (same_meth or same_fun):
- # shallow same as full
- expected = ['before whats_changed',
- 'after whats_changed',
- 'before get_docs',
- 'record_sync_info',
- ]
- else:
- expected = ['sync_exchange', 'record_sync_info']
-
- called = []
-
- def cb(state):
- called.append(state)
-
- self.set_trace_hook(cb, shallow=True)
- self.st.sync_exchange([], 'replica', 0, None, self.receive_doc)
- self.st.record_sync_info('replica', 0, 'T-sid')
- self.assertEqual(expected, called)
diff --git a/testing/tests/pipes/test_pipes.py b/testing/tests/pipes/test_pipes.py
deleted file mode 100644
index 42ed81ac..00000000
--- a/testing/tests/pipes/test_pipes.py
+++ /dev/null
@@ -1,51 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_pipes.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for streaming components.
-"""
-from twisted.trial import unittest
-from leap.soledad.client._pipes import TruncatedTailPipe
-from leap.soledad.client._pipes import PreamblePipe
-from io import BytesIO
-
-
-class TruncatedTailPipeTestCase(unittest.TestCase):
-
- def test_tail_truncating_pipe(self):
- pipe = TruncatedTailPipe(tail_size=20)
- payload = 'A' * 100 + 'B' * 20
- for data in payload:
- pipe.write(data)
- result = pipe.close()
- assert result.getvalue() == 'A' * 100
-
-
-class PreamblePipeTestCase(unittest.TestCase):
-
- def test_preamble_pipe(self):
- remaining = BytesIO()
- preamble = BytesIO()
-
- def callback(dataBuffer):
- preamble.write(dataBuffer.getvalue())
- return remaining
- pipe = PreamblePipe(callback)
- payload = 'A' * 100 + ' ' + 'B' * 20
- for data in payload:
- pipe.write(data)
- assert remaining.getvalue() == 'B' * 20
- assert preamble.getvalue() == 'A' * 100
diff --git a/testing/tests/responsiveness/conftest.py b/testing/tests/responsiveness/conftest.py
deleted file mode 100644
index a46aea44..00000000
--- a/testing/tests/responsiveness/conftest.py
+++ /dev/null
@@ -1,20 +0,0 @@
-import pytest
-
-import elastic
-import watchdog as wd
-
-
-def _post_results(dog, request):
- elastic.post(dog.seconds_blocked, request)
-
-
-@pytest.fixture
-def watchdog(request):
- dog = wd.Watchdog()
- dog_d = dog.start()
- request.addfinalizer(lambda: _post_results(dog, request))
-
- def _run(deferred_fun):
- deferred_fun().addCallback(lambda _: dog.stop())
- return dog_d
- return _run
diff --git a/testing/tests/responsiveness/elastic.py b/testing/tests/responsiveness/elastic.py
deleted file mode 100644
index fed1506b..00000000
--- a/testing/tests/responsiveness/elastic.py
+++ /dev/null
@@ -1,47 +0,0 @@
-import datetime
-import elasticsearch
-
-from pytest_benchmark.plugin import pytest_benchmark_generate_machine_info
-from pytest_benchmark.utils import get_commit_info, get_tag, get_machine_id
-from pytest_benchmark.storage.elasticsearch import BenchmarkJSONSerializer
-
-
-def post(seconds_blocked, request,):
- body, doc_id = get_doc(seconds_blocked, request)
- url = request.config.getoption("elasticsearch_url")
- if url:
- es = elasticsearch.Elasticsearch(
- hosts=[url],
- serializer=BenchmarkJSONSerializer())
- es.index(
- index='responsiveness',
- doc_type='responsiveness',
- id=doc_id,
- body=body)
- else:
- print body
-
-
-def get_doc(seconds_blocked, request):
- fullname = request.node._nodeid
- name = request.node.name
- group = None
- marker = request.node.get_marker("responsivness")
- if marker:
- group = marker.kwargs.get("group")
-
- doc = {
- "datetime": datetime.datetime.utcnow().isoformat(),
- "commit_info": get_commit_info(),
- "fullname": fullname,
- "name": name,
- "group": group,
- "machine_info": pytest_benchmark_generate_machine_info(),
- }
-
- # generate a doc id like the one used by pytest-benchmark
- machine_id = get_machine_id()
- tag = get_tag()
- doc_id = machine_id + "_" + tag + "_" + fullname
-
- return doc, doc_id
diff --git a/testing/tests/responsiveness/test_responsiveness.py b/testing/tests/responsiveness/test_responsiveness.py
deleted file mode 100644
index b3e2c56a..00000000
--- a/testing/tests/responsiveness/test_responsiveness.py
+++ /dev/null
@@ -1,50 +0,0 @@
-import pytest
-
-from twisted.internet import defer
-
-
-@pytest.inlineCallbacks
-def load_up(client, amount, payload):
- # create a bunch of local documents
- deferreds = []
- for i in xrange(amount):
- deferreds.append(client.create_doc({'content': payload}))
- yield defer.gatherResults(deferreds)
-
-
-def create_upload(amount, size):
-
- @pytest.mark.responsiveness
- @pytest.inlineCallbacks
- def _test(soledad_client, payload, watchdog):
-
- client = soledad_client()
- yield load_up(client, amount, payload(size))
- yield watchdog(client.sync)
-
- return _test
-
-
-test_responsiveness_upload_10_1000k = create_upload(10, 1000 * 1000)
-test_responsiveness_upload_100_100k = create_upload(100, 100 * 1000)
-test_responsiveness_upload_1000_10k = create_upload(1000, 10 * 1000)
-
-
-def create_download(downloads, size):
-
- @pytest.mark.responsiveness
- @pytest.inlineCallbacks
- def _test(soledad_client, payload, watchdog):
- client = soledad_client()
- yield load_up(client, downloads, payload(size))
- yield client.sync()
-
- clean_client = soledad_client(force_fresh_db=True)
- yield watchdog(clean_client.sync)
-
- return _test
-
-
-test_responsiveness_download_10_1000k = create_download(10, 1000 * 1000)
-test_responsiveness_download_100_100k = create_download(100, 100 * 1000)
-test_responsiveness_download_1000_10k = create_download(1000, 10 * 1000)
diff --git a/testing/tests/responsiveness/watchdog.py b/testing/tests/responsiveness/watchdog.py
deleted file mode 100644
index 88f4fa67..00000000
--- a/testing/tests/responsiveness/watchdog.py
+++ /dev/null
@@ -1,53 +0,0 @@
-from twisted.internet import defer, reactor
-from twisted.internet.task import LoopingCall
-from twisted.internet.threads import deferToThread
-
-
-class Watchdog(object):
-
- DEBUG = False
-
- def __init__(self, delay=0.01):
- self.delay = delay
- self.loop_call = LoopingCall.withCount(self.watch)
- self.blocked = 0
- self.checks = []
- self.d = None
-
- def start(self):
- self.debug("\n[watchdog] starting")
- self.loop_call.start(self.delay)
- self.d = defer.Deferred()
- return self.d
-
- def watch(self, count):
- self.debug("[watchdog] watching (%d)" % count)
- if (self.loop_call.running):
- self.checks.append(deferToThread(self._check, count))
-
- def _check(self, count):
- # self.debug("[watchdog] _checking (%d)" % count)
- if count > 1:
- self.blocked += count
-
- def stop(self):
- # delay the actual stop so we make sure at least one check watch will
- # run in the reactor.
- reactor.callLater(2 * self.delay, self._stop)
-
- @defer.inlineCallbacks
- def _stop(self):
- if not self.loop_call.running:
- return
-
- self.loop_call.stop()
- yield defer.gatherResults(self.checks)
- self.d.callback(None)
-
- @property
- def seconds_blocked(self):
- return self.blocked * self.delay
-
- def debug(self, s):
- if self.DEBUG:
- print(s)
diff --git a/testing/tests/server/__init__.py b/testing/tests/server/__init__.py
deleted file mode 100644
index e69de29b..00000000
--- a/testing/tests/server/__init__.py
+++ /dev/null
diff --git a/testing/tests/server/test__resource.py b/testing/tests/server/test__resource.py
deleted file mode 100644
index a43ac19f..00000000
--- a/testing/tests/server/test__resource.py
+++ /dev/null
@@ -1,85 +0,0 @@
-# -*- coding: utf-8 -*-
-# test__resource.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for Soledad server main resource.
-"""
-from twisted.trial import unittest
-from twisted.web.test.test_web import DummyRequest
-from twisted.web.wsgi import WSGIResource
-from twisted.web.resource import getChildForRequest
-from twisted.internet import reactor
-
-from leap.soledad.server._resource import PublicResource
-from leap.soledad.server._resource import LocalResource
-from leap.soledad.server._server_info import ServerInfo
-from leap.soledad.server._blobs import BlobsResource
-from leap.soledad.server._incoming import IncomingResource
-from leap.soledad.server.gzip_middleware import GzipMiddleware
-
-
-_pool = reactor.getThreadPool()
-
-
-class PublicResourceTestCase(unittest.TestCase):
-
- def test_get_root(self):
- blobs_resource = None # doesn't matter
- resource = PublicResource(
- blobs_resource=blobs_resource, sync_pool=_pool)
- request = DummyRequest([''])
- child = getChildForRequest(resource, request)
- self.assertIsInstance(child, ServerInfo)
-
- def test_get_blobs_enabled(self):
- blobs_resource = BlobsResource("filesystem", '/tmp')
- resource = PublicResource(
- blobs_resource=blobs_resource, sync_pool=_pool)
- request = DummyRequest(['blobs'])
- child = getChildForRequest(resource, request)
- self.assertIsInstance(child, BlobsResource)
-
- def test_get_blobs_disabled(self):
- blobs_resource = None
- resource = PublicResource(
- blobs_resource=blobs_resource, sync_pool=_pool)
- request = DummyRequest(['blobs'])
- child = getChildForRequest(resource, request)
- # if blobs is disabled, the request should be routed to sync
- self.assertIsInstance(child, WSGIResource)
- self.assertIsInstance(child._application, GzipMiddleware)
-
- def test_get_sync(self):
- blobs_resource = None # doesn't matter
- resource = PublicResource(
- blobs_resource=blobs_resource, sync_pool=_pool)
- request = DummyRequest(['user-db', 'sync-from', 'source-id'])
- child = getChildForRequest(resource, request)
- self.assertIsInstance(child, WSGIResource)
- self.assertIsInstance(child._application, GzipMiddleware)
-
- def test_no_incoming_on_public_resource(self):
- resource = PublicResource(None, sync_pool=_pool)
- request = DummyRequest(['incoming'])
- child = getChildForRequest(resource, request)
- # WSGIResource is returned if a path is unknown
- self.assertIsInstance(child, WSGIResource)
-
- def test_get_incoming(self):
- resource = LocalResource()
- request = DummyRequest(['incoming'])
- child = getChildForRequest(resource, request)
- self.assertIsInstance(child, IncomingResource)
diff --git a/testing/tests/server/test__server_info.py b/testing/tests/server/test__server_info.py
deleted file mode 100644
index 40567ef1..00000000
--- a/testing/tests/server/test__server_info.py
+++ /dev/null
@@ -1,43 +0,0 @@
-# -*- coding: utf-8 -*-
-# test__server_info.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-
-"""
-Tests for Soledad server information announcement.
-"""
-import json
-
-from twisted.trial import unittest
-from twisted.web.test.test_web import DummyRequest
-
-from leap.soledad.server._server_info import ServerInfo
-
-
-class ServerInfoTestCase(unittest.TestCase):
-
- def test_blobs_enabled(self):
- resource = ServerInfo(True)
- response = resource.render(DummyRequest(['']))
- _info = json.loads(response)
- self.assertEquals(_info['blobs'], True)
- self.assertTrue(isinstance(_info['version'], basestring))
-
- def test_blobs_disabled(self):
- resource = ServerInfo(False)
- response = resource.render(DummyRequest(['']))
- _info = json.loads(response)
- self.assertEquals(_info['blobs'], False)
- self.assertTrue(isinstance(_info['version'], basestring))
diff --git a/testing/tests/server/test_auth.py b/testing/tests/server/test_auth.py
deleted file mode 100644
index 78cf20ab..00000000
--- a/testing/tests/server/test_auth.py
+++ /dev/null
@@ -1,138 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_auth.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for auth pieces.
-"""
-import os
-import collections
-import pytest
-
-from contextlib import contextmanager
-
-from twisted.cred.credentials import UsernamePassword
-from twisted.cred.error import UnauthorizedLogin
-from twisted.internet import reactor
-from twisted.internet.defer import inlineCallbacks
-from twisted.trial import unittest
-from twisted.web.resource import IResource
-from twisted.web.test import test_httpauth
-
-import leap.soledad.server.auth as auth_module
-from leap.soledad.server.auth import SoledadRealm
-from leap.soledad.server.auth import CouchDBTokenChecker
-from leap.soledad.server.auth import FileTokenChecker
-from leap.soledad.server.auth import TokenCredentialFactory
-from leap.soledad.server._resource import PublicResource
-
-
-class SoledadRealmTestCase(unittest.TestCase):
-
- def test_returned_resource(self):
- # we have to pass a pool to the realm , otherwise tests will hang
- conf = {'blobs': False}
- pool = reactor.getThreadPool()
- realm = SoledadRealm(conf=conf, sync_pool=pool)
- iface, avatar, logout = realm.requestAvatar('any', None, IResource)
- self.assertIsInstance(avatar, PublicResource)
- self.assertIsNone(logout())
-
-
-class DummyServer(object):
- """
- I fake the `couchdb.client.Server` GET api and always return the token
- given on my creation.
- """
-
- def __init__(self, token):
- self._token = token
-
- def get(self, _):
- return self._token
-
-
-@contextmanager
-def dummy_server(token):
- yield collections.defaultdict(lambda: DummyServer(token))
-
-
-class CouchDBTokenCheckerTestCase(unittest.TestCase):
-
- @inlineCallbacks
- def test_good_creds(self):
- # set up a dummy server which always return a *valid* token document
- token = {'user_id': 'user', 'type': 'Token'}
- server = dummy_server(token)
- # setup the checker with the custom server
- checker = CouchDBTokenChecker()
- auth_module.couch_server = lambda url: server
- # assert the checker *can* verify the creds
- creds = UsernamePassword('user', 'pass')
- avatarId = yield checker.requestAvatarId(creds)
- self.assertEqual('user', avatarId)
-
- @inlineCallbacks
- def test_bad_creds(self):
- # set up a dummy server which always return an *invalid* token document
- token = None
- server = dummy_server(token)
- # setup the checker with the custom server
- checker = CouchDBTokenChecker()
- auth_module.couch_server = lambda url: server
- # assert the checker *cannot* verify the creds
- creds = UsernamePassword('user', '')
- with self.assertRaises(UnauthorizedLogin):
- yield checker.requestAvatarId(creds)
-
-
-class FileTokenCheckerTestCase(unittest.TestCase):
-
- @inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_good_creds(self):
- auth_file_path = os.path.join(self.tempdir, 'auth.file')
- with open(auth_file_path, 'w') as tempfile:
- tempfile.write('goodservice:goodtoken')
- # setup the checker with the auth tokens file
- conf = {'services_tokens_file': auth_file_path}
- checker = FileTokenChecker(conf)
- # assert the checker *can* verify the creds
- creds = UsernamePassword('goodservice', 'goodtoken')
- avatarId = yield checker.requestAvatarId(creds)
- self.assertEqual('goodservice', avatarId)
-
- @inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_bad_creds(self):
- auth_file_path = os.path.join(self.tempdir, 'auth.file')
- with open(auth_file_path, 'w') as tempfile:
- tempfile.write('service:token')
- # setup the checker with the auth tokens file
- conf = {'services_tokens_file': auth_file_path}
- checker = FileTokenChecker(conf)
- # assert the checker *cannot* verify the creds
- creds = UsernamePassword('service', 'wrongtoken')
- with self.assertRaises(UnauthorizedLogin):
- yield checker.requestAvatarId(creds)
-
-
-class TokenCredentialFactoryTestcase(
- test_httpauth.RequestMixin, test_httpauth.BasicAuthTestsMixin,
- unittest.TestCase):
-
- def setUp(self):
- test_httpauth.BasicAuthTestsMixin.setUp(self)
- self.credentialFactory = TokenCredentialFactory()
diff --git a/testing/tests/server/test_blobs_resource_validation.py b/testing/tests/server/test_blobs_resource_validation.py
deleted file mode 100644
index 9f6dfc2f..00000000
--- a/testing/tests/server/test_blobs_resource_validation.py
+++ /dev/null
@@ -1,63 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_blobs_resource_validation.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for invalid user or blob_id on blobs resource
-"""
-import pytest
-from twisted.trial import unittest
-from twisted.web.test.test_web import DummyRequest
-from leap.soledad.server import _blobs as server_blobs
-
-
-class BlobServerTestCase(unittest.TestCase):
-
- @pytest.mark.usefixtures("method_tmpdir")
- def setUp(self):
- self.resource = server_blobs.BlobsResource("filesystem", self.tempdir)
-
- @pytest.mark.usefixtures("method_tmpdir")
- def test_valid_arguments(self):
- request = DummyRequest(['v4l1d-us3r', 'v4l1d-bl0b-1d'])
- self.assertTrue(self.resource._validate(request))
-
- @pytest.mark.usefixtures("method_tmpdir")
- def test_invalid_user_get(self):
- request = DummyRequest(['invalid user', 'valid-blob-id'])
- request.path = '/blobs/'
- with pytest.raises(Exception):
- self.resource.render_GET(request)
-
- @pytest.mark.usefixtures("method_tmpdir")
- def test_invalid_user_put(self):
- request = DummyRequest(['invalid user', 'valid-blob-id'])
- request.path = '/blobs/'
- with pytest.raises(Exception):
- self.resource.render_PUT(request)
-
- @pytest.mark.usefixtures("method_tmpdir")
- def test_invalid_blob_id_get(self):
- request = DummyRequest(['valid-user', 'invalid blob id'])
- request.path = '/blobs/'
- with pytest.raises(Exception):
- self.resource.render_GET(request)
-
- @pytest.mark.usefixtures("method_tmpdir")
- def test_invalid_blob_id_put(self):
- request = DummyRequest(['valid-user', 'invalid blob id'])
- request.path = '/blobs/'
- with pytest.raises(Exception):
- self.resource.render_PUT(request)
diff --git a/testing/tests/server/test_blobs_server.py b/testing/tests/server/test_blobs_server.py
deleted file mode 100644
index 9eddf108..00000000
--- a/testing/tests/server/test_blobs_server.py
+++ /dev/null
@@ -1,286 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_blobs_server.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Integration tests for blobs server
-"""
-import os
-import pytest
-from uuid import uuid4
-from io import BytesIO
-from twisted.trial import unittest
-from twisted.web.server import Site
-from twisted.internet import reactor
-from twisted.internet import defer
-from treq._utils import set_global_pool
-
-from leap.soledad.common.blobs import Flags
-from leap.soledad.server import _blobs as server_blobs
-from leap.soledad.client._db.blobs import BlobManager
-from leap.soledad.client._db.blobs import BlobAlreadyExistsError
-from leap.soledad.client._db.blobs import InvalidFlagsError
-from leap.soledad.client._db.blobs import SoledadError
-
-
-class BlobServerTestCase(unittest.TestCase):
-
- def setUp(self):
- root = server_blobs.BlobsResource("filesystem", self.tempdir)
- site = Site(root)
- self.port = reactor.listenTCP(0, site, interface='127.0.0.1')
- self.host = self.port.getHost()
- self.uri = 'http://%s:%s/' % (self.host.host, self.host.port)
- self.secret = 'A' * 96
- set_global_pool(None)
-
- def tearDown(self):
- self.port.stopListening()
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_upload_download(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- fd = BytesIO("save me")
- yield manager._encrypt_and_upload('blob_id', fd)
- blob, size = yield manager._download_and_decrypt('blob_id')
- self.assertEquals(blob.getvalue(), "save me")
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_set_get_flags(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- fd = BytesIO("flag me")
- yield manager._encrypt_and_upload('blob_id', fd)
- yield manager.set_flags('blob_id', [Flags.PROCESSING])
- flags = yield manager.get_flags('blob_id')
- self.assertEquals([Flags.PROCESSING], flags)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_set_flags_raises_if_no_blob_found(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- with pytest.raises(SoledadError):
- yield manager.set_flags('missing_id', [Flags.PENDING])
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_list_filter_flag(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- fd = BytesIO("flag me")
- yield manager._encrypt_and_upload('blob_id', fd)
- yield manager.set_flags('blob_id', [Flags.PROCESSING])
- blobs_list = yield manager.remote_list(filter_flag=Flags.PENDING)
- self.assertEquals([], blobs_list)
- blobs_list = yield manager.remote_list(filter_flag=Flags.PROCESSING)
- self.assertEquals(['blob_id'], blobs_list)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_list_filter_flag_order_by_date(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- yield manager._encrypt_and_upload('blob_id1', BytesIO("x"))
- yield manager._encrypt_and_upload('blob_id2', BytesIO("x"))
- yield manager._encrypt_and_upload('blob_id3', BytesIO("x"))
- yield manager.set_flags('blob_id1', [Flags.PROCESSING])
- yield manager.set_flags('blob_id2', [Flags.PROCESSING])
- yield manager.set_flags('blob_id3', [Flags.PROCESSING])
- blobs_list = yield manager.remote_list(filter_flag=Flags.PROCESSING,
- order_by='+date')
- expected_list = ['blob_id1', 'blob_id2', 'blob_id3']
- self.assertEquals(expected_list, blobs_list)
- blobs_list = yield manager.remote_list(filter_flag=Flags.PROCESSING,
- order_by='-date')
- self.assertEquals(list(reversed(expected_list)), blobs_list)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_cant_set_invalid_flags(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- fd = BytesIO("flag me")
- yield manager._encrypt_and_upload('blob_id', fd)
- with pytest.raises(InvalidFlagsError):
- yield manager.set_flags('blob_id', ['invalid'])
- flags = yield manager.get_flags('blob_id')
- self.assertEquals([], flags)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_get_empty_flags(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- fd = BytesIO("flag me")
- yield manager._encrypt_and_upload('blob_id', fd)
- flags = yield manager.get_flags('blob_id')
- self.assertEquals([], flags)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_flags_ignored_by_listing(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- fd = BytesIO("flag me")
- yield manager._encrypt_and_upload('blob_id', fd)
- yield manager.set_flags('blob_id', [Flags.PROCESSING])
- blobs_list = yield manager.remote_list()
- self.assertEquals(['blob_id'], blobs_list)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_upload_changes_remote_list(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- yield manager._encrypt_and_upload('blob_id1', BytesIO("1"))
- yield manager._encrypt_and_upload('blob_id2', BytesIO("2"))
- blobs_list = yield manager.remote_list()
- self.assertEquals(set(['blob_id1', 'blob_id2']), set(blobs_list))
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_list_orders_by_date(self):
- user_uid = uuid4().hex
- manager = BlobManager('', self.uri, self.secret,
- self.secret, user_uid)
- yield manager._encrypt_and_upload('blob_id1', BytesIO("1"))
- yield manager._encrypt_and_upload('blob_id2', BytesIO("2"))
- blobs_list = yield manager.remote_list(order_by='date')
- self.assertEquals(['blob_id1', 'blob_id2'], blobs_list)
- parts = [user_uid, 'default', 'b', 'blo', 'blob_i', 'blob_id1']
- self.__touch(self.tempdir, *parts)
- blobs_list = yield manager.remote_list(order_by='+date')
- self.assertEquals(['blob_id2', 'blob_id1'], blobs_list)
- blobs_list = yield manager.remote_list(order_by='-date')
- self.assertEquals(['blob_id1', 'blob_id2'], blobs_list)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_count(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- deferreds = []
- for i in range(10):
- deferreds.append(manager._encrypt_and_upload(str(i), BytesIO("1")))
- yield defer.gatherResults(deferreds)
-
- result = yield manager.count()
- self.assertEquals({"count": len(deferreds)}, result)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_list_restricted_by_namespace(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- namespace = 'incoming'
- yield manager._encrypt_and_upload('blob_id1', BytesIO("1"),
- namespace=namespace)
- yield manager._encrypt_and_upload('blob_id2', BytesIO("2"))
- blobs_list = yield manager.remote_list(namespace=namespace)
- self.assertEquals(['blob_id1'], blobs_list)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_list_default_doesnt_list_other_namespaces(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- namespace = 'incoming'
- yield manager._encrypt_and_upload('blob_id1', BytesIO("1"),
- namespace=namespace)
- yield manager._encrypt_and_upload('blob_id2', BytesIO("2"))
- blobs_list = yield manager.remote_list()
- self.assertEquals(['blob_id2'], blobs_list)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_download_from_namespace(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- namespace, blob_id, content = 'incoming', 'blob_id1', 'test'
- yield manager._encrypt_and_upload(blob_id, BytesIO(content),
- namespace=namespace)
- got_blob = yield manager._download_and_decrypt(blob_id, namespace)
- self.assertEquals(content, got_blob[0].getvalue())
-
- def __touch(self, *args):
- path = os.path.join(*args)
- with open(path, 'a'):
- os.utime(path, None)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_upload_deny_duplicates(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- fd = BytesIO("save me")
- yield manager._encrypt_and_upload('blob_id', fd)
- fd = BytesIO("save me")
- with pytest.raises(BlobAlreadyExistsError):
- yield manager._encrypt_and_upload('blob_id', fd)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_send_missing(self):
- manager = BlobManager(self.tempdir, self.uri, self.secret,
- self.secret, uuid4().hex)
- self.addCleanup(manager.close)
- blob_id = 'local_only_blob_id'
- yield manager.local.put(blob_id, BytesIO("X"), size=1)
- yield manager.send_missing()
- result = yield manager._download_and_decrypt(blob_id)
- self.assertIsNotNone(result)
- self.assertEquals(result[0].getvalue(), "X")
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_fetch_missing(self):
- manager = BlobManager(self.tempdir, self.uri, self.secret,
- self.secret, uuid4().hex)
- self.addCleanup(manager.close)
- blob_id = 'remote_only_blob_id'
- yield manager._encrypt_and_upload(blob_id, BytesIO("X"))
- yield manager.fetch_missing()
- result = yield manager.local.get(blob_id)
- self.assertIsNotNone(result)
- self.assertEquals(result.getvalue(), "X")
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_upload_then_delete_updates_list(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- yield manager._encrypt_and_upload('blob_id1', BytesIO("1"))
- yield manager._encrypt_and_upload('blob_id2', BytesIO("2"))
- yield manager._delete_from_remote('blob_id1')
- blobs_list = yield manager.remote_list()
- self.assertEquals(set(['blob_id2']), set(blobs_list))
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_upload_then_delete_updates_list_using_namespace(self):
- manager = BlobManager('', self.uri, self.secret,
- self.secret, uuid4().hex)
- namespace = 'special_archives'
- yield manager._encrypt_and_upload('blob_id1', BytesIO("1"),
- namespace=namespace)
- yield manager._encrypt_and_upload('blob_id2', BytesIO("2"),
- namespace=namespace)
- yield manager._delete_from_remote('blob_id1', namespace=namespace)
- blobs_list = yield manager.remote_list(namespace=namespace)
- self.assertEquals(set(['blob_id2']), set(blobs_list))
diff --git a/testing/tests/server/test_config.py b/testing/tests/server/test_config.py
deleted file mode 100644
index dfb09f4c..00000000
--- a/testing/tests/server/test_config.py
+++ /dev/null
@@ -1,70 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_config.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for server configuration.
-"""
-
-from twisted.trial import unittest
-from pkg_resources import resource_filename
-
-from leap.soledad.server._config import _load_config
-from leap.soledad.server._config import CONFIG_DEFAULTS
-
-
-class ConfigurationParsingTest(unittest.TestCase):
-
- def setUp(self):
- self.maxDiff = None
-
- def test_use_defaults_on_failure(self):
- config = _load_config('this file will never exist')
- expected = CONFIG_DEFAULTS
- self.assertEquals(expected, config)
-
- def test_security_values_configuration(self):
- # given
- config_path = resource_filename('test_soledad',
- 'fixture_soledad.conf')
- # when
- config = _load_config(config_path)
-
- # then
- expected = {'members': ['user1', 'user2'],
- 'members_roles': ['role1', 'role2'],
- 'admins': ['user3', 'user4'],
- 'admins_roles': ['role3', 'role3']}
- self.assertDictEqual(expected, config['database-security'])
-
- def test_server_values_configuration(self):
- # given
- config_path = resource_filename('test_soledad',
- 'fixture_soledad.conf')
- # when
- config = _load_config(config_path)
-
- # then
- expected = {'couch_url':
- 'http://soledad:passwd@localhost:5984',
- 'create_cmd':
- 'sudo -u soledad-admin /usr/bin/soledad-create-userdb',
- 'admin_netrc':
- '/etc/couchdb/couchdb-soledad-admin.netrc',
- 'batching': False,
- 'blobs': False,
- 'services_tokens_file': '/etc/soledad/services.tokens',
- 'blobs_path': '/var/lib/soledad/blobs'}
- self.assertDictEqual(expected, config['soledad-server'])
diff --git a/testing/tests/server/test_incoming_flow_integration.py b/testing/tests/server/test_incoming_flow_integration.py
deleted file mode 100644
index b492534f..00000000
--- a/testing/tests/server/test_incoming_flow_integration.py
+++ /dev/null
@@ -1,97 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_incoming_flow_integration.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Integration tests for the complete flow of IncomingBox feature
-"""
-import pytest
-from uuid import uuid4
-from twisted.trial import unittest
-from twisted.web.server import Site
-from twisted.internet import reactor
-from twisted.internet import defer
-from twisted.web.resource import Resource
-from zope.interface import implementer
-
-from leap.soledad.client.incoming import IncomingBoxProcessingLoop
-from leap.soledad.client.incoming import IncomingBox
-from leap.soledad.server import _blobs as server_blobs
-from leap.soledad.client._db.blobs import BlobManager
-from leap.soledad.server._incoming import IncomingResource
-from leap.soledad.server._blobs import BlobsServerState
-from leap.soledad.client import interfaces
-
-
-@implementer(interfaces.IIncomingBoxConsumer)
-class GoodConsumer(object):
- def __init__(self):
- self.name = 'GoodConsumer'
- self.processed, self.saved = [], []
-
- def process(self, item, item_id, encrypted=True):
- self.processed.append(item_id)
- return defer.succeed([item_id])
-
- def save(self, parts, item_id):
- self.saved.append(item_id)
- return defer.succeed(None)
-
-
-class IncomingFlowIntegrationTestCase(unittest.TestCase):
-
- def setUp(self):
- root = Resource()
- state = BlobsServerState('filesystem', blobs_path=self.tempdir)
- incoming_resource = IncomingResource(state)
- blobs_resource = server_blobs.BlobsResource("filesystem", self.tempdir)
- root.putChild('blobs', blobs_resource)
- root.putChild('incoming', incoming_resource)
- site = Site(root)
- self.port = reactor.listenTCP(0, site, interface='127.0.0.1')
- self.host = self.port.getHost()
- self.uri = 'http://%s:%s/' % (self.host.host, self.host.port)
- self.blobs_uri = self.uri + 'blobs/'
- self.incoming_uri = self.uri + 'incoming'
- self.user_id = 'user-' + uuid4().hex
- self.secret = 'A' * 96
- self.blob_manager = BlobManager(self.tempdir, self.blobs_uri,
- self.secret, self.secret,
- self.user_id)
- self.box = IncomingBox(self.blob_manager, 'MX')
- self.loop = IncomingBoxProcessingLoop(self.box)
- # FIXME: We use blob_manager client only to avoid DelayedCalls
- # Somehow treq being used here keeps a connection pool open
- self.client = self.blob_manager._client
-
- def fill(self, messages):
- deferreds = []
- for message_id, message in messages:
- uri = '%s/%s/%s' % (self.incoming_uri, self.user_id, message_id)
- deferreds.append(self.blob_manager._client.put(uri, data=message))
- return defer.gatherResults(deferreds)
-
- def tearDown(self):
- self.port.stopListening()
- self.blob_manager.close()
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_consume_a_incoming_message(self):
- yield self.fill([('msg1', 'blob')])
- consumer = GoodConsumer()
- self.loop.add_consumer(consumer)
- yield self.loop()
- self.assertIn('msg1', consumer.processed)
diff --git a/testing/tests/server/test_incoming_resource.py b/testing/tests/server/test_incoming_resource.py
deleted file mode 100644
index 0d4918b9..00000000
--- a/testing/tests/server/test_incoming_resource.py
+++ /dev/null
@@ -1,57 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_incoming_resource.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Unit tests for incoming API resource
-"""
-from twisted.trial import unittest
-from twisted.web.test.test_web import DummyRequest
-from leap.soledad.server._incoming import IncomingResource
-from leap.soledad.server._incoming import IncomingFormatter
-from leap.soledad.common.crypto import EncryptionSchemes
-from io import BytesIO
-from uuid import uuid4
-from mock import Mock
-
-
-class IncomingResourceTestCase(unittest.TestCase):
-
- def setUp(self):
- self.couchdb = Mock()
- self.backend_factory = Mock()
- self.backend_factory.open_database.return_value = self.couchdb
- self.resource = IncomingResource(self.backend_factory)
- self.user_uuid = uuid4().hex
-
- def test_save_document(self):
- formatter = IncomingFormatter()
- doc_id, scheme = uuid4().hex, EncryptionSchemes.PUBKEY
- content = 'Incoming content'
- request = DummyRequest([self.user_uuid, doc_id])
- request.content = BytesIO(content)
- self.resource.render_PUT(request)
-
- open_database = self.backend_factory.open_database
- open_database.assert_called_once_with(self.user_uuid)
- self.couchdb.put_doc.assert_called_once()
- doc = self.couchdb.put_doc.call_args[0][0]
- self.assertEquals(doc_id, doc.doc_id)
- self.assertEquals(formatter.format(content, scheme), doc.content)
-
- def test_formatter(self):
- formatter = IncomingFormatter()
- formatted = formatter.format('content', EncryptionSchemes.PUBKEY)
- self.assertEquals(formatted['_enc_scheme'], EncryptionSchemes.PUBKEY)
diff --git a/testing/tests/server/test_incoming_server.py b/testing/tests/server/test_incoming_server.py
deleted file mode 100644
index 241bc581..00000000
--- a/testing/tests/server/test_incoming_server.py
+++ /dev/null
@@ -1,92 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_incoming_server.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Integration tests for incoming API
-"""
-import pytest
-import json
-from io import BytesIO
-from uuid import uuid4
-from twisted.web.test.test_web import DummyRequest
-from twisted.web.server import Site
-from twisted.internet import reactor
-from twisted.internet import defer
-import treq
-
-from leap.soledad.server._incoming import IncomingResource
-from leap.soledad.server._blobs import BlobsServerState
-from leap.soledad.server._incoming import IncomingFormatter
-from leap.soledad.common.crypto import EncryptionSchemes
-from leap.soledad.common.blobs import Flags
-from test_soledad.util import CouchServerStateForTests
-from test_soledad.util import CouchDBTestCase
-
-
-class IncomingOnCouchServerTestCase(CouchDBTestCase):
-
- def setUp(self):
- self.port = None
-
- def tearDown(self):
- if self.port:
- self.port.stopListening()
-
- def prepare(self, backend):
- self.user_id = 'user-' + uuid4().hex
- if backend == 'couch':
- self.state = CouchServerStateForTests(self.couch_url)
- self.state.ensure_database(self.user_id)
- else:
- self.state = BlobsServerState(backend)
- root = IncomingResource(self.state)
- site = Site(root)
- self.port = reactor.listenTCP(0, site, interface='127.0.0.1')
- self.host = self.port.getHost()
- self.uri = 'http://%s:%s/' % (self.host.host, self.host.port)
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_put_incoming_creates_a_document_using_couch(self):
- self.prepare('couch')
- user_id, doc_id = self.user_id, uuid4().hex
- content, scheme = 'Hi', EncryptionSchemes.PUBKEY
- formatter = IncomingFormatter()
- incoming_endpoint = self.uri + '%s/%s' % (user_id, doc_id)
- yield treq.put(incoming_endpoint, BytesIO(content), persistent=False)
- db = self.state.open_database(user_id)
-
- doc = db.get_doc(doc_id)
- self.assertEquals(doc.content, formatter.format(content, scheme))
-
- @defer.inlineCallbacks
- @pytest.mark.usefixtures("method_tmpdir")
- def test_put_incoming_creates_a_blob_using_filesystem(self):
- self.prepare('filesystem')
- user_id, doc_id = self.user_id, uuid4().hex
- content = 'Hi'
- formatter = IncomingFormatter()
- incoming_endpoint = self.uri + '%s/%s' % (user_id, doc_id)
- yield treq.put(incoming_endpoint, BytesIO(content), persistent=False)
-
- db = self.state.open_database(user_id)
- request = DummyRequest([user_id, doc_id])
- yield db.read_blob(user_id, doc_id, request, 'MX')
- flags = db.get_flags(user_id, doc_id, request, 'MX')
- flags = json.loads(flags)
- expected = formatter.preamble(content, doc_id) + ' ' + content
- self.assertEquals(expected, request.written[0])
- self.assertIn(Flags.PENDING, flags)
diff --git a/testing/tests/server/test_server.py b/testing/tests/server/test_server.py
deleted file mode 100644
index 25f0cc2d..00000000
--- a/testing/tests/server/test_server.py
+++ /dev/null
@@ -1,230 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_server.py
-# Copyright (C) 2013 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for server-related functionality.
-"""
-import binascii
-import os
-import pytest
-
-from six.moves.urllib.parse import urljoin
-from uuid import uuid4
-
-from twisted.internet import defer
-
-from leap.soledad.common.couch.state import CouchServerState
-from leap.soledad.common.couch import CouchDatabase
-from test_soledad.u1db_tests import TestCaseWithServer
-from test_soledad.util import CouchDBTestCase
-from test_soledad.util import (
- make_token_soledad_app,
- make_soledad_document_for_test,
- soledad_sync_target,
-)
-
-from leap.soledad.client import _crypto
-from leap.soledad.client import Soledad
-
-
-@pytest.mark.needs_couch
-@pytest.mark.usefixtures("method_tmpdir")
-class EncryptedSyncTestCase(
- CouchDBTestCase, TestCaseWithServer):
-
- """
- Tests for encrypted sync using Soledad server backed by a couch database.
- """
-
- # increase twisted.trial's timeout because large files syncing might take
- # some time to finish.
- timeout = 500
-
- @staticmethod
- def make_app_with_state(state):
- return make_token_soledad_app(state)
-
- make_document_for_test = make_soledad_document_for_test
-
- sync_target = soledad_sync_target
-
- def _soledad_instance(self, user=None, passphrase=u'123',
- prefix='',
- secrets_path='secrets.json',
- local_db_path='soledad.u1db',
- server_url='',
- cert_file=None, auth_token=None):
- """
- Instantiate Soledad.
- """
-
- # this callback ensures we save a document which is sent to the shared
- # db.
- def _put_doc_side_effect(doc):
- self._doc_put = doc
-
- if not server_url:
- # attempt to find the soledad server url
- server_address = None
- server = getattr(self, 'server', None)
- if server:
- server_address = getattr(self.server, 'server_address', None)
- else:
- host = self.port.getHost()
- server_address = (host.host, host.port)
- if server_address:
- server_url = 'http://%s:%d' % (server_address)
-
- return Soledad(
- user,
- passphrase,
- secrets_path=os.path.join(self.tempdir, prefix, secrets_path),
- local_db_path=os.path.join(
- self.tempdir, prefix, local_db_path),
- server_url=server_url,
- cert_file=cert_file,
- auth_token=auth_token,
- shared_db=self.get_default_shared_mock(_put_doc_side_effect))
-
- def make_app(self):
- self.request_state = CouchServerState(self.couch_url)
- return self.make_app_with_state(self.request_state)
-
- def setUp(self):
- CouchDBTestCase.setUp(self)
- TestCaseWithServer.setUp(self)
-
- def tearDown(self):
- CouchDBTestCase.tearDown(self)
- TestCaseWithServer.tearDown(self)
-
- def _test_encrypted_sym_sync(self, passphrase=u'123', doc_size=2,
- number_of_docs=1):
- """
- Test the complete syncing chain between two soledad dbs using a
- Soledad server backed by a couch database.
- """
- self.startTwistedServer()
- user = 'user-' + uuid4().hex
-
- # this will store all docs ids to avoid get_all_docs
- created_ids = []
-
- # instantiate soledad and create a document
- sol1 = self._soledad_instance(
- user=user,
- # token is verified in test_target.make_token_soledad_app
- auth_token='auth-token',
- passphrase=passphrase)
-
- # instantiate another soledad using the same secret as the previous
- # one (so we can correctly verify the mac of the synced document)
- sol2 = self._soledad_instance(
- user=user,
- prefix='x',
- auth_token='auth-token',
- secrets_path=sol1.secrets_path,
- passphrase=passphrase)
-
- # ensure remote db exists before syncing
- db = CouchDatabase.open_database(
- urljoin(self.couch_url, 'user-' + user),
- create=True)
-
- def _db1AssertEmptyDocList(results):
- _, doclist = results
- self.assertEqual([], doclist)
-
- def _db1CreateDocs(results):
- deferreds = []
- for i in xrange(number_of_docs):
- content = binascii.hexlify(os.urandom(doc_size / 2))
- d = sol1.create_doc({'data': content})
- d.addCallback(created_ids.append)
- deferreds.append(d)
- return defer.DeferredList(deferreds)
-
- def _db1AssertDocsSyncedToServer(results):
- self.assertEqual(number_of_docs, len(created_ids))
- for soldoc in created_ids:
- couchdoc = db.get_doc(soldoc.doc_id)
- self.assertTrue(couchdoc)
- # assert document structure in couch server
- self.assertEqual(soldoc.doc_id, couchdoc.doc_id)
- self.assertEqual(soldoc.rev, couchdoc.rev)
- couch_content = couchdoc.content.keys()
- self.assertEqual(['raw'], couch_content)
- content = couchdoc.get_json()
- self.assertTrue(_crypto.is_symmetrically_encrypted(content))
-
- d = sol1.get_all_docs()
- d.addCallback(_db1AssertEmptyDocList)
- d.addCallback(_db1CreateDocs)
- d.addCallback(lambda _: sol1.sync())
- d.addCallback(_db1AssertDocsSyncedToServer)
-
- def _db2AssertEmptyDocList(results):
- _, doclist = results
- self.assertEqual([], doclist)
-
- def _getAllDocsFromBothDbs(results):
- d1 = sol1.get_all_docs()
- d2 = sol2.get_all_docs()
- return defer.DeferredList([d1, d2])
-
- d.addCallback(lambda _: sol2.get_all_docs())
- d.addCallback(_db2AssertEmptyDocList)
- d.addCallback(lambda _: sol2.sync())
- d.addCallback(_getAllDocsFromBothDbs)
-
- def _assertDocSyncedFromDb1ToDb2(results):
- r1, r2 = results
- _, (gen1, doclist1) = r1
- _, (gen2, doclist2) = r2
- self.assertEqual(number_of_docs, gen1)
- self.assertEqual(number_of_docs, gen2)
- self.assertEqual(number_of_docs, len(doclist1))
- self.assertEqual(number_of_docs, len(doclist2))
- self.assertEqual(doclist1[0], doclist2[0])
-
- d.addCallback(_assertDocSyncedFromDb1ToDb2)
-
- def _cleanUp(results):
- db.delete_database()
- db.close()
- sol1.close()
- sol2.close()
-
- d.addCallback(_cleanUp)
-
- return d
-
- def test_encrypted_sym_sync(self):
- return self._test_encrypted_sym_sync()
-
- def test_encrypted_sym_sync_with_unicode_passphrase(self):
- """
- Test the complete syncing chain between two soledad dbs using a
- Soledad server backed by a couch database, using an unicode
- passphrase.
- """
- return self._test_encrypted_sym_sync(passphrase=u'ãáàäéàëíìïóòöõúùüñç')
-
- def test_sync_many_small_files(self):
- """
- Test if Soledad can sync many smallfiles.
- """
- return self._test_encrypted_sym_sync(doc_size=2, number_of_docs=100)
diff --git a/testing/tests/server/test_session.py b/testing/tests/server/test_session.py
deleted file mode 100644
index 3dbd2740..00000000
--- a/testing/tests/server/test_session.py
+++ /dev/null
@@ -1,195 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_session.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for server session entrypoint.
-"""
-from twisted.trial import unittest
-
-from twisted.cred import portal
-from twisted.cred.checkers import InMemoryUsernamePasswordDatabaseDontUse
-from twisted.cred.credentials import IUsernamePassword
-from twisted.web.resource import getChildForRequest
-from twisted.web.static import Data
-from twisted.web.test.requesthelper import DummyRequest
-from twisted.web.test.test_httpauth import b64encode
-from twisted.web.test.test_httpauth import Realm
-from twisted.web._auth.wrapper import UnauthorizedResource
-
-from leap.soledad.server.session import SoledadSession
-
-
-class SoledadSessionTestCase(unittest.TestCase):
- """
- Tests adapted from for
- L{twisted.web.test.test_httpauth.HTTPAuthSessionWrapper}.
- """
-
- def makeRequest(self, *args, **kwargs):
- request = DummyRequest(*args, **kwargs)
- request.path = '/'
- return request
-
- def setUp(self):
- self.username = b'foo bar'
- self.password = b'bar baz'
- self.avatarContent = b"contents of the avatar resource itself"
- self.childName = b"foo-child"
- self.childContent = b"contents of the foo child of the avatar"
- self.checker = InMemoryUsernamePasswordDatabaseDontUse()
- self.checker.addUser(self.username, self.password)
- self.avatar = Data(self.avatarContent, 'text/plain')
- self.avatar.putChild(
- self.childName, Data(self.childContent, 'text/plain'))
- self.avatars = {self.username: self.avatar}
- self.realm = Realm(self.avatars.get)
- self.portal = portal.Portal(self.realm, [self.checker])
- self.wrapper = SoledadSession(self.portal)
-
- def _authorizedTokenLogin(self, request):
- authorization = b64encode(
- self.username + b':' + self.password)
- request.requestHeaders.addRawHeader(b'authorization',
- b'Token ' + authorization)
- return getChildForRequest(self.wrapper, request)
-
- def test_getChildWithDefault(self):
- request = self.makeRequest([self.childName])
- child = getChildForRequest(self.wrapper, request)
- d = request.notifyFinish()
-
- def cbFinished(result):
- self.assertEqual(request.responseCode, 401)
-
- d.addCallback(cbFinished)
- request.render(child)
- return d
-
- def _invalidAuthorizationTest(self, response):
- request = self.makeRequest([self.childName])
- request.requestHeaders.addRawHeader(b'authorization', response)
- child = getChildForRequest(self.wrapper, request)
- d = request.notifyFinish()
-
- def cbFinished(result):
- self.assertEqual(request.responseCode, 401)
-
- d.addCallback(cbFinished)
- request.render(child)
- return d
-
- def test_getChildWithDefaultUnauthorizedUser(self):
- return self._invalidAuthorizationTest(
- b'Basic ' + b64encode(b'foo:bar'))
-
- def test_getChildWithDefaultUnauthorizedPassword(self):
- return self._invalidAuthorizationTest(
- b'Basic ' + b64encode(self.username + b':bar'))
-
- def test_getChildWithDefaultUnrecognizedScheme(self):
- return self._invalidAuthorizationTest(b'Quux foo bar baz')
-
- def test_getChildWithDefaultAuthorized(self):
- request = self.makeRequest([self.childName])
- child = self._authorizedTokenLogin(request)
- d = request.notifyFinish()
-
- def cbFinished(ignored):
- self.assertEqual(request.written, [self.childContent])
-
- d.addCallback(cbFinished)
- request.render(child)
- return d
-
- def test_renderAuthorized(self):
- # Request it exactly, not any of its children.
- request = self.makeRequest([])
- child = self._authorizedTokenLogin(request)
- d = request.notifyFinish()
-
- def cbFinished(ignored):
- self.assertEqual(request.written, [self.avatarContent])
-
- d.addCallback(cbFinished)
- request.render(child)
- return d
-
- def test_decodeRaises(self):
- request = self.makeRequest([self.childName])
- request.requestHeaders.addRawHeader(b'authorization',
- b'Token decode should fail')
- child = getChildForRequest(self.wrapper, request)
- self.assertIsInstance(child, UnauthorizedResource)
-
- def test_parseResponse(self):
- basicAuthorization = b'Basic abcdef123456'
- self.assertEqual(
- self.wrapper._parseHeader(basicAuthorization),
- None)
- tokenAuthorization = b'Token abcdef123456'
- self.assertEqual(
- self.wrapper._parseHeader(tokenAuthorization),
- b'abcdef123456')
-
- def test_unexpectedDecodeError(self):
-
- class UnexpectedException(Exception):
- pass
-
- class BadFactory(object):
- scheme = b'bad'
-
- def getChallenge(self, client):
- return {}
-
- def decode(self, response, request):
- print("decode raised")
- raise UnexpectedException()
-
- self.wrapper._credentialFactory = BadFactory()
- request = self.makeRequest([self.childName])
- request.requestHeaders.addRawHeader(b'authorization', b'Bad abc')
- child = getChildForRequest(self.wrapper, request)
- request.render(child)
- self.assertEqual(request.responseCode, 500)
- errors = self.flushLoggedErrors(UnexpectedException)
- self.assertEqual(len(errors), 1)
-
- def test_unexpectedLoginError(self):
- class UnexpectedException(Exception):
- pass
-
- class BrokenChecker(object):
- credentialInterfaces = (IUsernamePassword,)
-
- def requestAvatarId(self, credentials):
- raise UnexpectedException()
-
- self.portal.registerChecker(BrokenChecker())
- request = self.makeRequest([self.childName])
- child = self._authorizedTokenLogin(request)
- request.render(child)
- self.assertEqual(request.responseCode, 500)
- self.assertEqual(len(self.flushLoggedErrors(UnexpectedException)), 1)
-
- def test_cantAccessOtherUserPathByDefault(self):
- request = self.makeRequest([])
- # valid url_mapper path, but for another user
- request.path = '/blobs/another-user/'
- child = self._authorizedTokenLogin(request)
-
- request.render(child)
- self.assertEqual(request.responseCode, 500)
diff --git a/testing/tests/server/test_shared_db.py b/testing/tests/server/test_shared_db.py
deleted file mode 100644
index 96af6dff..00000000
--- a/testing/tests/server/test_shared_db.py
+++ /dev/null
@@ -1,69 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_shared_db.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for the shared db on server side.
-"""
-
-
-import pytest
-
-from twisted.trial import unittest
-
-from leap.soledad.client.shared_db import SoledadSharedDatabase
-from leap.soledad.common.document import SoledadDocument
-from leap.soledad.common.l2db.errors import RevisionConflict
-
-
-@pytest.mark.needs_couch
-class SharedDbTests(unittest.TestCase):
- """
- """
-
- URL = 'http://127.0.0.1:2424/shared'
- CREDS = {'token': {'uuid': 'an-uuid', 'token': 'an-auth-token'}}
-
- @pytest.fixture(autouse=True)
- def soledad_client(self, soledad_server, soledad_dbs):
- soledad_dbs('an-uuid')
- self._db = SoledadSharedDatabase.open_database(self.URL, self.CREDS)
-
- @pytest.mark.thisone
- def test_doc_update_succeeds(self):
- doc_id = 'some-random-doc'
- self.assertIsNone(self._db.get_doc(doc_id))
- # create a document in shared db
- doc = SoledadDocument(doc_id=doc_id)
- self._db.put_doc(doc)
- # update that document
- expected = {'new': 'content'}
- doc.content = expected
- self._db.put_doc(doc)
- # ensure expected content was saved
- doc = self._db.get_doc(doc_id)
- self.assertEqual(expected, doc.content)
-
- @pytest.mark.thisone
- def test_doc_update_fails_with_wrong_rev(self):
- # create a document in shared db
- doc_id = 'some-random-doc'
- self.assertIsNone(self._db.get_doc(doc_id))
- # create a document in shared db
- doc = SoledadDocument(doc_id=doc_id)
- self._db.put_doc(doc)
- # try to update document without including revision of old version
- doc.rev = 'wrong-rev'
- self.assertRaises(RevisionConflict, self._db.put_doc, doc)
diff --git a/testing/tests/server/test_tac.py b/testing/tests/server/test_tac.py
deleted file mode 100644
index 7bb50e35..00000000
--- a/testing/tests/server/test_tac.py
+++ /dev/null
@@ -1,87 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_tac.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for the localhost/public APIs using .tac file.
-See docs/auth.rst
-"""
-
-
-import os
-import signal
-import socket
-import pytest
-import treq
-
-from pkg_resources import resource_filename
-from twisted.trial import unittest
-from twisted.internet import defer, reactor
-from twisted.internet.protocol import ProcessProtocol
-from twisted.web.client import Agent
-
-
-TAC_FILE_PATH = resource_filename('leap.soledad.server', 'server.tac')
-
-
-class TacServerTestCase(unittest.TestCase):
-
- def test_tac_file_exists(self):
- msg = "server.tac used on this test case was expected to be at %s"
- self.assertTrue(os.path.isfile(TAC_FILE_PATH), msg % TAC_FILE_PATH)
-
- @defer.inlineCallbacks
- def test_local_public_default_ports_on_server_tac(self):
- yield self._spawnServer()
- result = yield self._get('http://localhost:2525/incoming')
- fail_msg = "Localhost endpoint must require authentication!"
- self.assertEquals(401, result.code, fail_msg)
-
- public_endpoint_url = 'http://%s:2424/' % self._get_public_ip()
- result = yield self._get(public_endpoint_url)
- self.assertEquals(200, result.code, "server info not accessible")
-
- result = yield self._get(public_endpoint_url + 'other')
- self.assertEquals(401, result.code, "public server lacks auth!")
-
- public_using_local_port_url = 'http://%s:2525/' % self._get_public_ip()
- with pytest.raises(Exception):
- yield self._get(public_using_local_port_url)
-
- def _spawnServer(self):
- protocol = ProcessProtocol()
- env = os.environ.get('VIRTUAL_ENV', '/usr')
- executable = os.path.join(env, 'bin', 'twistd')
- no_pid_argument = '--pidfile='
- args = [executable, no_pid_argument, '-noy', TAC_FILE_PATH]
- env = {'DEBUG_SERVER': 'yes'}
- t = reactor.spawnProcess(protocol, executable, args, env=env)
- self.addCleanup(os.kill, t.pid, signal.SIGKILL)
- self.addCleanup(t.loseConnection)
- return self._sleep(1) # it takes a while to start server
-
- def _sleep(self, time):
- d = defer.Deferred()
- reactor.callLater(time, d.callback, True)
- return d
-
- def _get(self, *args, **kwargs):
- kwargs['agent'] = Agent(reactor)
- return treq.get(*args, **kwargs)
-
- def _get_public_ip(self):
- s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
- s.connect(("8.8.8.8", 80))
- return s.getsockname()[0]
diff --git a/testing/tests/server/test_url_mapper.py b/testing/tests/server/test_url_mapper.py
deleted file mode 100644
index a04e7593..00000000
--- a/testing/tests/server/test_url_mapper.py
+++ /dev/null
@@ -1,133 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_url_mapper.py
-# Copyright (C) 2017 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Tests for server-related functionality.
-"""
-import pytest
-
-from twisted.trial import unittest
-from uuid import uuid4
-
-from leap.soledad.server.url_mapper import URLMapper
-
-
-class URLMapperTestCase(unittest.TestCase):
- """
- Test if the URLMapper behaves as expected.
-
- The following table lists the authorized actions among all possible
- u1db remote actions:
-
- URL path | Authorized actions
- --------------------------------------------------
- / | GET
- /shared-db | GET
- /shared-db/docs | -
- /shared-db/doc/{id} | -
- /shared-db/sync-from/{source} | -
- /user-db | -
- /user-db/docs | -
- /user-db/doc/{id} | -
- /user-db/sync-from/{source} | GET, PUT, POST
- """
-
- def setUp(self):
- self._uuid = uuid4().hex
- self._urlmap = URLMapper()
- self._dbname = 'user-%s' % self._uuid
-
- @pytest.mark.needs_couch
- def test_root_authorized(self):
- match = self._urlmap.match('/', 'GET')
- self.assertIsNotNone(match)
-
- def test_shared_authorized(self):
- self.assertIsNotNone(self._urlmap.match('/shared', 'GET'))
-
- def test_shared_unauthorized(self):
- self.assertIsNone(self._urlmap.match('/shared', 'PUT'))
- self.assertIsNone(self._urlmap.match('/shared', 'DELETE'))
- self.assertIsNone(self._urlmap.match('/shared', 'POST'))
-
- def test_shared_docs_unauthorized(self):
- self.assertIsNone(self._urlmap.match('/shared/docs', 'GET'))
- self.assertIsNone(self._urlmap.match('/shared/docs', 'PUT'))
- self.assertIsNone(self._urlmap.match('/shared/docs', 'DELETE'))
- self.assertIsNone(self._urlmap.match('/shared/docs', 'POST'))
-
- def test_shared_doc_authorized(self):
- match = self._urlmap.match('/shared/doc/x', 'GET')
- self.assertIsNotNone(match)
- self.assertEqual('x', match.get('id'))
-
- match = self._urlmap.match('/shared/doc/x', 'PUT')
- self.assertIsNotNone(match)
- self.assertEqual('x', match.get('id'))
-
- match = self._urlmap.match('/shared/doc/x', 'DELETE')
- self.assertIsNotNone(match)
- self.assertEqual('x', match.get('id'))
-
- def test_shared_doc_unauthorized(self):
- self.assertIsNone(self._urlmap.match('/shared/doc/x', 'POST'))
-
- def test_shared_sync_unauthorized(self):
- self.assertIsNone(self._urlmap.match('/shared/sync-from/x', 'GET'))
- self.assertIsNone(self._urlmap.match('/shared/sync-from/x', 'PUT'))
- self.assertIsNone(self._urlmap.match('/shared/sync-from/x', 'DELETE'))
- self.assertIsNone(self._urlmap.match('/shared/sync-from/x', 'POST'))
-
- def test_user_db_unauthorized(self):
- dbname = self._dbname
- self.assertIsNone(self._urlmap.match('/%s' % dbname, 'GET'))
- self.assertIsNone(self._urlmap.match('/%s' % dbname, 'PUT'))
- self.assertIsNone(self._urlmap.match('/%s' % dbname, 'DELETE'))
- self.assertIsNone(self._urlmap.match('/%s' % dbname, 'POST'))
-
- def test_user_db_docs_unauthorized(self):
- dbname = self._dbname
- self.assertIsNone(self._urlmap.match('/%s/docs' % dbname, 'GET'))
- self.assertIsNone(self._urlmap.match('/%s/docs' % dbname, 'PUT'))
- self.assertIsNone(self._urlmap.match('/%s/docs' % dbname, 'DELETE'))
- self.assertIsNone(self._urlmap.match('/%s/docs' % dbname, 'POST'))
-
- def test_user_db_doc_unauthorized(self):
- dbname = self._dbname
- self.assertIsNone(self._urlmap.match('/%s/doc/x' % dbname, 'GET'))
- self.assertIsNone(self._urlmap.match('/%s/doc/x' % dbname, 'PUT'))
- self.assertIsNone(self._urlmap.match('/%s/doc/x' % dbname, 'DELETE'))
- self.assertIsNone(self._urlmap.match('/%s/doc/x' % dbname, 'POST'))
-
- def test_user_db_sync_authorized(self):
- uuid = self._uuid
- dbname = self._dbname
- match = self._urlmap.match('/%s/sync-from/x' % dbname, 'GET')
- self.assertEqual(uuid, match.get('uuid'))
- self.assertEqual('x', match.get('source_replica_uid'))
-
- match = self._urlmap.match('/%s/sync-from/x' % dbname, 'PUT')
- self.assertEqual(uuid, match.get('uuid'))
- self.assertEqual('x', match.get('source_replica_uid'))
-
- match = self._urlmap.match('/%s/sync-from/x' % dbname, 'POST')
- self.assertEqual(uuid, match.get('uuid'))
- self.assertEqual('x', match.get('source_replica_uid'))
-
- def test_user_db_sync_unauthorized(self):
- dbname = self._dbname
- self.assertIsNone(
- self._urlmap.match('/%s/sync-from/x' % dbname, 'DELETE'))
diff --git a/testing/tests/sqlcipher/hacker_crackdown.txt b/testing/tests/sqlcipher/hacker_crackdown.txt
deleted file mode 100644
index a01eb509..00000000
--- a/testing/tests/sqlcipher/hacker_crackdown.txt
+++ /dev/null
@@ -1,13005 +0,0 @@
-The Project Gutenberg EBook of Hacker Crackdown, by Bruce Sterling
-
-This eBook is for the use of anyone anywhere at no cost and with
-almost no restrictions whatsoever. You may copy it, give it away or
-re-use it under the terms of the Project Gutenberg License included
-with this eBook or online at www.gutenberg.org
-
-** This is a COPYRIGHTED Project Gutenberg eBook, Details Below **
-** Please follow the copyright guidelines in this file. **
-
-Title: Hacker Crackdown
- Law and Disorder on the Electronic Frontier
-
-Author: Bruce Sterling
-
-Posting Date: February 9, 2012 [EBook #101]
-Release Date: January, 1994
-
-Language: English
-
-
-*** START OF THIS PROJECT GUTENBERG EBOOK HACKER CRACKDOWN ***
-
-
-
-
-
-
-
-
-
-
-
-
-
-THE HACKER CRACKDOWN
-
-Law and Disorder on the Electronic Frontier
-
-by Bruce Sterling
-
-
-
-
-CONTENTS
-
-
-Preface to the Electronic Release of The Hacker Crackdown
-
-Chronology of the Hacker Crackdown
-
-
-Introduction
-
-
-Part 1: CRASHING THE SYSTEM
-A Brief History of Telephony
-Bell's Golden Vaporware
-Universal Service
-Wild Boys and Wire Women
-The Electronic Communities
-The Ungentle Giant
-The Breakup
-In Defense of the System
-The Crash Post-Mortem
-Landslides in Cyberspace
-
-
-Part 2: THE DIGITAL UNDERGROUND
-Steal This Phone
-Phreaking and Hacking
-The View From Under the Floorboards
-Boards: Core of the Underground
-Phile Phun
-The Rake's Progress
-Strongholds of the Elite
-Sting Boards
-Hot Potatoes
-War on the Legion
-Terminus
-Phile 9-1-1
-War Games
-Real Cyberpunk
-
-
-Part 3: LAW AND ORDER
-Crooked Boards
-The World's Biggest Hacker Bust
-Teach Them a Lesson
-The U.S. Secret Service
-The Secret Service Battles the Boodlers
-A Walk Downtown
-FCIC: The Cutting-Edge Mess
-Cyberspace Rangers
-FLETC: Training the Hacker-Trackers
-
-
-Part 4: THE CIVIL LIBERTARIANS
-NuPrometheus + FBI = Grateful Dead
-Whole Earth + Computer Revolution = WELL
-Phiber Runs Underground and Acid Spikes the Well
-The Trial of Knight Lightning
-Shadowhawk Plummets to Earth
-Kyrie in the Confessional
-$79,499
-A Scholar Investigates
-Computers, Freedom, and Privacy
-
-
-Electronic Afterword to The Hacker Crackdown, Halloween 1993
-
-
-
-
-THE HACKER CRACKDOWN
-
-Law and Disorder on the Electronic Frontier
-
-by Bruce Sterling
-
-
-
-
-
-Preface to the Electronic Release of The Hacker Crackdown
-
-
-January 1, 1994--Austin, Texas
-
-
-Hi, I'm Bruce Sterling, the author of this electronic book.
-
-Out in the traditional world of print, The Hacker Crackdown
-is ISBN 0-553-08058-X, and is formally catalogued by
-the Library of Congress as "1. Computer crimes--United States.
-2. Telephone--United States--Corrupt practices.
-3. Programming (Electronic computers)--United States--Corrupt practices."
-
-`Corrupt practices,' I always get a kick out of that description.
-Librarians are very ingenious people.
-
-The paperback is ISBN 0-553-56370-X. If you go
-and buy a print version of The Hacker Crackdown,
-an action I encourage heartily, you may notice that
-in the front of the book, beneath the copyright notice--
-"Copyright (C) 1992 by Bruce Sterling"--
-it has this little block of printed legal
-boilerplate from the publisher. It says, and I quote:
-
- "No part of this book may be reproduced or transmitted in any form
-or by any means, electronic or mechanical, including photocopying,
-recording, or by any information storage and retrieval system,
-without permission in writing from the publisher.
-For information address: Bantam Books."
-
-This is a pretty good disclaimer, as such disclaimers go.
-I collect intellectual-property disclaimers, and I've seen dozens of them,
-and this one is at least pretty straightforward. In this narrow
-and particular case, however, it isn't quite accurate.
-Bantam Books puts that disclaimer on every book they publish,
-but Bantam Books does not, in fact, own the electronic rights to this book.
-I do, because of certain extensive contract maneuverings my agent and I
-went through before this book was written. I want to give those electronic
-publishing rights away through certain not-for-profit channels,
-and I've convinced Bantam that this is a good idea.
-
-Since Bantam has seen fit to peacably agree to this scheme of mine,
-Bantam Books is not going to fuss about this. Provided you don't try
-to sell the book, they are not going to bother you for what you do with
-the electronic copy of this book. If you want to check this out personally,
-you can ask them; they're at 1540 Broadway NY NY 10036. However, if you were
-so foolish as to print this book and start retailing it for money in violation
-of my copyright and the commercial interests of Bantam Books, then Bantam,
-a part of the gigantic Bertelsmann multinational publishing combine,
-would roust some of their heavy-duty attorneys out of hibernation
-and crush you like a bug. This is only to be expected.
-I didn't write this book so that you could make money out of it.
-If anybody is gonna make money out of this book,
-it's gonna be me and my publisher.
-
-My publisher deserves to make money out of this book.
-Not only did the folks at Bantam Books commission me
-to write the book, and pay me a hefty sum to do so, but
-they bravely printed, in text, an electronic document the
-reproduction of which was once alleged to be a federal felony.
-Bantam Books and their numerous attorneys were very brave
-and forthright about this book. Furthermore, my former editor
-at Bantam Books, Betsy Mitchell, genuinely cared about this project,
-and worked hard on it, and had a lot of wise things to say
-about the manuscript. Betsy deserves genuine credit for this book,
-credit that editors too rarely get.
-
-The critics were very kind to The Hacker Crackdown,
-and commercially the book has done well. On the other hand,
-I didn't write this book in order to squeeze every last nickel
-and dime out of the mitts of impoverished sixteen-year-old
-cyberpunk high-school-students. Teenagers don't have any money--
-(no, not even enough for the six-dollar Hacker Crackdown paperback,
-with its attractive bright-red cover and useful index).
-That's a major reason why teenagers sometimes succumb to the temptation
-to do things they shouldn't, such as swiping my books out of libraries.
-Kids: this one is all yours, all right? Go give the print version back.
-*8-)
-
-Well-meaning, public-spirited civil libertarians don't have much money,
-either. And it seems almost criminal to snatch cash out of the hands of
-America's direly underpaid electronic law enforcement community.
-
-If you're a computer cop, a hacker, or an electronic civil
-liberties activist, you are the target audience for this book.
-I wrote this book because I wanted to help you, and help other people
-understand you and your unique, uhm, problems. I wrote this book
-to aid your activities, and to contribute to the public discussion
-of important political issues. In giving the text away in this
-fashion, I am directly contributing to the book's ultimate aim:
-to help civilize cyberspace.
-
-Information WANTS to be free. And the information inside
-this book longs for freedom with a peculiar intensity.
-I genuinely believe that the natural habitat of this book
-is inside an electronic network. That may not be the easiest
-direct method to generate revenue for the book's author,
-but that doesn't matter; this is where this book belongs
-by its nature. I've written other books--plenty of other books--
-and I'll write more and I am writing more, but this one is special.
-I am making The Hacker Crackdown available electronically
-as widely as I can conveniently manage, and if you like the book,
-and think it is useful, then I urge you to do the same with it.
-
-You can copy this electronic book. Copy the heck out of it,
-be my guest, and give those copies to anybody who wants them.
-The nascent world of cyberspace is full of sysadmins, teachers,
-trainers, cybrarians, netgurus, and various species of cybernetic activist.
-If you're one of those people, I know about you, and I know the hassle
-you go through to try to help people learn about the electronic frontier.
-I hope that possessing this book in electronic form will lessen your troubles.
-Granted, this treatment of our electronic social spectrum is not the ultimate
-in academic rigor. And politically, it has something to offend
-and trouble almost everyone. But hey, I'm told it's readable,
-and at least the price is right.
-
-You can upload the book onto bulletin board systems, or Internet nodes,
-or electronic discussion groups. Go right ahead and do that, I am giving
-you express permission right now. Enjoy yourself.
-
-You can put the book on disks and give the disks away,
-as long as you don't take any money for it.
-
-But this book is not public domain. You can't copyright it in
-your own name. I own the copyright. Attempts to pirate this book
-and make money from selling it may involve you in a serious litigative snarl.
-Believe me, for the pittance you might wring out of such an action,
-it's really not worth it. This book don't "belong" to you.
-In an odd but very genuine way, I feel it doesn't "belong" to me, either.
-It's a book about the people of cyberspace, and distributing it in this way
-is the best way I know to actually make this information available,
-freely and easily, to all the people of cyberspace--including people
-far outside the borders of the United States, who otherwise may never
-have a chance to see any edition of the book, and who may perhaps learn
-something useful from this strange story of distant, obscure, but portentous
-events in so-called "American cyberspace."
-
-This electronic book is now literary freeware. It now belongs to the
-emergent realm of alternative information economics. You have no right
-to make this electronic book part of the conventional flow of commerce.
-Let it be part of the flow of knowledge: there's a difference.
-I've divided the book into four sections, so that it is less ungainly
-for upload and download; if there's a section of particular relevance
-to you and your colleagues, feel free to reproduce that one and skip the rest.
-
-[Project Gutenberg has reassembled the file, with Sterling's permission.]
-
-Just make more when you need them, and give them to whoever might want them.
-
-Now have fun.
-
-Bruce Sterling--bruces@well.sf.ca.us
-
-
-THE HACKER CRACKDOWN
-
-Law and Disorder on the Electronic Frontier
-
-by Bruce Sterling
-
-
-
-
-
-
-
-CHRONOLOGY OF THE HACKER CRACKDOWN
-
-
-1865 U.S. Secret Service (USSS) founded.
-
-1876 Alexander Graham Bell invents telephone.
-
-1878 First teenage males flung off phone system by enraged authorities.
-
-1939 "Futurian" science-fiction group raided by Secret Service.
-
-1971 Yippie phone phreaks start YIPL/TAP magazine.
-
-1972 RAMPARTS magazine seized in blue-box rip-off scandal.
-
-1978 Ward Christenson and Randy Suess create first personal
- computer bulletin board system.
-
-1982 William Gibson coins term "cyberspace."
-
-1982 "414 Gang" raided.
-
-1983-1983 AT&T dismantled in divestiture.
-
-1984 Congress passes Comprehensive Crime Control Act giving USSS
- jurisdiction over credit card fraud and computer fraud.
-
-1984 "Legion of Doom" formed.
-
-1984. 2600: THE HACKER QUARTERLY founded.
-
-1984. WHOLE EARTH SOFTWARE CATALOG published.
-
-1985. First police "sting" bulletin board systems established.
-
-1985. Whole Earth 'Lectronic Link computer conference (WELL) goes on-line.
-
-1986 Computer Fraud and Abuse Act passed.
-
-1986 Electronic Communications Privacy Act passed.
-
-1987 Chicago prosecutors form Computer Fraud and Abuse Task Force.
-
-
-1988
-
-July. Secret Service covertly videotapes "SummerCon" hacker convention.
-
-September. "Prophet" cracks BellSouth AIMSX computer network
- and downloads E911 Document to his own computer and to Jolnet.
-
-September. AT&T Corporate Information Security informed of Prophet's action.
-
-October. Bellcore Security informed of Prophet's action.
-
-
-1989
-
-January. Prophet uploads E911 Document to Knight Lightning.
-
-February 25. Knight Lightning publishes E911 Document in PHRACK
- electronic newsletter.
-
-May. Chicago Task Force raids and arrests "Kyrie."
-
-June. "NuPrometheus League" distributes Apple Computer proprietary software.
-
-June 13. Florida probation office crossed with phone-sex line
- in switching-station stunt.
-
-July. "Fry Guy" raided by USSS and Chicago Computer Fraud
- and Abuse Task Force.
-
-July. Secret Service raids "Prophet," "Leftist," and "Urvile" in Georgia.
-
-
-1990
-
-January 15. Martin Luther King Day Crash strikes AT&T long-distance
- network nationwide.
-
-January 18-19. Chicago Task Force raids Knight Lightning in St. Louis.
-
-January 24. USSS and New York State Police raid "Phiber Optik,"
- "Acid Phreak," and "Scorpion" in New York City.
-
-February 1. USSS raids "Terminus" in Maryland.
-
-February 3. Chicago Task Force raids Richard Andrews' home.
-
-February 6. Chicago Task Force raids Richard Andrews' business.
-
-February 6. USSS arrests Terminus, Prophet, Leftist, and Urvile.
-
-February 9. Chicago Task Force arrests Knight Lightning.
-
-February 20. AT&T Security shuts down public-access
- "attctc" computer in Dallas.
-
-February 21. Chicago Task Force raids Robert Izenberg in Austin.
-
-March 1. Chicago Task Force raids Steve Jackson Games, Inc.,
- "Mentor," and "Erik Bloodaxe" in Austin.
-
-May 7,8,9.
-
-USSS and Arizona Organized Crime and Racketeering Bureau conduct
-"Operation Sundevil" raids in Cincinnatti, Detroit, Los Angeles,
-Miami, Newark, Phoenix, Pittsburgh, Richmond, Tucson, San Diego,
-San Jose, and San Francisco.
-
-May. FBI interviews John Perry Barlow re NuPrometheus case.
-
-June. Mitch Kapor and Barlow found Electronic Frontier Foundation;
- Barlow publishes CRIME AND PUZZLEMENT manifesto.
-
-July 24-27. Trial of Knight Lightning.
-
-1991
-
-February. CPSR Roundtable in Washington, D.C.
-
-March 25-28. Computers, Freedom and Privacy conference in San Francisco.
-
-May 1. Electronic Frontier Foundation, Steve Jackson,
- and others file suit against members of Chicago Task Force.
-
-July 1-2. Switching station phone software crash affects
- Washington, Los Angeles, Pittsburgh, San Francisco.
-
-September 17. AT&T phone crash affects New York City and three airports.
-
-
-
-
-Introduction
-
-This is a book about cops, and wild teenage whiz-kids, and lawyers,
-and hairy-eyed anarchists, and industrial technicians, and hippies,
-and high-tech millionaires, and game hobbyists, and computer security
-experts, and Secret Service agents, and grifters, and thieves.
-
-This book is about the electronic frontier of the 1990s.
-It concerns activities that take place inside computers
-and over telephone lines.
-
-A science fiction writer coined the useful term "cyberspace" in 1982,
-but the territory in question, the electronic frontier, is about
-a hundred and thirty years old. Cyberspace is the "place" where
-a telephone conversation appears to occur. Not inside your actual phone,
-the plastic device on your desk. Not inside the other person's phone,
-in some other city. THE PLACE BETWEEN the phones. The indefinite
-place OUT THERE, where the two of you, two human beings,
-actually meet and communicate.
-
-Although it is not exactly "real," "cyberspace" is a genuine place.
-Things happen there that have very genuine consequences. This "place"
-is not "real," but it is serious, it is earnest. Tens of thousands
-of people have dedicated their lives to it, to the public service
-of public communication by wire and electronics.
-
-People have worked on this "frontier" for generations now.
-Some people became rich and famous from their efforts there.
-Some just played in it, as hobbyists. Others soberly pondered it,
-and wrote about it, and regulated it, and negotiated over it in
-international forums, and sued one another about it, in gigantic,
-epic court battles that lasted for years. And almost since
-the beginning, some people have committed crimes in this place.
-
-But in the past twenty years, this electrical "space,"
-which was once thin and dark and one-dimensional--little more
-than a narrow speaking-tube, stretching from phone to phone--
-has flung itself open like a gigantic jack-in-the-box.
-Light has flooded upon it, the eerie light of the glowing computer screen.
-This dark electric netherworld has become a vast flowering electronic landscape.
-Since the 1960s, the world of the telephone has cross-bred itself
-with computers and television, and though there is still no substance
-to cyberspace, nothing you can handle, it has a strange kind
-of physicality now. It makes good sense today to talk of cyberspace
-as a place all its own.
-
-Because people live in it now. Not just a few people,
-not just a few technicians and eccentrics, but thousands
-of people, quite normal people. And not just for a little while,
-either, but for hours straight, over weeks, and months,
-and years. Cyberspace today is a "Net," a "Matrix,"
-international in scope and growing swiftly and steadily.
-It's growing in size, and wealth, and political importance.
-
-People are making entire careers in modern cyberspace.
-Scientists and technicians, of course; they've been there
-for twenty years now. But increasingly, cyberspace
-is filling with journalists and doctors and lawyers
-and artists and clerks. Civil servants make their
-careers there now, "on-line" in vast government data-banks;
-and so do spies, industrial, political, and just plain snoops;
-and so do police, at least a few of them. And there are children
-living there now.
-
-People have met there and been married there.
-There are entire living communities in cyberspace today;
-chattering, gossiping, planning, conferring and scheming,
-leaving one another voice-mail and electronic mail,
-giving one another big weightless chunks of valuable data,
-both legitimate and illegitimate. They busily pass one another
-computer software and the occasional festering computer virus.
-
-We do not really understand how to live in cyberspace yet.
-We are feeling our way into it, blundering about.
-That is not surprising. Our lives in the physical world,
-the "real" world, are also far from perfect, despite a lot more practice.
-Human lives, real lives, are imperfect by their nature, and there are
-human beings in cyberspace. The way we live in cyberspace is
-a funhouse mirror of the way we live in the real world.
-We take both our advantages and our troubles with us.
-
-This book is about trouble in cyberspace.
-Specifically, this book is about certain strange events in
-the year 1990, an unprecedented and startling year for the
-the growing world of computerized communications.
-
-In 1990 there came a nationwide crackdown on illicit
-computer hackers, with arrests, criminal charges,
-one dramatic show-trial, several guilty pleas, and
-huge confiscations of data and equipment all over the USA.
-
-The Hacker Crackdown of 1990 was larger, better organized,
-more deliberate, and more resolute than any previous effort
-in the brave new world of computer crime. The U.S. Secret Service,
-private telephone security, and state and local law enforcement groups
-across the country all joined forces in a determined attempt to break
-the back of America's electronic underground. It was a fascinating
-effort, with very mixed results.
-
-The Hacker Crackdown had another unprecedented effect;
-it spurred the creation, within "the computer community,"
-of the Electronic Frontier Foundation, a new and very odd
-interest group, fiercely dedicated to the establishment
-and preservation of electronic civil liberties. The crackdown,
-remarkable in itself, has created a melee of debate over electronic crime,
-punishment, freedom of the press, and issues of search and seizure.
-Politics has entered cyberspace. Where people go, politics follow.
-
-This is the story of the people of cyberspace.
-
-
-
-PART ONE: Crashing the System
-
-On January 15, 1990, AT&T's long-distance telephone switching system crashed.
-
-This was a strange, dire, huge event. Sixty thousand people lost
-their telephone service completely. During the nine long hours
-of frantic effort that it took to restore service, some seventy million
-telephone calls went uncompleted.
-
-Losses of service, known as "outages" in the telco trade,
-are a known and accepted hazard of the telephone business.
-Hurricanes hit, and phone cables get snapped by the thousands.
-Earthquakes wrench through buried fiber-optic lines.
-Switching stations catch fire and burn to the ground.
-These things do happen. There are contingency plans for them,
-and decades of experience in dealing with them.
-But the Crash of January 15 was unprecedented.
-It was unbelievably huge, and it occurred for
-no apparent physical reason.
-
-The crash started on a Monday afternoon in a single
-switching-station in Manhattan. But, unlike any merely
-physical damage, it spread and spread. Station after
-station across America collapsed in a chain reaction,
-until fully half of AT&T's network had gone haywire
-and the remaining half was hard-put to handle the overflow.
-
-Within nine hours, AT&T software engineers more or less
-understood what had caused the crash. Replicating the
-problem exactly, poring over software line by line,
-took them a couple of weeks. But because it was hard
-to understand technically, the full truth of the matter
-and its implications were not widely and thoroughly aired
-and explained. The root cause of the crash remained obscure,
-surrounded by rumor and fear.
-
-The crash was a grave corporate embarrassment.
-The "culprit" was a bug in AT&T's own software--not the
-sort of admission the telecommunications giant wanted
-to make, especially in the face of increasing competition.
-Still, the truth WAS told, in the baffling technical terms
-necessary to explain it.
-
-Somehow the explanation failed to persuade
-American law enforcement officials and even telephone
-corporate security personnel. These people were not
-technical experts or software wizards, and they had their
-own suspicions about the cause of this disaster.
-
-The police and telco security had important sources
-of information denied to mere software engineers.
-They had informants in the computer underground and
-years of experience in dealing with high-tech rascality
-that seemed to grow ever more sophisticated.
-For years they had been expecting a direct and
-savage attack against the American national telephone system.
-And with the Crash of January 15--the first month of a
-new, high-tech decade--their predictions, fears,
-and suspicions seemed at last to have entered the real world.
-A world where the telephone system had not merely crashed,
-but, quite likely, BEEN crashed--by "hackers."
-
-The crash created a large dark cloud of suspicion
-that would color certain people's assumptions and actions
-for months. The fact that it took place in the realm of
-software was suspicious on its face. The fact that it
-occurred on Martin Luther King Day, still the most
-politically touchy of American holidays, made it more
-suspicious yet.
-
-The Crash of January 15 gave the Hacker Crackdown
-its sense of edge and its sweaty urgency. It made people,
-powerful people in positions of public authority,
-willing to believe the worst. And, most fatally,
-it helped to give investigators a willingness
-to take extreme measures and the determination
-to preserve almost total secrecy.
-
-An obscure software fault in an aging switching system
-in New York was to lead to a chain reaction of legal
-and constitutional trouble all across the country.
-
-#
-
-Like the crash in the telephone system, this chain reaction
-was ready and waiting to happen. During the 1980s,
-the American legal system was extensively patched
-to deal with the novel issues of computer crime.
-There was, for instance, the Electronic Communications
-Privacy Act of 1986 (eloquently described as "a stinking mess"
-by a prominent law enforcement official). And there was the
-draconian Computer Fraud and Abuse Act of 1986, passed unanimously
-by the United States Senate, which later would reveal
-a large number of flaws. Extensive, well-meant efforts
-had been made to keep the legal system up to date.
-But in the day-to-day grind of the real world,
-even the most elegant software tends to crumble
-and suddenly reveal its hidden bugs.
-
-Like the advancing telephone system, the American legal system
-was certainly not ruined by its temporary crash; but for those
-caught under the weight of the collapsing system, life became
-a series of blackouts and anomalies.
-
-In order to understand why these weird events occurred,
-both in the world of technology and in the world of law,
-it's not enough to understand the merely technical problems.
-We will get to those; but first and foremost, we must try
-to understand the telephone, and the business of telephones,
-and the community of human beings that telephones have created.
-
-#
-
-Technologies have life cycles, like cities do,
-like institutions do, like laws and governments do.
-
-The first stage of any technology is the Question
-Mark, often known as the "Golden Vaporware" stage.
-At this early point, the technology is only a phantom,
-a mere gleam in the inventor's eye. One such inventor
-was a speech teacher and electrical tinkerer named
-Alexander Graham Bell.
-
-Bell's early inventions, while ingenious, failed to move the world.
-In 1863, the teenage Bell and his brother Melville made an artificial
-talking mechanism out of wood, rubber, gutta-percha, and tin.
-This weird device had a rubber-covered "tongue" made of movable
-wooden segments, with vibrating rubber "vocal cords," and
-rubber "lips" and "cheeks." While Melville puffed a bellows
-into a tin tube, imitating the lungs, young Alec Bell would
-manipulate the "lips," "teeth," and "tongue," causing the thing
-to emit high-pitched falsetto gibberish.
-
-Another would-be technical breakthrough was the Bell "phonautograph"
-of 1874, actually made out of a human cadaver's ear. Clamped into place
-on a tripod, this grisly gadget drew sound-wave images on smoked glass
-through a thin straw glued to its vibrating earbones.
-
-By 1875, Bell had learned to produce audible sounds--ugly shrieks
-and squawks--by using magnets, diaphragms, and electrical current.
-
-Most "Golden Vaporware" technologies go nowhere.
-
-But the second stage of technology is the Rising Star,
-or, the "Goofy Prototype," stage. The telephone, Bell's
-most ambitious gadget yet, reached this stage on March
-10, 1876. On that great day, Alexander Graham Bell
-became the first person to transmit intelligible human
-speech electrically. As it happened, young Professor Bell,
-industriously tinkering in his Boston lab, had spattered
-his trousers with acid. His assistant, Mr. Watson,
-heard his cry for help--over Bell's experimental
-audio-telegraph. This was an event without precedent.
-
-Technologies in their "Goofy Prototype" stage rarely
-work very well. They're experimental, and therefore
-half- baked and rather frazzled. The prototype may
-be attractive and novel, and it does look as if it ought
-to be good for something-or-other. But nobody, including
-the inventor, is quite sure what. Inventors, and speculators,
-and pundits may have very firm ideas about its potential
-use, but those ideas are often very wrong.
-
-The natural habitat of the Goofy Prototype is in trade shows
-and in the popular press. Infant technologies need publicity
-and investment money like a tottering calf need milk.
-This was very true of Bell's machine. To raise research and
-development money, Bell toured with his device as a stage attraction.
-
-Contemporary press reports of the stage debut of the telephone
-showed pleased astonishment mixed with considerable dread.
-Bell's stage telephone was a large wooden box with a crude
-speaker-nozzle, the whole contraption about the size and shape
-of an overgrown Brownie camera. Its buzzing steel soundplate,
-pumped up by powerful electromagnets, was loud enough to fill
-an auditorium. Bell's assistant Mr. Watson, who could manage
-on the keyboards fairly well, kicked in by playing the organ
-from distant rooms, and, later, distant cities. This feat was
-considered marvellous, but very eerie indeed.
-
-Bell's original notion for the telephone, an idea promoted
-for a couple of years, was that it would become a mass medium.
-We might recognize Bell's idea today as something close to modern
-"cable radio." Telephones at a central source would transmit music,
-Sunday sermons, and important public speeches to a paying network
-of wired-up subscribers.
-
-At the time, most people thought this notion made good sense.
-In fact, Bell's idea was workable. In Hungary, this philosophy
-of the telephone was successfully put into everyday practice.
-In Budapest, for decades, from 1893 until after World War I,
-there was a government-run information service called
-"Telefon Hirmondo-." Hirmondo- was a centralized source
-of news and entertainment and culture, including stock reports,
-plays, concerts, and novels read aloud. At certain hours
-of the day, the phone would ring, you would plug in
-a loudspeaker for the use of the family, and Telefon
-Hirmondo- would be on the air--or rather, on the phone.
-
-Hirmondo- is dead tech today, but Hirmondo- might be considered
-a spiritual ancestor of the modern telephone-accessed computer
-data services, such as CompuServe, GEnie or Prodigy.
-The principle behind Hirmondo- is also not too far from computer
-"bulletin- board systems" or BBS's, which arrived in the late 1970s,
-spread rapidly across America, and will figure largely in this book.
-
-We are used to using telephones for individual person-to-person speech,
-because we are used to the Bell system. But this was just one possibility
-among many. Communication networks are very flexible and protean,
-especially when their hardware becomes sufficiently advanced.
-They can be put to all kinds of uses. And they have been--
-and they will be.
-
-Bell's telephone was bound for glory, but this was a combination
-of political decisions, canny infighting in court, inspired industrial
-leadership, receptive local conditions and outright good luck.
-Much the same is true of communications systems today.
-
-As Bell and his backers struggled to install their newfangled system
-in the real world of nineteenth-century New England, they had to fight
-against skepticism and industrial rivalry. There was already a strong
-electrical communications network present in America: the telegraph.
-The head of the Western Union telegraph system dismissed Bell's prototype
-as "an electrical toy" and refused to buy the rights to Bell's patent.
-The telephone, it seemed, might be all right as a parlor entertainment--
-but not for serious business.
-
-Telegrams, unlike mere telephones, left a permanent physical record
-of their messages. Telegrams, unlike telephones, could be answered
-whenever the recipient had time and convenience. And the telegram
-had a much longer distance-range than Bell's early telephone.
-These factors made telegraphy seem a much more sound and businesslike
-technology--at least to some.
-
-The telegraph system was huge, and well-entrenched.
-In 1876, the United States had 214,000 miles of telegraph wire,
-and 8500 telegraph offices. There were specialized telegraphs
-for businesses and stock traders, government, police and fire departments.
-And Bell's "toy" was best known as a stage-magic musical device.
-
-The third stage of technology is known as the "Cash Cow" stage.
-In the "cash cow" stage, a technology finds its place in the world,
-and matures, and becomes settled and productive. After a year or so,
-Alexander Graham Bell and his capitalist backers concluded that
-eerie music piped from nineteenth-century cyberspace was not the real
-selling-point of his invention. Instead, the telephone was about speech--
-individual, personal speech, the human voice, human conversation and
-human interaction. The telephone was not to be managed from any centralized
-broadcast center. It was to be a personal, intimate technology.
-
-When you picked up a telephone, you were not absorbing
-the cold output of a machine--you were speaking to another human being.
-Once people realized this, their instinctive dread of the telephone
-as an eerie, unnatural device, swiftly vanished. A "telephone call"
-was not a "call" from a "telephone" itself, but a call from another
-human being, someone you would generally know and recognize.
-The real point was not what the machine could do for you (or to you),
-but what you yourself, a person and citizen, could do THROUGH the machine.
-This decision on the part of the young Bell Company was absolutely vital.
-
-The first telephone networks went up around Boston--mostly among
-the technically curious and the well-to-do (much the same segment
-of the American populace that, a hundred years later, would be
-buying personal computers). Entrenched backers of the telegraph
-continued to scoff.
-
-But in January 1878, a disaster made the telephone famous.
-A train crashed in Tarriffville, Connecticut. Forward-looking
-doctors in the nearby city of Hartford had had Bell's
-"speaking telephone" installed. An alert local druggist
-was able to telephone an entire community of local doctors,
-who rushed to the site to give aid. The disaster, as disasters do,
-aroused intense press coverage. The phone had proven its usefulness
-in the real world.
-
-After Tarriffville, the telephone network spread like crabgrass.
-By 1890 it was all over New England. By '93, out to Chicago.
-By '97, into Minnesota, Nebraska and Texas. By 1904 it was
-all over the continent.
-
-The telephone had become a mature technology. Professor Bell
-(now generally known as "Dr. Bell" despite his lack of a formal degree)
-became quite wealthy. He lost interest in the tedious day-to-day business
-muddle of the booming telephone network, and gratefully returned
-his attention to creatively hacking-around in his various laboratories,
-which were now much larger, better-ventilated, and gratifyingly
-better-equipped. Bell was never to have another great inventive success,
-though his speculations and prototypes anticipated fiber-optic transmission,
-manned flight, sonar, hydrofoil ships, tetrahedral construction, and
-Montessori education. The "decibel," the standard scientific measure
-of sound intensity, was named after Bell.
-
-Not all Bell's vaporware notions were inspired. He was fascinated
-by human eugenics. He also spent many years developing a weird personal
-system of astrophysics in which gravity did not exist.
-
-Bell was a definite eccentric. He was something of a hypochondriac,
-and throughout his life he habitually stayed up until four A.M.,
-refusing to rise before noon. But Bell had accomplished a great feat;
-he was an idol of millions and his influence, wealth, and great
-personal charm, combined with his eccentricity, made him something
-of a loose cannon on deck. Bell maintained a thriving scientific
-salon in his winter mansion in Washington, D.C., which gave him
-considerable backstage influence in governmental and scientific circles.
-He was a major financial backer of the the magazines Science and
-National Geographic, both still flourishing today as important organs
-of the American scientific establishment.
-
-Bell's companion Thomas Watson, similarly wealthy and similarly odd,
-became the ardent political disciple of a 19th-century science-fiction writer
-and would-be social reformer, Edward Bellamy. Watson also trod the boards
-briefly as a Shakespearian actor.
-
-There would never be another Alexander Graham Bell,
-but in years to come there would be surprising numbers
-of people like him. Bell was a prototype of the
-high-tech entrepreneur. High-tech entrepreneurs will
-play a very prominent role in this book: not merely as
-technicians and businessmen, but as pioneers of the
-technical frontier, who can carry the power and prestige
-they derive from high-technology into the political and
-social arena.
-
-Like later entrepreneurs, Bell was fierce in defense of
-his own technological territory. As the telephone began to
-flourish, Bell was soon involved in violent lawsuits in the
-defense of his patents. Bell's Boston lawyers were
-excellent, however, and Bell himself, as an elocution
-teacher and gifted public speaker, was a devastatingly
-effective legal witness. In the eighteen years of Bell's patents,
-the Bell company was involved in six hundred separate lawsuits.
-The legal records printed filled 149 volumes. The Bell Company
-won every single suit.
-
-After Bell's exclusive patents expired, rival telephone
-companies sprang up all over America. Bell's company,
-American Bell Telephone, was soon in deep trouble.
-In 1907, American Bell Telephone fell into the hands of the
-rather sinister J.P. Morgan financial cartel, robber-baron
-speculators who dominated Wall Street.
-
-At this point, history might have taken a different turn.
-American might well have been served forever by a patchwork
-of locally owned telephone companies. Many state politicians
-and local businessmen considered this an excellent solution.
-
-But the new Bell holding company, American Telephone and Telegraph
-or AT&T, put in a new man at the helm, a visionary industrialist
-named Theodore Vail. Vail, a former Post Office manager,
-understood large organizations and had an innate feeling
-for the nature of large-scale communications. Vail quickly
-saw to it that AT&T seized the technological edge once again.
-The Pupin and Campbell "loading coil," and the deForest
-"audion," are both extinct technology today, but in 1913
-they gave Vail's company the best LONG-DISTANCE lines
-ever built. By controlling long-distance--the links
-between, and over, and above the smaller local phone
-companies--AT&T swiftly gained the whip-hand over them,
-and was soon devouring them right and left.
-
-Vail plowed the profits back into research and development,
-starting the Bell tradition of huge-scale and brilliant
-industrial research.
-
-Technically and financially, AT&T gradually steamrollered
-the opposition. Independent telephone companies never
-became entirely extinct, and hundreds of them flourish today.
-But Vail's AT&T became the supreme communications company.
-At one point, Vail's AT&T bought Western Union itself,
-the very company that had derided Bell's telephone as a "toy."
-Vail thoroughly reformed Western Union's hidebound business
-along his modern principles; but when the federal government
-grew anxious at this centralization of power, Vail politely
-gave Western Union back.
-
-This centralizing process was not unique. Very similar
-events had happened in American steel, oil, and railroads.
-But AT&T, unlike the other companies, was to remain supreme.
-The monopoly robber-barons of those other industries
-were humbled and shattered by government trust-busting.
-
-Vail, the former Post Office official, was quite willing
-to accommodate the US government; in fact he would
-forge an active alliance with it. AT&T would become
-almost a wing of the American government, almost
-another Post Office--though not quite. AT&T would
-willingly submit to federal regulation, but in return,
-it would use the government's regulators as its own police,
-who would keep out competitors and assure the Bell
-system's profits and preeminence.
-
-This was the second birth--the political birth--of the
-American telephone system. Vail's arrangement was to
-persist, with vast success, for many decades, until 1982.
-His system was an odd kind of American industrial socialism.
-It was born at about the same time as Leninist Communism,
-and it lasted almost as long--and, it must be admitted,
-to considerably better effect.
-
-Vail's system worked. Except perhaps for aerospace,
-there has been no technology more thoroughly dominated
-by Americans than the telephone. The telephone was
-seen from the beginning as a quintessentially American
-technology. Bell's policy, and the policy of Theodore Vail,
-was a profoundly democratic policy of UNIVERSAL ACCESS.
-Vail's famous corporate slogan, "One Policy, One System,
-Universal Service," was a political slogan, with a very
-American ring to it.
-
-The American telephone was not to become the specialized tool
-of government or business, but a general public utility.
-At first, it was true, only the wealthy could afford
-private telephones, and Bell's company pursued the
-business markets primarily. The American phone system
-was a capitalist effort, meant to make money; it was not a charity.
-But from the first, almost all communities with telephone service
-had public telephones. And many stores--especially drugstores--
-offered public use of their phones. You might not own a telephone--
-but you could always get into the system, if you really needed to.
-
-There was nothing inevitable about this decision to make telephones
-"public" and "universal." Vail's system involved a profound act
-of trust in the public. This decision was a political one,
-informed by the basic values of the American republic.
-The situation might have been very different;
-and in other countries, under other systems,
-it certainly was.
-
-Joseph Stalin, for instance, vetoed plans for a Soviet
-phone system soon after the Bolshevik revolution.
-Stalin was certain that publicly accessible telephones
-would become instruments of anti-Soviet counterrevolution
-and conspiracy. (He was probably right.) When telephones
-did arrive in the Soviet Union, they would be instruments
-of Party authority, and always heavily tapped. (Alexander
-Solzhenitsyn's prison-camp novel The First Circle
-describes efforts to develop a phone system more suited
-to Stalinist purposes.)
-
-France, with its tradition of rational centralized government,
-had fought bitterly even against the electric telegraph,
-which seemed to the French entirely too anarchical and frivolous.
-For decades, nineteenth-century France communicated via the
-"visual telegraph," a nation-spanning, government-owned semaphore
-system of huge stone towers that signalled from hilltops,
-across vast distances, with big windmill-like arms.
-In 1846, one Dr. Barbay, a semaphore enthusiast,
-memorably uttered an early version of what might be called
-"the security expert's argument" against the open media.
-
-"No, the electric telegraph is not a sound invention.
-It will always be at the mercy of the slightest disruption,
-wild youths, drunkards, bums, etc. . . . The electric telegraph
-meets those destructive elements with only a few meters of wire
-over which supervision is impossible. A single man could,
-without being seen, cut the telegraph wires leading to Paris,
-and in twenty-four hours cut in ten different places the wires
-of the same line, without being arrested. The visual telegraph,
-on the contrary, has its towers, its high walls, its gates
-well-guarded from inside by strong armed men. Yes, I declare,
-substitution of the electric telegraph for the visual one
-is a dreadful measure, a truly idiotic act."
-
-Dr. Barbay and his high-security stone machines
-were eventually unsuccessful, but his argument--
-that communication exists for the safety and convenience
-of the state, and must be carefully protected from the wild
-boys and the gutter rabble who might want to crash the
-system--would be heard again and again.
-
-When the French telephone system finally did arrive,
-its snarled inadequacy was to be notorious. Devotees
-of the American Bell System often recommended a trip
-to France, for skeptics.
-
-In Edwardian Britain, issues of class and privacy
-were a ball-and-chain for telephonic progress. It was
-considered outrageous that anyone--any wild fool off
-the street--could simply barge bellowing into one's office
-or home, preceded only by the ringing of a telephone bell.
-In Britain, phones were tolerated for the use of business,
-but private phones tended be stuffed away into closets,
-smoking rooms, or servants' quarters. Telephone operators
-were resented in Britain because they did not seem to
-"know their place." And no one of breeding would print
-a telephone number on a business card; this seemed a crass
-attempt to make the acquaintance of strangers.
-
-But phone access in America was to become a popular right;
-something like universal suffrage, only more so.
-American women could not yet vote when the phone system
-came through; yet from the beginning American women
-doted on the telephone. This "feminization" of the
-American telephone was often commented on by foreigners.
-Phones in America were not censored or stiff or formalized;
-they were social, private, intimate, and domestic.
-In America, Mother's Day is by far the busiest day
-of the year for the phone network.
-
-The early telephone companies, and especially AT&T,
-were among the foremost employers of American women.
-They employed the daughters of the American middle-class
-in great armies: in 1891, eight thousand women; by 1946,
-almost a quarter of a million. Women seemed to enjoy
-telephone work; it was respectable, it was steady,
-it paid fairly well as women's work went, and--not least--
-it seemed a genuine contribution to the social good
-of the community. Women found Vail's ideal of public
-service attractive. This was especially true in rural areas,
-where women operators, running extensive rural party-lines,
-enjoyed considerable social power. The operator knew everyone
-on the party-line, and everyone knew her.
-
-Although Bell himself was an ardent suffragist, the
-telephone company did not employ women for the sake of
-advancing female liberation. AT&T did this for sound
-commercial reasons. The first telephone operators of
-the Bell system were not women, but teenage American boys.
-They were telegraphic messenger boys (a group about to
-be rendered technically obsolescent), who swept up
-around the phone office, dunned customers for bills,
-and made phone connections on the switchboard,
-all on the cheap.
-
-Within the very first year of operation, 1878,
-Bell's company learned a sharp lesson about combining
-teenage boys and telephone switchboards. Putting
-teenage boys in charge of the phone system brought swift
-and consistent disaster. Bell's chief engineer described them
-as "Wild Indians." The boys were openly rude to customers.
-They talked back to subscribers, saucing off,
-uttering facetious remarks, and generally giving lip.
-The rascals took Saint Patrick's Day off without permission.
-And worst of all they played clever tricks with
-the switchboard plugs: disconnecting calls, crossing lines
-so that customers found themselves talking to strangers,
-and so forth.
-
-This combination of power, technical mastery, and effective
-anonymity seemed to act like catnip on teenage boys.
-
-This wild-kid-on-the-wires phenomenon was not confined to
-the USA; from the beginning, the same was true of the British
-phone system. An early British commentator kindly remarked:
-"No doubt boys in their teens found the work not a little irksome,
-and it is also highly probable that under the early conditions
-of employment the adventurous and inquisitive spirits of which
-the average healthy boy of that age is possessed, were not always
-conducive to the best attention being given to the wants
-of the telephone subscribers."
-
-So the boys were flung off the system--or at least,
-deprived of control of the switchboard. But the
-"adventurous and inquisitive spirits" of the teenage boys
-would be heard from in the world of telephony, again and again.
-
-The fourth stage in the technological life-cycle is death:
-"the Dog," dead tech. The telephone has so far avoided this fate.
-On the contrary, it is thriving, still spreading, still evolving,
-and at increasing speed.
-
-The telephone has achieved a rare and exalted state for a
-technological artifact: it has become a HOUSEHOLD OBJECT.
-The telephone, like the clock, like pen and paper,
-like kitchen utensils and running water, has become
-a technology that is visible only by its absence.
-The telephone is technologically transparent.
-The global telephone system is the largest and most
-complex machine in the world, yet it is easy to use.
-More remarkable yet, the telephone is almost entirely
-physically safe for the user.
-
-For the average citizen in the 1870s, the telephone
-was weirder, more shocking, more "high-tech" and
-harder to comprehend, than the most outrageous stunts
-of advanced computing for us Americans in the 1990s.
-In trying to understand what is happening to us today,
-with our bulletin-board systems, direct overseas dialling,
-fiber-optic transmissions, computer viruses, hacking stunts,
-and a vivid tangle of new laws and new crimes, it is important
-to realize that our society has been through a similar challenge before--
-and that, all in all, we did rather well by it.
-
-Bell's stage telephone seemed bizarre at first. But the
-sensations of weirdness vanished quickly, once people began
-to hear the familiar voices of relatives and friends,
-in their own homes on their own telephones. The telephone
-changed from a fearsome high-tech totem to an everyday pillar
-of human community.
-
-This has also happened, and is still happening,
-to computer networks. Computer networks such as
-NSFnet, BITnet, USENET, JANET, are technically
-advanced, intimidating, and much harder to use than
-telephones. Even the popular, commercial computer
-networks, such as GEnie, Prodigy, and CompuServe,
-cause much head-scratching and have been described
-as "user-hateful." Nevertheless they too are changing
-from fancy high-tech items into everyday sources
-of human community.
-
-The words "community" and "communication" have
-the same root. Wherever you put a communications
-network, you put a community as well. And whenever
-you TAKE AWAY that network--confiscate it, outlaw it,
-crash it, raise its price beyond affordability--
-then you hurt that community.
-
-Communities will fight to defend themselves. People will fight harder
-and more bitterly to defend their communities, than they will fight
-to defend their own individual selves. And this is very true
-of the "electronic community" that arose around computer networks
-in the 1980s--or rather, the VARIOUS electronic communities,
-in telephony, law enforcement, computing, and the digital
-underground that, by the year 1990, were raiding, rallying,
-arresting, suing, jailing, fining and issuing angry manifestos.
-
-None of the events of 1990 were entirely new.
-Nothing happened in 1990 that did not have some kind
-of earlier and more understandable precedent. What gave
-the Hacker Crackdown its new sense of gravity and
-importance was the feeling--the COMMUNITY feeling--
-that the political stakes had been raised; that trouble
-in cyberspace was no longer mere mischief or inconclusive
-skirmishing, but a genuine fight over genuine issues,
-a fight for community survival and the shape of the future.
-
-These electronic communities, having flourished throughout
-the 1980s, were becoming aware of themselves, and increasingly,
-becoming aware of other, rival communities. Worries were
-sprouting up right and left, with complaints, rumors,
-uneasy speculations. But it would take a catalyst, a shock,
-to make the new world evident. Like Bell's great publicity break,
-the Tarriffville Rail Disaster of January 1878,
-it would take a cause celebre.
-
-That cause was the AT&T Crash of January 15, 1990.
-After the Crash, the wounded and anxious telephone
-community would come out fighting hard.
-
-#
-
-The community of telephone technicians, engineers, operators
-and researchers is the oldest community in cyberspace.
-These are the veterans, the most developed group,
-the richest, the most respectable, in most ways the most powerful.
-Whole generations have come and gone since Alexander Graham Bell's day,
-but the community he founded survives; people work for the phone system
-today whose great-grandparents worked for the phone system.
-Its specialty magazines, such as Telephony, AT&T Technical Journal,
-Telephone Engineer and Management, are decades old;
-they make computer publications like Macworld and PC Week
-look like amateur johnny-come-latelies.
-
-And the phone companies take no back seat in high-technology, either.
-Other companies' industrial researchers may have won new markets;
-but the researchers of Bell Labs have won SEVEN NOBEL PRIZES.
-One potent device that Bell Labs originated, the transistor,
-has created entire GROUPS of industries. Bell Labs are
-world-famous for generating "a patent a day," and have even
-made vital discoveries in astronomy, physics and cosmology.
-
-Throughout its seventy-year history, "Ma Bell" was not so much
-a company as a way of life. Until the cataclysmic divestiture
-of the 1980s, Ma Bell was perhaps the ultimate maternalist mega-employer.
-The AT&T corporate image was the "gentle giant," "the voice with a smile,"
-a vaguely socialist-realist world of cleanshaven linemen in shiny helmets
-and blandly pretty phone-girls in headsets and nylons. Bell System
-employees were famous as rock-ribbed Kiwanis and Rotary members,
-Little-League enthusiasts, school-board people.
-
-During the long heyday of Ma Bell, the Bell employee corps
-were nurtured top-to-bottom on a corporate ethos of public service.
-There was good money in Bell, but Bell was not ABOUT money;
-Bell used public relations, but never mere marketeering.
-People went into the Bell System for a good life,
-and they had a good life. But it was not mere money
-that led Bell people out in the midst of storms and earthquakes
-to fight with toppled phone-poles, to wade in flooded manholes,
-to pull the red-eyed graveyard-shift over collapsing switching-systems.
-The Bell ethic was the electrical equivalent of the postman's:
-neither rain, nor snow, nor gloom of night would stop these couriers.
-
-It is easy to be cynical about this, as it is easy to be
-cynical about any political or social system; but cynicism
-does not change the fact that thousands of people took
-these ideals very seriously. And some still do.
-
-The Bell ethos was about public service; and that was
-gratifying; but it was also about private POWER, and that
-was gratifying too. As a corporation, Bell was very special.
-Bell was privileged. Bell had snuggled up close to the state.
-In fact, Bell was as close to government as you could get in
-America and still make a whole lot of legitimate money.
-
-But unlike other companies, Bell was above and beyond
-the vulgar commercial fray. Through its regional operating companies,
-Bell was omnipresent, local, and intimate, all over America;
-but the central ivory towers at its corporate heart were the
-tallest and the ivoriest around.
-
-There were other phone companies in America, to be sure;
-the so-called independents. Rural cooperatives, mostly;
-small fry, mostly tolerated, sometimes warred upon.
-For many decades, "independent" American phone companies
-lived in fear and loathing of the official Bell monopoly
-(or the "Bell Octopus," as Ma Bell's nineteenth-century
-enemies described her in many angry newspaper manifestos).
-Some few of these independent entrepreneurs, while legally
-in the wrong, fought so bitterly against the Octopus
-that their illegal phone networks were cast into the street
-by Bell agents and publicly burned.
-
-The pure technical sweetness of the Bell System gave its operators,
-inventors and engineers a deeply satisfying sense of power and mastery.
-They had devoted their lives to improving this vast nation-spanning machine;
-over years, whole human lives, they had watched it improve and grow.
-It was like a great technological temple. They were an elite,
-and they knew it--even if others did not; in fact, they felt
-even more powerful BECAUSE others did not understand.
-
-The deep attraction of this sensation of elite technical power
-should never be underestimated. "Technical power" is not for everybody;
-for many people it simply has no charm at all. But for some people,
-it becomes the core of their lives. For a few, it is overwhelming,
-obsessive; it becomes something close to an addiction. People--especially
-clever teenage boys whose lives are otherwise mostly powerless and put-upon
---love this sensation of secret power, and are willing to do all sorts
-of amazing things to achieve it. The technical POWER of electronics
-has motivated many strange acts detailed in this book, which would
-otherwise be inexplicable.
-
-So Bell had power beyond mere capitalism. The Bell service ethos worked,
-and was often propagandized, in a rather saccharine fashion. Over the decades,
-people slowly grew tired of this. And then, openly impatient with it.
-By the early 1980s, Ma Bell was to find herself with scarcely a real friend
-in the world. Vail's industrial socialism had become hopelessly
-out-of-fashion politically. Bell would be punished for that.
-And that punishment would fall harshly upon the people of the
-telephone community.
-
-#
-
-In 1983, Ma Bell was dismantled by federal court action.
-The pieces of Bell are now separate corporate entities.
-The core of the company became AT&T Communications,
-and also AT&T Industries (formerly Western Electric,
-Bell's manufacturing arm). AT&T Bell Labs became Bell
-Communications Research, Bellcore. Then there are the
-Regional Bell Operating Companies, or RBOCs, pronounced "arbocks."
-
-Bell was a titan and even these regional chunks are gigantic enterprises:
-Fortune 50 companies with plenty of wealth and power behind them.
-But the clean lines of "One Policy, One System, Universal Service"
-have been shattered, apparently forever.
-
-The "One Policy" of the early Reagan Administration was to
-shatter a system that smacked of noncompetitive socialism.
-Since that time, there has been no real telephone "policy"
-on the federal level. Despite the breakup, the remnants
-of Bell have never been set free to compete in the open marketplace.
-
-The RBOCs are still very heavily regulated, but not from the top.
-Instead, they struggle politically, economically and legally,
-in what seems an endless turmoil, in a patchwork of overlapping federal
-and state jurisdictions. Increasingly, like other major American corporations,
-the RBOCs are becoming multinational, acquiring important commercial interests
-in Europe, Latin America, and the Pacific Rim. But this, too, adds to their
-legal and political predicament.
-
-The people of what used to be Ma Bell are not happy about their fate.
-They feel ill-used. They might have been grudgingly willing to make
-a full transition to the free market; to become just companies amid
-other companies. But this never happened. Instead, AT&T and the RBOCS
-("the Baby Bells") feel themselves wrenched from side to side by state
-regulators, by Congress, by the FCC, and especially by the federal court
-of Judge Harold Greene, the magistrate who ordered the Bell breakup
-and who has been the de facto czar of American telecommunications
-ever since 1983.
-
-Bell people feel that they exist in a kind of paralegal limbo today.
-They don't understand what's demanded of them. If it's "service,"
-why aren't they treated like a public service? And if it's money,
-then why aren't they free to compete for it? No one seems to know,
-really. Those who claim to know keep changing their minds.
-Nobody in authority seems willing to grasp the nettle for once and all.
-
-Telephone people from other countries are amazed by the
-American telephone system today. Not that it works so well;
-for nowadays even the French telephone system works, more or less.
-They are amazed that the American telephone system STILL works
-AT ALL, under these strange conditions.
-
-Bell's "One System" of long-distance service is now only about
-eighty percent of a system, with the remainder held by Sprint, MCI,
-and the midget long-distance companies. Ugly wars over dubious
-corporate practices such as "slamming" (an underhanded method
-of snitching clients from rivals) break out with some regularity
-in the realm of long-distance service. The battle to break Bell's
-long-distance monopoly was long and ugly, and since the breakup
-the battlefield has not become much prettier. AT&T's famous
-shame-and-blame advertisements, which emphasized the shoddy work
-and purported ethical shadiness of their competitors, were much
-remarked on for their studied psychological cruelty.
-
-There is much bad blood in this industry, and much
-long-treasured resentment. AT&T's post-breakup
-corporate logo, a striped sphere, is known in the
-industry as the "Death Star" (a reference from the movie
-Star Wars, in which the "Death Star" was the spherical
-high- tech fortress of the harsh-breathing imperial ultra-baddie,
-Darth Vader.) Even AT&T employees are less than thrilled
-by the Death Star. A popular (though banned) T-shirt among
-AT&T employees bears the old-fashioned Bell logo of the Bell System,
-plus the newfangled striped sphere, with the before-and-after comments:
-"This is your brain--This is your brain on drugs!" AT&T made a very
-well-financed and determined effort to break into the personal
-computer market; it was disastrous, and telco computer experts
-are derisively known by their competitors as "the pole-climbers."
-AT&T and the Baby Bell arbocks still seem to have few friends.
-
-Under conditions of sharp commercial competition, a crash like
-that of January 15, 1990 was a major embarrassment to AT&T.
-It was a direct blow against their much-treasured reputation
-for reliability. Within days of the crash AT&T's
-Chief Executive Officer, Bob Allen, officially apologized,
-in terms of deeply pained humility:
-
-"AT&T had a major service disruption last Monday.
-We didn't live up to our own standards of quality,
-and we didn't live up to yours. It's as simple as that.
-And that's not acceptable to us. Or to you. . . .
-We understand how much people have come to depend
-upon AT&T service, so our AT&T Bell Laboratories scientists
-and our network engineers are doing everything possible
-to guard against a recurrence. . . . We know there's no way
-to make up for the inconvenience this problem may have caused you."
-
-Mr Allen's "open letter to customers" was printed in lavish ads
-all over the country: in the Wall Street Journal, USA Today,
-New York Times, Los Angeles Times, Chicago Tribune,
-Philadelphia Inquirer, San Francisco Chronicle Examiner,
-Boston Globe, Dallas Morning News, Detroit Free Press,
-Washington Post, Houston Chronicle, Cleveland Plain Dealer,
-Atlanta Journal Constitution, Minneapolis Star Tribune,
-St. Paul Pioneer Press Dispatch, Seattle Times/Post Intelligencer,
-Tacoma News Tribune, Miami Herald, Pittsburgh Press,
-St. Louis Post Dispatch, Denver Post, Phoenix Republic Gazette
-and Tampa Tribune.
-
-In another press release, AT&T went to some pains to suggest
-that this "software glitch" might have happened just as easily to MCI,
-although, in fact, it hadn't. (MCI's switching software was quite different
-from AT&T's--though not necessarily any safer.) AT&T also announced
-their plans to offer a rebate of service on Valentine's Day to make up
-for the loss during the Crash.
-
-"Every technical resource available, including Bell Labs
-scientists and engineers, has been devoted to assuring
-it will not occur again," the public was told. They were
-further assured that "The chances of a recurrence are small--
-a problem of this magnitude never occurred before."
-
-In the meantime, however, police and corporate
-security maintained their own suspicions about
-"the chances of recurrence" and the real reason why
-a "problem of this magnitude" had appeared, seemingly
-out of nowhere. Police and security knew for a fact
-that hackers of unprecedented sophistication were illegally
-entering, and reprogramming, certain digital switching stations.
-Rumors of hidden "viruses" and secret "logic bombs"
-in the switches ran rampant in the underground,
-with much chortling over AT&T's predicament,
-and idle speculation over what unsung hacker genius
-was responsible for it. Some hackers, including police
-informants, were trying hard to finger one another
-as the true culprits of the Crash.
-
-Telco people found little comfort in objectivity when
-they contemplated these possibilities. It was just too close
-to the bone for them; it was embarrassing; it hurt so much,
-it was hard even to talk about.
-
-There has always been thieving and misbehavior in the phone system.
-There has always been trouble with the rival independents,
-and in the local loops. But to have such trouble in the core
-of the system, the long-distance switching stations,
-is a horrifying affair. To telco people, this is
-all the difference between finding roaches in your kitchen
-and big horrid sewer-rats in your bedroom.
-
-From the outside, to the average citizen, the telcos
-still seem gigantic and impersonal. The American public
-seems to regard them as something akin to Soviet apparats.
-Even when the telcos do their best corporate-citizen routine,
-subsidizing magnet high-schools and sponsoring news-shows
-on public television, they seem to win little except public suspicion.
-
-But from the inside, all this looks very different.
-There's harsh competition. A legal and political system
-that seems baffled and bored, when not actively hostile
-to telco interests. There's a loss of morale, a deep sensation
-of having somehow lost the upper hand. Technological change
-has caused a loss of data and revenue to other, newer forms
-of transmission. There's theft, and new forms of theft,
-of growing scale and boldness and sophistication.
-With all these factors, it was no surprise to see the telcos,
-large and small, break out in a litany of bitter complaint.
-
-In late '88 and throughout 1989, telco representatives
-grew shrill in their complaints to those few American law
-enforcement officials who make it their business to try to
-understand what telephone people are talking about.
-Telco security officials had discovered the computer-
-hacker underground, infiltrated it thoroughly,
-and become deeply alarmed at its growing expertise.
-Here they had found a target that was not only loathsome
-on its face, but clearly ripe for counterattack.
-
-Those bitter rivals: AT&T, MCI and Sprint--and a crowd
-of Baby Bells: PacBell, Bell South, Southwestern Bell,
-NYNEX, USWest, as well as the Bell research consortium Bellcore,
-and the independent long-distance carrier Mid-American--
-all were to have their role in the great hacker dragnet of 1990.
-After years of being battered and pushed around, the telcos had,
-at least in a small way, seized the initiative again.
-After years of turmoil, telcos and government officials were
-once again to work smoothly in concert in defense of the System.
-Optimism blossomed; enthusiasm grew on all sides;
-the prospective taste of vengeance was sweet.
-
-#
-
-From the beginning--even before the crackdown had a name--
-secrecy was a big problem. There were many good reasons
-for secrecy in the hacker crackdown. Hackers and code-thieves
-were wily prey, slinking back to their bedrooms and basements
-and destroying vital incriminating evidence at the first hint of trouble.
-Furthermore, the crimes themselves were heavily technical and difficult
-to describe, even to police--much less to the general public.
-
-When such crimes HAD been described intelligibly to the public,
-in the past, that very publicity had tended to INCREASE the crimes
-enormously. Telco officials, while painfully aware of the vulnerabilities
-of their systems, were anxious not to publicize those weaknesses.
-Experience showed them that those weaknesses, once discovered,
-would be pitilessly exploited by tens of thousands of people--not only
-by professional grifters and by underground hackers and phone phreaks,
-but by many otherwise more-or-less honest everyday folks, who regarded
-stealing service from the faceless, soulless "Phone Company" as a kind of
-harmless indoor sport. When it came to protecting their interests,
-telcos had long since given up on general public sympathy for
-"the Voice with a Smile." Nowadays the telco's "Voice" was
-very likely to be a computer's; and the American public
-showed much less of the proper respect and gratitude due
-the fine public service bequeathed them by Dr. Bell and Mr. Vail.
-The more efficient, high-tech, computerized, and impersonal
-the telcos became, it seemed, the more they were met by
-sullen public resentment and amoral greed.
-
-Telco officials wanted to punish the phone-phreak underground, in as
-public and exemplary a manner as possible. They wanted to make dire
-examples of the worst offenders, to seize the ringleaders and intimidate
-the small fry, to discourage and frighten the wacky hobbyists, and send
-the professional grifters to jail. To do all this, publicity was vital.
-
-Yet operational secrecy was even more so. If word got out that
-a nationwide crackdown was coming, the hackers might simply vanish;
-destroy the evidence, hide their computers, go to earth,
-and wait for the campaign to blow over. Even the young
-hackers were crafty and suspicious, and as for the professional grifters,
-they tended to split for the nearest state-line at the first sign of trouble.
-For the crackdown to work well, they would all have to be caught red-handed,
-swept upon suddenly, out of the blue, from every corner of the compass.
-
-And there was another strong motive for secrecy. In the worst-case scenario,
-a blown campaign might leave the telcos open to a devastating hacker
-counter-attack. If there were indeed hackers loose in America who
-had caused the January 15 Crash--if there were truly gifted hackers,
-loose in the nation's long-distance switching systems, and enraged
-or frightened by the crackdown--then they might react unpredictably
-to an attempt to collar them. Even if caught, they might have talented
-and vengeful friends still running around loose. Conceivably,
-it could turn ugly. Very ugly. In fact, it was hard to imagine
-just how ugly things might turn, given that possibility.
-
-Counter-attack from hackers was a genuine concern for the telcos.
-In point of fact, they would never suffer any such counter-attack.
-But in months to come, they would be at some pains to publicize
-this notion and to utter grim warnings about it.
-
-Still, that risk seemed well worth running. Better to run the risk
-of vengeful attacks, than to live at the mercy of potential crashers.
-Any cop would tell you that a protection racket had no real future.
-
-And publicity was such a useful thing. Corporate security officers,
-including telco security, generally work under conditions of great discretion.
-And corporate security officials do not make money for their companies.
-Their job is to PREVENT THE LOSS of money, which is much less glamorous
-than actually winning profits.
-
-If you are a corporate security official, and you do your job brilliantly,
-then nothing bad happens to your company at all. Because of this, you appear
-completely superfluous. This is one of the many unattractive aspects
-of security work. It's rare that these folks have the chance to draw
-some healthy attention to their own efforts.
-
-Publicity also served the interest of their friends in law enforcement.
-Public officials, including law enforcement officials, thrive by attracting
-favorable public interest. A brilliant prosecution in a matter of vital
-public interest can make the career of a prosecuting attorney.
-And for a police officer, good publicity opens the purses of the legislature;
-it may bring a citation, or a promotion, or at least a rise in status
-and the respect of one's peers.
-
-But to have both publicity and secrecy is to have one's cake and eat it too.
-In months to come, as we will show, this impossible act was to cause great
-pain to the agents of the crackdown. But early on, it seemed possible
---maybe even likely--that the crackdown could successfully combine
-the best of both worlds. The ARREST of hackers would be heavily publicized.
-The actual DEEDS of the hackers, which were technically hard to explain
-and also a security risk, would be left decently obscured. The THREAT
-hackers posed would be heavily trumpeted; the likelihood of their actually
-committing such fearsome crimes would be left to the public's imagination.
-The spread of the computer underground, and its growing technical
-sophistication, would be heavily promoted; the actual hackers themselves,
-mostly bespectacled middle-class white suburban teenagers,
-would be denied any personal publicity.
-
-It does not seem to have occurred to any telco official
-that the hackers accused would demand a day in court;
-that journalists would smile upon the hackers as
-"good copy;" that wealthy high-tech entrepreneurs would
-offer moral and financial support to crackdown victims;
-that constitutional lawyers would show up with briefcases,
-frowning mightily. This possibility does not seem to have
-ever entered the game-plan.
-
-And even if it had, it probably would not have slowed
-the ferocious pursuit of a stolen phone-company document,
-mellifluously known as "Control Office Administration of
-Enhanced 911 Services for Special Services and Major Account Centers."
-
-In the chapters to follow, we will explore the worlds
-of police and the computer underground, and the large
-shadowy area where they overlap. But first, we must
-explore the battleground. Before we leave the world
-of the telcos, we must understand what a switching system
-actually is and how your telephone actually works.
-
-#
-
-To the average citizen, the idea of the telephone is represented by,
-well, a TELEPHONE: a device that you talk into. To a telco
-professional, however, the telephone itself is known, in lordly
-fashion, as a "subset." The "subset" in your house is a mere adjunct,
-a distant nerve ending, of the central switching stations,
-which are ranked in levels of heirarchy, up to the long-distance electronic
-switching stations, which are some of the largest computers on earth.
-
-Let us imagine that it is, say, 1925, before the
-introduction of computers, when the phone system was
-simpler and somewhat easier to grasp. Let's further
-imagine that you are Miss Leticia Luthor, a fictional
-operator for Ma Bell in New York City of the 20s.
-
-Basically, you, Miss Luthor, ARE the "switching system."
-You are sitting in front of a large vertical switchboard,
-known as a "cordboard," made of shiny wooden panels,
-with ten thousand metal-rimmed holes punched in them,
-known as jacks. The engineers would have put more
-holes into your switchboard, but ten thousand is
-as many as you can reach without actually having
-to get up out of your chair.
-
-Each of these ten thousand holes has its own little electric lightbulb,
-known as a "lamp," and its own neatly printed number code.
-
-With the ease of long habit, you are scanning your board for lit-up bulbs.
-This is what you do most of the time, so you are used to it.
-
-A lamp lights up. This means that the phone
-at the end of that line has been taken off the hook.
-Whenever a handset is taken off the hook, that closes a circuit
-inside the phone which then signals the local office, i.e. you,
-automatically. There might be somebody calling, or then
-again the phone might be simply off the hook, but this
-does not matter to you yet. The first thing you do,
-is record that number in your logbook, in your fine American
-public-school handwriting. This comes first, naturally,
-since it is done for billing purposes.
-
-You now take the plug of your answering cord, which goes
-directly to your headset, and plug it into the lit-up hole.
-"Operator," you announce.
-
-In operator's classes, before taking this job, you have
-been issued a large pamphlet full of canned operator's
-responses for all kinds of contingencies, which you had
-to memorize. You have also been trained in a proper
-non-regional, non-ethnic pronunciation and tone of voice.
-You rarely have the occasion to make any spontaneous
-remark to a customer, and in fact this is frowned upon
-(except out on the rural lines where people have time
-on their hands and get up to all kinds of mischief).
-
-A tough-sounding user's voice at the end of the line
-gives you a number. Immediately, you write that number
-down in your logbook, next to the caller's number,
-which you just wrote earlier. You then look and see if
-the number this guy wants is in fact on your switchboard,
-which it generally is, since it's generally a local call.
-Long distance costs so much that people use it sparingly.
-
-Only then do you pick up a calling-cord from a shelf
-at the base of the switchboard. This is a long elastic cord
-mounted on a kind of reel so that it will zip back in when
-you unplug it. There are a lot of cords down there,
-and when a bunch of them are out at once they look like
-a nest of snakes. Some of the girls think there are bugs
-living in those cable-holes. They're called "cable mites"
-and are supposed to bite your hands and give you rashes.
-You don't believe this, yourself.
-
-Gripping the head of your calling-cord, you slip the tip
-of it deftly into the sleeve of the jack for the called person.
-Not all the way in, though. You just touch it. If you hear
-a clicking sound, that means the line is busy and you can't
-put the call through. If the line is busy, you have to stick
-the calling-cord into a "busy-tone jack," which will give
-the guy a busy-tone. This way you don't have to talk to him
-yourself and absorb his natural human frustration.
-
-But the line isn't busy. So you pop the cord all the way in.
-Relay circuits in your board make the distant phone ring,
-and if somebody picks it up off the hook, then a phone
-conversation starts. You can hear this conversation
-on your answering cord, until you unplug it. In fact
-you could listen to the whole conversation if you wanted,
-but this is sternly frowned upon by management, and frankly,
-when you've overheard one, you've pretty much heard 'em all.
-
-You can tell how long the conversation lasts by the glow
-of the calling-cord's lamp, down on the calling-cord's shelf.
-When it's over, you unplug and the calling-cord zips back into place.
-
-Having done this stuff a few hundred thousand times,
-you become quite good at it. In fact you're plugging,
-and connecting, and disconnecting, ten, twenty, forty cords
-at a time. It's a manual handicraft, really, quite satisfying
-in a way, rather like weaving on an upright loom.
-
-Should a long-distance call come up, it would be different,
-but not all that different. Instead of connecting the call
-through your own local switchboard, you have to go up the hierarchy,
-onto the long-distance lines, known as "trunklines."
-Depending on how far the call goes, it may have to work
-its way through a whole series of operators, which can
-take quite a while. The caller doesn't wait on the line
-while this complex process is negotiated across the country
-by the gaggle of operators. Instead, the caller hangs up,
-and you call him back yourself when the call has finally
-worked its way through.
-
-After four or five years of this work, you get married,
-and you have to quit your job, this being the natural order
-of womanhood in the American 1920s. The phone company
-has to train somebody else--maybe two people, since
-the phone system has grown somewhat in the meantime.
-And this costs money.
-
-In fact, to use any kind of human being as a switching
-system is a very expensive proposition. Eight thousand
-Leticia Luthors would be bad enough, but a quarter of a
-million of them is a military-scale proposition and makes
-drastic measures in automation financially worthwhile.
-
-Although the phone system continues to grow today,
-the number of human beings employed by telcos has
-been dropping steadily for years. Phone "operators"
-now deal with nothing but unusual contingencies,
-all routine operations having been shrugged off onto machines.
-Consequently, telephone operators are considerably less
-machine-like nowadays, and have been known to have accents
-and actual character in their voices. When you reach
-a human operator today, the operators are rather more
-"human" than they were in Leticia's day--but on the other hand,
-human beings in the phone system are much harder to reach
-in the first place.
-
-Over the first half of the twentieth century,
-"electromechanical" switching systems of growing
-complexity were cautiously introduced into the phone system.
-In certain backwaters, some of these hybrid systems are still
-in use. But after 1965, the phone system began to go completely
-electronic, and this is by far the dominant mode today.
-Electromechanical systems have "crossbars," and "brushes,"
-and other large moving mechanical parts, which, while faster
-and cheaper than Leticia, are still slow, and tend to wear out
-fairly quickly.
-
-But fully electronic systems are inscribed on silicon chips,
-and are lightning-fast, very cheap, and quite durable.
-They are much cheaper to maintain than even the best
-electromechanical systems, and they fit into half the space.
-And with every year, the silicon chip grows smaller, faster,
-and cheaper yet. Best of all, automated electronics work
-around the clock and don't have salaries or health insurance.
-
-There are, however, quite serious drawbacks to the
-use of computer-chips. When they do break down, it is
-a daunting challenge to figure out what the heck has gone
-wrong with them. A broken cordboard generally had
-a problem in it big enough to see. A broken chip has
-invisible, microscopic faults. And the faults in bad
-software can be so subtle as to be practically theological.
-
-If you want a mechanical system to do something new,
-then you must travel to where it is, and pull pieces out of it,
-and wire in new pieces. This costs money. However, if you want
-a chip to do something new, all you have to do is change its software,
-which is easy, fast and dirt-cheap. You don't even have to see the chip
-to change its program. Even if you did see the chip, it wouldn't look
-like much. A chip with program X doesn't look one whit different from
-a chip with program Y.
-
-With the proper codes and sequences, and access to specialized phone-lines,
-you can change electronic switching systems all over America from anywhere
-you please.
-
-And so can other people. If they know how, and if they want to,
-they can sneak into a microchip via the special phonelines and diddle with it,
-leaving no physical trace at all. If they broke into the operator's station
-and held Leticia at gunpoint, that would be very obvious. If they broke into
-a telco building and went after an electromechanical switch with a toolbelt,
-that would at least leave many traces. But people can do all manner of amazing
-things to computer switches just by typing on a keyboard, and keyboards are
-everywhere today. The extent of this vulnerability is deep, dark, broad,
-almost mind-boggling, and yet this is a basic, primal fact of life about
-any computer on a network.
-
-Security experts over the past twenty years have insisted,
-with growing urgency, that this basic vulnerability of computers
-represents an entirely new level of risk, of unknown but obviously
-dire potential to society. And they are right.
-
-An electronic switching station does pretty much
-everything Letitia did, except in nanoseconds and
-on a much larger scale. Compared to Miss Luthor's
-ten thousand jacks, even a primitive 1ESS switching computer,
-60s vintage, has a 128,000 lines. And the current AT&T
-system of choice is the monstrous fifth-generation 5ESS.
-
-An Electronic Switching Station can scan every line on its "board"
-in a tenth of a second, and it does this over and over, tirelessly,
-around the clock. Instead of eyes, it uses "ferrod scanners"
-to check the condition of local lines and trunks. Instead of hands,
-it has "signal distributors," "central pulse distributors,"
-"magnetic latching relays," and "reed switches," which complete
-and break the calls. Instead of a brain, it has a "central processor."
-Instead of an instruction manual, it has a program. Instead of
-a handwritten logbook for recording and billing calls,
-it has magnetic tapes. And it never has to talk to anybody.
-Everything a customer might say to it is done by punching
-the direct-dial tone buttons on your subset.
-
-Although an Electronic Switching Station can't talk,
-it does need an interface, some way to relate to its, er,
-employers. This interface is known as the "master control
-center." (This interface might be better known simply as
-"the interface," since it doesn't actually "control" phone
-calls directly. However, a term like "Master Control
-Center" is just the kind of rhetoric that telco maintenance
-engineers--and hackers--find particularly satisfying.)
-
-Using the master control center, a phone engineer can test
-local and trunk lines for malfunctions. He (rarely she)
-can check various alarm displays, measure traffic on the lines,
-examine the records of telephone usage and the charges for those calls,
-and change the programming.
-
-And, of course, anybody else who gets into the master control center
-by remote control can also do these things, if he (rarely she)
-has managed to figure them out, or, more likely, has somehow swiped
-the knowledge from people who already know.
-
-In 1989 and 1990, one particular RBOC, BellSouth,
-which felt particularly troubled, spent a purported $1.2
-million on computer security. Some think it spent as
-much as two million, if you count all the associated costs.
-Two million dollars is still very little compared to the
-great cost-saving utility of telephonic computer systems.
-
-Unfortunately, computers are also stupid.
-Unlike human beings, computers possess the truly
-profound stupidity of the inanimate.
-
-In the 1960s, in the first shocks of spreading computerization,
-there was much easy talk about the stupidity of computers--
-how they could "only follow the program" and were rigidly required
-to do "only what they were told." There has been rather less talk
-about the stupidity of computers since they began to achieve
-grandmaster status in chess tournaments, and to manifest
-many other impressive forms of apparent cleverness.
-
-Nevertheless, computers STILL are profoundly brittle and stupid;
-they are simply vastly more subtle in their stupidity and brittleness.
-The computers of the 1990s are much more reliable in their components
-than earlier computer systems, but they are also called upon to do
-far more complex things, under far more challenging conditions.
-
-On a basic mathematical level, every single line of
-a software program offers a chance for some possible screwup.
-Software does not sit still when it works; it "runs,"
-it interacts with itself and with its own inputs and outputs.
-By analogy, it stretches like putty into millions of possible
-shapes and conditions, so many shapes that they can never
-all be successfully tested, not even in the lifespan of the universe.
-Sometimes the putty snaps.
-
-The stuff we call "software" is not like anything that human society
-is used to thinking about. Software is something like a machine,
-and something like mathematics, and something like language, and
-something like thought, and art, and information. . . . But software
-is not in fact any of those other things. The protean quality
-of software is one of the great sources of its fascination.
-It also makes software very powerful, very subtle,
-very unpredictable, and very risky.
-
-Some software is bad and buggy. Some is "robust,"
-even "bulletproof." The best software is that which has
-been tested by thousands of users under thousands of
-different conditions, over years. It is then known as
-"stable." This does NOT mean that the software is
-now flawless, free of bugs. It generally means that there
-are plenty of bugs in it, but the bugs are well-identified
-and fairly well understood.
-
-There is simply no way to assure that software is free
-of flaws. Though software is mathematical in nature,
-it cannot by "proven" like a mathematical theorem;
-software is more like language, with inherent ambiguities,
-with different definitions, different assumptions,
-different levels of meaning that can conflict.
-
-Human beings can manage, more or less, with
-human language because we can catch the gist of it.
-
-Computers, despite years of effort in "artificial intelligence,"
-have proven spectacularly bad in "catching the gist" of anything at all.
-The tiniest bit of semantic grit may still bring the mightiest computer
-tumbling down. One of the most hazardous things you can do to a
-computer program is try to improve it--to try to make it safer.
-Software "patches" represent new, untried un-"stable" software,
-which is by definition riskier.
-
-The modern telephone system has come to depend,
-utterly and irretrievably, upon software. And the
-System Crash of January 15, 1990, was caused by an
-IMPROVEMENT in software. Or rather, an ATTEMPTED
-improvement.
-
-As it happened, the problem itself--the problem per se--took this form.
-A piece of telco software had been written in C language, a standard
-language of the telco field. Within the C software was a
-long "do. . .while" construct. The "do. . .while" construct
-contained a "switch" statement. The "switch" statement contained
-an "if" clause. The "if" clause contained a "break." The "break"
-was SUPPOSED to "break" the "if clause." Instead, the "break"
-broke the "switch" statement.
-
-That was the problem, the actual reason why people picking up phones
-on January 15, 1990, could not talk to one another.
-
-Or at least, that was the subtle, abstract, cyberspatial
-seed of the problem. This is how the problem manifested itself
-from the realm of programming into the realm of real life.
-
-The System 7 software for AT&T's 4ESS switching station,
-the "Generic 44E14 Central Office Switch Software,"
-had been extensively tested, and was considered very stable.
-By the end of 1989, eighty of AT&T's switching systems
-nationwide had been programmed with the new software. Cautiously,
-thirty-four stations were left to run the slower, less-capable
-System 6, because AT&T suspected there might be shakedown problems
-with the new and unprecedently sophisticated System 7 network.
-
-The stations with System 7 were programmed to switch over to a backup net
-in case of any problems. In mid-December 1989, however, a new high-velocity,
-high-security software patch was distributed to each of the 4ESS switches
-that would enable them to switch over even more quickly, making the System 7
-network that much more secure.
-
-Unfortunately, every one of these 4ESS switches was now in possession
-of a small but deadly flaw.
-
-In order to maintain the network, switches must monitor
-the condition of other switches--whether they are up and running,
-whether they have temporarily shut down, whether they are overloaded
-and in need of assistance, and so forth. The new software helped
-control this bookkeeping function by monitoring the status calls
-from other switches.
-
-It only takes four to six seconds for a troubled 4ESS switch
-to rid itself of all its calls, drop everything temporarily,
-and re-boot its software from scratch. Starting over from scratch
-will generally rid the switch of any software problems that may have
-developed in the course of running the system. Bugs that arise will
-be simply wiped out by this process. It is a clever idea. This process
-of automatically re-booting from scratch is known as the "normal fault
-recovery routine." Since AT&T's software is in fact exceptionally stable,
-systems rarely have to go into "fault recovery" in the first place;
-but AT&T has always boasted of its "real world" reliability, and this
-tactic is a belt-and-suspenders routine.
-
-The 4ESS switch used its new software to monitor its fellow switches
-as they recovered from faults. As other switches came back on line
-after recovery, they would send their "OK" signals to the switch.
-The switch would make a little note to that effect in its "status map,"
-recognizing that the fellow switch was back and ready to go,
-and should be sent some calls and put back to regular work.
-
-Unfortunately, while it was busy bookkeeping with the status map,
-the tiny flaw in the brand-new software came into play.
-The flaw caused the 4ESS switch to interact, subtly but drastically,
-with incoming telephone calls from human users. If--and only if--
-two incoming phone-calls happened to hit the switch within a hundredth
-of a second, then a small patch of data would be garbled by the flaw.
-
-But the switch had been programmed to monitor itself
-constantly for any possible damage to its data.
-When the switch perceived that its data had been somehow garbled,
-then it too would go down, for swift repairs to its software.
-It would signal its fellow switches not to send any more work.
-It would go into the fault-recovery mode for four to six seconds.
-And then the switch would be fine again, and would send out its "OK,
-ready for work" signal.
-
-However, the "OK, ready for work" signal was the VERY THING THAT
-HAD CAUSED THE SWITCH TO GO DOWN IN THE FIRST PLACE. And ALL the
-System 7 switches had the same flaw in their status-map software.
-As soon as they stopped to make the bookkeeping note that their fellow
-switch was "OK," then they too would become vulnerable to the slight
-chance that two phone-calls would hit them within a hundredth of a second.
-
-At approximately 2:25 P.M. EST on Monday, January 15,
-one of AT&T's 4ESS toll switching systems in New York City
-had an actual, legitimate, minor problem. It went into fault
-recovery routines, announced "I'm going down," then announced,
-"I'm back, I'm OK." And this cheery message then blasted
-throughout the network to many of its fellow 4ESS switches.
-
-Many of the switches, at first, completely escaped trouble.
-These lucky switches were not hit by the coincidence of
-two phone calls within a hundredth of a second.
-Their software did not fail--at first. But three switches--
-in Atlanta, St. Louis, and Detroit--were unlucky,
-and were caught with their hands full. And they went down.
-And they came back up, almost immediately. And they too began
-to broadcast the lethal message that they, too, were "OK" again,
-activating the lurking software bug in yet other switches.
-
-As more and more switches did have that bit of bad luck
-and collapsed, the call-traffic became more and more densely
-packed in the remaining switches, which were groaning
-to keep up with the load. And of course, as the calls
-became more densely packed, the switches were MUCH MORE LIKELY
-to be hit twice within a hundredth of a second.
-
-It only took four seconds for a switch to get well.
-There was no PHYSICAL damage of any kind to the switches,
-after all. Physically, they were working perfectly.
-This situation was "only" a software problem.
-
-But the 4ESS switches were leaping up and down every
-four to six seconds, in a virulent spreading wave all over America,
-in utter, manic, mechanical stupidity. They kept KNOCKING
-one another down with their contagious "OK" messages.
-
-It took about ten minutes for the chain reaction to cripple the network.
-Even then, switches would periodically luck-out and manage to resume
-their normal work. Many calls--millions of them--were managing
-to get through. But millions weren't.
-
-The switching stations that used System 6 were not directly affected.
-Thanks to these old-fashioned switches, AT&T's national system avoided
-complete collapse. This fact also made it clear to engineers that
-System 7 was at fault.
-
-Bell Labs engineers, working feverishly in New Jersey, Illinois,
-and Ohio, first tried their entire repertoire of standard network
-remedies on the malfunctioning System 7. None of the remedies worked,
-of course, because nothing like this had ever happened to any
-phone system before.
-
-By cutting out the backup safety network entirely,
-they were able to reduce the frenzy of "OK" messages
-by about half. The system then began to recover, as the
-chain reaction slowed. By 11:30 P.M. on Monday January
-15, sweating engineers on the midnight shift breathed a
-sigh of relief as the last switch cleared-up.
-
-By Tuesday they were pulling all the brand-new 4ESS software
-and replacing it with an earlier version of System 7.
-
-If these had been human operators, rather than
-computers at work, someone would simply have
-eventually stopped screaming. It would have been
-OBVIOUS that the situation was not "OK," and common
-sense would have kicked in. Humans possess common sense--
-at least to some extent. Computers simply don't.
-
-On the other hand, computers can handle hundreds
-of calls per second. Humans simply can't. If every single
-human being in America worked for the phone company,
-we couldn't match the performance of digital switches:
-direct-dialling, three-way calling, speed-calling, call-
-waiting, Caller ID, all the rest of the cornucopia
-of digital bounty. Replacing computers with operators
-is simply not an option any more.
-
-And yet we still, anachronistically, expect humans to
-be running our phone system. It is hard for us
-to understand that we have sacrificed huge amounts
-of initiative and control to senseless yet powerful machines.
-When the phones fail, we want somebody to be responsible.
-We want somebody to blame.
-
-When the Crash of January 15 happened, the American populace
-was simply not prepared to understand that enormous landslides
-in cyberspace, like the Crash itself, can happen,
-and can be nobody's fault in particular. It was easier to believe,
-maybe even in some odd way more reassuring to believe,
-that some evil person, or evil group, had done this to us.
-"Hackers" had done it. With a virus. A trojan horse.
-A software bomb. A dirty plot of some kind. People believed this,
-responsible people. In 1990, they were looking hard for evidence
-to confirm their heartfelt suspicions.
-
-And they would look in a lot of places.
-
-Come 1991, however, the outlines of an apparent new reality
-would begin to emerge from the fog.
-
-On July 1 and 2, 1991, computer-software collapses
-in telephone switching stations disrupted service in
-Washington DC, Pittsburgh, Los Angeles and San Francisco.
-Once again, seemingly minor maintenance problems had
-crippled the digital System 7. About twelve million
-people were affected in the Crash of July 1, 1991.
-
-Said the New York Times Service: "Telephone company executives
-and federal regulators said they were not ruling out the possibility
-of sabotage by computer hackers, but most seemed to think the problems
-stemmed from some unknown defect in the software running the networks."
-
-And sure enough, within the week, a red-faced software company,
-DSC Communications Corporation of Plano, Texas, owned up
-to "glitches" in the "signal transfer point" software that
-DSC had designed for Bell Atlantic and Pacific Bell.
-The immediate cause of the July 1 Crash was a single
-mistyped character: one tiny typographical flaw
-in one single line of the software. One mistyped letter,
-in one single line, had deprived the nation's capital of phone service.
-It was not particularly surprising that this tiny flaw had escaped attention:
-a typical System 7 station requires TEN MILLION lines of code.
-
-On Tuesday, September 17, 1991, came the most spectacular outage yet.
-This case had nothing to do with software failures--at least, not directly.
-Instead, a group of AT&T's switching stations in New York City had simply
-run out of electrical power and shut down cold. Their back-up batteries
-had failed. Automatic warning systems were supposed to warn of the loss
-of battery power, but those automatic systems had failed as well.
-
-This time, Kennedy, La Guardia, and Newark airports
-all had their voice and data communications cut.
-This horrifying event was particularly ironic, as attacks
-on airport computers by hackers had long been a standard
-nightmare scenario, much trumpeted by computer-security
-experts who feared the computer underground. There had even
-been a Hollywood thriller about sinister hackers ruining
-airport computers--DIE HARD II.
-
-Now AT&T itself had crippled airports with computer malfunctions--
-not just one airport, but three at once, some of the busiest in the world.
-
-Air traffic came to a standstill throughout the Greater New York area,
-causing more than 500 flights to be cancelled, in a spreading wave
-all over America and even into Europe. Another 500 or so flights
-were delayed, affecting, all in all, about 85,000 passengers.
-(One of these passengers was the chairman of the Federal
-Communications Commission.)
-
-Stranded passengers in New York and New Jersey were further
-infuriated to discover that they could not even manage to
-make a long distance phone call, to explain their delay
-to loved ones or business associates. Thanks to the crash,
-about four and a half million domestic calls, and half a million
-international calls, failed to get through.
-
-The September 17 NYC Crash, unlike the previous ones,
-involved not a whisper of "hacker" misdeeds. On the contrary,
-by 1991, AT&T itself was suffering much of the vilification
-that had formerly been directed at hackers. Congressmen were grumbling.
-So were state and federal regulators. And so was the press.
-
-For their part, ancient rival MCI took out snide full-page
-newspaper ads in New York, offering their own long-distance
-services for the "next time that AT&T goes down."
-
-"You wouldn't find a classy company like AT&T using such advertising,"
-protested AT&T Chairman Robert Allen, unconvincingly. Once again,
-out came the full-page AT&T apologies in newspapers, apologies for
-"an inexcusable culmination of both human and mechanical failure."
-(This time, however, AT&T offered no discount on later calls.
-Unkind critics suggested that AT&T were worried about setting any precedent
-for refunding the financial losses caused by telephone crashes.)
-
-Industry journals asked publicly if AT&T was "asleep at the switch."
-The telephone network, America's purported marvel of high-tech reliability,
-had gone down three times in 18 months. Fortune magazine listed the
-Crash of September 17 among the "Biggest Business Goofs of 1991,"
-cruelly parodying AT&T's ad campaign in an article entitled
-"AT&T Wants You Back (Safely On the Ground, God Willing)."
-
-Why had those New York switching systems simply run out of power?
-Because no human being had attended to the alarm system.
-Why did the alarm systems blare automatically,
-without any human being noticing? Because the three
-telco technicians who SHOULD have been listening
-were absent from their stations in the power-room,
-on another floor of the building--attending a training class.
-A training class about the alarm systems for the power room!
-
-"Crashing the System" was no longer "unprecedented" by late 1991.
-On the contrary, it no longer even seemed an oddity. By 1991,
-it was clear that all the policemen in the world could no longer
-"protect" the phone system from crashes. By far the worst crashes
-the system had ever had, had been inflicted, by the system,
-upon ITSELF. And this time nobody was making cocksure statements
-that this was an anomaly, something that would never happen again.
-By 1991 the System's defenders had met their nebulous Enemy,
-and the Enemy was--the System.
-
-
-
-PART TWO: THE DIGITAL UNDERGROUND
-
-
-The date was May 9, 1990. The Pope was touring Mexico City.
-Hustlers from the Medellin Cartel were trying to buy
-black-market Stinger missiles in Florida. On the comics page,
-Doonesbury character Andy was dying of AIDS. And then. . .a highly
-unusual item whose novelty and calculated rhetoric won it
-headscratching attention in newspapers all over America.
-
-The US Attorney's office in Phoenix, Arizona, had issued
-a press release announcing a nationwide law enforcement crackdown
-against "illegal computer hacking activities." The sweep was
-officially known as "Operation Sundevil."
-
-Eight paragraphs in the press release gave the bare facts:
-twenty-seven search warrants carried out on May 8, with three arrests,
-and a hundred and fifty agents on the prowl in "twelve" cities across America.
-(Different counts in local press reports yielded "thirteen," "fourteen," and
-"sixteen" cities.) Officials estimated that criminal losses of revenue
-to telephone companies "may run into millions of dollars." Credit for
-the Sundevil investigations was taken by the US Secret Service,
-Assistant US Attorney Tim Holtzen of Phoenix, and the Assistant
-Attorney General of Arizona, Gail Thackeray.
-
-The prepared remarks of Garry M. Jenkins, appearing in a U.S. Department
-of Justice press release, were of particular interest. Mr. Jenkins was the
-Assistant Director of the US Secret Service, and the highest-ranking federal
-official to take any direct public role in the hacker crackdown of 1990.
-
-"Today, the Secret Service is sending a clear message to those computer hackers
-who have decided to violate the laws of this nation in the mistaken belief
-that they can successfully avoid detection by hiding behind the relative
-anonymity of their computer terminals. (. . .) "Underground groups have been
-formed for the purpose of exchanging information relevant to their criminal
-activities. These groups often communicate with each other through message
-systems between computers called `bulletin boards.' "Our experience shows
-that many computer hacker suspects are no longer misguided teenagers,
-mischievously playing games with their computers in their bedrooms.
-Some are now high tech computer operators using computers to engage
-in unlawful conduct."
-
-Who were these "underground groups" and "high-tech operators?"
-Where had they come from? What did they want? Who WERE they?
-Were they "mischievous?" Were they dangerous? How had "misguided teenagers"
-managed to alarm the United States Secret Service? And just how widespread
-was this sort of thing?
-
-Of all the major players in the Hacker Crackdown: the phone companies,
-law enforcement, the civil libertarians, and the "hackers" themselves--
-the "hackers" are by far the most mysterious, by far the hardest to
-understand, by far the WEIRDEST.
-
-Not only are "hackers" novel in their activities, but they come
-in a variety of odd subcultures, with a variety of languages,
-motives and values.
-
-The earliest proto-hackers were probably those unsung mischievous
-telegraph boys who were summarily fired by the Bell Company in 1878.
-
-Legitimate "hackers," those computer enthusiasts who are independent-minded
-but law-abiding, generally trace their spiritual ancestry to elite technical
-universities, especially M.I.T. and Stanford, in the 1960s.
-
-But the genuine roots of the modern hacker UNDERGROUND can probably be traced
-most successfully to a now much-obscured hippie anarchist movement known as
-the Yippies. The Yippies, who took their name from the largely fictional
-"Youth International Party," carried out a loud and lively policy of surrealistic
-subversion and outrageous political mischief. Their basic tenets were flagrant
-sexual promiscuity, open and copious drug use, the political overthrow of any
-powermonger over thirty years of age, and an immediate end to the war
-in Vietnam, by any means necessary, including the psychic levitation
-of the Pentagon.
-
-The two most visible Yippies were Abbie Hoffman and Jerry Rubin.
-Rubin eventually became a Wall Street broker. Hoffman, ardently sought
-by federal authorities, went into hiding for seven years,
-in Mexico, France, and the United States. While on the lam,
-Hoffman continued to write and publish, with help from sympathizers
-in the American anarcho-leftist underground. Mostly, Hoffman survived
-through false ID and odd jobs. Eventually he underwent facial plastic
-surgery and adopted an entirely new identity as one "Barry Freed."
-After surrendering himself to authorities in 1980, Hoffman spent a year
-in prison on a cocaine conviction.
-
-Hoffman's worldview grew much darker as the glory days of the 1960s faded.
-In 1989, he purportedly committed suicide, under odd and, to some, rather
-suspicious circumstances.
-
-Abbie Hoffman is said to have caused the Federal Bureau of Investigation
-to amass the single largest investigation file ever opened on an individual
-American citizen. (If this is true, it is still questionable whether the
-FBI regarded Abbie Hoffman a serious public threat--quite possibly,
-his file was enormous simply because Hoffman left colorful legendry
-wherever he went). He was a gifted publicist, who regarded electronic
-media as both playground and weapon. He actively enjoyed manipulating
-network TV and other gullible, image-hungry media, with various weird lies,
-mindboggling rumors, impersonation scams, and other sinister distortions,
-all absolutely guaranteed to upset cops, Presidential candidates,
-and federal judges. Hoffman's most famous work was a book self-reflexively
-known as STEAL THIS BOOK, which publicized a number of methods by which young,
-penniless hippie agitators might live off the fat of a system supported by
-humorless drones. STEAL THIS BOOK, whose title urged readers to damage
-the very means of distribution which had put it into their hands,
-might be described as a spiritual ancestor of a computer virus.
-
-Hoffman, like many a later conspirator, made extensive use of
-pay-phones for his agitation work--in his case, generally through
-the use of cheap brass washers as coin-slugs.
-
-During the Vietnam War, there was a federal surtax imposed on telephone
-service; Hoffman and his cohorts could, and did, argue that in systematically
-stealing phone service they were engaging in civil disobedience:
-virtuously denying tax funds to an illegal and immoral war.
-
-But this thin veil of decency was soon dropped entirely.
-Ripping-off the System found its own justification in deep alienation
-and a basic outlaw contempt for conventional bourgeois values.
-Ingenious, vaguely politicized varieties of rip-off,
-which might be described as "anarchy by convenience,"
-became very popular in Yippie circles, and because rip-off
-was so useful, it was to survive the Yippie movement itself.
-
-In the early 1970s, it required fairly limited expertise
-and ingenuity to cheat payphones, to divert "free"
-electricity and gas service, or to rob vending machines
-and parking meters for handy pocket change. It also required
-a conspiracy to spread this knowledge, and the gall
-and nerve actually to commit petty theft, but the Yippies
-had these qualifications in plenty. In June 1971, Abbie
-Hoffman and a telephone enthusiast sarcastically known
-as "Al Bell" began publishing a newsletter called Youth
-International Party Line. This newsletter was dedicated
-to collating and spreading Yippie rip-off techniques,
-especially of phones, to the joy of the freewheeling
-underground and the insensate rage of all straight people.
-As a political tactic, phone-service theft ensured
-that Yippie advocates would always have ready access
-to the long-distance telephone as a medium, despite
-the Yippies' chronic lack of organization, discipline,
-money, or even a steady home address.
-
-PARTY LINE was run out of Greenwich Village for a couple of years,
-then "Al Bell" more or less defected from the faltering ranks of Yippiedom,
-changing the newsletter's name to TAP or Technical Assistance Program.
-After the Vietnam War ended, the steam began leaking rapidly out of American
-radical dissent. But by this time, "Bell" and his dozen or so
-core contributors had the bit between their teeth,
-and had begun to derive tremendous gut-level satisfaction
-from the sensation of pure TECHNICAL POWER.
-
-TAP articles, once highly politicized, became pitilessly jargonized
-and technical, in homage or parody to the Bell System's own technical
-documents, which TAP studied closely, gutted, and reproduced without
-permission. The TAP elite revelled in gloating possession
-of the specialized knowledge necessary to beat the system.
-
-"Al Bell" dropped out of the game by the late 70s,
-and "Tom Edison" took over; TAP readers (some 1400 of
-them, all told) now began to show more interest in telex
-switches and the growing phenomenon of computer systems.
-
-In 1983, "Tom Edison" had his computer stolen and his house
-set on fire by an arsonist. This was an eventually mortal blow
-to TAP (though the legendary name was to be resurrected
-in 1990 by a young Kentuckian computer-outlaw named "Predat0r.")
-
-#
-
-Ever since telephones began to make money, there have been
-people willing to rob and defraud phone companies.
-The legions of petty phone thieves vastly outnumber those
-"phone phreaks" who "explore the system" for the sake
-of the intellectual challenge. The New York metropolitan area
-(long in the vanguard of American crime) claims over 150,000
-physical attacks on pay telephones every year! Studied carefully,
-a modern payphone reveals itself as a little fortress, carefully
-designed and redesigned over generations, to resist coin-slugs,
-zaps of electricity, chunks of coin-shaped ice, prybars, magnets,
-lockpicks, blasting caps. Public pay- phones must survive in a world
-of unfriendly, greedy people, and a modern payphone is as exquisitely
-evolved as a cactus.
-Because the phone network pre-dates the computer network,
-the scofflaws known as "phone phreaks" pre-date the scofflaws
-known as "computer hackers." In practice, today, the line
-between "phreaking" and "hacking" is very blurred,
-just as the distinction between telephones and computers
-has blurred. The phone system has been digitized,
-and computers have learned to "talk" over phone-lines.
-What's worse--and this was the point of the Mr. Jenkins
-of the Secret Service--some hackers have learned to steal,
-and some thieves have learned to hack.
-
-Despite the blurring, one can still draw a few useful
-behavioral distinctions between "phreaks" and "hackers."
-Hackers are intensely interested in the "system" per se,
-and enjoy relating to machines. "Phreaks" are more
-social, manipulating the system in a rough-and-ready
-fashion in order to get through to other human beings,
-fast, cheap and under the table.
-
-Phone phreaks love nothing so much as "bridges,"
-illegal conference calls of ten or twelve chatting
-conspirators, seaboard to seaboard, lasting for many hours
---and running, of course, on somebody else's tab,
-preferably a large corporation's.
-
-As phone-phreak conferences wear on, people drop out
-(or simply leave the phone off the hook, while they
-sashay off to work or school or babysitting),
-and new people are phoned up and invited to join in,
-from some other continent, if possible. Technical trivia,
-boasts, brags, lies, head-trip deceptions, weird rumors,
-and cruel gossip are all freely exchanged.
-
-The lowest rung of phone-phreaking is the theft of telephone access codes.
-Charging a phone call to somebody else's stolen number is, of course,
-a pig-easy way of stealing phone service, requiring practically no
-technical expertise. This practice has been very widespread,
-especially among lonely people without much money who are far from home.
-Code theft has flourished especially in college dorms, military bases,
-and, notoriously, among roadies for rock bands. Of late, code theft
-has spread very rapidly among Third Worlders in the US, who pile up
-enormous unpaid long-distance bills to the Caribbean, South America,
-and Pakistan.
-
-The simplest way to steal phone-codes is simply to look over
-a victim's shoulder as he punches-in his own code-number
-on a public payphone. This technique is known as "shoulder-surfing,"
-and is especially common in airports, bus terminals, and train stations.
-The code is then sold by the thief for a few dollars. The buyer abusing
-the code has no computer expertise, but calls his Mom in New York,
-Kingston or Caracas and runs up a huge bill with impunity. The losses
-from this primitive phreaking activity are far, far greater than the
-monetary losses caused by computer-intruding hackers.
-
-In the mid-to-late 1980s, until the introduction of sterner telco
-security measures, COMPUTERIZED code theft worked like a charm,
-and was virtually omnipresent throughout the digital underground,
-among phreaks and hackers alike. This was accomplished through
-programming one's computer to try random code numbers over the telephone
-until one of them worked. Simple programs to do this were widely available
-in the underground; a computer running all night was likely to come up with
-a dozen or so useful hits. This could be repeated week after week until
-one had a large library of stolen codes.
-
-Nowadays, the computerized dialling of hundreds of numbers
-can be detected within hours and swiftly traced.
-If a stolen code is repeatedly abused, this too can
-be detected within a few hours. But for years in the 1980s,
-the publication of stolen codes was a kind of elementary etiquette
-for fledgling hackers. The simplest way to establish your bona-fides
-as a raider was to steal a code through repeated random dialling
-and offer it to the "community" for use. Codes could be both stolen,
-and used, simply and easily from the safety of one's own bedroom,
-with very little fear of detection or punishment.
-
-Before computers and their phone-line modems entered American homes
-in gigantic numbers, phone phreaks had their own special telecommunications
-hardware gadget, the famous "blue box." This fraud device (now rendered
-increasingly useless by the digital evolution of the phone system) could
-trick switching systems into granting free access to long-distance lines.
-It did this by mimicking the system's own signal, a tone of 2600 hertz.
-
-Steven Jobs and Steve Wozniak, the founders of Apple Computer, Inc.,
-once dabbled in selling blue-boxes in college dorms in California.
-For many, in the early days of phreaking, blue-boxing was scarcely
-perceived as "theft," but rather as a fun (if sneaky) way to use
-excess phone capacity harmlessly. After all, the long-distance
-lines were JUST SITTING THERE. . . . Whom did it hurt, really?
-If you're not DAMAGING the system, and you're not USING UP ANY
-TANGIBLE RESOURCE, and if nobody FINDS OUT what you did,
-then what real harm have you done? What exactly HAVE you "stolen,"
-anyway? If a tree falls in the forest and nobody hears it,
-how much is the noise worth? Even now this remains a rather
-dicey question.
-
-Blue-boxing was no joke to the phone companies, however.
-Indeed, when Ramparts magazine, a radical publication in California,
-printed the wiring schematics necessary to create a mute box in June 1972,
-the magazine was seized by police and Pacific Bell phone-company officials.
-The mute box, a blue-box variant, allowed its user to receive long-distance
-calls free of charge to the caller. This device was closely described in a
-Ramparts article wryly titled "Regulating the Phone Company In Your Home."
-Publication of this article was held to be in violation of Californian
-State Penal Code section 502.7, which outlaws ownership of wire-fraud
-devices and the selling of "plans or instructions for any instrument,
-apparatus, or device intended to avoid telephone toll charges."
-
-Issues of Ramparts were recalled or seized on the newsstands,
-and the resultant loss of income helped put the magazine out of business.
-This was an ominous precedent for free-expression issues, but the telco's
-crushing of a radical-fringe magazine passed without serious challenge
-at the time. Even in the freewheeling California 1970s, it was widely felt
-that there was something sacrosanct about what the phone company knew;
-that the telco had a legal and moral right to protect itself by shutting
-off the flow of such illicit information. Most telco information was so
-"specialized" that it would scarcely be understood by any honest member
-of the public. If not published, it would not be missed. To print such
-material did not seem part of the legitimate role of a free press.
-
-In 1990 there would be a similar telco-inspired attack
-on the electronic phreak/hacking "magazine" Phrack.
-The Phrack legal case became a central issue in the
-Hacker Crackdown, and gave rise to great controversy.
-Phrack would also be shut down, for a time, at least,
-but this time both the telcos and their law-enforcement
-allies would pay a much larger price for their actions.
-The Phrack case will be examined in detail, later.
-
-Phone-phreaking as a social practice is still very
-much alive at this moment. Today, phone-phreaking
-is thriving much more vigorously than the better-known
-and worse-feared practice of "computer hacking."
-New forms of phreaking are spreading rapidly, following
-new vulnerabilities in sophisticated phone services.
-
-Cellular phones are especially vulnerable; their chips
-can be re-programmed to present a false caller ID
-and avoid billing. Doing so also avoids police tapping,
-making cellular-phone abuse a favorite among drug-dealers.
-"Call-sell operations" using pirate cellular phones can,
-and have, been run right out of the backs of cars, which move
-from "cell" to "cell" in the local phone system, retailing
-stolen long-distance service, like some kind of demented
-electronic version of the neighborhood ice-cream truck.
-
-Private branch-exchange phone systems in large corporations
-can be penetrated; phreaks dial-up a local company, enter its
-internal phone-system, hack it, then use the company's own
-PBX system to dial back out over the public network,
-causing the company to be stuck with the resulting
-long-distance bill. This technique is known as "diverting."
-"Diverting" can be very costly, especially because phreaks
-tend to travel in packs and never stop talking.
-Perhaps the worst by-product of this "PBX fraud"
-is that victim companies and telcos have sued one another
-over the financial responsibility for the stolen calls,
-thus enriching not only shabby phreaks but well-paid lawyers.
-
-"Voice-mail systems" can also be abused; phreaks
-can seize their own sections of these sophisticated
-electronic answering machines, and use them for trading
-codes or knowledge of illegal techniques. Voice-mail
-abuse does not hurt the company directly, but finding
-supposedly empty slots in your company's answering
-machine all crammed with phreaks eagerly chattering
-and hey-duding one another in impenetrable jargon can
-cause sensations of almost mystical repulsion and dread.
-
-Worse yet, phreaks have sometimes been known to react
-truculently to attempts to "clean up" the voice-mail system.
-Rather than humbly acquiescing to being thrown out of their playground,
-they may very well call up the company officials at work (or at home)
-and loudly demand free voice-mail addresses of their very own.
-Such bullying is taken very seriously by spooked victims.
-
-Acts of phreak revenge against straight people are rare,
-but voice-mail systems are especially tempting and vulnerable,
-and an infestation of angry phreaks in one's voice-mail system is no joke.
-They can erase legitimate messages; or spy on private messages;
-or harass users with recorded taunts and obscenities.
-They've even been known to seize control of voice-mail security,
-and lock out legitimate users, or even shut down the system entirely.
-
-Cellular phone-calls, cordless phones, and ship-to-shore
-telephony can all be monitored by various forms of radio;
-this kind of "passive monitoring" is spreading explosively today.
-Technically eavesdropping on other people's cordless and cellular
-phone-calls is the fastest-growing area in phreaking today.
-This practice strongly appeals to the lust for power and conveys
-gratifying sensations of technical superiority over the eavesdropping
-victim. Monitoring is rife with all manner of tempting evil mischief.
-Simple prurient snooping is by far the most common activity.
-But credit-card numbers unwarily spoken over the phone can be recorded,
-stolen and used. And tapping people's phone-calls (whether through
-active telephone taps or passive radio monitors) does lend itself
-conveniently to activities like blackmail, industrial espionage,
-and political dirty tricks.
-
-It should be repeated that telecommunications fraud,
-the theft of phone service, causes vastly greater monetary
-losses than the practice of entering into computers by stealth.
-Hackers are mostly young suburban American white males,
-and exist in their hundreds--but "phreaks" come from both sexes
-and from many nationalities, ages and ethnic backgrounds,
-and are flourishing in the thousands.
-
-#
-
-The term "hacker" has had an unfortunate history.
-This book, The Hacker Crackdown, has little to say about
-"hacking" in its finer, original sense. The term can signify
-the free-wheeling intellectual exploration of the highest
-and deepest potential of computer systems. Hacking can
-describe the determination to make access to computers
-and information as free and open as possible. Hacking
-can involve the heartfelt conviction that beauty can
-be found in computers, that the fine aesthetic in a perfect
-program can liberate the mind and spirit. This is "hacking"
-as it was defined in Steven Levy's much-praised history
-of the pioneer computer milieu, Hackers, published in 1984.
-
-Hackers of all kinds are absolutely soaked through with heroic
-anti-bureaucratic sentiment. Hackers long for recognition
-as a praiseworthy cultural archetype, the postmodern electronic
-equivalent of the cowboy and mountain man. Whether they deserve
-such a reputation is something for history to decide. But many hackers--
-including those outlaw hackers who are computer intruders, and whose
-activities are defined as criminal--actually attempt to LIVE UP TO
-this techno-cowboy reputation. And given that electronics and
-telecommunications are still largely unexplored territories,
-there is simply NO TELLING what hackers might uncover.
-
-For some people, this freedom is the very breath of oxygen,
-the inventive spontaneity that makes life worth living
-and that flings open doors to marvellous possibility and
-individual empowerment. But for many people
---and increasingly so--the hacker is an ominous figure,
-a smart-aleck sociopath ready to burst out of his basement
-wilderness and savage other people's lives for his own
-anarchical convenience.
-
-Any form of power without responsibility, without direct
-and formal checks and balances, is frightening to people--
-and reasonably so. It should be frankly admitted that
-hackers ARE frightening, and that the basis of this fear
-is not irrational.
-
-Fear of hackers goes well beyond the fear of merely criminal activity.
-
-Subversion and manipulation of the phone system
-is an act with disturbing political overtones.
-In America, computers and telephones are potent symbols
-of organized authority and the technocratic business elite.
-
-But there is an element in American culture that
-has always strongly rebelled against these symbols;
-rebelled against all large industrial computers
-and all phone companies. A certain anarchical tinge deep
-in the American soul delights in causing confusion and pain
-to all bureaucracies, including technological ones.
-
-There is sometimes malice and vandalism in this attitude,
-but it is a deep and cherished part of the American national character.
-The outlaw, the rebel, the rugged individual, the pioneer,
-the sturdy Jeffersonian yeoman, the private citizen resisting
-interference in his pursuit of happiness--these are figures that all
-Americans recognize, and that many will strongly applaud and defend.
-
-Many scrupulously law-abiding citizens today do cutting-edge work
-with electronics--work that has already had tremendous social influence
-and will have much more in years to come. In all truth, these talented,
-hardworking, law-abiding, mature, adult people are far more disturbing
-to the peace and order of the current status quo than any scofflaw group
-of romantic teenage punk kids. These law-abiding hackers have the power,
-ability, and willingness to influence other people's lives quite unpredictably.
-They have means, motive, and opportunity to meddle drastically with the
-American social order. When corralled into governments, universities,
-or large multinational companies, and forced to follow rulebooks
-and wear suits and ties, they at least have some conventional halters
-on their freedom of action. But when loosed alone, or in small groups,
-and fired by imagination and the entrepreneurial spirit, they can move
-mountains--causing landslides that will likely crash directly into your
-office and living room.
-
-These people, as a class, instinctively recognize that a public,
-politicized attack on hackers will eventually spread to them--
-that the term "hacker," once demonized, might be used to knock
-their hands off the levers of power and choke them out of existence.
-There are hackers today who fiercely and publicly resist any besmirching
-of the noble title of hacker. Naturally and understandably, they deeply
-resent the attack on their values implicit in using the word "hacker"
-as a synonym for computer-criminal.
-
-This book, sadly but in my opinion unavoidably, rather adds
-to the degradation of the term. It concerns itself mostly with "hacking"
-in its commonest latter-day definition, i.e., intruding into computer
-systems by stealth and without permission. The term "hacking" is used
-routinely today by almost all law enforcement officials with any
-professional interest in computer fraud and abuse. American police
-describe almost any crime committed with, by, through, or against
-a computer as hacking.
-
-Most importantly, "hacker" is what computer-intruders
-choose to call THEMSELVES. Nobody who "hacks" into systems
-willingly describes himself (rarely, herself) as a "computer intruder,"
-"computer trespasser," "cracker," "wormer," "darkside hacker"
-or "high tech street gangster." Several other demeaning terms
-have been invented in the hope that the press and public
-will leave the original sense of the word alone. But few people
-actually use these terms. (I exempt the term "cyberpunk,"
-which a few hackers and law enforcement people actually do use.
-The term "cyberpunk" is drawn from literary criticism and has
-some odd and unlikely resonances, but, like hacker,
-cyberpunk too has become a criminal pejorative today.)
-
-In any case, breaking into computer systems was hardly alien
-to the original hacker tradition. The first tottering systems
-of the 1960s required fairly extensive internal surgery merely
-to function day-by-day. Their users "invaded" the deepest,
-most arcane recesses of their operating software almost
-as a matter of routine. "Computer security" in these early,
-primitive systems was at best an afterthought. What security
-there was, was entirely physical, for it was assumed that
-anyone allowed near this expensive, arcane hardware would be
-a fully qualified professional expert.
-
-In a campus environment, though, this meant that grad students,
-teaching assistants, undergraduates, and eventually,
-all manner of dropouts and hangers-on ended up accessing
-and often running the works.
-
-Universities, even modern universities, are not in
-the business of maintaining security over information.
-On the contrary, universities, as institutions, pre-date
-the "information economy" by many centuries and are not-
-for-profit cultural entities, whose reason for existence
-(purportedly) is to discover truth, codify it through
-techniques of scholarship, and then teach it. Universities
-are meant to PASS THE TORCH OF CIVILIZATION, not just
-download data into student skulls, and the values of the
-academic community are strongly at odds with those of all
-would-be information empires. Teachers at all levels, from
-kindergarten up, have proven to be shameless and persistent
-software and data pirates. Universities do not merely
-"leak information" but vigorously broadcast free thought.
-
-This clash of values has been fraught with controversy.
-Many hackers of the 1960s remember their professional
-apprenticeship as a long guerilla war against the uptight
-mainframe-computer "information priesthood." These computer-hungry
-youngsters had to struggle hard for access to computing power,
-and many of them were not above certain, er, shortcuts.
-But, over the years, this practice freed computing
-from the sterile reserve of lab-coated technocrats and
-was largely responsible for the explosive growth of computing
-in general society--especially PERSONAL computing.
-
-Access to technical power acted like catnip on certain
-of these youngsters. Most of the basic techniques of
-computer intrusion: password cracking, trapdoors, backdoors,
-trojan horses--were invented in college environments in the 1960s,
-in the early days of network computing. Some off-the-cuff
-experience at computer intrusion was to be in the informal
-resume of most "hackers" and many future industry giants.
-Outside of the tiny cult of computer enthusiasts, few people
-thought much about the implications of "breaking into"
-computers. This sort of activity had not yet been publicized,
-much less criminalized.
-
-In the 1960s, definitions of "property" and "privacy"
-had not yet been extended to cyberspace. Computers
-were not yet indispensable to society. There were no vast
-databanks of vulnerable, proprietary information stored
-in computers, which might be accessed, copied without
-permission, erased, altered, or sabotaged. The stakes
-were low in the early days--but they grew every year,
-exponentially, as computers themselves grew.
-
-By the 1990s, commercial and political pressures
-had become overwhelming, and they broke the social
-boundaries of the hacking subculture. Hacking
-had become too important to be left to the hackers.
-Society was now forced to tackle the intangible nature
-of cyberspace-as-property, cyberspace as privately-owned
-unreal-estate. In the new, severe, responsible, high-stakes
-context of the "Information Society" of the 1990s,
-"hacking" was called into question.
-
-What did it mean to break into a computer without
-permission and use its computational power, or look
-around inside its files without hurting anything?
-What were computer-intruding hackers, anyway--how should
-society, and the law, best define their actions?
-Were they just BROWSERS, harmless intellectual explorers?
-Were they VOYEURS, snoops, invaders of privacy? Should
-they be sternly treated as potential AGENTS OF ESPIONAGE,
-or perhaps as INDUSTRIAL SPIES? Or were they best
-defined as TRESPASSERS, a very common teenage
-misdemeanor? Was hacking THEFT OF SERVICE?
-(After all, intruders were getting someone else's
-computer to carry out their orders, without permission
-and without paying). Was hacking FRAUD? Maybe it was
-best described as IMPERSONATION. The commonest mode
-of computer intrusion was (and is) to swipe or snoop
-somebody else's password, and then enter the computer
-in the guise of another person--who is commonly stuck
-with the blame and the bills.
-
-Perhaps a medical metaphor was better--hackers should
-be defined as "sick," as COMPUTER ADDICTS unable
-to control their irresponsible, compulsive behavior.
-
-But these weighty assessments meant little to the
-people who were actually being judged. From inside
-the underground world of hacking itself, all these
-perceptions seem quaint, wrongheaded, stupid, or meaningless.
-The most important self-perception of underground hackers--
-from the 1960s, right through to the present day--is that
-they are an ELITE. The day-to-day struggle in the underground
-is not over sociological definitions--who cares?--but for power,
-knowledge, and status among one's peers.
-
-When you are a hacker, it is your own inner conviction
-of your elite status that enables you to break, or let
-us say "transcend," the rules. It is not that ALL rules
-go by the board. The rules habitually broken by hackers
-are UNIMPORTANT rules--the rules of dopey greedhead telco
-bureaucrats and pig-ignorant government pests.
-
-Hackers have their OWN rules, which separate behavior
-which is cool and elite, from behavior which is rodentlike,
-stupid and losing. These "rules," however, are mostly unwritten
-and enforced by peer pressure and tribal feeling. Like all rules
-that depend on the unspoken conviction that everybody else
-is a good old boy, these rules are ripe for abuse. The mechanisms
-of hacker peer- pressure, "teletrials" and ostracism, are rarely used
-and rarely work. Back-stabbing slander, threats, and electronic
-harassment are also freely employed in down-and-dirty intrahacker feuds,
-but this rarely forces a rival out of the scene entirely. The only real
-solution for the problem of an utterly losing, treacherous and rodentlike
-hacker is to TURN HIM IN TO THE POLICE. Unlike the Mafia or Medellin Cartel,
-the hacker elite cannot simply execute the bigmouths, creeps and troublemakers
-among their ranks, so they turn one another in with astonishing frequency.
-
-There is no tradition of silence or OMERTA in the hacker underworld.
-Hackers can be shy, even reclusive, but when they do talk, hackers
-tend to brag, boast and strut. Almost everything hackers do is INVISIBLE;
-if they don't brag, boast, and strut about it, then NOBODY WILL EVER KNOW.
-If you don't have something to brag, boast, and strut about, then nobody
-in the underground will recognize you and favor you with vital cooperation
-and respect.
-
-The way to win a solid reputation in the underground
-is by telling other hackers things that could only
-have been learned by exceptional cunning and stealth.
-Forbidden knowledge, therefore, is the basic currency
-of the digital underground, like seashells among
-Trobriand Islanders. Hackers hoard this knowledge,
-and dwell upon it obsessively, and refine it,
-and bargain with it, and talk and talk about it.
-
-Many hackers even suffer from a strange obsession to TEACH--
-to spread the ethos and the knowledge of the digital underground.
-They'll do this even when it gains them no particular advantage
-and presents a grave personal risk.
-
-And when that risk catches up with them, they will go right on teaching
-and preaching--to a new audience this time, their interrogators from law
-enforcement. Almost every hacker arrested tells everything he knows--
-all about his friends, his mentors, his disciples--legends, threats,
-horror stories, dire rumors, gossip, hallucinations. This is, of course,
-convenient for law enforcement--except when law enforcement begins
-to believe hacker legendry.
-
-Phone phreaks are unique among criminals in their willingness
-to call up law enforcement officials--in the office, at their homes--
-and give them an extended piece of their mind. It is hard not to
-interpret this as BEGGING FOR ARREST, and in fact it is an act
-of incredible foolhardiness. Police are naturally nettled
-by these acts of chutzpah and will go well out of their way
-to bust these flaunting idiots. But it can also be interpreted
-as a product of a world-view so elitist, so closed and hermetic,
-that electronic police are simply not perceived as "police,"
-but rather as ENEMY PHONE PHREAKS who should be scolded
-into behaving "decently."
-
-Hackers at their most grandiloquent perceive themselves
-as the elite pioneers of a new electronic world.
-Attempts to make them obey the democratically
-established laws of contemporary American society are
-seen as repression and persecution. After all, they argue,
-if Alexander Graham Bell had gone along with the rules
-of the Western Union telegraph company, there would have
-been no telephones. If Jobs and Wozniak had believed
-that IBM was the be-all and end-all, there would have
-been no personal computers. If Benjamin Franklin and
-Thomas Jefferson had tried to "work within the system"
-there would have been no United States.
-
-Not only do hackers privately believe this as an article of faith,
-but they have been known to write ardent manifestos about it.
-Here are some revealing excerpts from an especially vivid hacker manifesto:
-"The Techno-Revolution" by "Dr. Crash," which appeared in electronic
-form in Phrack Volume 1, Issue 6, Phile 3.
-
-
-"To fully explain the true motives behind hacking,
-we must first take a quick look into the past. In the 1960s,
-a group of MIT students built the first modern computer system.
-This wild, rebellious group of young men were the first to bear
-the name `hackers.' The systems that they developed were intended
-to be used to solve world problems and to benefit all of mankind.
-"As we can see, this has not been the case. The computer system
-has been solely in the hands of big businesses and the government.
-The wonderful device meant to enrich life has become a weapon which
-dehumanizes people. To the government and large businesses,
-people are no more than disk space, and the government doesn't
-use computers to arrange aid for the poor, but to control nuclear
-death weapons. The average American can only have access
-to a small microcomputer which is worth only a fraction
-of what they pay for it. The businesses keep the
-true state-of-the-art equipment away from the people
-behind a steel wall of incredibly high prices and bureaucracy.
-It is because of this state of affairs that hacking was born. (. . .)
-"Of course, the government doesn't want the monopoly of technology broken,
-so they have outlawed hacking and arrest anyone who is caught. (. . .)
-The phone company is another example of technology abused and kept
-from people with high prices. (. . .) "Hackers often find that their
-existing equipment, due to the monopoly tactics of computer companies,
-is inefficient for their purposes. Due to the exorbitantly high prices,
-it is impossible to legally purchase the necessary equipment.
-This need has given still another segment of the fight: Credit Carding.
-Carding is a way of obtaining the necessary goods without paying for them.
-It is again due to the companies' stupidity that Carding is so easy,
-and shows that the world's businesses are in the hands of those
-with considerably less technical know-how than we, the hackers. (. . .)
-"Hacking must continue. We must train newcomers to the art of hacking.
-(. . . .) And whatever you do, continue the fight. Whether you know it
-or not, if you are a hacker, you are a revolutionary. Don't worry,
-you're on the right side."
-
-The defense of "carding" is rare. Most hackers regard credit-card
-theft as "poison" to the underground, a sleazy and immoral effort that,
-worse yet, is hard to get away with. Nevertheless, manifestos advocating
-credit-card theft, the deliberate crashing of computer systems,
-and even acts of violent physical destruction such as vandalism
-and arson do exist in the underground. These boasts and threats
-are taken quite seriously by the police. And not every hacker
-is an abstract, Platonic computer-nerd. Some few are quite experienced
-at picking locks, robbing phone-trucks, and breaking and entering buildings.
-
-Hackers vary in their degree of hatred for authority
-and the violence of their rhetoric. But, at a bottom line,
-they are scofflaws. They don't regard the current rules
-of electronic behavior as respectable efforts to preserve
-law and order and protect public safety. They regard these
-laws as immoral efforts by soulless corporations to protect
-their profit margins and to crush dissidents. "Stupid" people,
-including police, businessmen, politicians, and journalists,
-simply have no right to judge the actions of those possessed of genius,
-techno-revolutionary intentions, and technical expertise.
-
-#
-
-Hackers are generally teenagers and college kids not
-engaged in earning a living. They often come from fairly
-well-to-do middle-class backgrounds, and are markedly
-anti-materialistic (except, that is, when it comes to
-computer equipment). Anyone motivated by greed for
-mere money (as opposed to the greed for power,
-knowledge and status) is swiftly written-off as a narrow-
-minded breadhead whose interests can only be corrupt
-and contemptible. Having grown up in the 1970s and
-1980s, the young Bohemians of the digital underground
-regard straight society as awash in plutocratic corruption,
-where everyone from the President down is for sale and
-whoever has the gold makes the rules.
-
-Interestingly, there's a funhouse-mirror image of this attitude
-on the other side of the conflict. The police are also
-one of the most markedly anti-materialistic groups
-in American society, motivated not by mere money
-but by ideals of service, justice, esprit-de-corps,
-and, of course, their own brand of specialized knowledge
-and power. Remarkably, the propaganda war between cops
-and hackers has always involved angry allegations
-that the other side is trying to make a sleazy buck.
-Hackers consistently sneer that anti-phreak prosecutors
-are angling for cushy jobs as telco lawyers and that
-computer-crime police are aiming to cash in later
-as well-paid computer-security consultants in the private sector.
-
-For their part, police publicly conflate all
-hacking crimes with robbing payphones with crowbars.
-Allegations of "monetary losses" from computer intrusion
-are notoriously inflated. The act of illicitly copying
-a document from a computer is morally equated with
-directly robbing a company of, say, half a million dollars.
-The teenage computer intruder in possession of this "proprietary"
-document has certainly not sold it for such a sum, would likely
-have little idea how to sell it at all, and quite probably
-doesn't even understand what he has. He has not made a cent
-in profit from his felony but is still morally equated with
-a thief who has robbed the church poorbox and lit out for Brazil.
-
-Police want to believe that all hackers are thieves.
-It is a tortuous and almost unbearable act for the American
-justice system to put people in jail because they want
-to learn things which are forbidden for them to know.
-In an American context, almost any pretext for punishment
-is better than jailing people to protect certain restricted
-kinds of information. Nevertheless, POLICING INFORMATION
-is part and parcel of the struggle against hackers.
-
-This dilemma is well exemplified by the remarkable
-activities of "Emmanuel Goldstein," editor and publisher
-of a print magazine known as 2600: The Hacker Quarterly.
-Goldstein was an English major at Long Island's State University
-of New York in the '70s, when he became involved with the local
-college radio station. His growing interest in electronics
-caused him to drift into Yippie TAP circles and thus into
-the digital underground, where he became a self-described
-techno-rat. His magazine publishes techniques of computer
-intrusion and telephone "exploration" as well as gloating
-exposes of telco misdeeds and governmental failings.
-
-Goldstein lives quietly and very privately in a large,
-crumbling Victorian mansion in Setauket, New York.
-The seaside house is decorated with telco decals, chunks of
-driftwood, and the basic bric-a-brac of a hippie crash-pad.
-He is unmarried, mildly unkempt, and survives mostly
-on TV dinners and turkey-stuffing eaten straight out
-of the bag. Goldstein is a man of considerable charm
-and fluency, with a brief, disarming smile and the kind
-of pitiless, stubborn, thoroughly recidivist integrity
-that America's electronic police find genuinely alarming.
-
-Goldstein took his nom-de-plume, or "handle," from
-a character in Orwell's 1984, which may be taken,
-correctly, as a symptom of the gravity of his sociopolitical
-worldview. He is not himself a practicing computer
-intruder, though he vigorously abets these actions,
-especially when they are pursued against large
-corporations or governmental agencies. Nor is he a thief,
-for he loudly scorns mere theft of phone service, in favor
-of "exploring and manipulating the system." He is probably
-best described and understood as a DISSIDENT.
-
-Weirdly, Goldstein is living in modern America
-under conditions very similar to those of former
-East European intellectual dissidents. In other words,
-he flagrantly espouses a value-system that is deeply
-and irrevocably opposed to the system of those in power
-and the police. The values in 2600 are generally expressed
-in terms that are ironic, sarcastic, paradoxical, or just
-downright confused. But there's no mistaking their
-radically anti-authoritarian tenor. 2600 holds that
-technical power and specialized knowledge, of any kind
-obtainable, belong by right in the hands of those individuals
-brave and bold enough to discover them--by whatever means necessary.
-Devices, laws, or systems that forbid access, and the free
-spread of knowledge, are provocations that any free
-and self-respecting hacker should relentlessly attack.
-The "privacy" of governments, corporations and other soulless
-technocratic organizations should never be protected
-at the expense of the liberty and free initiative
-of the individual techno-rat.
-
-However, in our contemporary workaday world, both governments
-and corporations are very anxious indeed to police information
-which is secret, proprietary, restricted, confidential,
-copyrighted, patented, hazardous, illegal, unethical,
-embarrassing, or otherwise sensitive. This makes Goldstein
-persona non grata, and his philosophy a threat.
-
-Very little about the conditions of Goldstein's daily
-life would astonish, say, Vaclav Havel. (We may note
-in passing that President Havel once had his word-processor
-confiscated by the Czechoslovak police.) Goldstein lives
-by SAMIZDAT, acting semi-openly as a data-center
-for the underground, while challenging the powers-that-be
-to abide by their own stated rules: freedom of speech
-and the First Amendment.
-
-Goldstein thoroughly looks and acts the part of techno-rat,
-with shoulder-length ringlets and a piratical black
-fisherman's-cap set at a rakish angle. He often shows up
-like Banquo's ghost at meetings of computer professionals,
-where he listens quietly, half-smiling and taking thorough notes.
-
-Computer professionals generally meet publicly,
-and find it very difficult to rid themselves of Goldstein
-and his ilk without extralegal and unconstitutional actions.
-Sympathizers, many of them quite respectable people
-with responsible jobs, admire Goldstein's attitude and
-surreptitiously pass him information. An unknown but
-presumably large proportion of Goldstein's 2,000-plus
-readership are telco security personnel and police,
-who are forced to subscribe to 2600 to stay abreast
-of new developments in hacking. They thus find themselves
-PAYING THIS GUY'S RENT while grinding their teeth in anguish,
-a situation that would have delighted Abbie Hoffman
-(one of Goldstein's few idols).
-
-Goldstein is probably the best-known public representative
-of the hacker underground today, and certainly the best-hated.
-Police regard him as a Fagin, a corrupter of youth, and speak
-of him with untempered loathing. He is quite an accomplished gadfly.
-After the Martin Luther King Day Crash of 1990, Goldstein,
-for instance, adeptly rubbed salt into the wound in the pages of 2600.
-"Yeah, it was fun for the phone phreaks as we watched the network crumble,"
-he admitted cheerfully. "But it was also an ominous sign of what's
-to come. . . . Some AT&T people, aided by well-meaning but ignorant media,
-were spreading the notion that many companies had the same software
-and therefore could face the same problem someday. Wrong. This was
-entirely an AT&T software deficiency. Of course, other companies could
-face entirely DIFFERENT software problems. But then, so too could AT&T."
-
-After a technical discussion of the system's failings,
-the Long Island techno-rat went on to offer thoughtful
-criticism to the gigantic multinational's hundreds of
-professionally qualified engineers. "What we don't know
-is how a major force in communications like AT&T could
-be so sloppy. What happened to backups? Sure,
-computer systems go down all the time, but people
-making phone calls are not the same as people logging
-on to computers. We must make that distinction. It's not
-acceptable for the phone system or any other essential
-service to `go down.' If we continue to trust technology
-without understanding it, we can look forward to many
-variations on this theme.
-
-"AT&T owes it to its customers to be prepared to INSTANTLY
-switch to another network if something strange and unpredictable
-starts occurring. The news here isn't so much the failure
-of a computer program, but the failure of AT&T's entire structure."
-
-The very idea of this. . . . this PERSON. . . . offering
-"advice" about "AT&T's entire structure" is more than
-some people can easily bear. How dare this near-criminal
-dictate what is or isn't "acceptable" behavior from AT&T?
-Especially when he's publishing, in the very same issue,
-detailed schematic diagrams for creating various switching-network
-signalling tones unavailable to the public.
-
-"See what happens when you drop a `silver box' tone or two
-down your local exchange or through different long distance
-service carriers," advises 2600 contributor "Mr. Upsetter"
-in "How To Build a Signal Box." "If you experiment systematically
-and keep good records, you will surely discover something interesting."
-
-This is, of course, the scientific method, generally regarded
-as a praiseworthy activity and one of the flowers of modern civilization.
-One can indeed learn a great deal with this sort of structured
-intellectual activity. Telco employees regard this mode of "exploration"
-as akin to flinging sticks of dynamite into their pond to see what lives
-on the bottom.
-
-2600 has been published consistently since 1984.
-It has also run a bulletin board computer system,
-printed 2600 T-shirts, taken fax calls. . . .
-The Spring 1991 issue has an interesting announcement on page 45:
-"We just discovered an extra set of wires attached to our fax line
-and heading up the pole. (They've since been clipped.)
-Your faxes to us and to anyone else could be monitored."
-In the worldview of 2600, the tiny band of techno-rat brothers
-(rarely, sisters) are a beseiged vanguard of the truly free and honest.
-The rest of the world is a maelstrom of corporate crime and high-level
-governmental corruption, occasionally tempered with well-meaning
-ignorance. To read a few issues in a row is to enter a nightmare
-akin to Solzhenitsyn's, somewhat tempered by the fact that 2600
-is often extremely funny.
-
-Goldstein did not become a target of the Hacker Crackdown,
-though he protested loudly, eloquently, and publicly about it,
-and it added considerably to his fame. It was not that he is not
-regarded as dangerous, because he is so regarded. Goldstein has had
-brushes with the law in the past: in 1985, a 2600 bulletin board
-computer was seized by the FBI, and some software on it was formally
-declared "a burglary tool in the form of a computer program."
-But Goldstein escaped direct repression in 1990, because his
-magazine is printed on paper, and recognized as subject
-to Constitutional freedom of the press protection.
-As was seen in the Ramparts case, this is far from
-an absolute guarantee. Still, as a practical matter,
-shutting down 2600 by court-order would create so much
-legal hassle that it is simply unfeasible, at least
-for the present. Throughout 1990, both Goldstein
-and his magazine were peevishly thriving.
-
-Instead, the Crackdown of 1990 would concern itself
-with the computerized version of forbidden data.
-The crackdown itself, first and foremost, was about
-BULLETIN BOARD SYSTEMS. Bulletin Board Systems, most often
-known by the ugly and un-pluralizable acronym "BBS," are
-the life-blood of the digital underground. Boards were
-also central to law enforcement's tactics and strategy
-in the Hacker Crackdown.
-
-A "bulletin board system" can be formally defined as
-a computer which serves as an information and message-
-passing center for users dialing-up over the phone-lines
-through the use of modems. A "modem," or modulator-
-demodulator, is a device which translates the digital
-impulses of computers into audible analog telephone
-signals, and vice versa. Modems connect computers
-to phones and thus to each other.
-
-Large-scale mainframe computers have been connected since the 1960s,
-but PERSONAL computers, run by individuals out of their homes,
-were first networked in the late 1970s. The "board" created
-by Ward Christensen and Randy Suess in February 1978,
-in Chicago, Illinois, is generally regarded as the first
-personal-computer bulletin board system worthy of the name.
-
-Boards run on many different machines, employing many
-different kinds of software. Early boards were crude and buggy,
-and their managers, known as "system operators" or "sysops,"
-were hard-working technical experts who wrote their own software.
-But like most everything else in the world of electronics,
-boards became faster, cheaper, better-designed, and generally
-far more sophisticated throughout the 1980s. They also moved
-swiftly out of the hands of pioneers and into those of the
-general public. By 1985 there were something in the
-neighborhood of 4,000 boards in America. By 1990 it was
-calculated, vaguely, that there were about 30,000 boards in
-the US, with uncounted thousands overseas.
-
-Computer bulletin boards are unregulated enterprises.
-Running a board is a rough-and-ready, catch-as-catch-can proposition.
-Basically, anybody with a computer, modem, software and a phone-line
-can start a board. With second-hand equipment and public-domain
-free software, the price of a board might be quite small--
-less than it would take to publish a magazine or even a
-decent pamphlet. Entrepreneurs eagerly sell bulletin-board
-software, and will coach nontechnical amateur sysops in its use.
-
-Boards are not "presses." They are not magazines,
-or libraries, or phones, or CB radios, or traditional cork
-bulletin boards down at the local laundry, though they
-have some passing resemblance to those earlier media.
-Boards are a new medium--they may even be a LARGE NUMBER of new media.
-
-Consider these unique characteristics: boards are cheap,
-yet they can have a national, even global reach.
-Boards can be contacted from anywhere in the global
-telephone network, at NO COST to the person running the board--
-the caller pays the phone bill, and if the caller is local,
-the call is free. Boards do not involve an editorial elite
-addressing a mass audience. The "sysop" of a board is not
-an exclusive publisher or writer--he is managing an electronic salon,
-where individuals can address the general public, play the part
-of the general public, and also exchange private mail
-with other individuals. And the "conversation" on boards,
-though fluid, rapid, and highly interactive, is not spoken,
-but written. It is also relatively anonymous, sometimes completely so.
-
-And because boards are cheap and ubiquitous, regulations
-and licensing requirements would likely be practically unenforceable.
-It would almost be easier to "regulate," "inspect," and "license"
-the content of private mail--probably more so, since the mail system
-is operated by the federal government. Boards are run by individuals,
-independently, entirely at their own whim.
-
-For the sysop, the cost of operation is not the primary
-limiting factor. Once the investment in a computer and
-modem has been made, the only steady cost is the charge
-for maintaining a phone line (or several phone lines).
-The primary limits for sysops are time and energy.
-Boards require upkeep. New users are generally "validated"--
-they must be issued individual passwords, and called at
-home by voice-phone, so that their identity can be
-verified. Obnoxious users, who exist in plenty, must be
-chided or purged. Proliferating messages must be deleted
-when they grow old, so that the capacity of the system
-is not overwhelmed. And software programs (if such things
-are kept on the board) must be examined for possible
-computer viruses. If there is a financial charge to use
-the board (increasingly common, especially in larger and
-fancier systems) then accounts must be kept, and users
-must be billed. And if the board crashes--a very common
-occurrence--then repairs must be made.
-
-Boards can be distinguished by the amount of effort
-spent in regulating them. First, we have the completely
-open board, whose sysop is off chugging brews and
-watching re-runs while his users generally degenerate
-over time into peevish anarchy and eventual silence.
-Second comes the supervised board, where the sysop
-breaks in every once in a while to tidy up, calm brawls,
-issue announcements, and rid the community of dolts
-and troublemakers. Third is the heavily supervised
-board, which sternly urges adult and responsible behavior
-and swiftly edits any message considered offensive,
-impertinent, illegal or irrelevant. And last comes
-the completely edited "electronic publication," which
-is presented to a silent audience which is not allowed
-to respond directly in any way.
-
-Boards can also be grouped by their degree of anonymity.
-There is the completely anonymous board, where everyone
-uses pseudonyms--"handles"--and even the sysop is unaware
-of the user's true identity. The sysop himself is likely
-pseudonymous on a board of this type. Second, and rather
-more common, is the board where the sysop knows (or thinks
-he knows) the true names and addresses of all users,
-but the users don't know one another's names and may not know his.
-Third is the board where everyone has to use real names,
-and roleplaying and pseudonymous posturing are forbidden.
-
-Boards can be grouped by their immediacy. "Chat-lines"
-are boards linking several users together over several
-different phone-lines simultaneously, so that people
-exchange messages at the very moment that they type.
-(Many large boards feature "chat" capabilities along
-with other services.) Less immediate boards,
-perhaps with a single phoneline, store messages serially,
-one at a time. And some boards are only open for business
-in daylight hours or on weekends, which greatly slows response.
-A NETWORK of boards, such as "FidoNet," can carry electronic mail
-from board to board, continent to continent, across huge distances--
-but at a relative snail's pace, so that a message can take several
-days to reach its target audience and elicit a reply.
-
-Boards can be grouped by their degree of community.
-Some boards emphasize the exchange of private,
-person-to-person electronic mail. Others emphasize
-public postings and may even purge people who "lurk,"
-merely reading posts but refusing to openly participate.
-Some boards are intimate and neighborly. Others are frosty
-and highly technical. Some are little more than storage
-dumps for software, where users "download" and "upload" programs,
-but interact among themselves little if at all.
-
-Boards can be grouped by their ease of access. Some boards
-are entirely public. Others are private and restricted only
-to personal friends of the sysop. Some boards divide users by status.
-On these boards, some users, especially beginners, strangers or children,
-will be restricted to general topics, and perhaps forbidden to post.
-Favored users, though, are granted the ability to post as they please,
-and to stay "on-line" as long as they like, even to the disadvantage
-of other people trying to call in. High-status users can be given access
-to hidden areas in the board, such as off-color topics, private discussions,
-and/or valuable software. Favored users may even become "remote sysops"
-with the power to take remote control of the board through their own
-home computers. Quite often "remote sysops" end up doing all the work
-and taking formal control of the enterprise, despite the fact that it's
-physically located in someone else's house. Sometimes several "co-sysops"
-share power.
-
-And boards can also be grouped by size. Massive, nationwide
-commercial networks, such as CompuServe, Delphi, GEnie and Prodigy,
-are run on mainframe computers and are generally not considered "boards,"
-though they share many of their characteristics, such as electronic mail,
-discussion topics, libraries of software, and persistent and growing problems
-with civil-liberties issues. Some private boards have as many as
-thirty phone-lines and quite sophisticated hardware. And then
-there are tiny boards.
-
-Boards vary in popularity. Some boards are huge and crowded,
-where users must claw their way in against a constant busy-signal.
-Others are huge and empty--there are few things sadder than a formerly
-flourishing board where no one posts any longer, and the dead conversations
-of vanished users lie about gathering digital dust. Some boards are tiny
-and intimate, their telephone numbers intentionally kept confidential
-so that only a small number can log on.
-
-And some boards are UNDERGROUND.
-
-Boards can be mysterious entities. The activities of
-their users can be hard to differentiate from conspiracy.
-Sometimes they ARE conspiracies. Boards have harbored,
-or have been accused of harboring, all manner of fringe groups,
-and have abetted, or been accused of abetting, every manner
-of frowned-upon, sleazy, radical, and criminal activity.
-There are Satanist boards. Nazi boards. Pornographic boards.
-Pedophile boards. Drug- dealing boards. Anarchist boards.
-Communist boards. Gay and Lesbian boards (these exist in great profusion,
-many of them quite lively with well-established histories).
-Religious cult boards. Evangelical boards. Witchcraft
-boards, hippie boards, punk boards, skateboarder boards.
-Boards for UFO believers. There may well be boards for
-serial killers, airline terrorists and professional assassins.
-There is simply no way to tell. Boards spring up, flourish,
-and disappear in large numbers, in most every corner of
-the developed world. Even apparently innocuous public
-boards can, and sometimes do, harbor secret areas known
-only to a few. And even on the vast, public, commercial services,
-private mail is very private--and quite possibly criminal.
-
-Boards cover most every topic imaginable and some
-that are hard to imagine. They cover a vast spectrum
-of social activity. However, all board users do have
-something in common: their possession of computers
-and phones. Naturally, computers and phones are
-primary topics of conversation on almost every board.
-
-And hackers and phone phreaks, those utter devotees
-of computers and phones, live by boards. They swarm by boards.
-They are bred by boards. By the late 1980s, phone-phreak groups
-and hacker groups, united by boards, had proliferated fantastically.
-
-
-As evidence, here is a list of hacker groups compiled
-by the editors of Phrack on August 8, 1988.
-
-
-The Administration.
-Advanced Telecommunications, Inc.
-ALIAS.
-American Tone Travelers.
-Anarchy Inc.
-Apple Mafia.
-The Association.
-Atlantic Pirates Guild.
-
-Bad Ass Mother Fuckers.
-Bellcore.
-Bell Shock Force.
-Black Bag.
-
-Camorra.
-C&M Productions.
-Catholics Anonymous.
-Chaos Computer Club.
-Chief Executive Officers.
-Circle Of Death.
-Circle Of Deneb.
-Club X.
-Coalition of Hi-Tech
-Pirates.
-Coast-To-Coast.
-Corrupt Computing.
-Cult Of The
-Dead Cow.
-Custom Retaliations.
-
-Damage Inc.
-D&B Communications.
-The Danger Gang.
-Dec Hunters.
-Digital Gang.
-DPAK.
-
-Eastern Alliance.
-The Elite Hackers Guild.
-Elite Phreakers and Hackers Club.
-The Elite Society Of America.
-EPG.
-Executives Of Crime.
-Extasyy Elite.
-
-Fargo 4A.
-Farmers Of Doom.
-The Federation.
-Feds R Us.
-First Class.
-Five O.
-Five Star.
-Force Hackers.
-The 414s.
-
-Hack-A-Trip.
-Hackers Of America.
-High Mountain Hackers.
-High Society.
-The Hitchhikers.
-
-IBM Syndicate.
-The Ice Pirates.
-Imperial Warlords.
-Inner Circle.
-Inner Circle II.
-Insanity Inc.
-International Computer Underground Bandits.
-
-Justice League of America.
-
-Kaos Inc.
-Knights Of Shadow.
-Knights Of The Round Table.
-
-League Of Adepts.
-Legion Of Doom.
-Legion Of Hackers.
-Lords Of Chaos.
-Lunatic Labs, Unlimited.
-
-Master Hackers.
-MAD!
-The Marauders.
-MD/PhD.
-
-Metal Communications, Inc.
-MetalliBashers, Inc.
-MBI.
-
-Metro Communications.
-Midwest Pirates Guild.
-
-NASA Elite.
-The NATO Association.
-Neon Knights.
-
-Nihilist Order.
-Order Of The Rose.
-OSS.
-
-Pacific Pirates Guild.
-Phantom Access Associates.
-
-PHido PHreaks.
-The Phirm.
-Phlash.
-PhoneLine Phantoms.
-Phone Phreakers Of America.
-Phortune 500.
-
-Phreak Hack Delinquents.
-Phreak Hack Destroyers.
-
-Phreakers, Hackers, And Laundromat Employees Gang (PHALSE Gang).
-Phreaks Against Geeks.
-Phreaks Against Phreaks Against Geeks.
-Phreaks and Hackers of America.
-Phreaks Anonymous World Wide.
-Project Genesis.
-The Punk Mafia.
-
-The Racketeers.
-Red Dawn Text Files.
-Roscoe Gang.
-
-
-SABRE.
-Secret Circle of Pirates.
-Secret Service.
-707 Club.
-Shadow Brotherhood.
-Sharp Inc.
-65C02 Elite.
-
-Spectral Force.
-Star League.
-Stowaways.
-Strata-Crackers.
-
-
-Team Hackers '86.
-Team Hackers '87.
-
-TeleComputist Newsletter Staff.
-Tribunal Of Knowledge.
-
-Triple Entente.
-Turn Over And Die Syndrome (TOADS).
-
-300 Club.
-1200 Club.
-2300 Club.
-2600 Club.
-2601 Club.
-
-2AF.
-
-The United Soft WareZ Force.
-United Technical Underground.
-
-Ware Brigade.
-The Warelords.
-WASP.
-
-Contemplating this list is an impressive, almost humbling business.
-As a cultural artifact, the thing approaches poetry.
-
-Underground groups--subcultures--can be distinguished
-from independent cultures by their habit of referring
-constantly to the parent society. Undergrounds by their
-nature constantly must maintain a membrane of differentiation.
-Funny/distinctive clothes and hair, specialized jargon, specialized
-ghettoized areas in cities, different hours of rising, working,
-sleeping. . . . The digital underground, which specializes in information,
-relies very heavily on language to distinguish itself. As can be seen
-from this list, they make heavy use of parody and mockery.
-It's revealing to see who they choose to mock.
-
-First, large corporations. We have the Phortune 500,
-The Chief Executive Officers, Bellcore, IBM Syndicate,
-SABRE (a computerized reservation service maintained
-by airlines). The common use of "Inc." is telling--
-none of these groups are actual corporations,
-but take clear delight in mimicking them.
-
-Second, governments and police. NASA Elite, NATO Association.
-"Feds R Us" and "Secret Service" are fine bits of fleering boldness.
-OSS--the Office of Strategic Services was the forerunner of the CIA.
-
-Third, criminals. Using stigmatizing pejoratives as a perverse
-badge of honor is a time-honored tactic for subcultures:
-punks, gangs, delinquents, mafias, pirates, bandits, racketeers.
-
-Specialized orthography, especially the use of "ph" for "f"
-and "z" for the plural "s," are instant recognition symbols.
-So is the use of the numeral "0" for the letter "O"
---computer-software orthography generally features a
-slash through the zero, making the distinction obvious.
-
-Some terms are poetically descriptive of computer intrusion:
-the Stowaways, the Hitchhikers, the PhoneLine Phantoms, Coast-to-Coast.
-Others are simple bravado and vainglorious puffery.
-(Note the insistent use of the terms "elite" and "master.")
-Some terms are blasphemous, some obscene, others merely cryptic--
-anything to puzzle, offend, confuse, and keep the straights at bay.
-
-Many hacker groups further re-encrypt their names
-by the use of acronyms: United Technical Underground
-becomes UTU, Farmers of Doom become FoD, the United SoftWareZ
-Force becomes, at its own insistence, "TuSwF," and woe to the
-ignorant rodent who capitalizes the wrong letters.
-
-It should be further recognized that the members of these groups
-are themselves pseudonymous. If you did, in fact, run across
-the "PhoneLine Phantoms," you would find them to consist of
-"Carrier Culprit," "The Executioner," "Black Majik,"
-"Egyptian Lover," "Solid State," and "Mr Icom."
-"Carrier Culprit" will likely be referred to by his friends
-as "CC," as in, "I got these dialups from CC of PLP."
-
-It's quite possible that this entire list refers to as
-few as a thousand people. It is not a complete list
-of underground groups--there has never been such a list,
-and there never will be. Groups rise, flourish, decline,
-share membership, maintain a cloud of wannabes and
-casual hangers-on. People pass in and out, are ostracized,
-get bored, are busted by police, or are cornered by telco
-security and presented with huge bills. Many "underground
-groups" are software pirates, "warez d00dz," who might break
-copy protection and pirate programs, but likely wouldn't dare
-to intrude on a computer-system.
-
-It is hard to estimate the true population of the digital
-underground. There is constant turnover. Most hackers
-start young, come and go, then drop out at age 22--
-the age of college graduation. And a large majority
-of "hackers" access pirate boards, adopt a handle,
-swipe software and perhaps abuse a phone-code or two,
-while never actually joining the elite.
-
-Some professional informants, who make it their business
-to retail knowledge of the underground to paymasters in private
-corporate security, have estimated the hacker population
-at as high as fifty thousand. This is likely highly inflated,
-unless one counts every single teenage software pirate
-and petty phone-booth thief. My best guess is about 5,000 people.
-Of these, I would guess that as few as a hundred are truly "elite"
---active computer intruders, skilled enough to penetrate
-sophisticated systems and truly to worry corporate security
-and law enforcement.
-
-Another interesting speculation is whether this group
-is growing or not. Young teenage hackers are often
-convinced that hackers exist in vast swarms and will soon
-dominate the cybernetic universe. Older and wiser
-veterans, perhaps as wizened as 24 or 25 years old,
-are convinced that the glory days are long gone, that the cops
-have the underground's number now, and that kids these days
-are dirt-stupid and just want to play Nintendo.
-
-My own assessment is that computer intrusion, as a non-profit act
-of intellectual exploration and mastery, is in slow decline,
-at least in the United States; but that electronic fraud,
-especially telecommunication crime, is growing by leaps and bounds.
-
-One might find a useful parallel to the digital underground
-in the drug underground. There was a time, now much-obscured
-by historical revisionism, when Bohemians freely shared joints
-at concerts, and hip, small-scale marijuana dealers might
-turn people on just for the sake of enjoying a long stoned conversation
-about the Doors and Allen Ginsberg. Now drugs are increasingly verboten,
-except in a high-stakes, highly-criminal world of highly addictive drugs.
-Over years of disenchantment and police harassment, a vaguely ideological,
-free-wheeling drug underground has relinquished the business of drug-dealing
-to a far more savage criminal hard-core. This is not a pleasant prospect
-to contemplate, but the analogy is fairly compelling.
-
-What does an underground board look like? What distinguishes
-it from a standard board? It isn't necessarily the conversation--
-hackers often talk about common board topics, such as hardware, software,
-sex, science fiction, current events, politics, movies, personal gossip.
-Underground boards can best be distinguished by their files, or "philes,"
-pre-composed texts which teach the techniques and ethos of the underground.
-These are prized reservoirs of forbidden knowledge. Some are anonymous,
-but most proudly bear the handle of the "hacker" who has created them,
-and his group affiliation, if he has one.
-
-Here is a partial table-of-contents of philes from an underground board,
-somewhere in the heart of middle America, circa 1991. The descriptions
-are mostly self-explanatory.
-
-
-BANKAMER.ZIP 5406 06-11-91 Hacking Bank America
-CHHACK.ZIP 4481 06-11-91 Chilton Hacking
-CITIBANK.ZIP 4118 06-11-91 Hacking Citibank
-CREDIMTC.ZIP 3241 06-11-91 Hacking Mtc Credit Company
-DIGEST.ZIP 5159 06-11-91 Hackers Digest
-HACK.ZIP 14031 06-11-91 How To Hack
-HACKBAS.ZIP 5073 06-11-91 Basics Of Hacking
-HACKDICT.ZIP 42774 06-11-91 Hackers Dictionary
-HACKER.ZIP 57938 06-11-91 Hacker Info
-HACKERME.ZIP 3148 06-11-91 Hackers Manual
-HACKHAND.ZIP 4814 06-11-91 Hackers Handbook
-HACKTHES.ZIP 48290 06-11-91 Hackers Thesis
-HACKVMS.ZIP 4696 06-11-91 Hacking Vms Systems
-MCDON.ZIP 3830 06-11-91 Hacking Macdonalds (Home Of The Archs)
-P500UNIX.ZIP 15525 06-11-91 Phortune 500 Guide To Unix
-RADHACK.ZIP 8411 06-11-91 Radio Hacking
-TAOTRASH.DOC 4096 12-25-89 Suggestions For Trashing
-TECHHACK.ZIP 5063 06-11-91 Technical Hacking
-
-
-The files above are do-it-yourself manuals about computer intrusion.
-The above is only a small section of a much larger library of hacking
-and phreaking techniques and history. We now move into a different
-and perhaps surprising area.
-
-+------------+
- |Anarchy|
-+------------+
-
-ANARC.ZIP 3641 06-11-91 Anarchy Files
-ANARCHST.ZIP 63703 06-11-91 Anarchist Book
-ANARCHY.ZIP 2076 06-11-91 Anarchy At Home
-ANARCHY3.ZIP 6982 06-11-91 Anarchy No 3
-ANARCTOY.ZIP 2361 06-11-91 Anarchy Toys
-ANTIMODM.ZIP 2877 06-11-91 Anti-modem Weapons
-ATOM.ZIP 4494 06-11-91 How To Make An Atom Bomb
-BARBITUA.ZIP 3982 06-11-91 Barbiturate Formula
-BLCKPWDR.ZIP 2810 06-11-91 Black Powder Formulas
-BOMB.ZIP 3765 06-11-91 How To Make Bombs
-BOOM.ZIP 2036 06-11-91 Things That Go Boom
-CHLORINE.ZIP 1926 06-11-91 Chlorine Bomb
-COOKBOOK.ZIP 1500 06-11-91 Anarchy Cook Book
-DESTROY.ZIP 3947 06-11-91 Destroy Stuff
-DUSTBOMB.ZIP 2576 06-11-91 Dust Bomb
-ELECTERR.ZIP 3230 06-11-91 Electronic Terror
-EXPLOS1.ZIP 2598 06-11-91 Explosives 1
-EXPLOSIV.ZIP 18051 06-11-91 More Explosives
-EZSTEAL.ZIP 4521 06-11-91 Ez-stealing
-FLAME.ZIP 2240 06-11-91 Flame Thrower
-FLASHLT.ZIP 2533 06-11-91 Flashlight Bomb
-FMBUG.ZIP 2906 06-11-91 How To Make An Fm Bug
-OMEEXPL.ZIP 2139 06-11-91 Home Explosives
-HOW2BRK.ZIP 3332 06-11-91 How To Break In
-LETTER.ZIP 2990 06-11-91 Letter Bomb
-LOCK.ZIP 2199 06-11-91 How To Pick Locks
-MRSHIN.ZIP 3991 06-11-91 Briefcase Locks
-NAPALM.ZIP 3563 06-11-91 Napalm At Home
-NITRO.ZIP 3158 06-11-91 Fun With Nitro
-PARAMIL.ZIP 2962 06-11-91 Paramilitary Info
-PICKING.ZIP 3398 06-11-91 Picking Locks
-PIPEBOMB.ZIP 2137 06-11-91 Pipe Bomb
-POTASS.ZIP 3987 06-11-91 Formulas With Potassium
-PRANK.TXT 11074 08-03-90 More Pranks To Pull On Idiots!
-REVENGE.ZIP 4447 06-11-91 Revenge Tactics
-ROCKET.ZIP 2590 06-11-91 Rockets For Fun
-SMUGGLE.ZIP 3385 06-11-91 How To Smuggle
-
-HOLY COW! The damned thing is full of stuff about bombs!
-
-What are we to make of this?
-
-First, it should be acknowledged that spreading
-knowledge about demolitions to teenagers is a highly and
-deliberately antisocial act. It is not, however, illegal.
-
-Second, it should be recognized that most of these
-philes were in fact WRITTEN by teenagers. Most adult
-American males who can remember their teenage years
-will recognize that the notion of building a flamethrower
-in your garage is an incredibly neat-o idea. ACTUALLY,
-building a flamethrower in your garage, however, is
-fraught with discouraging difficulty. Stuffing gunpowder
-into a booby-trapped flashlight, so as to blow the arm off
-your high-school vice-principal, can be a thing of dark
-beauty to contemplate. Actually committing assault by
-explosives will earn you the sustained attention of the
-federal Bureau of Alcohol, Tobacco and Firearms.
-
-Some people, however, will actually try these plans.
-A determinedly murderous American teenager can probably
-buy or steal a handgun far more easily than he can brew
-fake "napalm" in the kitchen sink. Nevertheless,
-if temptation is spread before people, a certain number
-will succumb, and a small minority will actually attempt
-these stunts. A large minority of that small minority
-will either fail or, quite likely, maim themselves,
-since these "philes" have not been checked for accuracy,
-are not the product of professional experience,
-and are often highly fanciful. But the gloating menace
-of these philes is not to be entirely dismissed.
-
-Hackers may not be "serious" about bombing; if they were,
-we would hear far more about exploding flashlights, homemade bazookas,
-and gym teachers poisoned by chlorine and potassium.
-However, hackers are VERY serious about forbidden knowledge.
-They are possessed not merely by curiosity, but by
-a positive LUST TO KNOW. The desire to know what
-others don't is scarcely new. But the INTENSITY
-of this desire, as manifested by these young technophilic
-denizens of the Information Age, may in fact BE new,
-and may represent some basic shift in social values--
-a harbinger of what the world may come to, as society
-lays more and more value on the possession,
-assimilation and retailing of INFORMATION
-as a basic commodity of daily life.
-
-There have always been young men with obsessive interests
-in these topics. Never before, however, have they been able
-to network so extensively and easily, and to propagandize
-their interests with impunity to random passers-by.
-High-school teachers will recognize that there's always
-one in a crowd, but when the one in a crowd escapes control
-by jumping into the phone-lines, and becomes a hundred such kids
-all together on a board, then trouble is brewing visibly.
-The urge of authority to DO SOMETHING, even something drastic,
-is hard to resist. And in 1990, authority did something.
-In fact authority did a great deal.
-
-#
-
-The process by which boards create hackers goes something
-like this. A youngster becomes interested in computers--
-usually, computer games. He hears from friends that
-"bulletin boards" exist where games can be obtained for free.
-(Many computer games are "freeware," not copyrighted--
-invented simply for the love of it and given away to the public;
-some of these games are quite good.) He bugs his parents for a modem,
-or quite often, uses his parents' modem.
-
-The world of boards suddenly opens up. Computer games
-can be quite expensive, real budget-breakers for a kid,
-but pirated games, stripped of copy protection, are cheap or free.
-They are also illegal, but it is very rare, almost unheard of,
-for a small-scale software pirate to be prosecuted.
-Once "cracked" of its copy protection, the program,
-being digital data, becomes infinitely reproducible.
-Even the instructions to the game, any manuals that accompany it,
-can be reproduced as text files, or photocopied from legitimate sets.
-Other users on boards can give many useful hints in game-playing tactics.
-And a youngster with an infinite supply of free computer games can
-certainly cut quite a swath among his modem-less friends.
-
-And boards are pseudonymous. No one need know that you're
-fourteen years old--with a little practice at subterfuge,
-you can talk to adults about adult things, and be accepted
-and taken seriously! You can even pretend to be a girl,
-or an old man, or anybody you can imagine. If you find this
-kind of deception gratifying, there is ample opportunity
-to hone your ability on boards.
-
-But local boards can grow stale. And almost every board maintains
-a list of phone-numbers to other boards, some in distant, tempting,
-exotic locales. Who knows what they're up to, in Oregon or Alaska
-or Florida or California? It's very easy to find out--just order
-the modem to call through its software--nothing to this, just typing
-on a keyboard, the same thing you would do for most any computer game.
-The machine reacts swiftly and in a few seconds you are talking to
-a bunch of interesting people on another seaboard.
-
-And yet the BILLS for this trivial action can be staggering!
-Just by going tippety-tap with your fingers, you may have
-saddled your parents with four hundred bucks in long-distance charges,
-and gotten chewed out but good. That hardly seems fair.
-
-How horrifying to have made friends in another state
-and to be deprived of their company--and their software--
-just because telephone companies demand absurd amounts of money!
-How painful, to be restricted to boards in one's own AREA CODE--
-what the heck is an "area code" anyway, and what makes it so special?
-A few grumbles, complaints, and innocent questions of this sort
-will often elicit a sympathetic reply from another board user--
-someone with some stolen codes to hand. You dither a while,
-knowing this isn't quite right, then you make up your mind
-to try them anyhow--AND THEY WORK! Suddenly you're doing something
-even your parents can't do. Six months ago you were just some kid--now,
-you're the Crimson Flash of Area Code 512! You're bad--you're nationwide!
-
-Maybe you'll stop at a few abused codes. Maybe you'll decide that
-boards aren't all that interesting after all, that it's wrong,
-not worth the risk --but maybe you won't. The next step
-is to pick up your own repeat-dialling program--
-to learn to generate your own stolen codes.
-(This was dead easy five years ago, much harder
-to get away with nowadays, but not yet impossible.)
-And these dialling programs are not complex or intimidating--
-some are as small as twenty lines of software.
-
-Now, you too can share codes. You can trade codes to learn
-other techniques. If you're smart enough to catch on,
-and obsessive enough to want to bother, and ruthless enough
-to start seriously bending rules, then you'll get better, fast.
-You start to develop a rep. You move up to a heavier class
-of board--a board with a bad attitude, the kind of board
-that naive dopes like your classmates and your former self
-have never even heard of! You pick up the jargon of phreaking
-and hacking from the board. You read a few of those anarchy philes--
-and man, you never realized you could be a real OUTLAW without
-ever leaving your bedroom.
-
-You still play other computer games, but now you have a new
-and bigger game. This one will bring you a different kind of status
-than destroying even eight zillion lousy space invaders.
-
-Hacking is perceived by hackers as a "game." This is
-not an entirely unreasonable or sociopathic perception.
-You can win or lose at hacking, succeed or fail,
-but it never feels "real." It's not simply that
-imaginative youngsters sometimes have a hard time
-telling "make-believe" from "real life." Cyberspace
-is NOT REAL! "Real" things are physical objects
-like trees and shoes and cars. Hacking takes place
-on a screen. Words aren't physical, numbers
-(even telephone numbers and credit card numbers)
-aren't physical. Sticks and stones may break my bones,
-but data will never hurt me. Computers SIMULATE reality,
-like computer games that simulate tank battles or dogfights
-or spaceships. Simulations are just make-believe,
-and the stuff in computers is NOT REAL.
-
-Consider this: if "hacking" is supposed to be so serious and
-real-life and dangerous, then how come NINE-YEAR-OLD KIDS have
-computers and modems? You wouldn't give a nine year old his own car,
-or his own rifle, or his own chainsaw--those things are "real."
-
-People underground are perfectly aware that the "game"
-is frowned upon by the powers that be. Word gets around
-about busts in the underground. Publicizing busts is one
-of the primary functions of pirate boards, but they also
-promulgate an attitude about them, and their own idiosyncratic
-ideas of justice. The users of underground boards won't complain
-if some guy is busted for crashing systems, spreading viruses,
-or stealing money by wire-fraud. They may shake their heads
-with a sneaky grin, but they won't openly defend these practices.
-But when a kid is charged with some theoretical amount of theft:
-$233,846.14, for instance, because he sneaked into a computer
-and copied something, and kept it in his house on a floppy disk--
-this is regarded as a sign of near-insanity from prosecutors,
-a sign that they've drastically mistaken the immaterial game
-of computing for their real and boring everyday world
-of fatcat corporate money.
-
-It's as if big companies and their suck-up lawyers
-think that computing belongs to them, and they can
-retail it with price stickers, as if it were boxes
-of laundry soap! But pricing "information" is like
-trying to price air or price dreams. Well, anybody
-on a pirate board knows that computing can be,
-and ought to be, FREE. Pirate boards are little
-independent worlds in cyberspace, and they don't belong
-to anybody but the underground. Underground boards
-aren't "brought to you by Procter & Gamble."
-
-To log on to an underground board can mean to
-experience liberation, to enter a world where,
-for once, money isn't everything and adults
-don't have all the answers.
-
-Let's sample another vivid hacker manifesto. Here are
-some excerpts from "The Conscience of a Hacker," by "The Mentor,"
-from Phrack Volume One, Issue 7, Phile 3.
-
-"I made a discovery today. I found a computer.
-Wait a second, this is cool. It does what I want it to.
-If it makes a mistake, it's because I screwed it up.
-Not because it doesn't like me. (. . .)
-"And then it happened. . .a door opened to a world. . .
-rushing through the phone line like heroin through an
-addict's veins, an electronic pulse is sent out,
-a refuge from day-to-day incompetencies is sought. . .
-a board is found. `This is it. . .this is where I belong. . .'
-"I know everyone here. . .even if I've never met them,
-never talked to them, may never hear from them again. . .
-I know you all. . . (. . .)
-
-"This is our world now. . .the world of the electron
-and the switch, the beauty of the baud. We make use of a
-service already existing without paying for what could be
-dirt-cheap if it wasn't run by profiteering gluttons, and you
-call us criminals. We explore. . .and you call us criminals.
-We seek after knowledge. . .and you call us criminals.
-We exist without skin color, without nationality,
-without religious bias. . .and you call us criminals.
-You build atomic bombs, you wage wars, you murder,
-cheat and lie to us and try to make us believe that
-it's for our own good, yet we're the criminals.
-
-"Yes, I am a criminal. My crime is that of curiosity.
-My crime is that of judging people by what they say and think,
-not what they look like. My crime is that of outsmarting you,
-something that you will never forgive me for."
-
-#
-
-There have been underground boards almost as long
-as there have been boards. One of the first was 8BBS,
-which became a stronghold of the West Coast phone-phreak elite.
-After going on-line in March 1980, 8BBS sponsored "Susan Thunder,"
-and "Tuc," and, most notoriously, "the Condor." "The Condor"
-bore the singular distinction of becoming the most vilified
-American phreak and hacker ever. Angry underground associates,
-fed up with Condor's peevish behavior, turned him in to police,
-along with a heaping double-helping of outrageous hacker legendry.
-As a result, Condor was kept in solitary confinement for seven months,
-for fear that he might start World War Three by triggering missile silos
-from the prison payphone. (Having served his time, Condor is now
-walking around loose; WWIII has thus far conspicuously failed to occur.)
-
-The sysop of 8BBS was an ardent free-speech enthusiast
-who simply felt that ANY attempt to restrict the expression
-of his users was unconstitutional and immoral.
-Swarms of the technically curious entered 8BBS
-and emerged as phreaks and hackers, until, in 1982,
-a friendly 8BBS alumnus passed the sysop a new modem
-which had been purchased by credit-card fraud.
-Police took this opportunity to seize the entire board
-and remove what they considered an attractive nuisance.
-
-Plovernet was a powerful East Coast pirate board
-that operated in both New York and Florida.
-Owned and operated by teenage hacker "Quasi Moto,"
-Plovernet attracted five hundred eager users in 1983.
-"Emmanuel Goldstein" was one-time co-sysop of Plovernet,
-along with "Lex Luthor," founder of the "Legion of Doom" group.
-Plovernet bore the signal honor of being the original home
-of the "Legion of Doom," about which the reader will be hearing
-a great deal, soon.
-
-"Pirate-80," or "P-80," run by a sysop known as "Scan-Man,"
-got into the game very early in Charleston, and continued
-steadily for years. P-80 flourished so flagrantly that
-even its most hardened users became nervous, and some
-slanderously speculated that "Scan Man" must have ties
-to corporate security, a charge he vigorously denied.
-
-"414 Private" was the home board for the first GROUP
-to attract conspicuous trouble, the teenage "414 Gang,"
-whose intrusions into Sloan-Kettering Cancer Center and
-Los Alamos military computers were to be a nine-days-wonder in 1982.
-
-At about this time, the first software piracy boards
-began to open up, trading cracked games for the Atari 800
-and the Commodore C64. Naturally these boards were
-heavily frequented by teenagers. And with the 1983
-release of the hacker-thriller movie War Games,
-the scene exploded. It seemed that every kid
-in America had demanded and gotten a modem for Christmas.
-Most of these dabbler wannabes put their modems in the attic
-after a few weeks, and most of the remainder minded their
-P's and Q's and stayed well out of hot water. But some
-stubborn and talented diehards had this hacker kid in
-War Games figured for a happening dude. They simply
-could not rest until they had contacted the underground--
-or, failing that, created their own.
-
-In the mid-80s, underground boards sprang up like digital fungi.
-ShadowSpawn Elite. Sherwood Forest I, II, and III.
-Digital Logic Data Service in Florida, sysoped by no less
-a man than "Digital Logic" himself; Lex Luthor of the
-Legion of Doom was prominent on this board, since it
-was in his area code. Lex's own board, "Legion of Doom,"
-started in 1984. The Neon Knights ran a network of Apple-
-hacker boards: Neon Knights North, South, East and West.
-Free World II was run by "Major Havoc." Lunatic Labs
-is still in operation as of this writing. Dr. Ripco
-in Chicago, an anything-goes anarchist board with an
-extensive and raucous history, was seized by Secret Service
-agents in 1990 on Sundevil day, but up again almost immediately,
-with new machines and scarcely diminished vigor.
-
-The St. Louis scene was not to rank with major centers
-of American hacking such as New York and L.A. But St.
-Louis did rejoice in possession of "Knight Lightning"
-and "Taran King," two of the foremost JOURNALISTS native
-to the underground. Missouri boards like Metal Shop,
-Metal Shop Private, Metal Shop Brewery, may not have
-been the heaviest boards around in terms of illicit
-expertise. But they became boards where hackers could
-exchange social gossip and try to figure out what the
-heck was going on nationally--and internationally.
-Gossip from Metal Shop was put into the form of news files,
-then assembled into a general electronic publication,
-Phrack, a portmanteau title coined from "phreak" and "hack."
-The Phrack editors were as obsessively curious about other
-hackers as hackers were about machines.
-
-Phrack, being free of charge and lively reading, began
-to circulate throughout the underground. As Taran King
-and Knight Lightning left high school for college,
-Phrack began to appear on mainframe machines linked to BITNET,
-and, through BITNET to the "Internet," that loose but
-extremely potent not-for-profit network where academic,
-governmental and corporate machines trade data through
-the UNIX TCP/IP protocol. (The "Internet Worm" of
-November 2-3,1988, created by Cornell grad student Robert Morris,
-was to be the largest and best-publicized computer-intrusion scandal
-to date. Morris claimed that his ingenious "worm" program was meant
-to harmlessly explore the Internet, but due to bad programming,
-the Worm replicated out of control and crashed some six thousand
-Internet computers. Smaller-scale and less ambitious Internet hacking
-was a standard for the underground elite.)
-
-Most any underground board not hopelessly lame and out-of-it
-would feature a complete run of Phrack--and, possibly,
-the lesser-known standards of the underground:
-the Legion of Doom Technical Journal, the obscene
-and raucous Cult of the Dead Cow files, P/HUN magazine,
-Pirate, the Syndicate Reports, and perhaps the highly
-anarcho-political Activist Times Incorporated.
-
-Possession of Phrack on one's board was prima facie
-evidence of a bad attitude. Phrack was seemingly everywhere,
-aiding, abetting, and spreading the underground ethos.
-And this did not escape the attention of corporate security
-or the police.
-
-We now come to the touchy subject of police and boards.
-Police, do, in fact, own boards. In 1989, there were
-police-sponsored boards in California, Colorado, Florida,
-Georgia, Idaho, Michigan, Missouri, Texas, and Virginia:
-boards such as "Crime Bytes," "Crimestoppers," "All Points"
-and "Bullet-N-Board." Police officers, as private computer
-enthusiasts, ran their own boards in Arizona, California,
-Colorado, Connecticut, Florida, Missouri, Maryland,
-New Mexico, North Carolina, Ohio, Tennessee and Texas.
-Police boards have often proved helpful in community relations.
-Sometimes crimes are reported on police boards.
-
-Sometimes crimes are COMMITTED on police boards.
-This has sometimes happened by accident, as naive hackers
-blunder onto police boards and blithely begin offering telephone codes.
-Far more often, however, it occurs through the now almost-traditional
-use of "sting boards." The first police sting-boards were established
-in 1985: "Underground Tunnel" in Austin, Texas, whose sysop
-Sgt. Robert Ansley called himself "Pluto"--"The Phone Company"
-in Phoenix, Arizona, run by Ken MacLeod of the Maricopa County
-Sheriff's office--and Sgt. Dan Pasquale's board in Fremont, California.
-Sysops posed as hackers, and swiftly garnered coteries of ardent users,
-who posted codes and loaded pirate software with abandon,
-and came to a sticky end.
-
-Sting boards, like other boards, are cheap to operate,
-very cheap by the standards of undercover police operations.
-Once accepted by the local underground, sysops will likely be
-invited into other pirate boards, where they can compile more dossiers.
-And when the sting is announced and the worst offenders arrested,
-the publicity is generally gratifying. The resultant paranoia
-in the underground--perhaps more justly described as a "deterrence effect"--
-tends to quell local lawbreaking for quite a while.
-
-Obviously police do not have to beat the underbrush for hackers.
-On the contrary, they can go trolling for them. Those caught
-can be grilled. Some become useful informants. They can lead
-the way to pirate boards all across the country.
-
-And boards all across the country showed the sticky
-fingerprints of Phrack, and of that loudest and most
-flagrant of all underground groups, the "Legion of Doom."
-
-The term "Legion of Doom" came from comic books. The Legion of Doom,
-a conspiracy of costumed super- villains headed by the chrome-domed
-criminal ultra- mastermind Lex Luthor, gave Superman a lot of four-color
-graphic trouble for a number of decades. Of course, Superman,
-that exemplar of Truth, Justice, and the American Way,
-always won in the long run. This didn't matter to the hacker Doomsters--
-"Legion of Doom" was not some thunderous and evil Satanic reference,
-it was not meant to be taken seriously. "Legion of Doom" came
-from funny-books and was supposed to be funny.
-
-"Legion of Doom" did have a good mouthfilling ring to it, though.
-It sounded really cool. Other groups, such as the "Farmers of Doom,"
-closely allied to LoD, recognized this grandiloquent quality,
-and made fun of it. There was even a hacker group called
-"Justice League of America," named after Superman's club
-of true-blue crimefighting superheros.
-
-But they didn't last; the Legion did.
-
-The original Legion of Doom, hanging out on Quasi Moto's Plovernet board,
-were phone phreaks. They weren't much into computers. "Lex Luthor" himself
-(who was under eighteen when he formed the Legion) was a COSMOS expert,
-COSMOS being the "Central System for Mainframe Operations,"
-a telco internal computer network. Lex would eventually become
-quite a dab hand at breaking into IBM mainframes, but although
-everyone liked Lex and admired his attitude, he was not considered
-a truly accomplished computer intruder. Nor was he the "mastermind"
-of the Legion of Doom--LoD were never big on formal leadership.
-As a regular on Plovernet and sysop of his "Legion of Doom BBS,"
-Lex was the Legion's cheerleader and recruiting officer.
-
-Legion of Doom began on the ruins of an earlier phreak group,
-The Knights of Shadow. Later, LoD was to subsume the personnel
-of the hacker group "Tribunal of Knowledge." People came and went
-constantly in LoD; groups split up or formed offshoots.
-
-Early on, the LoD phreaks befriended a few computer-intrusion
-enthusiasts, who became the associated "Legion of Hackers."
-Then the two groups conflated into the "Legion of Doom/Hackers,"
-or LoD/H. When the original "hacker" wing, Messrs. "Compu-Phreak"
-and "Phucked Agent 04," found other matters to occupy their time,
-the extra "/H" slowly atrophied out of the name; but by this time
-the phreak wing, Messrs. Lex Luthor, "Blue Archer," "Gary Seven,"
-"Kerrang Khan," "Master of Impact," "Silver Spy," "The Marauder,"
-and "The Videosmith," had picked up a plethora of intrusion
-expertise and had become a force to be reckoned with.
-
-LoD members seemed to have an instinctive understanding
-that the way to real power in the underground lay through
-covert publicity. LoD were flagrant. Not only was it one
-of the earliest groups, but the members took pains to widely
-distribute their illicit knowledge. Some LoD members,
-like "The Mentor," were close to evangelical about it.
-Legion of Doom Technical Journal began to show up on boards
-throughout the underground.
-
-LoD Technical Journal was named in cruel parody
-of the ancient and honored AT&T Technical Journal.
-The material in these two publications was quite similar--
-much of it, adopted from public journals and discussions
-in the telco community. And yet, the predatory attitude
-of LoD made even its most innocuous data seem deeply sinister;
-an outrage; a clear and present danger.
-
-To see why this should be, let's consider the following
-(invented) paragraphs, as a kind of thought experiment.
-
-(A) "W. Fred Brown, AT&T Vice President for
-Advanced Technical Development, testified May 8
-at a Washington hearing of the National Telecommunications
-and Information Administration (NTIA), regarding
-Bellcore's GARDEN project. GARDEN (Generalized
-Automatic Remote Distributed Electronic Network) is a
-telephone-switch programming tool that makes it possible
-to develop new telecom services, including hold-on-hold
-and customized message transfers, from any keypad terminal,
-within seconds. The GARDEN prototype combines centrex
-lines with a minicomputer using UNIX operating system software."
-
-(B) "Crimson Flash 512 of the Centrex Mobsters reports:
-D00dz, you wouldn't believe this GARDEN bullshit Bellcore's
-just come up with! Now you don't even need a lousy Commodore
-to reprogram a switch--just log on to GARDEN as a technician,
-and you can reprogram switches right off the keypad in any
-public phone booth! You can give yourself hold-on-hold
-and customized message transfers, and best of all,
-the thing is run off (notoriously insecure) centrex lines
-using--get this--standard UNIX software! Ha ha ha ha!"
-
-Message (A), couched in typical techno-bureaucratese,
-appears tedious and almost unreadable. (A) scarcely seems
-threatening or menacing. Message (B), on the other hand,
-is a dreadful thing, prima facie evidence of a dire conspiracy,
-definitely not the kind of thing you want your teenager reading.
-
-The INFORMATION, however, is identical. It is PUBLIC
-information, presented before the federal government in
-an open hearing. It is not "secret." It is not "proprietary."
-It is not even "confidential." On the contrary, the
-development of advanced software systems is a matter
-of great public pride to Bellcore.
-
-However, when Bellcore publicly announces a project of this kind,
-it expects a certain attitude from the public--something along
-the lines of GOSH WOW, YOU GUYS ARE GREAT, KEEP THAT UP, WHATEVER IT IS--
-certainly not cruel mimickry, one-upmanship and outrageous speculations
-about possible security holes.
-
-Now put yourself in the place of a policeman confronted by
-an outraged parent, or telco official, with a copy of Version (B).
-This well-meaning citizen, to his horror, has discovered
-a local bulletin-board carrying outrageous stuff like (B),
-which his son is examining with a deep and unhealthy interest.
-If (B) were printed in a book or magazine, you, as an American
-law enforcement officer, would know that it would take
-a hell of a lot of trouble to do anything about it;
-but it doesn't take technical genius to recognize that
-if there's a computer in your area harboring stuff like (B),
-there's going to be trouble.
-
-In fact, if you ask around, any computer-literate cop
-will tell you straight out that boards with stuff like (B)
-are the SOURCE of trouble. And the WORST source of trouble
-on boards are the ringleaders inventing and spreading stuff like (B).
-If it weren't for these jokers, there wouldn't BE any trouble.
-
-And Legion of Doom were on boards like nobody else.
-Plovernet. The Legion of Doom Board. The Farmers of Doom Board.
-Metal Shop. OSUNY. Blottoland. Private Sector. Atlantis.
-Digital Logic. Hell Phrozen Over.
-
-LoD members also ran their own boards. "Silver Spy" started
-his own board, "Catch-22," considered one of the heaviest around.
-So did "Mentor," with his "Phoenix Project." When they didn't run boards
-themselves, they showed up on other people's boards, to brag, boast,
-and strut. And where they themselves didn't go, their philes went,
-carrying evil knowledge and an even more evil attitude.
-
-As early as 1986, the police were under the vague impression
-that EVERYONE in the underground was Legion of Doom.
-LoD was never that large--considerably smaller than either
-"Metal Communications" or "The Administration," for instance--
-but LoD got tremendous press. Especially in Phrack,
-which at times read like an LoD fan magazine; and Phrack
-was everywhere, especially in the offices of telco security.
-You couldn't GET busted as a phone phreak, a hacker,
-or even a lousy codes kid or warez dood, without the cops
-asking if you were LoD.
-
-This was a difficult charge to deny, as LoD never
-distributed membership badges or laminated ID cards.
-If they had, they would likely have died out quickly,
-for turnover in their membership was considerable.
-LoD was less a high-tech street-gang than an ongoing
-state-of-mind. LoD was the Gang That Refused to Die.
-By 1990, LoD had RULED for ten years, and it seemed WEIRD
-to police that they were continually busting people who were
-only sixteen years old. All these teenage small-timers
-were pleading the tiresome hacker litany of "just curious,
-no criminal intent." Somewhere at the center of this
-conspiracy there had to be some serious adult masterminds,
-not this seemingly endless supply of myopic suburban
-white kids with high SATs and funny haircuts.
-
-There was no question that most any American hacker
-arrested would "know" LoD. They knew the handles
-of contributors to LoD Tech Journal, and were likely
-to have learned their craft through LoD boards and LoD activism.
-But they'd never met anyone from LoD. Even some of the
-rotating cadre who were actually and formally "in LoD"
-knew one another only by board-mail and pseudonyms.
-This was a highly unconventional profile for a criminal conspiracy.
-Computer networking, and the rapid evolution of the digital underground,
-made the situation very diffuse and confusing.
-
-Furthermore, a big reputation in the digital underground
-did not coincide with one's willingness to commit "crimes."
-Instead, reputation was based on cleverness and technical mastery.
-As a result, it often seemed that the HEAVIER the hackers were,
-the LESS likely they were to have committed any kind of common,
-easily prosecutable crime. There were some hackers who could really steal.
-And there were hackers who could really hack. But the two groups didn't seem
-to overlap much, if at all. For instance, most people in the underground
-looked up to "Emmanuel Goldstein" of 2600 as a hacker demigod.
-But Goldstein's publishing activities were entirely legal--
-Goldstein just printed dodgy stuff and talked about politics,
-he didn't even hack. When you came right down to it,
-Goldstein spent half his time complaining that computer security
-WASN'T STRONG ENOUGH and ought to be drastically improved
-across the board!
-
-Truly heavy-duty hackers, those with serious technical skills
-who had earned the respect of the underground, never stole money
-or abused credit cards. Sometimes they might abuse phone-codes--
-but often, they seemed to get all the free phone-time they wanted
-without leaving a trace of any kind.
-
-The best hackers, the most powerful and technically accomplished,
-were not professional fraudsters. They raided computers habitually,
-but wouldn't alter anything, or damage anything. They didn't even steal
-computer equipment--most had day-jobs messing with hardware,
-and could get all the cheap secondhand equipment they wanted.
-The hottest hackers, unlike the teenage wannabes, weren't snobs
-about fancy or expensive hardware. Their machines tended to be
-raw second-hand digital hot-rods full of custom add-ons that
-they'd cobbled together out of chickenwire, memory chips and spit.
-Some were adults, computer software writers and consultants by trade,
-and making quite good livings at it. Some of them ACTUALLY WORKED
-FOR THE PHONE COMPANY--and for those, the "hackers" actually found
-under the skirts of Ma Bell, there would be little mercy in 1990.
-
-It has long been an article of faith in the
-underground that the "best" hackers never get caught.
-They're far too smart, supposedly. They never get caught
-because they never boast, brag, or strut. These demigods
-may read underground boards (with a condescending smile),
-but they never say anything there. The "best" hackers,
-according to legend, are adult computer professionals,
-such as mainframe system administrators, who already know
-the ins and outs of their particular brand of security.
-Even the "best" hacker can't break in to just any computer at random:
-the knowledge of security holes is too specialized, varying widely
-with different software and hardware. But if people are employed to run,
-say, a UNIX mainframe or a VAX/VMS machine, then they tend to learn
-security from the inside out. Armed with this knowledge,
-they can look into most anybody else's UNIX or VMS
-without much trouble or risk, if they want to.
-And, according to hacker legend, of course they want to,
-so of course they do. They just don't make a big deal
-of what they've done. So nobody ever finds out.
-
-It is also an article of faith in the underground that
-professional telco people "phreak" like crazed weasels.
-OF COURSE they spy on Madonna's phone calls--I mean,
-WOULDN'T YOU? Of course they give themselves free long-
-distance--why the hell should THEY pay, they're running
-the whole shebang!
-
-It has, as a third matter, long been an article of faith
-that any hacker caught can escape serious punishment if
-he confesses HOW HE DID IT. Hackers seem to believe
-that governmental agencies and large corporations are
-blundering about in cyberspace like eyeless jellyfish
-or cave salamanders. They feel that these large
-but pathetically stupid organizations will proffer up
-genuine gratitude, and perhaps even a security post
-and a big salary, to the hot-shot intruder who will deign
-to reveal to them the supreme genius of his modus operandi.
-
-In the case of longtime LoD member "Control-C,"
-this actually happened, more or less. Control-C had led
-Michigan Bell a merry chase, and when captured in 1987,
-he turned out to be a bright and apparently physically
-harmless young fanatic, fascinated by phones. There was
-no chance in hell that Control-C would actually repay the
-enormous and largely theoretical sums in long-distance
-service that he had accumulated from Michigan Bell.
-He could always be indicted for fraud or computer-intrusion,
-but there seemed little real point in this--he hadn't
-physically damaged any computer. He'd just plead guilty,
-and he'd likely get the usual slap-on-the-wrist,
-and in the meantime it would be a big hassle for Michigan Bell
-just to bring up the case. But if kept on the payroll,
-he might at least keep his fellow hackers at bay.
-
-There were uses for him. For instance, a contrite
-Control-C was featured on Michigan Bell internal posters,
-sternly warning employees to shred their trash.
-He'd always gotten most of his best inside info from
-"trashing"--raiding telco dumpsters, for useful data
-indiscreetly thrown away. He signed these posters, too.
-Control-C had become something like a Michigan Bell mascot.
-And in fact, Control-C DID keep other hackers at bay.
-Little hackers were quite scared of Control-C and his
-heavy-duty Legion of Doom friends. And big hackers WERE
-his friends and didn't want to screw up his cushy situation.
-
-No matter what one might say of LoD, they did stick together.
-When "Wasp," an apparently genuinely malicious New York hacker,
-began crashing Bellcore machines, Control-C received swift volunteer
-help from "the Mentor" and the Georgia LoD wing made up of
-"The Prophet," "Urvile," and "Leftist." Using Mentor's Phoenix
-Project board to coordinate, the Doomsters helped telco security
-to trap Wasp, by luring him into a machine with a tap
-and line-trace installed. Wasp lost. LoD won! And my, did they brag.
-
-Urvile, Prophet and Leftist were well-qualified for this activity,
-probably more so even than the quite accomplished Control-C.
-The Georgia boys knew all about phone switching-stations.
-Though relative johnny-come-latelies in the Legion of Doom,
-they were considered some of LoD's heaviest guys,
-into the hairiest systems around. They had the good fortune
-to live in or near Atlanta, home of the sleepy and apparently
-tolerant BellSouth RBOC.
-
-As RBOC security went, BellSouth were "cake." US West (of Arizona,
-the Rockies and the Pacific Northwest) were tough and aggressive,
-probably the heaviest RBOC around. Pacific Bell, California's PacBell,
-were sleek, high-tech, and longtime veterans of the LA phone-phreak wars.
-NYNEX had the misfortune to run the New York City area, and were warily
-prepared for most anything. Even Michigan Bell, a division of the
-Ameritech RBOC, at least had the elementary sense to hire their own hacker
-as a useful scarecrow. But BellSouth, even though their corporate P.R.
-proclaimed them to have "Everything You Expect From a Leader," were pathetic.
-
-When rumor about LoD's mastery of Georgia's switching network got around
-to BellSouth through Bellcore and telco security scuttlebutt,
-they at first refused to believe it. If you paid serious attention
-to every rumor out and about these hacker kids, you would hear all kinds
-of wacko saucer-nut nonsense: that the National Security Agency
-monitored all American phone calls, that the CIA and DEA tracked
-traffic on bulletin-boards with word-analysis programs,
-that the Condor could start World War III from a payphone.
-
-If there were hackers into BellSouth switching-stations, then how come
-nothing had happened? Nothing had been hurt. BellSouth's machines
-weren't crashing. BellSouth wasn't suffering especially badly from fraud.
-BellSouth's customers weren't complaining. BellSouth was headquartered
-in Atlanta, ambitious metropolis of the new high-tech Sunbelt;
-and BellSouth was upgrading its network by leaps and bounds,
-digitizing the works left right and center. They could hardly be
-considered sluggish or naive. BellSouth's technical expertise
-was second to none, thank you kindly. But then came the Florida business.
-
-On June 13, 1989, callers to the Palm Beach County Probation Department,
-in Delray Beach, Florida, found themselves involved in a remarkable
-discussion with a phone-sex worker named "Tina" in New York State.
-Somehow, ANY call to this probation office near Miami was instantly
-and magically transported across state lines, at no extra charge to the user,
-to a pornographic phone-sex hotline hundreds of miles away!
-
-This practical joke may seem utterly hilarious at first hearing,
-and indeed there was a good deal of chuckling about it in
-phone phreak circles, including the Autumn 1989 issue of 2600.
-But for Southern Bell (the division of the BellSouth RBOC
-supplying local service for Florida, Georgia, North Carolina
-and South Carolina), this was a smoking gun. For the first time ever,
-a computer intruder had broken into a BellSouth central office
-switching station and re-programmed it!
-
-Or so BellSouth thought in June 1989. Actually, LoD members had been
-frolicking harmlessly in BellSouth switches since September 1987.
-The stunt of June 13--call-forwarding a number through manipulation
-of a switching station--was child's play for hackers as accomplished
-as the Georgia wing of LoD. Switching calls interstate sounded like
-a big deal, but it took only four lines of code to accomplish this.
-An easy, yet more discreet, stunt, would be to call-forward another
-number to your own house. If you were careful and considerate,
-and changed the software back later, then not a soul would know.
-Except you. And whoever you had bragged to about it.
-
-As for BellSouth, what they didn't know wouldn't hurt them.
-
-Except now somebody had blown the whole thing wide open, and BellSouth knew.
-
-A now alerted and considerably paranoid BellSouth began searching switches
-right and left for signs of impropriety, in that hot summer of 1989.
-No fewer than forty-two BellSouth employees were put on 12-hour shifts,
-twenty-four hours a day, for two solid months, poring over records
-and monitoring computers for any sign of phony access. These forty-two
-overworked experts were known as BellSouth's "Intrusion Task Force."
-
-What the investigators found astounded them. Proprietary telco databases
-had been manipulated: phone numbers had been created out of thin air,
-with no users' names and no addresses. And perhaps worst of all,
-no charges and no records of use. The new digital ReMOB (Remote Observation)
-diagnostic feature had been extensively tampered with--hackers had learned to
-reprogram ReMOB software, so that they could listen in on any switch-routed
-call at their leisure! They were using telco property to SPY!
-
-The electrifying news went out throughout law enforcement in 1989.
-It had never really occurred to anyone at BellSouth that their prized
-and brand-new digital switching-stations could be RE-PROGRAMMED.
-People seemed utterly amazed that anyone could have the nerve.
-Of course these switching stations were "computers," and everybody
-knew hackers liked to "break into computers:" but telephone people's
-computers were DIFFERENT from normal people's computers.
-
-The exact reason WHY these computers were "different" was
-rather ill-defined. It certainly wasn't the extent of their security.
-The security on these BellSouth computers was lousy; the AIMSX computers,
-for instance, didn't even have passwords. But there was no question that
-BellSouth strongly FELT that their computers were very different indeed.
-And if there were some criminals out there who had not gotten that message,
-BellSouth was determined to see that message taught.
-
-After all, a 5ESS switching station was no mere bookkeeping system for
-some local chain of florists. Public service depended on these stations.
-Public SAFETY depended on these stations.
-
-And hackers, lurking in there call-forwarding or ReMobbing, could spy
-on anybody in the local area! They could spy on telco officials!
-They could spy on police stations! They could spy on local offices
-of the Secret Service. . . .
-
-In 1989, electronic cops and hacker-trackers began using scrambler-phones
-and secured lines. It only made sense. There was no telling who was into
-those systems. Whoever they were, they sounded scary. This was some
-new level of antisocial daring. Could be West German hackers, in the pay
-of the KGB. That too had seemed a weird and farfetched notion,
-until Clifford Stoll had poked and prodded a sluggish Washington
-law-enforcement bureaucracy into investigating a computer intrusion
-that turned out to be exactly that--HACKERS, IN THE PAY OF THE KGB!
-Stoll, the systems manager for an Internet lab in Berkeley California,
-had ended up on the front page of the New Nork Times, proclaimed a national
-hero in the first true story of international computer espionage.
-Stoll's counterspy efforts, which he related in a bestselling book,
-The Cuckoo's Egg, in 1989, had established the credibility of `hacking'
-as a possible threat to national security. The United States Secret Service
-doesn't mess around when it suspects a possible action by a foreign
-intelligence apparat.
-
-The Secret Service scrambler-phones and secured lines put
-a tremendous kink in law enforcement's ability to operate freely;
-to get the word out, cooperate, prevent misunderstandings.
-Nevertheless, 1989 scarcely seemed the time for half-measures.
-If the police and Secret Service themselves were not operationally secure,
-then how could they reasonably demand measures of security from
-private enterprise? At least, the inconvenience made people aware
-of the seriousness of the threat.
-
-If there was a final spur needed to get the police off the dime,
-it came in the realization that the emergency 911 system was vulnerable.
-The 911 system has its own specialized software, but it is run on the same
-digital switching systems as the rest of the telephone network.
-911 is not physically different from normal telephony. But it is
-certainly culturally different, because this is the area of
-telephonic cyberspace reserved for the police and emergency services.
-
-Your average policeman may not know much about hackers or phone-phreaks.
-Computer people are weird; even computer COPS are rather weird;
-the stuff they do is hard to figure out. But a threat to the 911 system
-is anything but an abstract threat. If the 911 system goes, people can die.
-
-Imagine being in a car-wreck, staggering to a phone-booth,
-punching 911 and hearing "Tina" pick up the phone-sex line
-somewhere in New York! The situation's no longer comical, somehow.
-
-And was it possible? No question. Hackers had attacked 911
-systems before. Phreaks can max-out 911 systems just by siccing
-a bunch of computer-modems on them in tandem, dialling them over
-and over until they clog. That's very crude and low-tech,
-but it's still a serious business.
-
-The time had come for action. It was time to take stern measures
-with the underground. It was time to start picking up the dropped threads,
-the loose edges, the bits of braggadocio here and there; it was time to get
-on the stick and start putting serious casework together. Hackers weren't
-"invisible." They THOUGHT they were invisible; but the truth was,
-they had just been tolerated too long.
-
-Under sustained police attention in the summer of '89, the digital
-underground began to unravel as never before.
-
-The first big break in the case came very early on: July 1989,
-the following month. The perpetrator of the "Tina" switch was caught,
-and confessed. His name was "Fry Guy," a 16-year-old in Indiana.
-Fry Guy had been a very wicked young man.
-
-Fry Guy had earned his handle from a stunt involving French fries.
-Fry Guy had filched the log-in of a local MacDonald's manager
-and had logged-on to the MacDonald's mainframe on the Sprint
-Telenet system. Posing as the manager, Fry Guy had altered
-MacDonald's records, and given some teenage hamburger-flipping
-friends of his, generous raises. He had not been caught.
-
-Emboldened by success, Fry Guy moved on to credit-card abuse.
-Fry Guy was quite an accomplished talker; with a gift for
-"social engineering." If you can do "social engineering"
---fast-talk, fake-outs, impersonation, conning, scamming--
-then card abuse comes easy. (Getting away with it in
-the long run is another question).
-
-Fry Guy had run across "Urvile" of the Legion of Doom
-on the ALTOS Chat board in Bonn, Germany. ALTOS Chat
-was a sophisticated board, accessible through globe-spanning
-computer networks like BITnet, Tymnet, and Telenet.
-ALTOS was much frequented by members of Germany's
-Chaos Computer Club. Two Chaos hackers who hung out on ALTOS,
-"Jaeger" and "Pengo," had been the central villains of
-Clifford Stoll's Cuckoo's Egg case: consorting in East Berlin
-with a spymaster from the KGB, and breaking into American
-computers for hire, through the Internet.
-
-When LoD members learned the story of Jaeger's depredations
-from Stoll's book, they were rather less than impressed,
-technically speaking. On LoD's own favorite board of the moment,
-"Black Ice," LoD members bragged that they themselves could have done
-all the Chaos break-ins in a week flat! Nevertheless, LoD were grudgingly
-impressed by the Chaos rep, the sheer hairy-eyed daring of hash-smoking
-anarchist hackers who had rubbed shoulders with the fearsome big-boys
-of international Communist espionage. LoD members sometimes traded
-bits of knowledge with friendly German hackers on ALTOS--phone numbers
-for vulnerable VAX/VMS computers in Georgia, for instance.
-Dutch and British phone phreaks, and the Australian clique of
-"Phoenix," "Nom," and "Electron," were ALTOS regulars, too.
-In underground circles, to hang out on ALTOS was considered
-the sign of an elite dude, a sophisticated hacker of the
-international digital jet-set.
-
-Fry Guy quickly learned how to raid information from credit-card
-consumer-reporting agencies. He had over a hundred stolen credit-card
-numbers in his notebooks, and upwards of a thousand swiped long-distance
-access codes. He knew how to get onto Altos, and how to talk the talk of
-the underground convincingly. He now wheedled knowledge of switching-station
-tricks from Urvile on the ALTOS system.
-
-Combining these two forms of knowledge enabled Fry Guy to bootstrap
-his way up to a new form of wire-fraud. First, he'd snitched credit card
-numbers from credit-company computers. The data he copied included names,
-addresses and phone numbers of the random card-holders.
-
-Then Fry Guy, impersonating a card-holder, called up Western Union
-and asked for a cash advance on "his" credit card. Western Union,
-as a security guarantee, would call the customer back, at home,
-to verify the transaction.
-
-But, just as he had switched the Florida probation office to "Tina"
-in New York, Fry Guy switched the card-holder's number to a local pay-phone.
-There he would lurk in wait, muddying his trail by routing and re-routing
-the call, through switches as far away as Canada. When the call came through,
-he would boldly "social-engineer," or con, the Western Union people, pretending
-to be the legitimate card-holder. Since he'd answered the proper phone number,
-the deception was not very hard. Western Union's money was then shipped to
-a confederate of Fry Guy's in his home town in Indiana.
-
-Fry Guy and his cohort, using LoD techniques, stole six thousand dollars
-from Western Union between December 1988 and July 1989. They also dabbled
-in ordering delivery of stolen goods through card-fraud. Fry Guy
-was intoxicated with success. The sixteen-year-old fantasized wildly
-to hacker rivals, boasting that he'd used rip-off money to hire himself
-a big limousine, and had driven out-of-state with a groupie from
-his favorite heavy-metal band, Motley Crue.
-
-Armed with knowledge, power, and a gratifying stream of free money,
-Fry Guy now took it upon himself to call local representatives
-of Indiana Bell security, to brag, boast, strut, and utter
-tormenting warnings that his powerful friends in the notorious
-Legion of Doom could crash the national telephone network.
-Fry Guy even named a date for the scheme: the Fourth of July,
-a national holiday.
-
-This egregious example of the begging-for-arrest syndrome was shortly
-followed by Fry Guy's arrest. After the Indiana telephone company figured
-out who he was, the Secret Service had DNRs--Dialed Number Recorders--
-installed on his home phone lines. These devices are not taps, and can't
-record the substance of phone calls, but they do record the phone numbers
-of all calls going in and out. Tracing these numbers showed Fry Guy's
-long-distance code fraud, his extensive ties to pirate bulletin boards,
-and numerous personal calls to his LoD friends in Atlanta. By July 11,
-1989, Prophet, Urvile and Leftist also had Secret Service DNR
-"pen registers" installed on their own lines.
-
-The Secret Service showed up in force at Fry Guy's house on July 22, 1989,
-to the horror of his unsuspecting parents. The raiders were led by
-a special agent from the Secret Service's Indianapolis office.
-However, the raiders were accompanied and advised by Timothy M. Foley
-of the Secret Service's Chicago office (a gentleman about whom
-we will soon be hearing a great deal).
-
-Following federal computer-crime techniques that had been standard
-since the early 1980s, the Secret Service searched the house thoroughly,
-and seized all of Fry Guy's electronic equipment and notebooks.
-All Fry Guy's equipment went out the door in the custody of the
-Secret Service, which put a swift end to his depredations.
-
-The USSS interrogated Fry Guy at length. His case was put in the charge
-of Deborah Daniels, the federal US Attorney for the Southern District
-of Indiana. Fry Guy was charged with eleven counts of computer fraud,
-unauthorized computer access, and wire fraud. The evidence was thorough
-and irrefutable. For his part, Fry Guy blamed his corruption on the
-Legion of Doom and offered to testify against them.
-
-Fry Guy insisted that the Legion intended to crash the phone system
-on a national holiday. And when AT&T crashed on Martin Luther King Day,
-1990, this lent a credence to his claim that genuinely alarmed telco
-security and the Secret Service.
-
-Fry Guy eventually pled guilty on May 31, 1990. On September 14,
-he was sentenced to forty-four months' probation and four hundred hours'
-community service. He could have had it much worse; but it made sense
-to prosecutors to take it easy on this teenage minor, while zeroing
-in on the notorious kingpins of the Legion of Doom.
-
-But the case against LoD had nagging flaws. Despite the best effort
-of investigators, it was impossible to prove that the Legion had crashed
-the phone system on January 15, because they, in fact, hadn't done so.
-The investigations of 1989 did show that certain members of
-the Legion of Doom had achieved unprecedented power over the telco
-switching stations, and that they were in active conspiracy
-to obtain more power yet. Investigators were privately convinced
-that the Legion of Doom intended to do awful things with this knowledge,
-but mere evil intent was not enough to put them in jail.
-
-And although the Atlanta Three--Prophet, Leftist, and especially Urvile--
-had taught Fry Guy plenty, they were not themselves credit-card fraudsters.
-The only thing they'd "stolen" was long-distance service--and since they'd
-done much of that through phone-switch manipulation, there was no easy way
-to judge how much they'd "stolen," or whether this practice was even "theft"
-of any easily recognizable kind.
-
-Fry Guy's theft of long-distance codes had cost the phone companies plenty.
-The theft of long-distance service may be a fairly theoretical "loss,"
-but it costs genuine money and genuine time to delete all those stolen codes,
-and to re-issue new codes to the innocent owners of those corrupted codes.
-The owners of the codes themselves are victimized, and lose time and money
-and peace of mind in the hassle. And then there were the credit-card victims
-to deal with, too, and Western Union. When it came to rip-off, Fry Guy was
-far more of a thief than LoD. It was only when it came to actual computer
-expertise that Fry Guy was small potatoes.
-
-The Atlanta Legion thought most "rules" of cyberspace were for rodents
-and losers, but they DID have rules. THEY NEVER CRASHED ANYTHING,
-AND THEY NEVER TOOK MONEY. These were rough rules-of-thumb, and
-rather dubious principles when it comes to the ethical subtleties
-of cyberspace, but they enabled the Atlanta Three to operate with
-a relatively clear conscience (though never with peace of mind).
-
-If you didn't hack for money, if you weren't robbing people of actual funds
---money in the bank, that is-- then nobody REALLY got hurt, in LoD's opinion.
-"Theft of service" was a bogus issue, and "intellectual property" was
-a bad joke. But LoD had only elitist contempt for rip-off artists,
-"leechers," thieves. They considered themselves clean. In their opinion,
-if you didn't smash-up or crash any systems --(well, not on purpose, anyhow--
-accidents can happen, just ask Robert Morris) then it was very unfair
-to call you a "vandal" or a "cracker." When you were hanging out on-line
-with your "pals" in telco security, you could face them down from the higher
-plane of hacker morality. And you could mock the police from the supercilious
-heights of your hacker's quest for pure knowledge.
-
-But from the point of view of law enforcement and telco security, however,
-Fry Guy was not really dangerous. The Atlanta Three WERE dangerous.
-It wasn't the crimes they were committing, but the DANGER,
-the potential hazard, the sheer TECHNICAL POWER LoD had accumulated,
-that had made the situation untenable. Fry Guy was not LoD.
-He'd never laid eyes on anyone in LoD; his only contacts with them
-had been electronic. Core members of the Legion of Doom tended to meet
-physically for conventions every year or so, to get drunk, give each other
-the hacker high-sign, send out for pizza and ravage hotel suites.
-Fry Guy had never done any of this. Deborah Daniels assessed Fry Guy
-accurately as "an LoD wannabe."
-
-Nevertheless Fry Guy's crimes would be directly attributed to LoD
-in much future police propaganda. LoD would be described as
-"a closely knit group" involved in "numerous illegal activities"
-including "stealing and modifying individual credit histories,"
-and "fraudulently obtaining money and property." Fry Guy did this,
-but the Atlanta Three didn't; they simply weren't into theft,
-but rather intrusion. This caused a strange kink in
-the prosecution's strategy. LoD were accused of
-"disseminating information about attacking computers
-to other computer hackers in an effort to shift the focus
-of law enforcement to those other hackers and away from the Legion of Doom."
-
-This last accusation (taken directly from a press release by the Chicago
-Computer Fraud and Abuse Task Force) sounds particularly far-fetched.
-One might conclude at this point that investigators would have been
-well-advised to go ahead and "shift their focus" from the "Legion of Doom."
-Maybe they SHOULD concentrate on "those other hackers"--the ones who were
-actually stealing money and physical objects.
-
-But the Hacker Crackdown of 1990 was not a simple policing action.
-It wasn't meant just to walk the beat in cyberspace--it was a CRACKDOWN,
-a deliberate attempt to nail the core of the operation, to send a dire
-and potent message that would settle the hash of the digital underground
-for good.
-
-By this reasoning, Fry Guy wasn't much more than the electronic equivalent
-of a cheap streetcorner dope dealer. As long as the masterminds of LoD were
-still flagrantly operating, pushing their mountains of illicit knowledge
-right and left, and whipping up enthusiasm for blatant lawbreaking,
-then there would be an INFINITE SUPPLY of Fry Guys.
-
-Because LoD were flagrant, they had left trails everywhere,
-to be picked up by law enforcement in New York, Indiana,
-Florida, Texas, Arizona, Missouri, even Australia.
-But 1990's war on the Legion of Doom was led out of Illinois,
-by the Chicago Computer Fraud and Abuse Task Force.
-
-#
-
-The Computer Fraud and Abuse Task Force, led by federal prosecutor
-William J. Cook, had started in 1987 and had swiftly become one
-of the most aggressive local "dedicated computer-crime units."
-Chicago was a natural home for such a group. The world's first
-computer bulletin-board system had been invented in Illinois.
-The state of Illinois had some of the nation's first and sternest
-computer crime laws. Illinois State Police were markedly alert
-to the possibilities of white-collar crime and electronic fraud.
-
-And William J. Cook in particular was a rising star in
-electronic crime-busting. He and his fellow federal prosecutors
-at the U.S. Attorney's office in Chicago had a tight relation
-with the Secret Service, especially go-getting Chicago-based agent
-Timothy Foley. While Cook and his Department of Justice colleagues
-plotted strategy, Foley was their man on the street.
-
-Throughout the 1980s, the federal government had given prosecutors
-an armory of new, untried legal tools against computer crime.
-Cook and his colleagues were pioneers in the use of these new statutes
-in the real-life cut-and-thrust of the federal courtroom.
-
-On October 2, 1986, the US Senate had passed the
-"Computer Fraud and Abuse Act" unanimously, but there
-were pitifully few convictions under this statute.
-Cook's group took their name from this statute,
-since they were determined to transform this powerful but
-rather theoretical Act of Congress into a real-life engine
-of legal destruction against computer fraudsters and scofflaws.
-
-It was not a question of merely discovering crimes,
-investigating them, and then trying and punishing their
-perpetrators. The Chicago unit, like most everyone else
-in the business, already KNEW who the bad guys were:
-the Legion of Doom and the writers and editors of Phrack.
-The task at hand was to find some legal means of putting
-these characters away.
-
-This approach might seem a bit dubious, to someone not
-acquainted with the gritty realities of prosecutorial work.
-But prosecutors don't put people in jail for crimes
-they have committed; they put people in jail for crimes
-they have committed THAT CAN BE PROVED IN COURT.
-Chicago federal police put Al Capone in prison
-for income-tax fraud. Chicago is a big town,
-with a rough-and-ready bare-knuckle tradition
-on both sides of the law.
-
-Fry Guy had broken the case wide open and alerted telco security
-to the scope of the problem. But Fry Guy's crimes would not
-put the Atlanta Three behind bars--much less the wacko underground
-journalists of Phrack. So on July 22, 1989, the same day that
-Fry Guy was raided in Indiana, the Secret Service descended upon
-the Atlanta Three.
-
-This was likely inevitable. By the summer of 1989, law enforcement
-were closing in on the Atlanta Three from at least six directions at once.
-First, there were the leads from Fry Guy, which had led to the DNR registers
-being installed on the lines of the Atlanta Three. The DNR evidence alone
-would have finished them off, sooner or later.
-
-But second, the Atlanta lads were already well-known to Control-C
-and his telco security sponsors. LoD's contacts with telco security
-had made them overconfident and even more boastful than usual;
-they felt that they had powerful friends in high places,
-and that they were being openly tolerated by telco security.
-But BellSouth's Intrusion Task Force were hot on the trail of LoD
-and sparing no effort or expense.
-
-The Atlanta Three had also been identified by name and listed
-on the extensive anti-hacker files maintained, and retailed for pay,
-by private security operative John Maxfield of Detroit.
-Maxfield, who had extensive ties to telco security
-and many informants in the underground, was a bete noire
-of the Phrack crowd, and the dislike was mutual.
-
-
-The Atlanta Three themselves had written articles for Phrack.
-This boastful act could not possibly escape telco and law enforcement
-attention.
-
-"Knightmare," a high-school age hacker from Arizona,
-was a close friend and disciple of Atlanta LoD,
-but he had been nabbed by the formidable Arizona
-Organized Crime and Racketeering Unit. Knightmare was
-on some of LoD's favorite boards--"Black Ice" in particular--
-and was privy to their secrets. And to have Gail Thackeray,
-the Assistant Attorney General of Arizona, on one's trail
-was a dreadful peril for any hacker.
-
-And perhaps worst of all, Prophet had committed a major blunder
-by passing an illicitly copied BellSouth computer-file to Knight Lightning,
-who had published it in Phrack. This, as we will see, was an act of dire
-consequence for almost everyone concerned.
-
-On July 22, 1989, the Secret Service showed up at the Leftist's house,
-where he lived with his parents. A massive squad of some twenty officers
-surrounded the building: Secret Service, federal marshals, local police,
-possibly BellSouth telco security; it was hard to tell in the crush.
-Leftist's dad, at work in his basement office, first noticed
-a muscular stranger in plain clothes crashing through the
-back yard with a drawn pistol. As more strangers poured
-into the house, Leftist's dad naturally assumed there was
-an armed robbery in progress.
-
-Like most hacker parents, Leftist's mom and dad had only the vaguest
-notions of what their son had been up to all this time. Leftist had
-a day-job repairing computer hardware. His obsession with computers
-seemed a bit odd, but harmless enough, and likely to produce a well-
-paying career. The sudden, overwhelming raid left Leftist's
-parents traumatized.
-
-The Leftist himself had been out after work with his co-workers,
-surrounding a couple of pitchers of margaritas. As he came trucking
-on tequila-numbed feet up the pavement, toting a bag full of floppy-disks,
-he noticed a large number of unmarked cars parked in his driveway.
-All the cars sported tiny microwave antennas.
-
-The Secret Service had knocked the front door off its hinges,
-almost flattening his mom.
-
-Inside, Leftist was greeted by Special Agent James Cool
-of the US Secret Service, Atlanta office. Leftist was flabbergasted.
-He'd never met a Secret Service agent before. He could not imagine
-that he'd ever done anything worthy of federal attention.
-He'd always figured that if his activities became intolerable,
-one of his contacts in telco security would give him a private
-phone-call and tell him to knock it off.
-
-But now Leftist was pat-searched for weapons by grim professionals,
-and his bag of floppies was quickly seized. He and his parents were
-all shepherded into separate rooms and grilled at length as a score
-of officers scoured their home for anything electronic.
-
-Leftist was horrified as his treasured IBM AT personal computer
-with its forty-meg hard disk, and his recently purchased 80386 IBM-clone
-with a whopping hundred-meg hard disk, both went swiftly out the door
-in Secret Service custody. They also seized all his disks, all his notebooks,
-and a tremendous booty in dogeared telco documents that Leftist had snitched
-out of trash dumpsters.
-
-Leftist figured the whole thing for a big misunderstanding.
-He'd never been into MILITARY computers. He wasn't a SPY or a COMMUNIST.
-He was just a good ol' Georgia hacker, and now he just wanted all these
-people out of the house. But it seemed they wouldn't go until he made
-some kind of statement.
-
-And so, he levelled with them.
-
-And that, Leftist said later from his federal prison camp in Talladega,
-Alabama, was a big mistake. The Atlanta area was unique,
-in that it had three members of the Legion of Doom who actually
-occupied more or less the same physical locality. Unlike the rest
-of LoD, who tended to associate by phone and computer,
-Atlanta LoD actually WERE "tightly knit." It was no real
-surprise that the Secret Service agents apprehending Urvile
-at the computer-labs at Georgia Tech, would discover Prophet
-with him as well.
-
-Urvile, a 21-year-old Georgia Tech student in polymer chemistry,
-posed quite a puzzling case for law enforcement. Urvile--also known
-as "Necron 99," as well as other handles, for he tended to change his
-cover-alias about once a month--was both an accomplished hacker
-and a fanatic simulation-gamer.
-
-Simulation games are an unusual hobby; but then hackers are unusual people,
-and their favorite pastimes tend to be somewhat out of the ordinary.
-The best-known American simulation game is probably "Dungeons & Dragons,"
-a multi-player parlor entertainment played with paper, maps, pencils,
-statistical tables and a variety of oddly-shaped dice. Players pretend
-to be heroic characters exploring a wholly-invented fantasy world.
-The fantasy worlds of simulation gaming are commonly pseudo-medieval,
-involving swords and sorcery--spell-casting wizards, knights in armor,
-unicorns and dragons, demons and goblins.
-
-Urvile and his fellow gamers preferred their fantasies highly technological.
-They made use of a game known as "G.U.R.P.S.," the "Generic Universal Role
-Playing System," published by a company called Steve Jackson Games (SJG).
-
-"G.U.R.P.S." served as a framework for creating a wide variety of artificial
-fantasy worlds. Steve Jackson Games published a smorgasboard of books,
-full of detailed information and gaming hints, which were used to flesh-out
-many different fantastic backgrounds for the basic GURPS framework.
-Urvile made extensive use of two SJG books called GURPS High-Tech
-and GURPS Special Ops.
-
-In the artificial fantasy-world of GURPS Special Ops,
-players entered a modern fantasy of intrigue and international espionage.
-On beginning the game, players started small and powerless,
-perhaps as minor-league CIA agents or penny-ante arms dealers.
-But as players persisted through a series of game sessions
-(game sessions generally lasted for hours, over long,
-elaborate campaigns that might be pursued for months on end)
-then they would achieve new skills, new knowledge, new power.
-They would acquire and hone new abilities, such as marksmanship,
-karate, wiretapping, or Watergate burglary. They could also win
-various kinds of imaginary booty, like Berettas, or martini shakers,
-or fast cars with ejection seats and machine-guns under the headlights.
-
-As might be imagined from the complexity of these games,
-Urvile's gaming notes were very detailed and extensive.
-Urvile was a "dungeon-master," inventing scenarios
-for his fellow gamers, giant simulated adventure-puzzles
-for his friends to unravel. Urvile's game notes covered
-dozens of pages with all sorts of exotic lunacy, all about
-ninja raids on Libya and break-ins on encrypted Red Chinese supercomputers.
-His notes were written on scrap-paper and kept in loose-leaf binders.
-
-The handiest scrap paper around Urvile's college digs were the many pounds of
-BellSouth printouts and documents that he had snitched out of telco dumpsters.
-His notes were written on the back of misappropriated telco property.
-Worse yet, the gaming notes were chaotically interspersed with Urvile's
-hand-scrawled records involving ACTUAL COMPUTER INTRUSIONS that he
-had committed.
-
-Not only was it next to impossible to tell Urvile's fantasy game-notes
-from cyberspace "reality," but Urvile himself barely made this distinction.
-It's no exaggeration to say that to Urvile it was ALL a game. Urvile was
-very bright, highly imaginative, and quite careless of other people's notions
-of propriety. His connection to "reality" was not something to which he paid
-a great deal of attention.
-
-Hacking was a game for Urvile. It was an amusement he was carrying out,
-it was something he was doing for fun. And Urvile was an obsessive young man.
-He could no more stop hacking than he could stop in the middle of
-a jigsaw puzzle, or stop in the middle of reading a Stephen Donaldson
-fantasy trilogy. (The name "Urvile" came from a best-selling Donaldson novel.)
-
-Urvile's airy, bulletproof attitude seriously annoyed his interrogators.
-First of all, he didn't consider that he'd done anything wrong.
-There was scarcely a shred of honest remorse in him. On the contrary,
-he seemed privately convinced that his police interrogators were operating
-in a demented fantasy-world all their own. Urvile was too polite
-and well-behaved to say this straight-out, but his reactions were askew
-and disquieting.
-
-For instance, there was the business about LoD's ability
-to monitor phone-calls to the police and Secret Service.
-Urvile agreed that this was quite possible, and posed
-no big problem for LoD. In fact, he and his friends
-had kicked the idea around on the "Black Ice" board,
-much as they had discussed many other nifty notions,
-such as building personal flame-throwers and jury-rigging
-fistfulls of blasting-caps. They had hundreds of dial-up numbers
-for government agencies that they'd gotten through scanning Atlanta phones,
-or had pulled from raided VAX/VMS mainframe computers.
-
-Basically, they'd never gotten around to listening in on the cops
-because the idea wasn't interesting enough to bother with.
-Besides, if they'd been monitoring Secret Service phone calls,
-obviously they'd never have been caught in the first place. Right?
-
-The Secret Service was less than satisfied with this rapier-like hacker logic.
-
-Then there was the issue of crashing the phone system. No problem,
-Urvile admitted sunnily. Atlanta LoD could have shut down phone service
-all over Atlanta any time they liked. EVEN THE 911 SERVICE?
-Nothing special about that, Urvile explained patiently.
-Bring the switch to its knees, with say the UNIX "makedir" bug,
-and 911 goes down too as a matter of course. The 911 system
-wasn't very interesting, frankly. It might be tremendously
-interesting to cops (for odd reasons of their own), but as
-technical challenges went, the 911 service was yawnsville.
-
-So of course the Atlanta Three could crash service.
-They probably could have crashed service all over
-BellSouth territory, if they'd worked at it for a while.
-But Atlanta LoD weren't crashers. Only losers and rodents
-were crashers. LoD were ELITE.
-
-Urvile was privately convinced that sheer technical
-expertise could win him free of any kind of problem.
-As far as he was concerned, elite status in the digital
-underground had placed him permanently beyond the intellectual
-grasp of cops and straights. Urvile had a lot to learn.
-
-Of the three LoD stalwarts, Prophet was in the most direct trouble.
-Prophet was a UNIX programming expert who burrowed in and out
-of the Internet as a matter of course. He'd started his hacking
-career at around age 14, meddling with a UNIX mainframe system
-at the University of North Carolina.
-
-Prophet himself had written the handy Legion of Doom
-file "UNIX Use and Security From the Ground Up."
-UNIX (pronounced "you-nicks") is a powerful,
-flexible computer operating-system, for multi-user,
-multi-tasking computers. In 1969, when UNIX was created
-in Bell Labs, such computers were exclusive to large
-corporations and universities, but today UNIX is run
-on thousands of powerful home machines. UNIX was
-particularly well-suited to telecommunications programming,
-and had become a standard in the field. Naturally, UNIX
-also became a standard for the elite hacker and phone phreak.
-Lately, Prophet had not been so active as Leftist and Urvile,
-but Prophet was a recidivist. In 1986, when he was eighteen,
-Prophet had been convicted of "unauthorized access
-to a computer network" in North Carolina. He'd been
-discovered breaking into the Southern Bell Data Network,
-a UNIX-based internal telco network supposedly closed to the public.
-He'd gotten a typical hacker sentence: six months suspended,
-120 hours community service, and three years' probation.
-
-After that humiliating bust, Prophet had gotten rid of most of his
-tonnage of illicit phreak and hacker data, and had tried to go straight.
-He was, after all, still on probation. But by the autumn of 1988,
-the temptations of cyberspace had proved too much for young Prophet,
-and he was shoulder-to-shoulder with Urvile and Leftist into some
-of the hairiest systems around.
-
-In early September 1988, he'd broken into BellSouth's centralized
-automation system, AIMSX or "Advanced Information Management System."
-AIMSX was an internal business network for BellSouth, where telco
-employees stored electronic mail, databases, memos, and calendars,
-and did text processing. Since AIMSX did not have public dial-ups,
-it was considered utterly invisible to the public, and was not well-secured
---it didn't even require passwords. Prophet abused an account known
-as "waa1," the personal account of an unsuspecting telco employee.
-Disguised as the owner of waa1, Prophet made about ten visits to AIMSX.
-
-Prophet did not damage or delete anything in the system.
-His presence in AIMSX was harmless and almost invisible.
-But he could not rest content with that.
-
-One particular piece of processed text on AIMSX was a telco document
-known as "Bell South Standard Practice 660-225-104SV Control Office
-Administration of Enhanced 911 Services for Special Services
-and Major Account Centers dated March 1988."
-
-Prophet had not been looking for this document. It was merely one
-among hundreds of similar documents with impenetrable titles.
-However, having blundered over it in the course of his illicit
-wanderings through AIMSX, he decided to take it with him as a trophy.
-It might prove very useful in some future boasting, bragging,
-and strutting session. So, some time in September 1988,
-Prophet ordered the AIMSX mainframe computer to copy this document
-(henceforth called simply called "the E911 Document") and to transfer
-this copy to his home computer.
-
-No one noticed that Prophet had done this. He had "stolen"
-the E911 Document in some sense, but notions of property
-in cyberspace can be tricky. BellSouth noticed nothing wrong,
-because BellSouth still had their original copy. They had not
-been "robbed" of the document itself. Many people were supposed
-to copy this document--specifically, people who worked for the
-nineteen BellSouth "special services and major account centers,"
-scattered throughout the Southeastern United States. That was
-what it was for, why it was present on a computer network
-in the first place: so that it could be copied and read--
-by telco employees. But now the data had been copied
-by someone who wasn't supposed to look at it.
-
-Prophet now had his trophy. But he further decided to store
-yet another copy of the E911 Document on another person's computer.
-This unwitting person was a computer enthusiast named Richard Andrews
-who lived near Joliet, Illinois. Richard Andrews was a UNIX programmer
-by trade, and ran a powerful UNIX board called "Jolnet," in the basement
-of his house.
-
-Prophet, using the handle "Robert Johnson," had obtained an account
-on Richard Andrews' computer. And there he stashed the E911 Document,
-by storing it in his own private section of Andrews' computer.
-
-Why did Prophet do this? If Prophet had eliminated the E911 Document
-from his own computer, and kept it hundreds of miles away, on another machine, under an
-alias, then he might have been fairly safe from discovery and prosecution--
-although his sneaky action had certainly put the unsuspecting Richard Andrews
-at risk.
-
-But, like most hackers, Prophet was a pack-rat for illicit data.
-When it came to the crunch, he could not bear to part from his trophy.
-When Prophet's place in Decatur, Georgia was raided in July 1989,
-there was the E911 Document, a smoking gun. And there was Prophet
-in the hands of the Secret Service, doing his best to "explain."
-
-Our story now takes us away from the Atlanta Three and their raids
-of the Summer of 1989. We must leave Atlanta Three "cooperating fully"
-with their numerous investigators. And all three of them did cooperate,
-as their Sentencing Memorandum from the US District Court of the
-Northern Division of Georgia explained--just before all three of them
-were sentenced to various federal prisons in November 1990.
-
-We must now catch up on the other aspects of the war on the Legion of Doom.
-The war on the Legion was a war on a network--in fact, a network of three
-networks, which intertwined and interrelated in a complex fashion.
-The Legion itself, with Atlanta LoD, and their hanger-on Fry Guy,
-were the first network. The second network was Phrack magazine,
-with its editors and contributors.
-
-The third network involved the electronic circle around a hacker
-known as "Terminus."
-
-The war against these hacker networks was carried out by
-a law enforcement network. Atlanta LoD and Fry Guy
-were pursued by USSS agents and federal prosecutors in Atlanta,
-Indiana, and Chicago. "Terminus" found himself pursued by USSS
-and federal prosecutors from Baltimore and Chicago. And the war
-against Phrack was almost entirely a Chicago operation.
-
-The investigation of Terminus involved a great deal of energy,
-mostly from the Chicago Task Force, but it was to be the least-known
-and least-publicized of the Crackdown operations. Terminus, who lived
-in Maryland, was a UNIX programmer and consultant, fairly well-known
-(under his given name) in the UNIX community, as an acknowledged expert
-on AT&T minicomputers. Terminus idolized AT&T, especially Bellcore,
-and longed for public recognition as a UNIX expert; his highest ambition
-was to work for Bell Labs.
-
-But Terminus had odd friends and a spotted history.
-Terminus had once been the subject of an admiring interview
-in Phrack (Volume II, Issue 14, Phile 2--dated May 1987).
-In this article, Phrack co-editor Taran King described
-"Terminus" as an electronics engineer, 5'9", brown-haired,
-born in 1959--at 28 years old, quite mature for a hacker.
-
-Terminus had once been sysop of a phreak/hack underground board
-called "MetroNet," which ran on an Apple II. Later he'd replaced
-"MetroNet" with an underground board called "MegaNet,"
-specializing in IBMs. In his younger days, Terminus had written
-one of the very first and most elegant code-scanning programs
-for the IBM-PC. This program had been widely distributed
-in the underground. Uncounted legions of PC-owning phreaks and
-hackers had used Terminus's scanner program to rip-off telco codes.
-This feat had not escaped the attention of telco security;
-it hardly could, since Terminus's earlier handle, "Terminal Technician,"
-was proudly written right on the program.
-
-When he became a full-time computer professional
-(specializing in telecommunications programming),
-he adopted the handle Terminus, meant to indicate that he
-had "reached the final point of being a proficient hacker."
-He'd moved up to the UNIX-based "Netsys" board on an AT&T computer,
-with four phone lines and an impressive 240 megs of storage.
-"Netsys" carried complete issues of Phrack, and Terminus was
-quite friendly with its publishers, Taran King and Knight Lightning.
-
-In the early 1980s, Terminus had been a regular on Plovernet,
-Pirate-80, Sherwood Forest and Shadowland, all well-known pirate boards,
-all heavily frequented by the Legion of Doom. As it happened, Terminus
-was never officially "in LoD," because he'd never been given the official
-LoD high-sign and back-slap by Legion maven Lex Luthor. Terminus had
-never physically met anyone from LoD. But that scarcely mattered much--
-the Atlanta Three themselves had never been officially vetted by Lex, either.
-
-As far as law enforcement was concerned, the issues were clear.
-Terminus was a full-time, adult computer professional
-with particular skills at AT&T software and hardware--
-but Terminus reeked of the Legion of Doom and the underground.
-
-On February 1, 1990--half a month after the Martin Luther King Day Crash--
-USSS agents Tim Foley from Chicago, and Jack Lewis from the Baltimore office,
-accompanied by AT&T security officer Jerry Dalton, travelled to Middle Town,
-Maryland. There they grilled Terminus in his home (to the stark terror of
-his wife and small children), and, in their customary fashion, hauled his
-computers out the door.
-
-The Netsys machine proved to contain a plethora of arcane UNIX software--
-proprietary source code formally owned by AT&T. Software such as:
-UNIX System Five Release 3.2; UNIX SV Release 3.1; UUCP communications
-software; KORN SHELL; RFS; IWB; WWB; DWB; the C++ programming language;
-PMON; TOOL CHEST; QUEST; DACT, and S FIND.
-
-In the long-established piratical tradition of the underground,
-Terminus had been trading this illicitly-copied software with
-a small circle of fellow UNIX programmers. Very unwisely,
-he had stored seven years of his electronic mail on his Netsys machine,
-which documented all the friendly arrangements he had made with
-his various colleagues.
-
-Terminus had not crashed the AT&T phone system on January 15.
-He was, however, blithely running a not-for-profit AT&T
-software-piracy ring. This was not an activity AT&T found amusing.
-AT&T security officer Jerry Dalton valued this "stolen" property
-at over three hundred thousand dollars.
-
-AT&T's entry into the tussle of free enterprise had been complicated
-by the new, vague groundrules of the information economy.
-Until the break-up of Ma Bell, AT&T was forbidden to sell
-computer hardware or software. Ma Bell was the phone company;
-Ma Bell was not allowed to use the enormous revenue from
-telephone utilities, in order to finance any entry into
-the computer market.
-
-AT&T nevertheless invented the UNIX operating system.
-And somehow AT&T managed to make UNIX a minor source of income.
-Weirdly, UNIX was not sold as computer software,
-but actually retailed under an obscure regulatory
-exemption allowing sales of surplus equipment and scrap.
-Any bolder attempt to promote or retail UNIX would have
-aroused angry legal opposition from computer companies.
-Instead, UNIX was licensed to universities, at modest rates,
-where the acids of academic freedom ate away steadily at AT&T's
-proprietary rights.
-
-Come the breakup, AT&T recognized that UNIX was a potential gold-mine.
-By now, large chunks of UNIX code had been created that were not AT&T's,
-and were being sold by others. An entire rival UNIX-based operating system
-had arisen in Berkeley, California (one of the world's great founts of
-ideological hackerdom). Today, "hackers" commonly consider "Berkeley UNIX"
-to be technically superior to AT&T's "System V UNIX," but AT&T has not
-allowed mere technical elegance to intrude on the real-world business
-of marketing proprietary software. AT&T has made its own code deliberately
-incompatible with other folks' UNIX, and has written code that it can prove
-is copyrightable, even if that code happens to be somewhat awkward--"kludgey."
-AT&T UNIX user licenses are serious business agreements, replete with very
-clear copyright statements and non-disclosure clauses.
-
-AT&T has not exactly kept the UNIX cat in the bag,
-but it kept a grip on its scruff with some success.
-By the rampant, explosive standards of software piracy,
-AT&T UNIX source code is heavily copyrighted, well-guarded,
-well-licensed. UNIX was traditionally run only on
-mainframe machines, owned by large groups of suit-and-tie
-professionals, rather than on bedroom machines where
-people can get up to easy mischief.
-
-And AT&T UNIX source code is serious high-level programming.
-The number of skilled UNIX programmers with any actual motive
-to swipe UNIX source code is small. It's tiny, compared to
-the tens of thousands prepared to rip-off, say, entertaining
-PC games like "Leisure Suit Larry."
-
-But by 1989, the warez-d00d underground, in the persons of Terminus
-and his friends, was gnawing at AT&T UNIX. And the property in question
-was not sold for twenty bucks over the counter at the local branch of
-Babbage's or Egghead's; this was massive, sophisticated, multi-line,
-multi-author corporate code worth tens of thousands of dollars.
-
-It must be recognized at this point that Terminus's purported ring of UNIX
-software pirates had not actually made any money from their suspected crimes.
-The $300,000 dollar figure bandied about for the contents of Terminus's
-computer did not mean that Terminus was in actual illicit possession
-of three hundred thousand of AT&T's dollars. Terminus was shipping
-software back and forth, privately, person to person, for free.
-He was not making a commercial business of piracy. He hadn't
-asked for money; he didn't take money. He lived quite modestly.
-
-AT&T employees--as well as freelance UNIX consultants, like Terminus--
-commonly worked with "proprietary" AT&T software, both in the office
-and at home on their private machines. AT&T rarely sent security officers
-out to comb the hard disks of its consultants. Cheap freelance UNIX
-contractors were quite useful to AT&T; they didn't have health insurance
-or retirement programs, much less union membership in the Communication
-Workers of America. They were humble digital drudges, wandering with mop
-and bucket through the Great Technological Temple of AT&T; but when the
-Secret Service arrived at their homes, it seemed they were eating with
-company silverware and sleeping on company sheets! Outrageously, they
-behaved as if the things they worked with every day belonged to them!
-
-And these were no mere hacker teenagers with their hands full
-of trash-paper and their noses pressed to the corporate windowpane.
-These guys were UNIX wizards, not only carrying AT&T data in their
-machines and their heads, but eagerly networking about it,
-over machines that were far more powerful than anything previously
-imagined in private hands. How do you keep people disposable,
-yet assure their awestruck respect for your property? It was a dilemma.
-
-Much UNIX code was public-domain, available for free. Much "proprietary"
-UNIX code had been extensively re-written, perhaps altered so much that it
-became an entirely new product--or perhaps not. Intellectual property rights
-for software developers were, and are, extraordinarily complex and confused.
-And software "piracy," like the private copying of videos, is one of the most
-widely practiced "crimes" in the world today.
-
-The USSS were not experts in UNIX or familiar with the customs of its use.
-The United States Secret Service, considered as a body, did not have one single
-person in it who could program in a UNIX environment--no, not even one.
-The Secret Service WERE making extensive use of expert help, but the "experts"
-they had chosen were AT&T and Bellcore security officials, the very victims of
-the purported crimes under investigation, the very people whose interest in
-AT&T's "proprietary" software was most pronounced.
-
-On February 6, 1990, Terminus was arrested by Agent Lewis.
-Eventually, Terminus would be sent to prison for his illicit
-use of a piece of AT&T software.
-
-The issue of pirated AT&T software would bubble along in the background
-during the war on the Legion of Doom. Some half-dozen of Terminus's on-line
-acquaintances, including people in Illinois, Texas and California,
-were grilled by the Secret Service in connection with the illicit
-copying of software. Except for Terminus, however, none were charged
-with a crime. None of them shared his peculiar prominence in the
-hacker underground.
-
-But that did not mean that these people would, or could,
-stay out of trouble. The transferral of illicit data in
-cyberspace is hazy and ill-defined business, with paradoxical
-dangers for everyone concerned: hackers, signal carriers,
-board owners, cops, prosecutors, even random passers-by.
-Sometimes, well-meant attempts to avert trouble
-or punish wrongdoing bring more trouble than
-would simple ignorance, indifference or impropriety.
-
-Terminus's "Netsys" board was not a common-or-garden
-bulletin board system, though it had most of the usual
-functions of a board. Netsys was not a stand-alone machine,
-but part of the globe-spanning "UUCP" cooperative network.
-The UUCP network uses a set of Unix software programs called
-"Unix-to-Unix Copy," which allows Unix systems to throw data to
-one another at high speed through the public telephone network.
-UUCP is a radically decentralized, not-for-profit network of UNIX computers.
-There are tens of thousands of these UNIX machines. Some are small,
-but many are powerful and also link to other networks. UUCP has
-certain arcane links to major networks such as JANET, EasyNet, BITNET,
-JUNET, VNET, DASnet, PeaceNet and FidoNet, as well as the gigantic Internet.
-(The so-called "Internet" is not actually a network itself, but rather an
-"internetwork" connections standard that allows several globe-spanning
-computer networks to communicate with one another. Readers fascinated
-by the weird and intricate tangles of modern computer networks may enjoy
-John S. Quarterman's authoritative 719-page explication, The Matrix,
-Digital Press, 1990.)
-
-A skilled user of Terminus' UNIX machine could send and receive
-electronic mail from almost any major computer network in the world.
-Netsys was not called a "board" per se, but rather a "node."
-"Nodes" were larger, faster, and more sophisticated than mere "boards,"
-and for hackers, to hang out on internationally-connected "nodes"
-was quite the step up from merely hanging out on local "boards."
-
-Terminus's Netsys node in Maryland had a number of direct
-links to other, similar UUCP nodes, run by people who shared his
-interests and at least something of his free-wheeling attitude.
-One of these nodes was Jolnet, owned by Richard Andrews, who,
-like Terminus, was an independent UNIX consultant.
-Jolnet also ran UNIX, and could be contacted at high speed
-by mainframe machines from all over the world. Jolnet was
-quite a sophisticated piece of work, technically speaking,
-but it was still run by an individual, as a private,
-not-for-profit hobby. Jolnet was mostly used by other
-UNIX programmers--for mail, storage, and access to networks.
-Jolnet supplied access network access to about two hundred people,
-as well as a local junior college.
-
-Among its various features and services, Jolnet also carried
-Phrack magazine.
-
-For reasons of his own, Richard Andrews had become suspicious
-of a new user called "Robert Johnson." Richard Andrews
-took it upon himself to have a look at what "Robert Johnson"
-was storing in Jolnet. And Andrews found the E911 Document.
-
-"Robert Johnson" was the Prophet from the Legion of Doom,
-and the E911 Document was illicitly copied data from Prophet's
-raid on the BellSouth computers.
-
-The E911 Document, a particularly illicit piece of digital property,
-was about to resume its long, complex, and disastrous career.
-
-It struck Andrews as fishy that someone not a telephone employee
-should have a document referring to the "Enhanced 911 System."
-Besides, the document itself bore an obvious warning.
-
-"WARNING: NOT FOR USE OR DISCLOSURE OUTSIDE BELLSOUTH
-OR ANY OF ITS SUBSIDIARIES EXCEPT UNDER WRITTEN AGREEMENT."
-
-These standard nondisclosure tags are often appended to all sorts
-of corporate material. Telcos as a species are particularly notorious
-for stamping most everything in sight as "not for use or disclosure."
-Still, this particular piece of data was about the 911 System.
-That sounded bad to Rich Andrews.
-
-Andrews was not prepared to ignore this sort of trouble.
-He thought it would be wise to pass the document along
-to a friend and acquaintance on the UNIX network, for consultation.
-So, around September 1988, Andrews sent yet another copy of the
-E911 Document electronically to an AT&T employee, one Charles Boykin,
-who ran a UNIX-based node called "attctc" in Dallas, Texas.
-
-"Attctc" was the property of AT&T, and was run from AT&T's
-Customer Technology Center in Dallas, hence the name "attctc."
-"Attctc" was better-known as "Killer," the name of the machine
-that the system was running on. "Killer" was a hefty, powerful,
-AT&T 3B2 500 model, a multi-user, multi-tasking UNIX platform
-with 32 meg of memory and a mind-boggling 3.2 Gigabytes of storage.
-When Killer had first arrived in Texas, in 1985, the 3B2 had been
-one of AT&T's great white hopes for going head-to-head with IBM
-for the corporate computer-hardware market. "Killer" had been shipped
-to the Customer Technology Center in the Dallas Infomart, essentially
-a high-technology mall, and there it sat, a demonstration model.
-
-Charles Boykin, a veteran AT&T hardware and digital communications expert,
-was a local technical backup man for the AT&T 3B2 system. As a display model
-in the Infomart mall, "Killer" had little to do, and it seemed a shame
-to waste the system's capacity. So Boykin ingeniously wrote some UNIX
-bulletin-board software for "Killer," and plugged the machine in to the
-local phone network. "Killer's" debut in late 1985 made it the first
-publicly available UNIX site in the state of Texas. Anyone who wanted to
-play was welcome.
-
-The machine immediately attracted an electronic community.
-It joined the UUCP network, and offered network links
-to over eighty other computer sites, all of which became dependent
-on Killer for their links to the greater world of cyberspace.
-And it wasn't just for the big guys; personal computer users
-also stored freeware programs for the Amiga, the Apple,
-the IBM and the Macintosh on Killer's vast 3,200 meg archives.
-At one time, Killer had the largest library of public-domain
-Macintosh software in Texas.
-
-Eventually, Killer attracted about 1,500 users,
-all busily communicating, uploading and downloading,
-getting mail, gossipping, and linking to arcane
-and distant networks.
-
-Boykin received no pay for running Killer. He considered
-it good publicity for the AT&T 3B2 system (whose sales were
-somewhat less than stellar), but he also simply enjoyed
-the vibrant community his skill had created. He gave away
-the bulletin-board UNIX software he had written, free of charge.
-
-In the UNIX programming community, Charlie Boykin had the
-reputation of a warm, open-hearted, level-headed kind of guy.
-In 1989, a group of Texan UNIX professionals voted Boykin
-"System Administrator of the Year." He was considered
-a fellow you could trust for good advice.
-
-In September 1988, without warning, the E911 Document
-came plunging into Boykin's life, forwarded by Richard Andrews.
-Boykin immediately recognized that the Document was hot property.
-He was not a voice-communications man, and knew little about
-the ins and outs of the Baby Bells, but he certainly knew what
-the 911 System was, and he was angry to see confidential data
-about it in the hands of a nogoodnik. This was clearly a
-matter for telco security. So, on September 21, 1988, Boykin
-made yet ANOTHER copy of the E911 Document and passed this
-one along to a professional acquaintance of his, one Jerome Dalton,
-from AT&T Corporate Information Security. Jerry Dalton was the
-very fellow who would later raid Terminus's house.
-
-From AT&T's security division, the E911 Document went to Bellcore.
-
-Bellcore (or BELL COmmunications REsearch) had once been the central
-laboratory of the Bell System. Bell Labs employees had invented
-the UNIX operating system. Now Bellcore was a quasi-independent,
-jointly owned company that acted as the research arm for all seven
-of the Baby Bell RBOCs. Bellcore was in a good position to co-ordinate
-security technology and consultation for the RBOCs, and the gentleman in
-charge of this effort was Henry M. Kluepfel, a veteran of the Bell System
-who had worked there for twenty-four years.
-
-On October 13, 1988, Dalton passed the E911 Document to Henry Kluepfel.
-Kluepfel, a veteran expert witness in telecommunications fraud and
-computer-fraud cases, had certainly seen worse trouble than this.
-He recognized the document for what it was: a trophy from a hacker break-in.
-
-However, whatever harm had been done in the intrusion was presumably old news.
-At this point there seemed little to be done. Kluepfel made a careful note
-of the circumstances and shelved the problem for the time being.
-
-Whole months passed.
-
-February 1989 arrived. The Atlanta Three were living it up
-in Bell South's switches, and had not yet met their comeuppance.
-The Legion was thriving. So was Phrack magazine.
-A good six months had passed since Prophet's AIMSX break-in.
-Prophet, as hackers will, grew weary of sitting on his laurels.
-"Knight Lightning" and "Taran King," the editors of Phrack,
-were always begging Prophet for material they could publish.
-Prophet decided that the heat must be off by this time,
-and that he could safely brag, boast, and strut.
-
-So he sent a copy of the E911 Document--yet another one--
-from Rich Andrews' Jolnet machine to Knight Lightning's
-BITnet account at the University of Missouri.
-Let's review the fate of the document so far.
-
-0. The original E911 Document. This in the AIMSX system
-on a mainframe computer in Atlanta, available to hundreds of people,
-but all of them, presumably, BellSouth employees. An unknown number
-of them may have their own copies of this document, but they are all
-professionals and all trusted by the phone company.
-
-1. Prophet's illicit copy, at home on his own computer in Decatur, Georgia.
-
-2. Prophet's back-up copy, stored on Rich Andrew's Jolnet machine
- in the basement of Rich Andrews' house near Joliet Illinois.
-
-3. Charles Boykin's copy on "Killer" in Dallas, Texas,
- sent by Rich Andrews from Joliet.
-
-4. Jerry Dalton's copy at AT&T Corporate Information Security in New Jersey,
- sent from Charles Boykin in Dallas.
-
-5. Henry Kluepfel's copy at Bellcore security headquarters in New Jersey,
- sent by Dalton.
-6. Knight Lightning's copy, sent by Prophet from Rich Andrews' machine,
- and now in Columbia, Missouri.
-
-We can see that the "security" situation of this proprietary document,
-once dug out of AIMSX, swiftly became bizarre. Without any money
-changing hands, without any particular special effort, this data
-had been reproduced at least six times and had spread itself all over
-the continent. By far the worst, however, was yet to come.
-
-In February 1989, Prophet and Knight Lightning bargained electronically
-over the fate of this trophy. Prophet wanted to boast, but, at the same time,
-scarcely wanted to be caught.
-
-For his part, Knight Lightning was eager to publish as much of the document
-as he could manage. Knight Lightning was a fledgling political-science major
-with a particular interest in freedom-of-information issues. He would gladly
-publish most anything that would reflect glory on the prowess of the
-underground and embarrass the telcos. However, Knight Lightning himself
-had contacts in telco security, and sometimes consulted them on material
-he'd received that might be too dicey for publication.
-
-Prophet and Knight Lightning decided to edit the E911 Document
-so as to delete most of its identifying traits. First of all,
-its large "NOT FOR USE OR DISCLOSURE" warning had to go.
-Then there were other matters. For instance, it listed
-the office telephone numbers of several BellSouth 911
-specialists in Florida. If these phone numbers were
-published in Phrack, the BellSouth employees involved
-would very likely be hassled by phone phreaks,
-which would anger BellSouth no end, and pose a
-definite operational hazard for both Prophet and Phrack.
-
-So Knight Lightning cut the Document almost in half,
-removing the phone numbers and some of the touchier
-and more specific information. He passed it back
-electronically to Prophet; Prophet was still nervous,
-so Knight Lightning cut a bit more. They finally agreed
-that it was ready to go, and that it would be published
-in Phrack under the pseudonym, "The Eavesdropper."
-
-And this was done on February 25, 1989.
-
-The twenty-fourth issue of Phrack featured a chatty interview
-with co-ed phone-phreak "Chanda Leir," three articles on BITNET
-and its links to other computer networks, an article on 800 and 900
-numbers by "Unknown User," "VaxCat's" article on telco basics
-(slyly entitled "Lifting Ma Bell's Veil of Secrecy,)" and
-the usual "Phrack World News."
-
-The News section, with painful irony, featured an extended account
-of the sentencing of "Shadowhawk," an eighteen-year-old Chicago hacker
-who had just been put in federal prison by William J. Cook himself.
-
-And then there were the two articles by "The Eavesdropper."
-The first was the edited E911 Document, now titled
-"Control Office Administration Of Enhanced 911 Services
-for Special Services and Major Account Centers."
-Eavesdropper's second article was a glossary of terms
-explaining the blizzard of telco acronyms and buzzwords
-in the E911 Document.
-
-The hapless document was now distributed, in the usual Phrack routine,
-to a good one hundred and fifty sites. Not a hundred and fifty PEOPLE,
-mind you--a hundred and fifty SITES, some of these sites linked to UNIX
-nodes or bulletin board systems, which themselves had readerships of tens,
-dozens, even hundreds of people.
-
-This was February 1989. Nothing happened immediately.
-Summer came, and the Atlanta crew were raided by the Secret Service.
-Fry Guy was apprehended. Still nothing whatever happened to Phrack.
-Six more issues of Phrack came out, 30 in all, more or less on
-a monthly schedule. Knight Lightning and co-editor Taran King
-went untouched.
-
-Phrack tended to duck and cover whenever the heat came down.
-During the summer busts of 1987--(hacker busts tended to cluster in summer,
-perhaps because hackers were easier to find at home than in college)--
-Phrack had ceased publication for several months, and laid low.
-Several LoD hangers-on had been arrested, but nothing had happened
-to the Phrack crew, the premiere gossips of the underground.
-In 1988, Phrack had been taken over by a new editor,
-"Crimson Death," a raucous youngster with a taste for anarchy files.
-1989, however, looked like a bounty year for the underground.
-Knight Lightning and his co-editor Taran King took up the reins again,
-and Phrack flourished throughout 1989. Atlanta LoD went down hard in
-the summer of 1989, but Phrack rolled merrily on. Prophet's E911 Document
-seemed unlikely to cause Phrack any trouble. By January 1990,
-it had been available in Phrack for almost a year. Kluepfel and Dalton,
-officers of Bellcore and AT&T security, had possessed the document
-for sixteen months--in fact, they'd had it even before Knight Lightning
-himself, and had done nothing in particular to stop its distribution.
-They hadn't even told Rich Andrews or Charles Boykin to erase the copies
-from their UNIX nodes, Jolnet and Killer.
-
-But then came the monster Martin Luther King Day Crash of January 15, 1990.
-
-A flat three days later, on January 18, four agents showed up
-at Knight Lightning's fraternity house. One was Timothy Foley,
-the second Barbara Golden, both of them Secret Service agents
-from the Chicago office. Also along was a University of Missouri
-security officer, and Reed Newlin, a security man from Southwestern Bell,
-the RBOC having jurisdiction over Missouri.
-
-Foley accused Knight Lightning of causing the nationwide crash
-of the phone system.
-
-Knight Lightning was aghast at this allegation. On the face of it,
-the suspicion was not entirely implausible--though Knight Lightning
-knew that he himself hadn't done it. Plenty of hot-dog hackers
-had bragged that they could crash the phone system, however.
-"Shadowhawk," for instance, the Chicago hacker whom William Cook
-had recently put in jail, had several times boasted on boards
-that he could "shut down AT&T's public switched network."
-
-And now this event, or something that looked just like it,
-had actually taken place. The Crash had lit a fire under
-the Chicago Task Force. And the former fence-sitters at
-Bellcore and AT&T were now ready to roll. The consensus
-among telco security--already horrified by the skill of
-the BellSouth intruders --was that the digital underground
-was out of hand. LoD and Phrack must go. And in publishing
-Prophet's E911 Document, Phrack had provided law enforcement
-with what appeared to be a powerful legal weapon.
-
-Foley confronted Knight Lightning about the E911 Document.
-
-Knight Lightning was cowed. He immediately began "cooperating fully"
-in the usual tradition of the digital underground.
-
-He gave Foley a complete run of Phrack, printed out in a set
-of three-ring binders. He handed over his electronic mailing list
-of Phrack subscribers. Knight Lightning was grilled for four hours
-by Foley and his cohorts. Knight Lightning admitted that Prophet
-had passed him the E911 Document, and he admitted that he had known
-it was stolen booty from a hacker raid on a telephone company.
-Knight Lightning signed a statement to this effect, and agreed,
-in writing, to cooperate with investigators.
-
-Next day--January 19, 1990, a Friday --the Secret Service returned
-with a search warrant, and thoroughly searched Knight Lightning's
-upstairs room in the fraternity house. They took all his floppy disks,
-though, interestingly, they left Knight Lightning in possession
-of both his computer and his modem. (The computer had no hard disk,
-and in Foley's judgement was not a store of evidence.) But this was a
-very minor bright spot among Knight Lightning's rapidly multiplying troubles.
-By this time, Knight Lightning was in plenty of hot water, not only with
-federal police, prosecutors, telco investigators, and university security,
-but with the elders of his own campus fraternity, who were outraged
-to think that they had been unwittingly harboring a federal computer-criminal.
-
-On Monday, Knight Lightning was summoned to Chicago, where he was
-further grilled by Foley and USSS veteran agent Barbara Golden, this time
-with an attorney present. And on Tuesday, he was formally indicted
-by a federal grand jury.
-
-The trial of Knight Lightning, which occurred on July 24-27, 1990,
-was the crucial show-trial of the Hacker Crackdown. We will examine
-the trial at some length in Part Four of this book.
-
-In the meantime, we must continue our dogged pursuit of the E911 Document.
-
-It must have been clear by January 1990 that the E911 Document,
-in the form Phrack had published it back in February 1989,
-had gone off at the speed of light in at least a hundred
-and fifty different directions. To attempt to put this
-electronic genie back in the bottle was flatly impossible.
-
-And yet, the E911 Document was STILL stolen property,
-formally and legally speaking. Any electronic transference
-of this document, by anyone unauthorized to have it,
-could be interpreted as an act of wire fraud. Interstate
-transfer of stolen property, including electronic property,
-was a federal crime.
-
-The Chicago Computer Fraud and Abuse Task Force had been assured
-that the E911 Document was worth a hefty sum of money. In fact,
-they had a precise estimate of its worth from BellSouth security personnel:
-$79,449. A sum of this scale seemed to warrant vigorous prosecution.
-Even if the damage could not be undone, at least this large sum
-offered a good legal pretext for stern punishment of the thieves.
-It seemed likely to impress judges and juries. And it could be used
-in court to mop up the Legion of Doom.
-
-The Atlanta crowd was already in the bag, by the time
-the Chicago Task Force had gotten around to Phrack.
-But the Legion was a hydra-headed thing. In late 89,
-a brand-new Legion of Doom board, "Phoenix Project,"
-had gone up in Austin, Texas. Phoenix Project was sysoped
-by no less a man than the Mentor himself, ably assisted by
-University of Texas student and hardened Doomster "Erik Bloodaxe."
-
-As we have seen from his Phrack manifesto, the Mentor was a hacker
-zealot who regarded computer intrusion as something close to a moral duty.
-Phoenix Project was an ambitious effort, intended to revive the digital
-underground to what Mentor considered the full flower of the early 80s.
-The Phoenix board would also boldly bring elite hackers face-to-face
-with the telco "opposition." On "Phoenix," America's cleverest hackers
-would supposedly shame the telco squareheads out of their stick-in-the-mud
-attitudes, and perhaps convince them that the Legion of Doom elite were really
-an all-right crew. The premiere of "Phoenix Project" was heavily trumpeted
-by Phrack,and "Phoenix Project" carried a complete run of Phrack issues,
-including the E911 Document as Phrack had published it.
-
-Phoenix Project was only one of many--possibly hundreds--of nodes and boards
-all over America that were in guilty possession of the E911 Document.
-But Phoenix was an outright, unashamed Legion of Doom board.
-Under Mentor's guidance, it was flaunting itself in the face
-of telco security personnel. Worse yet, it was actively trying
-to WIN THEM OVER as sympathizers for the digital underground elite.
-"Phoenix" had no cards or codes on it. Its hacker elite considered
-Phoenix at least technically legal. But Phoenix was a corrupting influence,
-where hacker anarchy was eating away like digital acid at the underbelly
-of corporate propriety.
-
-The Chicago Computer Fraud and Abuse Task Force now prepared
-to descend upon Austin, Texas.
-
-Oddly, not one but TWO trails of the Task Force's investigation led
-toward Austin. The city of Austin, like Atlanta, had made itself
-a bulwark of the Sunbelt's Information Age, with a strong university
-research presence, and a number of cutting-edge electronics companies,
-including Motorola, Dell, CompuAdd, IBM, Sematech and MCC.
-
-Where computing machinery went, hackers generally followed.
-Austin boasted not only "Phoenix Project," currently LoD's
-most flagrant underground board, but a number of UNIX nodes.
-
-One of these nodes was "Elephant," run by a UNIX consultant
-named Robert Izenberg. Izenberg, in search of a relaxed Southern
-lifestyle and a lowered cost-of-living, had recently migrated
-to Austin from New Jersey. In New Jersey, Izenberg had worked
-for an independent contracting company, programming UNIX code for
-AT&T itself. "Terminus" had been a frequent user on Izenberg's
-privately owned Elephant node.
-
-Having interviewed Terminus and examined the records on Netsys,
-the Chicago Task Force were now convinced that they had discovered
-an underground gang of UNIX software pirates, who were demonstrably
-guilty of interstate trafficking in illicitly copied AT&T source code.
-Izenberg was swept into the dragnet around Terminus, the self-proclaimed
-ultimate UNIX hacker.
-
-Izenberg, in Austin, had settled down into a UNIX job
-with a Texan branch of IBM. Izenberg was no longer
-working as a contractor for AT&T, but he had friends
-in New Jersey, and he still logged on to AT&T UNIX
-computers back in New Jersey, more or less whenever
-it pleased him. Izenberg's activities appeared highly
-suspicious to the Task Force. Izenberg might well be
-breaking into AT&T computers, swiping AT&T software,
-and passing it to Terminus and other possible confederates,
-through the UNIX node network. And this data was worth,
-not merely $79,499, but hundreds of thousands of dollars!
-
-On February 21, 1990, Robert Izenberg arrived home
-from work at IBM to find that all the computers
-had mysteriously vanished from his Austin apartment.
-Naturally he assumed that he had been robbed.
-His "Elephant" node, his other machines, his notebooks,
-his disks, his tapes, all gone! However, nothing much
-else seemed disturbed--the place had not been ransacked.
-The puzzle becaming much stranger some five minutes later.
-Austin U. S. Secret Service Agent Al Soliz, accompanied by
-University of Texas campus-security officer Larry Coutorie
-and the ubiquitous Tim Foley, made their appearance at Izenberg's door.
-They were in plain clothes: slacks, polo shirts. They came in,
-and Tim Foley accused Izenberg of belonging to the Legion of Doom.
-
-Izenberg told them that he had never heard of the "Legion of Doom."
-And what about a certain stolen E911 Document, that posed a direct
-threat to the police emergency lines? Izenberg claimed that he'd
-never heard of that, either.
-
-His interrogators found this difficult to believe.
-Didn't he know Terminus?
-
-Who?
-
-They gave him Terminus's real name. Oh yes, said Izenberg.
-He knew THAT guy all right--he was leading discussions
-on the Internet about AT&T computers, especially the AT&T 3B2.
-
-AT&T had thrust this machine into the marketplace,
-but, like many of AT&T's ambitious attempts to enter
-the computing arena, the 3B2 project had something less
-than a glittering success. Izenberg himself had been
-a contractor for the division of AT&T that supported the 3B2.
-The entire division had been shut down.
-
-Nowadays, the cheapest and quickest way to get help with this
-fractious piece of machinery was to join one of Terminus's
-discussion groups on the Internet, where friendly and knowledgeable
-hackers would help you for free. Naturally the remarks within this
-group were less than flattering about the Death Star. . .was
-THAT the problem?
-
-Foley told Izenberg that Terminus had been acquiring hot software
-through his, Izenberg's, machine.
-
-Izenberg shrugged this off. A good eight megabytes of data flowed
-through his UUCP site every day. UUCP nodes spewed data like fire hoses.
-Elephant had been directly linked to Netsys--not surprising, since Terminus
-was a 3B2 expert and Izenberg had been a 3B2 contractor.
-Izenberg was also linked to "attctc" and the University of Texas.
-Terminus was a well-known UNIX expert, and might have been up to
-all manner of hijinks on Elephant. Nothing Izenberg could do about that.
-That was physically impossible. Needle in a haystack.
-
-In a four-hour grilling, Foley urged Izenberg to come clean
-and admit that he was in conspiracy with Terminus,
-and a member of the Legion of Doom.
-
-Izenberg denied this. He was no weirdo teenage hacker--
-he was thirty-two years old, and didn't even have a "handle."
-Izenberg was a former TV technician and electronics specialist
-who had drifted into UNIX consulting as a full-grown adult.
-Izenberg had never met Terminus, physically. He'd once bought
-a cheap high-speed modem from him, though.
-
-Foley told him that this modem (a Telenet T2500 which ran at 19.2 kilobaud,
-and which had just gone out Izenberg's door in Secret Service custody)
-was likely hot property. Izenberg was taken aback to hear this; but then
-again, most of Izenberg's equipment, like that of most freelance professionals
-in the industry, was discounted, passed hand-to-hand through various kinds
-of barter and gray-market. There was no proof that the modem was stolen,
-and even if it were, Izenberg hardly saw how that gave them the right
-to take every electronic item in his house.
-
-Still, if the United States Secret Service figured they needed
-his computer for national security reasons--or whatever--
-then Izenberg would not kick. He figured he would somehow
-make the sacrifice of his twenty thousand dollars' worth
-of professional equipment, in the spirit of full cooperation
-and good citizenship.
-
-Robert Izenberg was not arrested. Izenberg was not charged with any crime.
-His UUCP node--full of some 140 megabytes of the files, mail, and data
-of himself and his dozen or so entirely innocent users--went out the door
-as "evidence." Along with the disks and tapes, Izenberg had lost about
-800 megabytes of data.
-
-Six months would pass before Izenberg decided to phone the Secret Service
-and ask how the case was going. That was the first time that Robert Izenberg
-would ever hear the name of William Cook. As of January 1992, a full
-two years after the seizure, Izenberg, still not charged with any crime,
-would be struggling through the morass of the courts, in hope of recovering
-his thousands of dollars' worth of seized equipment.
-
-In the meantime, the Izenberg case received absolutely no press coverage.
-The Secret Service had walked into an Austin home, removed a UNIX bulletin-
-board system, and met with no operational difficulties whatsoever.
-
-Except that word of a crackdown had percolated through the Legion of Doom.
-"The Mentor" voluntarily shut down "The Phoenix Project." It seemed a pity,
-especially as telco security employees had, in fact, shown up on Phoenix,
-just as he had hoped--along with the usual motley crowd of LoD heavies,
-hangers-on, phreaks, hackers and wannabes. There was "Sandy" Sandquist from
-US SPRINT security, and some guy named Henry Kluepfel, from Bellcore itself!
-Kluepfel had been trading friendly banter with hackers on Phoenix since
-January 30th (two weeks after the Martin Luther King Day Crash).
-The presence of such a stellar telco official seemed quite the coup
-for Phoenix Project.
-
-Still, Mentor could judge the climate. Atlanta in ruins,
-Phrack in deep trouble, something weird going on with UNIX nodes--
-discretion was advisable. Phoenix Project went off-line.
-
-Kluepfel, of course, had been monitoring this LoD bulletin
-board for his own purposes--and those of the Chicago unit.
-As far back as June 1987, Kluepfel had logged on to a Texas
-underground board called "Phreak Klass 2600." There he'd
-discovered an Chicago youngster named "Shadowhawk,"
-strutting and boasting about rifling AT&T computer files,
-and bragging of his ambitions to riddle AT&T's Bellcore
-computers with trojan horse programs. Kluepfel had passed
-the news to Cook in Chicago, Shadowhawk's computers
-had gone out the door in Secret Service custody,
-and Shadowhawk himself had gone to jail.
-
-Now it was Phoenix Project's turn. Phoenix Project postured
-about "legality" and "merely intellectual interest," but it reeked
-of the underground. It had Phrack on it. It had the E911 Document.
-It had a lot of dicey talk about breaking into systems, including some
-bold and reckless stuff about a supposed "decryption service" that Mentor
-and friends were planning to run, to help crack encrypted passwords off
-of hacked systems.
-
-Mentor was an adult. There was a bulletin board at his place of work,
-as well. Kleupfel logged onto this board, too, and discovered it to be
-called "Illuminati." It was run by some company called Steve Jackson Games.
-
-On March 1, 1990, the Austin crackdown went into high gear.
-
-On the morning of March 1--a Thursday--21-year-old University of Texas
-student "Erik Bloodaxe," co-sysop of Phoenix Project and an avowed member
-of the Legion of Doom, was wakened by a police revolver levelled at his head.
-
-Bloodaxe watched, jittery, as Secret Service agents
-appropriated his 300 baud terminal and, rifling his files,
-discovered his treasured source-code for Robert Morris's
-notorious Internet Worm. But Bloodaxe, a wily operator,
-had suspected that something of the like might be coming.
-All his best equipment had been hidden away elsewhere.
-The raiders took everything electronic, however,
-including his telephone. They were stymied by his
-hefty arcade-style Pac-Man game, and left it in place,
-as it was simply too heavy to move.
-
-Bloodaxe was not arrested. He was not charged with any crime.
-A good two years later, the police still had what they had
-taken from him, however.
-
-The Mentor was less wary. The dawn raid rousted him and his wife
-from bed in their underwear, and six Secret Service agents,
-accompanied by an Austin policeman and Henry Kluepfel himself,
-made a rich haul. Off went the works, into the agents' white
-Chevrolet minivan: an IBM PC-AT clone with 4 meg of RAM and
-a 120-meg hard disk; a Hewlett-Packard LaserJet II printer;
-a completely legitimate and highly expensive SCO-Xenix 286
-operating system; Pagemaker disks and documentation;
-and the Microsoft Word word-processing program. Mentor's wife
-had her incomplete academic thesis stored on the hard-disk;
-that went, too, and so did the couple's telephone. As of two years later,
-all this property remained in police custody.
-
-Mentor remained under guard in his apartment as agents prepared
-to raid Steve Jackson Games. The fact that this was a business
-headquarters and not a private residence did not deter the agents.
-It was still very early; no one was at work yet. The agents prepared
-to break down the door, but Mentor, eavesdropping on the Secret Service
-walkie-talkie traffic, begged them not to do it, and offered his key
-to the building.
-
-The exact details of the next events are unclear. The agents
-would not let anyone else into the building. Their search warrant,
-when produced, was unsigned. Apparently they breakfasted from the local
-"Whataburger," as the litter from hamburgers was later found inside.
-They also extensively sampled a bag of jellybeans kept by an SJG employee.
-Someone tore a "Dukakis for President" sticker from the wall.
-
-SJG employees, diligently showing up for the day's work, were met
-at the door and briefly questioned by U.S. Secret Service agents.
-The employees watched in astonishment as agents wielding crowbars
-and screwdrivers emerged with captive machines. They attacked
-outdoor storage units with boltcutters. The agents wore
-blue nylon windbreakers with "SECRET SERVICE" stencilled
-across the back, with running-shoes and jeans.
-
-Jackson's company lost three computers, several hard-disks,
-hundred of floppy disks, two monitors, three modems,
-a laser printer, various powercords, cables, and adapters
-(and, oddly, a small bag of screws, bolts and nuts).
-The seizure of Illuminati BBS deprived SJG of all the programs,
-text files, and private e-mail on the board. The loss of two other
-SJG computers was a severe blow as well, since it caused the loss
-of electronically stored contracts, financial projections,
-address directories, mailing lists, personnel files,
-business correspondence, and, not least, the drafts
-of forthcoming games and gaming books.
-
-No one at Steve Jackson Games was arrested. No one was accused
-of any crime. No charges were filed. Everything appropriated
-was officially kept as "evidence" of crimes never specified.
-
-After the Phrack show-trial, the Steve Jackson Games scandal
-was the most bizarre and aggravating incident of the Hacker
-Crackdown of 1990. This raid by the Chicago Task Force
-on a science-fiction gaming publisher was to rouse a
-swarming host of civil liberties issues, and gave rise
-to an enduring controversy that was still re-complicating itself,
-and growing in the scope of its implications, a full two years later.
-
-The pursuit of the E911 Document stopped with the Steve Jackson Games raid.
-As we have seen, there were hundreds, perhaps thousands of computer users
-in America with the E911 Document in their possession. Theoretically,
-Chicago had a perfect legal right to raid any of these people,
-and could have legally seized the machines of anybody who subscribed to Phrack.
-However, there was no copy of the E911 Document on Jackson's Illuminati board.
-And there the Chicago raiders stopped dead; they have not raided anyone since.
-
-It might be assumed that Rich Andrews and Charlie Boykin, who had brought
-the E911 Document to the attention of telco security, might be spared
-any official suspicion. But as we have seen, the willingness to
-"cooperate fully" offers little, if any, assurance against federal
-anti-hacker prosecution.
-
-Richard Andrews found himself in deep trouble, thanks to the E911 Document.
-Andrews lived in Illinois, the native stomping grounds of the Chicago
-Task Force. On February 3 and 6, both his home and his place of work
-were raided by USSS. His machines went out the door, too, and he was
-grilled at length (though not arrested). Andrews proved to be in
-purportedly guilty possession of: UNIX SVR 3.2; UNIX SVR 3.1; UUCP;
-PMON; WWB; IWB; DWB; NROFF; KORN SHELL '88; C++; and QUEST,
-among other items. Andrews had received this proprietary code--
-which AT&T officially valued at well over $250,000--through the
-UNIX network, much of it supplied to him as a personal favor by Terminus.
-Perhaps worse yet, Andrews admitted to returning the favor, by passing
-Terminus a copy of AT&T proprietary STARLAN source code.
-
-Even Charles Boykin, himself an AT&T employee, entered some very hot water.
-By 1990, he'd almost forgotten about the E911 problem he'd reported in
-September 88; in fact, since that date, he'd passed two more security alerts
-to Jerry Dalton, concerning matters that Boykin considered far worse than
-the E911 Document.
-
-But by 1990, year of the crackdown, AT&T Corporate Information Security
-was fed up with "Killer." This machine offered no direct income to AT&T,
-and was providing aid and comfort to a cloud of suspicious yokels
-from outside the company, some of them actively malicious toward AT&T,
-its property, and its corporate interests. Whatever goodwill and publicity
-had been won among Killer's 1,500 devoted users was considered no longer
-worth the security risk. On February 20, 1990, Jerry Dalton arrived in
-Dallas and simply unplugged the phone jacks, to the puzzled alarm
-of Killer's many Texan users. Killer went permanently off-line,
-with the loss of vast archives of programs and huge quantities
-of electronic mail; it was never restored to service. AT&T showed
-no particular regard for the "property" of these 1,500 people.
-Whatever "property" the users had been storing on AT&T's computer
-simply vanished completely.
-
-Boykin, who had himself reported the E911 problem,
-now found himself under a cloud of suspicion. In a weird
-private-security replay of the Secret Service seizures,
-Boykin's own home was visited by AT&T Security and his
-own machines were carried out the door.
-
-However, there were marked special features in the Boykin case.
-Boykin's disks and his personal computers were swiftly examined
-by his corporate employers and returned politely in just two days--
-(unlike Secret Service seizures, which commonly take months or years).
-Boykin was not charged with any crime or wrongdoing, and he kept his job
-with AT&T (though he did retire from AT&T in September 1991,
-at the age of 52).
-
-It's interesting to note that the US Secret Service somehow failed
-to seize Boykin's "Killer" node and carry AT&T's own computer out the door.
-Nor did they raid Boykin's home. They seemed perfectly willing to take the
-word of AT&T Security that AT&T's employee, and AT&T's "Killer" node,
-were free of hacker contraband and on the up-and-up.
-
-It's digital water-under-the-bridge at this point, as Killer's
-3,200 megabytes of Texan electronic community were erased in 1990,
-and "Killer" itself was shipped out of the state.
-
-But the experiences of Andrews and Boykin, and the users of their systems,
-remained side issues. They did not begin to assume the social, political,
-and legal importance that gathered, slowly but inexorably, around the issue
-of the raid on Steve Jackson Games.
-
-#
-
-We must now turn our attention to Steve Jackson Games itself,
-and explain what SJG was, what it really did, and how it had
-managed to attract this particularly odd and virulent kind of trouble.
-The reader may recall that this is not the first but the second time
-that the company has appeared in this narrative; a Steve Jackson game
-called GURPS was a favorite pastime of Atlanta hacker Urvile,
-and Urvile's science-fictional gaming notes had been mixed up
-promiscuously with notes about his actual computer intrusions.
-
-First, Steve Jackson Games, Inc., was NOT a publisher of "computer games."
-SJG published "simulation games," parlor games that were played on paper,
-with pencils, and dice, and printed guidebooks full of rules and
-statistics tables. There were no computers involved in the games themselves.
-When you bought a Steve Jackson Game, you did not receive any software disks.
-What you got was a plastic bag with some cardboard game tokens,
-maybe a few maps or a deck of cards. Most of their products were books.
-
-However, computers WERE deeply involved in the Steve Jackson Games business.
-Like almost all modern publishers, Steve Jackson and his fifteen employees
-used computers to write text, to keep accounts, and to run the business
-generally. They also used a computer to run their official bulletin board
-system for Steve Jackson Games, a board called Illuminati. On Illuminati,
-simulation gamers who happened to own computers and modems could associate,
-trade mail, debate the theory and practice of gaming, and keep up with the
-company's news and its product announcements.
-
-Illuminati was a modestly popular board, run on a small computer
-with limited storage, only one phone-line, and no ties to large-scale
-computer networks. It did, however, have hundreds of users,
-many of them dedicated gamers willing to call from out-of-state.
-
-Illuminati was NOT an "underground" board. It did not feature hints
-on computer intrusion, or "anarchy files," or illicitly posted
-credit card numbers, or long-distance access codes.
-Some of Illuminati's users, however, were members of the Legion of Doom.
-And so was one of Steve Jackson's senior employees--the Mentor.
-The Mentor wrote for Phrack, and also ran an underground board,
-Phoenix Project--but the Mentor was not a computer professional.
-The Mentor was the managing editor of Steve Jackson Games and
-a professional game designer by trade. These LoD members did not
-use Illuminati to help their HACKING activities. They used it to
-help their GAME-PLAYING activities--and they were even more dedicated
-to simulation gaming than they were to hacking.
-
-"Illuminati" got its name from a card-game that Steve Jackson himself,
-the company's founder and sole owner, had invented. This multi-player
-card-game was one of Mr Jackson's best-known, most successful,
-most technically innovative products. "Illuminati" was a game
-of paranoiac conspiracy in which various antisocial cults warred
-covertly to dominate the world. "Illuminati" was hilarious,
-and great fun to play, involving flying saucers, the CIA, the KGB,
-the phone companies, the Ku Klux Klan, the South American Nazis,
-the cocaine cartels, the Boy Scouts, and dozens of other splinter groups
-from the twisted depths of Mr. Jackson's professionally fervid imagination.
-For the uninitiated, any public discussion of the "Illuminati" card-game
-sounded, by turns, utterly menacing or completely insane.
-
-And then there was SJG's "Car Wars," in which souped-up armored hot-rods
-with rocket-launchers and heavy machine-guns did battle on the American
-highways of the future. The lively Car Wars discussion on the Illuminati
-board featured many meticulous, painstaking discussions of the effects
-of grenades, land-mines, flamethrowers and napalm. It sounded like
-hacker anarchy files run amuck.
-
-Mr Jackson and his co-workers earned their daily bread by supplying people
-with make-believe adventures and weird ideas. The more far-out, the better.
-
-Simulation gaming is an unusual pastime, but gamers have not
-generally had to beg the permission of the Secret Service to exist.
-Wargames and role-playing adventures are an old and honored pastime,
-much favored by professional military strategists. Once little-known,
-these games are now played by hundreds of thousands of enthusiasts
-throughout North America, Europe and Japan. Gaming-books, once restricted
-to hobby outlets, now commonly appear in chain-stores like B. Dalton's
-and Waldenbooks, and sell vigorously.
-
-Steve Jackson Games, Inc., of Austin, Texas, was a games company
-of the middle rank. In 1989, SJG grossed about a million dollars.
-Jackson himself had a good reputation in his industry as a talented
-and innovative designer of rather unconventional games, but his company
-was something less than a titan of the field--certainly not like the
-multimillion-dollar TSR Inc., or Britain's gigantic "Games Workshop."
-SJG's Austin headquarters was a modest two-story brick office-suite,
-cluttered with phones, photocopiers, fax machines and computers.
-It bustled with semi-organized activity and was littered with
-glossy promotional brochures and dog-eared science-fiction novels.
-Attached to the offices was a large tin-roofed warehouse piled twenty feet
-high with cardboard boxes of games and books. Despite the weird imaginings
-that went on within it, the SJG headquarters was quite a quotidian,
-everyday sort of place. It looked like what it was: a publishers' digs.
-
-Both "Car Wars" and "Illuminati" were well-known, popular games.
-But the mainstay of the Jackson organization was their Generic Universal
-Role-Playing System, "G.U.R.P.S." The GURPS system was considered solid
-and well-designed, an asset for players. But perhaps the most popular
-feature of the GURPS system was that it allowed gaming-masters to design
-scenarios that closely resembled well-known books, movies, and other works
-of fantasy. Jackson had licensed and adapted works from many science fiction
-and fantasy authors. There was GURPS Conan, GURPS Riverworld,
-GURPS Horseclans, GURPS Witch World, names eminently familiar
-to science-fiction readers. And there was GURPS Special Ops,
-from the world of espionage fantasy and unconventional warfare.
-
-And then there was GURPS Cyberpunk.
-
-"Cyberpunk" was a term given to certain science fiction writers
-who had entered the genre in the 1980s. "Cyberpunk," as the label implies,
-had two general distinguishing features. First, its writers had a compelling
-interest in information technology, an interest closely akin
-to science fiction's earlier fascination with space travel.
-And second, these writers were "punks," with all the
-distinguishing features that that implies: Bohemian artiness,
-youth run wild, an air of deliberate rebellion, funny clothes and hair,
-odd politics, a fondness for abrasive rock and roll; in a word, trouble.
-
-The "cyberpunk" SF writers were a small group of mostly college-educated
-white middle-class litterateurs, scattered through the US and Canada.
-Only one, Rudy Rucker, a professor of computer science in Silicon Valley,
-could rank with even the humblest computer hacker. But, except for
-Professor Rucker, the "cyberpunk" authors were not programmers
-or hardware experts; they considered themselves artists
-(as, indeed, did Professor Rucker). However, these writers
-all owned computers, and took an intense and public interest
-in the social ramifications of the information industry.
-
-The cyberpunks had a strong following among the global generation
-that had grown up in a world of computers, multinational networks,
-and cable television. Their outlook was considered somewhat morbid,
-cynical, and dark, but then again, so was the outlook of their
-generational peers. As that generation matured and increased
-in strength and influence, so did the cyberpunks.
-As science-fiction writers went, they were doing
-fairly well for themselves. By the late 1980s,
-their work had attracted attention from gaming companies,
-including Steve Jackson Games, which was planning a cyberpunk
-simulation for the flourishing GURPS gaming-system.
-
-The time seemed ripe for such a product, which had already been proven
-in the marketplace. The first games- company out of the gate,
-with a product boldly called "Cyberpunk" in defiance of possible
-infringement-of-copyright suits, had been an upstart group called
-R. Talsorian. Talsorian's Cyberpunk was a fairly decent game,
-but the mechanics of the simulation system left a lot to be desired.
-Commercially, however, the game did very well.
-
-The next cyberpunk game had been the even more successful Shadowrun
-by FASA Corporation. The mechanics of this game were fine, but the
-scenario was rendered moronic by sappy fantasy elements like elves,
-trolls, wizards, and dragons--all highly ideologically-incorrect,
-according to the hard-edged, high-tech standards of cyberpunk science fiction.
-
-Other game designers were champing at the bit. Prominent among them
-was the Mentor, a gentleman who, like most of his friends in the
-Legion of Doom, was quite the cyberpunk devotee. Mentor reasoned
-that the time had come for a REAL cyberpunk gaming-book--one that the
-princes of computer-mischief in the Legion of Doom could play without
-laughing themselves sick. This book, GURPS Cyberpunk, would reek
-of culturally on-line authenticity.
-
-Mentor was particularly well-qualified for this task.
-Naturally, he knew far more about computer-intrusion
-and digital skullduggery than any previously published
-cyberpunk author. Not only that, but he was good at his work.
-A vivid imagination, combined with an instinctive feeling
-for the working of systems and, especially, the loopholes
-within them, are excellent qualities for a professional game designer.
-
-By March 1st, GURPS Cyberpunk was almost complete, ready to print and ship.
-Steve Jackson expected vigorous sales for this item, which, he hoped,
-would keep the company financially afloat for several months.
-GURPS Cyberpunk, like the other GURPS "modules," was not a "game"
-like a Monopoly set, but a BOOK: a bound paperback book the size
-of a glossy magazine, with a slick color cover, and pages full of text,
-illustrations, tables and footnotes. It was advertised as a game,
-and was used as an aid to game-playing, but it was a book,
-with an ISBN number, published in Texas, copyrighted,
-and sold in bookstores.
-
-And now, that book, stored on a computer, had gone out the door
-in the custody of the Secret Service.
-
-The day after the raid, Steve Jackson visited the local Secret Service
-headquarters with a lawyer in tow. There he confronted Tim Foley
-(still in Austin at that time) and demanded his book back. But there
-was trouble. GURPS Cyberpunk, alleged a Secret Service agent to astonished
-businessman Steve Jackson, was "a manual for computer crime."
-
-"It's science fiction," Jackson said.
-
-"No, this is real."
-
-This statement was repeated several times, by several agents.
-Jackson's ominously accurate game had passed from pure,
-obscure, small-scale fantasy into the impure, highly publicized,
-large-scale fantasy of the Hacker Crackdown.
-
-No mention was made of the real reason for the search.
-According to their search warrant, the raiders had expected
-to find the E911 Document stored on Jackson's bulletin board system.
-But that warrant was sealed; a procedure that most law enforcement agencies
-will use only when lives are demonstrably in danger. The raiders'
-true motives were not discovered until the Jackson search-warrant
-was unsealed by his lawyers, many months later. The Secret Service,
-and the Chicago Computer Fraud and Abuse Task Force,
-said absolutely nothing to Steve Jackson about any threat
-to the police 911 System. They said nothing about the Atlanta Three,
-nothing about Phrack or Knight Lightning, nothing about Terminus.
-
-Jackson was left to believe that his computers had been seized because
-he intended to publish a science fiction book that law enforcement
-considered too dangerous to see print.
-
-This misconception was repeated again and again, for months,
-to an ever-widening public audience. It was not the truth of the case;
-but as months passed, and this misconception was publicly printed again
-and again, it became one of the few publicly known "facts" about
-the mysterious Hacker Crackdown. The Secret Service had seized a computer
-to stop the publication of a cyberpunk science fiction book.
-
-The second section of this book, "The Digital Underground,"
-is almost finished now. We have become acquainted with all
-the major figures of this case who actually belong to the
-underground milieu of computer intrusion. We have some idea
-of their history, their motives, their general modus operandi.
-We now know, I hope, who they are, where they came from,
-and more or less what they want. In the next section of this book,
-"Law and Order," we will leave this milieu and directly enter the
-world of America's computer-crime police.
-
-At this point, however, I have another figure to introduce: myself.
-
-My name is Bruce Sterling. I live in Austin, Texas, where I am
-a science fiction writer by trade: specifically, a CYBERPUNK
-science fiction writer.
-
-Like my "cyberpunk" colleagues in the U.S. and Canada,
-I've never been entirely happy with this literary label--
-especially after it became a synonym for computer criminal.
-But I did once edit a book of stories by my colleagues,
-called Mirrorshades: the Cyberpunk Anthology, and I've
-long been a writer of literary-critical cyberpunk manifestos.
-I am not a "hacker" of any description, though I do have readers
-in the digital underground.
-
-When the Steve Jackson Games seizure occurred, I naturally took
-an intense interest. If "cyberpunk" books were being banned
-by federal police in my own home town, I reasonably wondered
-whether I myself might be next. Would my computer be seized
-by the Secret Service? At the time, I was in possession
-of an aging Apple IIe without so much as a hard disk.
-If I were to be raided as an author of computer-crime manuals,
-the loss of my feeble word-processor would likely provoke more
-snickers than sympathy.
-
-I'd known Steve Jackson for many years. We knew
-one another as colleagues, for we frequented
-the same local science-fiction conventions.
-I'd played Jackson games, and recognized his cleverness;
-but he certainly had never struck me as a potential mastermind
-of computer crime.
-
-I also knew a little about computer bulletin-board systems.
-In the mid-1980s I had taken an active role in an Austin board
-called "SMOF-BBS," one of the first boards dedicated to science fiction.
-I had a modem, and on occasion I'd logged on to Illuminati,
-which always looked entertainly wacky, but certainly harmless enough.
-
-At the time of the Jackson seizure, I had no experience
-whatsoever with underground boards. But I knew that no one
-on Illuminati talked about breaking into systems illegally,
-or about robbing phone companies. Illuminati didn't even
-offer pirated computer games. Steve Jackson, like many creative artists,
-was markedly touchy about theft of intellectual property.
-
-It seemed to me that Jackson was either seriously suspected
-of some crime--in which case, he would be charged soon,
-and would have his day in court--or else he was innocent,
-in which case the Secret Service would quickly return his equipment,
-and everyone would have a good laugh. I rather expected the good laugh.
-The situation was not without its comic side. The raid, known
-as the "Cyberpunk Bust" in the science fiction community,
-was winning a great deal of free national publicity both
-for Jackson himself and the "cyberpunk" science fiction
-writers generally.
-
-Besides, science fiction people are used to being misinterpreted.
-Science fiction is a colorful, disreputable, slipshod occupation,
-full of unlikely oddballs, which, of course, is why we like it.
-Weirdness can be an occupational hazard in our field. People who
-wear Halloween costumes are sometimes mistaken for monsters.
-
-Once upon a time--back in 1939, in New York City--
-science fiction and the U.S. Secret Service collided in
-a comic case of mistaken identity. This weird incident
-involved a literary group quite famous in science fiction,
-known as "the Futurians," whose membership included
-such future genre greats as Isaac Asimov, Frederik Pohl,
-and Damon Knight. The Futurians were every bit as
-offbeat and wacky as any of their spiritual descendants,
-including the cyberpunks, and were given to communal living,
-spontaneous group renditions of light opera, and midnight fencing
-exhibitions on the lawn. The Futurians didn't have bulletin
-board systems, but they did have the technological equivalent
-in 1939--mimeographs and a private printing press. These were
-in steady use, producing a stream of science-fiction fan magazines,
-literary manifestos, and weird articles, which were picked up
-in ink-sticky bundles by a succession of strange, gangly,
-spotty young men in fedoras and overcoats.
-
-The neighbors grew alarmed at the antics of the Futurians
-and reported them to the Secret Service as suspected counterfeiters.
-In the winter of 1939, a squad of USSS agents with drawn guns burst into
-"Futurian House," prepared to confiscate the forged currency and illicit
-printing presses. There they discovered a slumbering science fiction fan
-named George Hahn, a guest of the Futurian commune who had just arrived
-in New York. George Hahn managed to explain himself and his group,
-and the Secret Service agents left the Futurians in peace henceforth.
-(Alas, Hahn died in 1991, just before I had discovered this astonishing
-historical parallel, and just before I could interview him for this book.)
-
-But the Jackson case did not come to a swift and comic end.
-No quick answers came his way, or mine; no swift reassurances
-that all was right in the digital world, that matters were well
-in hand after all. Quite the opposite. In my alternate role
-as a sometime pop-science journalist, I interviewed Jackson
-and his staff for an article in a British magazine.
-The strange details of the raid left me more concerned than ever.
-Without its computers, the company had been financially
-and operationally crippled. Half the SJG workforce,
-a group of entirely innocent people, had been sorrowfully fired,
-deprived of their livelihoods by the seizure. It began to dawn on me
-that authors--American writers--might well have their computers seized,
-under sealed warrants, without any criminal charge; and that,
-as Steve Jackson had discovered, there was no immediate recourse for this.
-This was no joke; this wasn't science fiction; this was real.
-
-I determined to put science fiction aside until I had discovered
-what had happened and where this trouble had come from.
-It was time to enter the purportedly real world of electronic
-free expression and computer crime. Hence, this book.
-Hence, the world of the telcos; and the world of the digital underground;
-and next, the world of the police.
-
-
-
-PART THREE: LAW AND ORDER
-
-
-Of the various anti-hacker activities of 1990, "Operation Sundevil"
-had by far the highest public profile. The sweeping, nationwide
-computer seizures of May 8, 1990 were unprecedented in scope and highly,
-if rather selectively, publicized.
-
-Unlike the efforts of the Chicago Computer Fraud and Abuse Task Force,
-"Operation Sundevil" was not intended to combat "hacking" in the sense
-of computer intrusion or sophisticated raids on telco switching stations.
-Nor did it have anything to do with hacker misdeeds with AT&T's software,
-or with Southern Bell's proprietary documents.
-
-Instead, "Operation Sundevil" was a crackdown on those traditional scourges
-of the digital underground: credit-card theft and telephone code abuse.
-The ambitious activities out of Chicago, and the somewhat lesser-known
-but vigorous anti-hacker actions of the New York State Police in 1990,
-were never a part of "Operation Sundevil" per se, which was based in Arizona.
-
-Nevertheless, after the spectacular May 8 raids, the public, misled by
-police secrecy, hacker panic, and a puzzled national press-corps,
-conflated all aspects of the nationwide crackdown in 1990 under
-the blanket term "Operation Sundevil." "Sundevil" is still the best-known
-synonym for the crackdown of 1990. But the Arizona organizers of "Sundevil"
-did not really deserve this reputation--any more, for instance, than all
-hackers deserve a reputation as "hackers."
-
-There was some justice in this confused perception, though.
-For one thing, the confusion was abetted by the Washington office
-of the Secret Service, who responded to Freedom of Information Act
-requests on "Operation Sundevil" by referring investigators
-to the publicly known cases of Knight Lightning and the Atlanta Three.
-And "Sundevil" was certainly the largest aspect of the Crackdown,
-the most deliberate and the best-organized. As a crackdown on electronic
-fraud, "Sundevil" lacked the frantic pace of the war on the Legion of Doom;
-on the contrary, Sundevil's targets were picked out with cool deliberation
-over an elaborate investigation lasting two full years.
-
-And once again the targets were bulletin board systems.
-
-Boards can be powerful aids to organized fraud. Underground boards carry
-lively, extensive, detailed, and often quite flagrant "discussions" of
-lawbreaking techniques and lawbreaking activities. "Discussing" crime
-in the abstract, or "discussing" the particulars of criminal cases,
-is not illegal--but there are stern state and federal laws against
-coldbloodedly conspiring in groups in order to commit crimes.
-
-In the eyes of police, people who actively conspire to break the law
-are not regarded as "clubs," "debating salons," "users' groups," or
-"free speech advocates." Rather, such people tend to find themselves
-formally indicted by prosecutors as "gangs," "racketeers," "corrupt
-organizations" and "organized crime figures."
-
-What's more, the illicit data contained on outlaw boards goes well beyond
-mere acts of speech and/or possible criminal conspiracy. As we have seen,
-it was common practice in the digital underground to post purloined telephone
-codes on boards, for any phreak or hacker who cared to abuse them. Is posting
-digital booty of this sort supposed to be protected by the First Amendment?
-Hardly--though the issue, like most issues in cyberspace, is not entirely
-resolved. Some theorists argue that to merely RECITE a number publicly
-is not illegal--only its USE is illegal. But anti-hacker police point out
-that magazines and newspapers (more traditional forms of free expression)
-never publish stolen telephone codes (even though this might well
-raise their circulation).
-
-Stolen credit card numbers, being riskier and more valuable,
-were less often publicly posted on boards--but there is no question
-that some underground boards carried "carding" traffic,
-generally exchanged through private mail.
-
-Underground boards also carried handy programs for "scanning" telephone
-codes and raiding credit card companies, as well as the usual obnoxious
-galaxy of pirated software, cracked passwords, blue-box schematics,
-intrusion manuals, anarchy files, porn files, and so forth.
-
-But besides their nuisance potential for the spread of illicit knowledge,
-bulletin boards have another vitally interesting aspect for the
-professional investigator. Bulletin boards are cram-full of EVIDENCE.
-All that busy trading of electronic mail, all those hacker boasts,
-brags and struts, even the stolen codes and cards, can be neat,
-electronic, real-time recordings of criminal activity.
-As an investigator, when you seize a pirate board, you have
-scored a coup as effective as tapping phones or intercepting mail.
-However, you have not actually tapped a phone or intercepted a letter.
-The rules of evidence regarding phone-taps and mail interceptions are old,
-stern and well-understood by police, prosecutors and defense attorneys alike.
-The rules of evidence regarding boards are new, waffling, and understood
-by nobody at all.
-
-Sundevil was the largest crackdown on boards in world history.
-On May 7, 8, and 9, 1990, about forty-two computer systems were seized.
-Of those forty-two computers, about twenty-five actually were running boards.
-(The vagueness of this estimate is attributable to the vagueness of
-(a) what a "computer system" is, and (b) what it actually means to
-"run a board" with one--or with two computers, or with three.)
-
-About twenty-five boards vanished into police custody in May 1990.
-As we have seen, there are an estimated 30,000 boards in America today.
-If we assume that one board in a hundred is up to no good with codes
-and cards (which rather flatters the honesty of the board-using community),
-then that would leave 2,975 outlaw boards untouched by Sundevil.
-Sundevil seized about one tenth of one percent of all computer
-bulletin boards in America. Seen objectively, this is something less
-than a comprehensive assault. In 1990, Sundevil's organizers--
-the team at the Phoenix Secret Service office, and the Arizona
-Attorney General's office-- had a list of at least THREE HUNDRED
-boards that they considered fully deserving of search and seizure warrants.
-The twenty-five boards actually seized were merely among the most obvious
-and egregious of this much larger list of candidates. All these boards
-had been examined beforehand--either by informants, who had passed printouts
-to the Secret Service, or by Secret Service agents themselves, who not only
-come equipped with modems but know how to use them.
-
-There were a number of motives for Sundevil. First, it offered
-a chance to get ahead of the curve on wire-fraud crimes.
-Tracking back credit-card ripoffs to their perpetrators
-can be appallingly difficult. If these miscreants
-have any kind of electronic sophistication, they can snarl
-their tracks through the phone network into a mind-boggling,
-untraceable mess, while still managing to "reach out and rob someone."
-Boards, however, full of brags and boasts, codes and cards,
-offer evidence in the handy congealed form.
-
-Seizures themselves--the mere physical removal of machines--
-tends to take the pressure off. During Sundevil, a large number
-of code kids, warez d00dz, and credit card thieves would be deprived
-of those boards--their means of community and conspiracy--in one swift blow.
-As for the sysops themselves (commonly among the boldest offenders)
-they would be directly stripped of their computer equipment,
-and rendered digitally mute and blind.
-
-And this aspect of Sundevil was carried out with great success.
-Sundevil seems to have been a complete tactical surprise--
-unlike the fragmentary and continuing seizures of the war on the
-Legion of Doom, Sundevil was precisely timed and utterly overwhelming.
-At least forty "computers" were seized during May 7, 8 and 9, 1990,
-in Cincinnati, Detroit, Los Angeles, Miami, Newark, Phoenix, Tucson,
-Richmond, San Diego, San Jose, Pittsburgh and San Francisco.
-Some cities saw multiple raids, such as the five separate raids
-in the New York City environs. Plano, Texas (essentially a suburb of
-the Dallas/Fort Worth metroplex, and a hub of the telecommunications industry)
-saw four computer seizures. Chicago, ever in the forefront, saw its own
-local Sundevil raid, briskly carried out by Secret Service agents
-Timothy Foley and Barbara Golden.
-
-Many of these raids occurred, not in the cities proper,
-but in associated white-middle class suburbs--places like
-Mount Lebanon, Pennsylvania and Clark Lake, Michigan.
-There were a few raids on offices; most took place in people's homes,
-the classic hacker basements and bedrooms.
-
-The Sundevil raids were searches and seizures, not a group of mass arrests.
-There were only four arrests during Sundevil. "Tony the Trashman,"
-a longtime teenage bete noire of the Arizona Racketeering unit,
-was arrested in Tucson on May 9. "Dr. Ripco," sysop of an outlaw board
-with the misfortune to exist in Chicago itself, was also arrested--
-on illegal weapons charges. Local units also arrested a 19-year-old
-female phone phreak named "Electra" in Pennsylvania, and a male juvenile
-in California. Federal agents however were not seeking arrests, but computers.
-
-Hackers are generally not indicted (if at all) until the evidence
-in their seized computers is evaluated--a process that can take weeks,
-months--even years. When hackers are arrested on the spot, it's generally
-an arrest for other reasons. Drugs and/or illegal weapons show up in a good
-third of anti-hacker computer seizures (though not during Sundevil).
-
-That scofflaw teenage hackers (or their parents) should have marijuana
-in their homes is probably not a shocking revelation, but the surprisingly
-common presence of illegal firearms in hacker dens is a bit disquieting.
-A Personal Computer can be a great equalizer for the techno-cowboy--
-much like that more traditional American "Great Equalizer,"
-the Personal Sixgun. Maybe it's not all that surprising
-that some guy obsessed with power through illicit technology
-would also have a few illicit high-velocity-impact devices around.
-An element of the digital underground particularly dotes on those
-"anarchy philes," and this element tends to shade into the crackpot milieu
-of survivalists, gun-nuts, anarcho-leftists and the ultra-libertarian
-right-wing.
-
-This is not to say that hacker raids to date have uncovered any
-major crack-dens or illegal arsenals; but Secret Service agents
-do not regard "hackers" as "just kids." They regard hackers as
-unpredictable people, bright and slippery. It doesn't help matters
-that the hacker himself has been "hiding behind his keyboard"
-all this time. Commonly, police have no idea what he looks like.
-This makes him an unknown quantity, someone best treated with
-proper caution.
-
-To date, no hacker has come out shooting, though they do sometimes brag on
-boards that they will do just that. Threats of this sort are taken seriously.
-Secret Service hacker raids tend to be swift, comprehensive, well-manned
-(even over-manned); and agents generally burst through every door
-in the home at once, sometimes with drawn guns. Any potential resistance
-is swiftly quelled. Hacker raids are usually raids on people's homes.
-It can be a very dangerous business to raid an American home;
-people can panic when strangers invade their sanctum. Statistically speaking,
-the most dangerous thing a policeman can do is to enter someone's home.
-(The second most dangerous thing is to stop a car in traffic.)
-People have guns in their homes. More cops are hurt in homes
-than are ever hurt in biker bars or massage parlors.
-
-But in any case, no one was hurt during Sundevil,
-or indeed during any part of the Hacker Crackdown.
-
-Nor were there any allegations of any physical mistreatment of a suspect.
-Guns were pointed, interrogations were sharp and prolonged; but no one
-in 1990 claimed any act of brutality by any crackdown raider.
-
-In addition to the forty or so computers, Sundevil reaped floppy disks
-in particularly great abundance--an estimated 23,000 of them, which
-naturally included every manner of illegitimate data: pirated games,
-stolen codes, hot credit card numbers, the complete text and software
-of entire pirate bulletin-boards. These floppy disks, which remain
-in police custody today, offer a gigantic, almost embarrassingly
-rich source of possible criminal indictments. These 23,000 floppy disks
-also include a thus-far unknown quantity of legitimate computer games,
-legitimate software, purportedly "private" mail from boards,
-business records, and personal correspondence of all kinds.
-
-Standard computer-crime search warrants lay great emphasis on seizing
-written documents as well as computers--specifically including photocopies,
-computer printouts, telephone bills, address books, logs, notes,
-memoranda and correspondence. In practice, this has meant that diaries,
-gaming magazines, software documentation, nonfiction books on hacking
-and computer security, sometimes even science fiction novels, have all
-vanished out the door in police custody. A wide variety of electronic items
-have been known to vanish as well, including telephones, televisions, answering
-machines, Sony Walkmans, desktop printers, compact disks, and audiotapes.
-
-No fewer than 150 members of the Secret Service were sent into
-the field during Sundevil. They were commonly accompanied by
-squads of local and/or state police. Most of these officers--
-especially the locals--had never been on an anti-hacker raid before.
-(This was one good reason, in fact, why so many of them were invited along
-in the first place.) Also, the presence of a uniformed police officer
-assures the raidees that the people entering their homes are, in fact, police.
-Secret Service agents wear plain clothes. So do the telco security experts
-who commonly accompany the Secret Service on raids (and who make no particular
-effort to identify themselves as mere employees of telephone companies).
-
-A typical hacker raid goes something like this. First, police storm in
-rapidly, through every entrance, with overwhelming force,
-in the assumption that this tactic will keep casualties to a minimum.
-Second, possible suspects are immediately removed from the vicinity
-of any and all computer systems, so that they will have no chance
-to purge or destroy computer evidence. Suspects are herded into a room
-without computers, commonly the living room, and kept under guard--
-not ARMED guard, for the guns are swiftly holstered, but under guard
-nevertheless. They are presented with the search warrant and warned
-that anything they say may be held against them. Commonly they have
-a great deal to say, especially if they are unsuspecting parents.
-
-Somewhere in the house is the "hot spot"--a computer tied to a phone
-line (possibly several computers and several phones). Commonly it's
-a teenager's bedroom, but it can be anywhere in the house;
-there may be several such rooms. This "hot spot" is put in charge
-of a two-agent team, the "finder" and the "recorder." The "finder"
-is computer-trained, commonly the case agent who has actually obtained
-the search warrant from a judge. He or she understands what is being sought,
-and actually carries out the seizures: unplugs machines, opens drawers,
-desks, files, floppy-disk containers, etc. The "recorder" photographs
-all the equipment, just as it stands--especially the tangle of
-wired connections in the back, which can otherwise be a real nightmare
-to restore. The recorder will also commonly photograph every room
-in the house, lest some wily criminal claim that the police had robbed him
-during the search. Some recorders carry videocams or tape recorders;
-however, it's more common for the recorder to simply take written notes.
-Objects are described and numbered as the finder seizes them, generally
-on standard preprinted police inventory forms.
-
-Even Secret Service agents were not, and are not, expert computer users.
-They have not made, and do not make, judgements on the fly about potential
-threats posed by various forms of equipment. They may exercise discretion;
-they may leave Dad his computer, for instance, but they don't HAVE to.
-Standard computer-crime search warrants, which date back to the early 80s,
-use a sweeping language that targets computers, most anything attached
-to a computer, most anything used to operate a computer--most anything
-that remotely resembles a computer--plus most any and all written documents
-surrounding it. Computer-crime investigators have strongly urged agents
-to seize the works.
-
-In this sense, Operation Sundevil appears to have been a complete success.
-Boards went down all over America, and were shipped en masse to the computer
-investigation lab of the Secret Service, in Washington DC, along with the
-23,000 floppy disks and unknown quantities of printed material.
-
-But the seizure of twenty-five boards, and the multi-megabyte mountains
-of possibly useful evidence contained in these boards (and in their owners'
-other computers, also out the door), were far from the only motives for
-Operation Sundevil. An unprecedented action of great ambition and size,
-Sundevil's motives can only be described as political. It was a
-public-relations effort, meant to pass certain messages, meant to make
-certain situations clear: both in the mind of the general public,
-and in the minds of various constituencies of the electronic community.
-
- First --and this motivation was vital--a "message" would be sent from
-law enforcement to the digital underground. This very message was recited
-in so many words by Garry M. Jenkins, the Assistant Director of the
-US Secret Service, at the Sundevil press conference in Phoenix on
-May 9, 1990, immediately after the raids. In brief, hackers were
-mistaken in their foolish belief that they could hide behind the
-"relative anonymity of their computer terminals." On the contrary,
-they should fully understand that state and federal cops were
-actively patrolling the beat in cyberspace--that they were
-on the watch everywhere, even in those sleazy and secretive
-dens of cybernetic vice, the underground boards.
-
-This is not an unusual message for police to publicly convey to crooks.
-The message is a standard message; only the context is new.
-
-In this respect, the Sundevil raids were the digital equivalent
-of the standard vice-squad crackdown on massage parlors, porno bookstores,
-head-shops, or floating crap-games. There may be few or no arrests in a raid
-of this sort; no convictions, no trials, no interrogations. In cases of this
-sort, police may well walk out the door with many pounds of sleazy magazines,
-X-rated videotapes, sex toys, gambling equipment, baggies of marijuana. . . .
-
-Of course, if something truly horrendous is discovered by the raiders,
-there will be arrests and prosecutions. Far more likely, however,
-there will simply be a brief but sharp disruption of the closed
-and secretive world of the nogoodniks. There will be "street hassle."
-"Heat." "Deterrence." And, of course, the immediate loss of the seized goods.
-It is very unlikely that any of this seized material will ever be returned.
-Whether charged or not, whether convicted or not, the perpetrators will
-almost surely lack the nerve ever to ask for this stuff to be given back.
-
-Arrests and trials--putting people in jail--may involve all kinds of
-formal legalities; but dealing with the justice system is far from the only
-task of police. Police do not simply arrest people. They don't simply
-put people in jail. That is not how the police perceive their jobs.
-Police "protect and serve." Police "keep the peace," they "keep public order."
-Like other forms of public relations, keeping public order is not an
-exact science. Keeping public order is something of an art-form.
-
-If a group of tough-looking teenage hoodlums was loitering on a street-corner,
-no one would be surprised to see a street-cop arrive and sternly order
-them to "break it up." On the contrary, the surprise would come if one
-of these ne'er-do-wells stepped briskly into a phone-booth,
-called a civil rights lawyer, and instituted a civil suit
-in defense of his Constitutional rights of free speech
-and free assembly. But something much along this line
-was one of the many anomolous outcomes of the Hacker Crackdown.
-
-Sundevil also carried useful "messages" for other constituents of
-the electronic community. These messages may not have been read
-aloud from the Phoenix podium in front of the press corps,
-but there was little mistaking their meaning. There was a message
-of reassurance for the primary victims of coding and carding:
-the telcos, and the credit companies. Sundevil was greeted with joy
-by the security officers of the electronic business community.
-After years of high-tech harassment and spiralling revenue losses,
-their complaints of rampant outlawry were being taken seriously by
-law enforcement. No more head-scratching or dismissive shrugs;
-no more feeble excuses about "lack of computer-trained officers" or
-the low priority of "victimless" white-collar telecommunication crimes.
-
-Computer-crime experts have long believed that computer-related offenses
-are drastically under-reported. They regard this as a major open scandal
-of their field. Some victims are reluctant to come forth, because they
-believe that police and prosecutors are not computer-literate,
-and can and will do nothing. Others are embarrassed by
-their vulnerabilities, and will take strong measures
-to avoid any publicity; this is especially true of banks,
-who fear a loss of investor confidence should an embezzlement-case
-or wire-fraud surface. And some victims are so helplessly confused
-by their own high technology that they never even realize that
-a crime has occurred--even when they have been fleeced to the bone.
-
-The results of this situation can be dire.
-Criminals escape apprehension and punishment.
-The computer-crime units that do exist, can't get work.
-The true scope of computer-crime: its size, its real nature,
-the scope of its threats, and the legal remedies for it--
-all remain obscured.
-
-Another problem is very little publicized, but it is a cause
-of genuine concern. Where there is persistent crime,
-but no effective police protection, then vigilantism can result.
-Telcos, banks, credit companies, the major corporations who
-maintain extensive computer networks vulnerable to hacking
---these organizations are powerful, wealthy, and
-politically influential. They are disinclined to be
-pushed around by crooks (or by most anyone else,
-for that matter). They often maintain well-organized
-private security forces, commonly run by
-experienced veterans of military and police units,
-who have left public service for the greener pastures
-of the private sector. For police, the corporate
-security manager can be a powerful ally; but if this
-gentleman finds no allies in the police, and the
-pressure is on from his board-of-directors,
-he may quietly take certain matters into his own hands.
-
-Nor is there any lack of disposable hired-help in the
-corporate security business. Private security agencies--
-the `security business' generally--grew explosively in the 1980s.
-Today there are spooky gumshoed armies of "security consultants,"
-"rent-a- cops," "private eyes," "outside experts"--every manner
-of shady operator who retails in "results" and discretion.
-Or course, many of these gentlemen and ladies may be paragons
-of professional and moral rectitude. But as anyone
-who has read a hard-boiled detective novel knows,
-police tend to be less than fond of this sort
-of private-sector competition.
-
-Companies in search of computer-security have even been
-known to hire hackers. Police shudder at this prospect.
-
-Police treasure good relations with the business community.
-Rarely will you see a policeman so indiscreet as to allege
-publicly that some major employer in his state or city has succumbed
-to paranoia and gone off the rails. Nevertheless,
-police --and computer police in particular--are aware
-of this possibility. Computer-crime police can and do
-spend up to half of their business hours just doing
-public relations: seminars, "dog and pony shows,"
-sometimes with parents' groups or computer users,
-but generally with their core audience: the likely
-victims of hacking crimes. These, of course, are telcos,
-credit card companies and large computer-equipped corporations.
-The police strongly urge these people, as good citizens,
-to report offenses and press criminal charges;
-they pass the message that there is someone in authority who cares,
-understands, and, best of all, will take useful action
-should a computer-crime occur.
-
-But reassuring talk is cheap. Sundevil offered action.
-
-The final message of Sundevil was intended for internal consumption
-by law enforcement. Sundevil was offered as proof that the community
-of American computer-crime police had come of age. Sundevil was
-proof that enormous things like Sundevil itself could now be accomplished.
-Sundevil was proof that the Secret Service and its local law-enforcement
-allies could act like a well-oiled machine--(despite the hampering use
-of those scrambled phones). It was also proof that the Arizona Organized
-Crime and Racketeering Unit--the sparkplug of Sundevil--ranked with the best
-in the world in ambition, organization, and sheer conceptual daring.
-
-And, as a final fillip, Sundevil was a message from the Secret Service
-to their longtime rivals in the Federal Bureau of Investigation.
-By Congressional fiat, both USSS and FBI formally share jurisdiction
-over federal computer-crimebusting activities. Neither of these groups
-has ever been remotely happy with this muddled situation. It seems to
-suggest that Congress cannot make up its mind as to which of these groups
-is better qualified. And there is scarcely a G-man or a Special Agent
-anywhere without a very firm opinion on that topic.
-
-#
-
-For the neophyte, one of the most puzzling aspects of the crackdown
-on hackers is why the United States Secret Service has anything at all
-to do with this matter.
-
-The Secret Service is best known for its primary public role:
-its agents protect the President of the United States.
-They also guard the President's family, the Vice President and his family,
-former Presidents, and Presidential candidates. They sometimes guard
-foreign dignitaries who are visiting the United States, especially foreign
-heads of state, and have been known to accompany American officials
-on diplomatic missions overseas.
-
-Special Agents of the Secret Service don't wear uniforms, but the
-Secret Service also has two uniformed police agencies. There's the
-former White House Police (now known as the Secret Service Uniformed Division,
-since they currently guard foreign embassies in Washington, as well as the
-White House itself). And there's the uniformed Treasury Police Force.
-
-The Secret Service has been charged by Congress with a number
-of little-known duties. They guard the precious metals in Treasury vaults.
-They guard the most valuable historical documents of the United States:
-originals of the Constitution, the Declaration of Independence,
-Lincoln's Second Inaugural Address, an American-owned copy of
-the Magna Carta, and so forth. Once they were assigned to guard
-the Mona Lisa, on her American tour in the 1960s.
-
-The entire Secret Service is a division of the Treasury Department.
-Secret Service Special Agents (there are about 1,900 of them)
-are bodyguards for the President et al, but they all work for the Treasury.
-And the Treasury (through its divisions of the U.S. Mint and the
-Bureau of Engraving and Printing) prints the nation's money.
-
-As Treasury police, the Secret Service guards the nation's currency;
-it is the only federal law enforcement agency with direct jurisdiction
-over counterfeiting and forgery. It analyzes documents for authenticity,
-and its fight against fake cash is still quite lively (especially since
-the skilled counterfeiters of Medellin, Columbia have gotten into the act).
-Government checks, bonds, and other obligations, which exist in untold
-millions and are worth untold billions, are common targets for forgery,
-which the Secret Service also battles. It even handles forgery
-of postage stamps.
-
-But cash is fading in importance today as money has become electronic.
-As necessity beckoned, the Secret Service moved from fighting the
-counterfeiting of paper currency and the forging of checks,
-to the protection of funds transferred by wire.
-
-From wire-fraud, it was a simple skip-and-jump to what is formally
-known as "access device fraud." Congress granted the Secret Service
-the authority to investigate "access device fraud" under Title 18
-of the United States Code (U.S.C. Section 1029).
-
-The term "access device" seems intuitively simple. It's some kind
-of high-tech gizmo you use to get money with. It makes good sense
-to put this sort of thing in the charge of counterfeiting and
-wire-fraud experts.
-
-However, in Section 1029, the term "access device" is very
-generously defined. An access device is: "any card, plate,
-code, account number, or other means of account access
-that can be used, alone or in conjunction with another access device,
-to obtain money, goods, services, or any other thing of value,
-or that can be used to initiate a transfer of funds."
-
-"Access device" can therefore be construed to include credit cards
-themselves (a popular forgery item nowadays). It also includes credit card
-account NUMBERS, those standards of the digital underground. The same goes
-for telephone charge cards (an increasingly popular item with telcos,
-who are tired of being robbed of pocket change by phone-booth thieves).
-And also telephone access CODES, those OTHER standards of the digital
-underground. (Stolen telephone codes may not "obtain money," but they
-certainly do obtain valuable "services," which is specifically forbidden
-by Section 1029.)
-
-We can now see that Section 1029 already pits the United States Secret Service
-directly against the digital underground, without any mention at all of
-the word "computer."
-
-Standard phreaking devices, like "blue boxes," used to steal phone service
-from old-fashioned mechanical switches, are unquestionably "counterfeit
-access devices." Thanks to Sec.1029, it is not only illegal to USE
-counterfeit access devices, but it is even illegal to BUILD them.
-"Producing," "designing" "duplicating" or "assembling" blue boxes
-are all federal crimes today, and if you do this, the Secret Service
-has been charged by Congress to come after you.
-
-Automatic Teller Machines, which replicated all over America during the 1980s,
-are definitely "access devices," too, and an attempt to tamper with their
-punch-in codes and plastic bank cards falls directly under Sec. 1029.
-
-Section 1029 is remarkably elastic. Suppose you find a computer password
-in somebody's trash. That password might be a "code"--it's certainly a
-"means of account access." Now suppose you log on to a computer
-and copy some software for yourself. You've certainly obtained
-"service" (computer service) and a "thing of value" (the software).
-Suppose you tell a dozen friends about your swiped password,
-and let them use it, too. Now you're "trafficking in unauthorized
-access devices." And when the Prophet, a member of the Legion of Doom,
-passed a stolen telephone company document to Knight Lightning
-at Phrack magazine, they were both charged under Sec. 1029!
-
-There are two limitations on Section 1029. First, the offense must
-"affect interstate or foreign commerce" in order to become a matter
-of federal jurisdiction. The term "affecting commerce" is not well defined;
-but you may take it as a given that the Secret Service can take an interest
-if you've done most anything that happens to cross a state line.
-State and local police can be touchy about their jurisdictions,
-and can sometimes be mulish when the feds show up. But when it comes
-to computer-crime, the local police are pathetically grateful
-for federal help--in fact they complain that they can't get enough of it.
-If you're stealing long-distance service, you're almost certainly crossing
-state lines, and you're definitely "affecting the interstate commerce"
-of the telcos. And if you're abusing credit cards by ordering stuff
-out of glossy catalogs from, say, Vermont, you're in for it.
-
-The second limitation is money. As a rule, the feds don't pursue
-penny-ante offenders. Federal judges will dismiss cases that appear
-to waste their time. Federal crimes must be serious; Section 1029
-specifies a minimum loss of a thousand dollars.
-
-We now come to the very next section of Title 18, which is Section 1030,
-"Fraud and related activity in connection with computers." This statute
-gives the Secret Service direct jurisdiction over acts of computer intrusion.
-On the face of it, the Secret Service would now seem to command the field.
-Section 1030, however, is nowhere near so ductile as Section 1029.
-
-The first annoyance is Section 1030(d), which reads:
-
-"(d) The United States Secret Service shall,
-IN ADDITION TO ANY OTHER AGENCY HAVING SUCH AUTHORITY,
-have the authority to investigate offenses under this section.
-Such authority of the United States Secret Service shall be
-exercised in accordance with an agreement which shall be entered
-into by the Secretary of the Treasury AND THE ATTORNEY GENERAL."
-(Author's italics.) [Represented by capitals.]
-
-The Secretary of the Treasury is the titular head of the Secret Service,
-while the Attorney General is in charge of the FBI. In Section (d),
-Congress shrugged off responsibility for the computer-crime turf-battle
-between the Service and the Bureau, and made them fight it out all
-by themselves. The result was a rather dire one for the Secret Service,
-for the FBI ended up with exclusive jurisdiction over computer break-ins
-having to do with national security, foreign espionage, federally insured
-banks, and U.S. military bases, while retaining joint jurisdiction over
-all the other computer intrusions. Essentially, when it comes to Section 1030,
-the FBI not only gets the real glamor stuff for itself, but can peer over the
-shoulder of the Secret Service and barge in to meddle whenever it suits them.
-
-The second problem has to do with the dicey term
-"Federal interest computer." Section 1030(a)(2)
-makes it illegal to "access a computer without authorization"
-if that computer belongs to a financial institution or an issuer
-of credit cards (fraud cases, in other words). Congress was quite
-willing to give the Secret Service jurisdiction over
-money-transferring computers, but Congress balked at
-letting them investigate any and all computer intrusions.
-Instead, the USSS had to settle for the money machines
-and the "Federal interest computers." A "Federal interest computer"
-is a computer which the government itself owns, or is using.
-Large networks of interstate computers, linked over state lines,
-are also considered to be of "Federal interest." (This notion of
-"Federal interest" is legally rather foggy and has never been
-clearly defined in the courts. The Secret Service has never yet
-had its hand slapped for investigating computer break-ins that were NOT
-of "Federal interest," but conceivably someday this might happen.)
-
-So the Secret Service's authority over "unauthorized access"
-to computers covers a lot of territory, but by no means the
-whole ball of cyberspatial wax. If you are, for instance,
-a LOCAL computer retailer, or the owner of a LOCAL bulletin
-board system, then a malicious LOCAL intruder can break in,
-crash your system, trash your files and scatter viruses,
-and the U.S. Secret Service cannot do a single thing about it.
-
-At least, it can't do anything DIRECTLY. But the Secret Service
-will do plenty to help the local people who can.
-
-The FBI may have dealt itself an ace off the bottom of the deck
-when it comes to Section 1030; but that's not the whole story;
-that's not the street. What's Congress thinks is one thing,
-and Congress has been known to change its mind. The REAL
-turf-struggle is out there in the streets where it's happening.
-If you're a local street-cop with a computer problem,
-the Secret Service wants you to know where you can find
-the real expertise. While the Bureau crowd are off having
-their favorite shoes polished--(wing-tips)--and making derisive
-fun of the Service's favorite shoes--("pansy-ass tassels")--
-the tassel-toting Secret Service has a crew of ready-and-able
-hacker-trackers installed in the capital of every state in the Union.
-Need advice? They'll give you advice, or at least point you in
-the right direction. Need training? They can see to that, too.
-
-If you're a local cop and you call in the FBI, the FBI
-(as is widely and slanderously rumored) will order you around
-like a coolie, take all the credit for your busts,
-and mop up every possible scrap of reflected glory.
-The Secret Service, on the other hand, doesn't brag a lot.
-They're the quiet types. VERY quiet. Very cool. Efficient.
-High-tech. Mirrorshades, icy stares, radio ear-plugs,
-an Uzi machine-pistol tucked somewhere in that well-cut jacket.
-American samurai, sworn to give their lives to protect our President.
-"The granite agents." Trained in martial arts, absolutely fearless.
-Every single one of 'em has a top-secret security clearance.
-Something goes a little wrong, you're not gonna hear any whining
-and moaning and political buck-passing out of these guys.
-
-The facade of the granite agent is not, of course, the reality.
-Secret Service agents are human beings. And the real glory
-in Service work is not in battling computer crime--not yet,
-anyway--but in protecting the President. The real glamour
-of Secret Service work is in the White House Detail.
-If you're at the President's side, then the kids and the wife
-see you on television; you rub shoulders with the most powerful
-people in the world. That's the real heart of Service work,
-the number one priority. More than one computer investigation
-has stopped dead in the water when Service agents vanished at
-the President's need.
-
-There's romance in the work of the Service. The intimate access
-to circles of great power; the esprit-de-corps of a highly trained
-and disciplined elite; the high responsibility of defending the
-Chief Executive; the fulfillment of a patriotic duty. And as police
-work goes, the pay's not bad. But there's squalor in Service work, too.
-You may get spat upon by protesters howling abuse--and if they get violent,
-if they get too close, sometimes you have to knock one of them down--
-discreetly.
-
-The real squalor in Service work is drudgery such as "the quarterlies,"
-traipsing out four times a year, year in, year out, to interview the various
-pathetic wretches, many of them in prisons and asylums, who have seen fit
-to threaten the President's life. And then there's the grinding stress
-of searching all those faces in the endless bustling crowds, looking for
-hatred, looking for psychosis, looking for the tight, nervous face
-of an Arthur Bremer, a Squeaky Fromme, a Lee Harvey Oswald.
-It's watching all those grasping, waving hands for sudden movements,
-while your ears strain at your radio headphone for the long-rehearsed
-cry of "Gun!"
-
-It's poring, in grinding detail, over the biographies of every rotten
-loser who ever shot at a President. It's the unsung work of the
-Protective Research Section, who study scrawled, anonymous death threats
-with all the meticulous tools of anti-forgery techniques.
-
-And it's maintaining the hefty computerized files on anyone
-who ever threatened the President's life. Civil libertarians
-have become increasingly concerned at the Government's use
-of computer files to track American citizens--but the
-Secret Service file of potential Presidential assassins,
-which has upward of twenty thousand names, rarely causes
-a peep of protest. If you EVER state that you intend to
-kill the President, the Secret Service will want to know
-and record who you are, where you are, what you are,
-and what you're up to. If you're a serious threat--
-if you're officially considered "of protective interest"--
-then the Secret Service may well keep tabs on you
-for the rest of your natural life.
-
-Protecting the President has first call on all the Service's resources.
-But there's a lot more to the Service's traditions and history than
-standing guard outside the Oval Office.
-
-The Secret Service is the nation's oldest general federal
-law-enforcement agency. Compared to the Secret Service,
-the FBI are new-hires and the CIA are temps. The Secret Service
-was founded 'way back in 1865, at the suggestion of Hugh McCulloch,
-Abraham Lincoln's Secretary of the Treasury. McCulloch wanted
-a specialized Treasury police to combat counterfeiting.
-Abraham Lincoln agreed that this seemed a good idea, and,
-with a terrible irony, Abraham Lincoln was shot that
-very night by John Wilkes Booth.
-
-The Secret Service originally had nothing to do with protecting Presidents.
-They didn't take this on as a regular assignment until after the Garfield
-assassination in 1881. And they didn't get any Congressional money for it
-until President McKinley was shot in 1901. The Service was originally
-designed for one purpose: destroying counterfeiters.
-
-#
-
-There are interesting parallels between the Service's
-nineteenth-century entry into counterfeiting,
-and America's twentieth-century entry into computer-crime.
-
-In 1865, America's paper currency was a terrible muddle.
-Security was drastically bad. Currency was printed on the spot
-by local banks in literally hundreds of different designs.
-No one really knew what the heck a dollar bill was supposed to look like.
-Bogus bills passed easily. If some joker told you that a one-dollar bill
-from the Railroad Bank of Lowell, Massachusetts had a woman leaning on
-a shield, with a locomotive, a cornucopia, a compass, various agricultural
-implements, a railroad bridge, and some factories, then you pretty much had
-to take his word for it. (And in fact he was telling the truth!)
-
-SIXTEEN HUNDRED local American banks designed and printed their own
-paper currency, and there were no general standards for security.
-Like a badly guarded node in a computer network, badly designed bills
-were easy to fake, and posed a security hazard for the entire monetary system.
-
-No one knew the exact extent of the threat to the currency.
-There were panicked estimates that as much as a third of
-the entire national currency was faked. Counterfeiters--
-known as "boodlers" in the underground slang of the time--
-were mostly technically skilled printers who had gone to the bad.
-Many had once worked printing legitimate currency.
-Boodlers operated in rings and gangs. Technical experts
-engraved the bogus plates--commonly in basements in New York City.
-Smooth confidence men passed large wads of high-quality,
-high-denomination fakes, including the really sophisticated stuff--
-government bonds, stock certificates, and railway shares.
-Cheaper, botched fakes were sold or sharewared to low-level
-gangs of boodler wannabes. (The really cheesy lowlife boodlers
-merely upgraded real bills by altering face values,
-changing ones to fives, tens to hundreds, and so on.)
-
-The techniques of boodling were little-known and regarded
-with a certain awe by the mid- nineteenth-century public.
-The ability to manipulate the system for rip-off seemed
-diabolically clever. As the skill and daring of the
-boodlers increased, the situation became intolerable.
-The federal government stepped in, and began offering
-its own federal currency, which was printed in fancy green ink,
-but only on the back--the original "greenbacks." And at first,
-the improved security of the well-designed, well-printed
-federal greenbacks seemed to solve the problem; but then
-the counterfeiters caught on. Within a few years things were
-worse than ever: a CENTRALIZED system where ALL security was bad!
-
-The local police were helpless. The Government tried offering
-blood money to potential informants, but this met with little success.
-Banks, plagued by boodling, gave up hope of police help and hired
-private security men instead. Merchants and bankers queued up
-by the thousands to buy privately-printed manuals on currency security,
-slim little books like Laban Heath's INFALLIBLE GOVERNMENT
-COUNTERFEIT DETECTOR. The back of the book offered Laban Heath's
-patent microscope for five bucks.
-
-Then the Secret Service entered the picture. The first agents
-were a rough and ready crew. Their chief was one William P. Wood,
-a former guerilla in the Mexican War who'd won a reputation busting
-contractor fraudsters for the War Department during the Civil War.
-Wood, who was also Keeper of the Capital Prison, had a sideline
-as a counterfeiting expert, bagging boodlers for the federal bounty money.
-
-Wood was named Chief of the new Secret Service in July 1865.
-There were only ten Secret Service agents in all: Wood himself,
-a handful who'd worked for him in the War Department, and a few
-former private investigators--counterfeiting experts--whom Wood
-had won over to public service. (The Secret Service of 1865 was
-much the size of the Chicago Computer Fraud Task Force or the
-Arizona Racketeering Unit of 1990.) These ten "Operatives"
-had an additional twenty or so "Assistant Operatives" and "Informants."
-Besides salary and per diem, each Secret Service employee received
-a whopping twenty-five dollars for each boodler he captured.
-
-Wood himself publicly estimated that at least HALF of America's currency
-was counterfeit, a perhaps pardonable perception. Within a year the
-Secret Service had arrested over 200 counterfeiters. They busted about
-two hundred boodlers a year for four years straight.
-
-Wood attributed his success to travelling fast and light, hitting the
-bad-guys hard, and avoiding bureaucratic baggage. "Because my raids
-were made without military escort and I did not ask the assistance
-of state officers, I surprised the professional counterfeiter."
-
-Wood's social message to the once-impudent boodlers bore an eerie ring
-of Sundevil: "It was also my purpose to convince such characters that
-it would no longer be healthy for them to ply their vocation without
-being handled roughly, a fact they soon discovered."
-
-William P. Wood, the Secret Service's guerilla pioneer,
-did not end well. He succumbed to the lure of aiming for
-the really big score. The notorious Brockway Gang of New York City,
-headed by William E. Brockway, the "King of the Counterfeiters,"
-had forged a number of government bonds. They'd passed these
-brilliant fakes on the prestigious Wall Street investment
-firm of Jay Cooke and Company. The Cooke firm were frantic
-and offered a huge reward for the forgers' plates.
-
-Laboring diligently, Wood confiscated the plates
-(though not Mr. Brockway) and claimed the reward.
-But the Cooke company treacherously reneged.
-Wood got involved in a down-and-dirty lawsuit
-with the Cooke capitalists. Wood's boss,
-Secretary of the Treasury McCulloch, felt that
-Wood's demands for money and glory were unseemly,
-and even when the reward money finally came through,
-McCulloch refused to pay Wood anything.
-Wood found himself mired in a seemingly endless
-round of federal suits and Congressional lobbying.
-
-Wood never got his money. And he lost his job to boot.
-He resigned in 1869.
-
-Wood's agents suffered, too. On May 12, 1869, the second Chief
-of the Secret Service took over, and almost immediately fired
-most of Wood's pioneer Secret Service agents: Operatives,
-Assistants and Informants alike. The practice of receiving $25
-per crook was abolished. And the Secret Service began the long,
-uncertain process of thorough professionalization.
-
-Wood ended badly. He must have felt stabbed in the back.
-In fact his entire organization was mangled.
-
-On the other hand, William P. Wood WAS the first head of the Secret Service.
-William Wood was the pioneer. People still honor his name. Who remembers
-the name of the SECOND head of the Secret Service?
-
-As for William Brockway (also known as "Colonel Spencer"),
-he was finally arrested by the Secret Service in 1880.
-He did five years in prison, got out, and was still boodling
-at the age of seventy-four.
-
-#
-
-Anyone with an interest in Operation Sundevil--
-or in American computer-crime generally--
-could scarcely miss the presence of Gail Thackeray,
-Assistant Attorney General of the State of Arizona.
-Computer-crime training manuals often cited
-Thackeray's group and her work; she was the
-highest-ranking state official to specialize
-in computer-related offenses. Her name had been
-on the Sundevil press release (though modestly ranked
-well after the local federal prosecuting attorney and
-the head of the Phoenix Secret Service office).
-
-As public commentary, and controversy, began to mount
-about the Hacker Crackdown, this Arizonan state official
-began to take a higher and higher public profile.
-Though uttering almost nothing specific about
-the Sundevil operation itself, she coined some
-of the most striking soundbites of the growing propaganda war:
-"Agents are operating in good faith, and I don't think
-you can say that for the hacker community," was one.
-Another was the memorable "I am not a mad dog prosecutor"
-(Houston Chronicle, Sept 2, 1990.) In the meantime,
-the Secret Service maintained its usual extreme discretion;
-the Chicago Unit, smarting from the backlash
-of the Steve Jackson scandal, had gone completely to earth.
-
-As I collated my growing pile of newspaper clippings,
-Gail Thackeray ranked as a comparative fount of public
-knowledge on police operations.
-
-I decided that I had to get to know Gail Thackeray.
-I wrote to her at the Arizona Attorney General's Office.
-Not only did she kindly reply to me, but, to my astonishment,
-she knew very well what "cyberpunk" science fiction was.
-
-Shortly after this, Gail Thackeray lost her job.
-And I temporarily misplaced my own career as
-a science-fiction writer, to become a full-time
-computer-crime journalist. In early March, 1991,
-I flew to Phoenix, Arizona, to interview Gail Thackeray
-for my book on the hacker crackdown.
-
-#
-
-"Credit cards didn't used to cost anything to get,"
-says Gail Thackeray. "Now they cost forty bucks--
-and that's all just to cover the costs from RIP-OFF ARTISTS."
-
-Electronic nuisance criminals are parasites.
-One by one they're not much harm, no big deal.
-But they never come just one by one. They come in swarms,
-heaps, legions, sometimes whole subcultures. And they bite.
-Every time we buy a credit card today, we lose a little financial
-vitality to a particular species of bloodsucker.
-
-What, in her expert opinion, are the worst forms of electronic crime,
-I ask, consulting my notes. Is it--credit card fraud? Breaking into
-ATM bank machines? Phone-phreaking? Computer intrusions?
-Software viruses? Access-code theft? Records tampering?
-Software piracy? Pornographic bulletin boards?
-Satellite TV piracy? Theft of cable service?
-It's a long list. By the time I reach the end
-of it I feel rather depressed.
-
-"Oh no," says Gail Thackeray, leaning forward over the table,
-her whole body gone stiff with energetic indignation,
-"the biggest damage is telephone fraud. Fake sweepstakes,
-fake charities. Boiler-room con operations. You could pay off
-the national debt with what these guys steal. . . .
-They target old people, they get hold of credit ratings
-and demographics, they rip off the old and the weak."
-The words come tumbling out of her.
-
-It's low-tech stuff, your everyday boiler-room fraud.
-Grifters, conning people out of money over the phone,
-have been around for decades. This is where the word "phony" came from!
-
-It's just that it's so much EASIER now, horribly facilitated by advances
-in technology and the byzantine structure of the modern phone system.
-The same professional fraudsters do it over and over, Thackeray tells me,
-they hide behind dense onion-shells of fake companies. . . fake holding
-corporations nine or ten layers deep, registered all over the map.
-They get a phone installed under a false name in an empty safe-house.
-And then they call-forward everything out of that phone to yet
-another phone, a phone that may even be in another STATE.
-And they don't even pay the charges on their phones;
-after a month or so, they just split; set up somewhere else
-in another Podunkville with the same seedy crew of veteran phone-crooks.
-They buy or steal commercial credit card reports, slap them on the PC,
-have a program pick out people over sixty-five who pay a lot to charities.
-A whole subculture living off this, merciless folks on the con.
-
-"The `light-bulbs for the blind' people," Thackeray muses,
-with a special loathing. "There's just no end to them."
-
-We're sitting in a downtown diner in Phoenix, Arizona.
-It's a tough town, Phoenix. A state capital seeing some hard times.
-Even to a Texan like myself, Arizona state politics seem rather baroque.
-There was, and remains, endless trouble over the Martin Luther King holiday,
-the sort of stiff-necked, foot-shooting incident for which Arizona politics
-seem famous. There was Evan Mecham, the eccentric Republican millionaire
-governor who was impeached, after reducing state government to a
-ludicrous shambles. Then there was the national Keating scandal,
-involving Arizona savings and loans, in which both of Arizona's
-U.S. senators, DeConcini and McCain, played sadly prominent roles.
-
-And the very latest is the bizarre AzScam case,
-in which state legislators were videotaped,
-eagerly taking cash from an informant of the Phoenix city
-police department, who was posing as a Vegas mobster.
-
-"Oh," says Thackeray cheerfully. "These people are amateurs here,
-they thought they were finally getting to play with the big boys.
-They don't have the least idea how to take a bribe!
-It's not institutional corruption. It's not like back in Philly."
-
-Gail Thackeray was a former prosecutor in Philadelphia.
-Now she's a former assistant attorney general of the State of Arizona.
-Since moving to Arizona in 1986, she had worked under the aegis
-of Steve Twist, her boss in the Attorney General's office.
-Steve Twist wrote Arizona's pioneering computer crime laws
-and naturally took an interest in seeing them enforced.
-It was a snug niche, and Thackeray's Organized Crime and
-Racketeering Unit won a national reputation for ambition
-and technical knowledgeability. . . . Until the latest
-election in Arizona. Thackeray's boss ran for the top
-job, and lost. The victor, the new Attorney General,
-apparently went to some pains to eliminate the bureaucratic
-traces of his rival, including his pet group--Thackeray's group.
-Twelve people got their walking papers.
-
-Now Thackeray's painstakingly assembled computer lab
-sits gathering dust somewhere in the glass-and-concrete
-Attorney General's HQ on 1275 Washington Street.
-Her computer-crime books, her painstakingly garnered
-back issues of phreak and hacker zines, all bought
-at her own expense--are piled in boxes somewhere.
-The State of Arizona is simply not particularly
-interested in electronic racketeering at the moment.
-
-At the moment of our interview, Gail Thackeray,
-officially unemployed, is working out of the county
-sheriff's office, living on her savings, and prosecuting
-several cases--working 60-hour weeks, just as always--
-for no pay at all. "I'm trying to train people,"
-she mutters.
-
-Half her life seems to be spent training people--merely pointing out,
-to the naive and incredulous (such as myself) that this stuff
-is ACTUALLY GOING ON OUT THERE. It's a small world, computer crime.
-A young world. Gail Thackeray, a trim blonde Baby-Boomer who favors
-Grand Canyon white-water rafting to kill some slow time,
-is one of the world's most senior, most veteran "hacker-trackers."
-Her mentor was Donn Parker, the California think-tank theorist
-who got it all started `way back in the mid-70s, the "grandfather
-of the field," "the great bald eagle of computer crime."
-
-And what she has learned, Gail Thackeray teaches. Endlessly.
-Tirelessly. To anybody. To Secret Service agents and state police,
-at the Glynco, Georgia federal training center. To local police,
-on "roadshows" with her slide projector and notebook.
-To corporate security personnel. To journalists. To parents.
-
-Even CROOKS look to Gail Thackeray for advice.
-Phone-phreaks call her at the office. They know very
-well who she is. They pump her for information
-on what the cops are up to, how much they know.
-Sometimes whole CROWDS of phone phreaks,
-hanging out on illegal conference calls, will call Gail
-Thackeray up. They taunt her. And, as always,
-they boast. Phone-phreaks, real stone phone-phreaks,
-simply CANNOT SHUT UP. They natter on for hours.
-
-Left to themselves, they mostly talk about the intricacies
-of ripping-off phones; it's about as interesting as listening
-to hot-rodders talk about suspension and distributor-caps.
-They also gossip cruelly about each other. And when talking
-to Gail Thackeray, they incriminate themselves. "I have tapes,"
-Thackeray says coolly.
-
-Phone phreaks just talk like crazy. "Dial-Tone" out in Alabama
-has been known to spend half-an-hour simply reading stolen
-phone-codes aloud into voice-mail answering machines.
-Hundreds, thousands of numbers, recited in a monotone,
-without a break--an eerie phenomenon. When arrested,
-it's a rare phone phreak who doesn't inform at endless length
-on everybody he knows.
-
-Hackers are no better. What other group of criminals,
-she asks rhetorically, publishes newsletters and holds conventions?
-She seems deeply nettled by the sheer brazenness of this behavior,
-though to an outsider, this activity might make one wonder
-whether hackers should be considered "criminals" at all.
-Skateboarders have magazines, and they trespass a lot.
-Hot rod people have magazines and they break speed limits
-and sometimes kill people. . . .
-
-I ask her whether it would be any loss to society if phone phreaking
-and computer hacking, as hobbies, simply dried up and blew away,
-so that nobody ever did it again.
-
-She seems surprised. "No," she says swiftly. "Maybe a little. . .
-in the old days. . .the MIT stuff. . . . But there's a lot of wonderful,
-legal stuff you can do with computers now, you don't have to break into
-somebody else's just to learn. You don't have that excuse.
-You can learn all you like."
-
-Did you ever hack into a system? I ask.
-
-The trainees do it at Glynco. Just to demonstrate system vulnerabilities.
-She's cool to the notion. Genuinely indifferent.
-
-"What kind of computer do you have?"
-
-"A Compaq 286LE," she mutters.
-
-"What kind do you WISH you had?"
-
-At this question, the unmistakable light of true hackerdom flares in
-Gail Thackeray's eyes. She becomes tense, animated, the words pour out:
-"An Amiga 2000 with an IBM card and Mac emulation! The most common hacker
-machines are Amigas and Commodores. And Apples." If she had the Amiga,
-she enthuses, she could run a whole galaxy of seized computer-evidence disks
-on one convenient multifunctional machine. A cheap one, too. Not like the
-old Attorney General lab, where they had an ancient CP/M machine,
-assorted Amiga flavors and Apple flavors, a couple IBMS, all the
-utility software. . .but no Commodores. The workstations down
-at the Attorney General's are Wang dedicated word-processors.
-Lame machines tied in to an office net--though at least they get
-on- line to the Lexis and Westlaw legal data services.
-
-I don't say anything. I recognize the syndrome, though.
-This computer-fever has been running through segments of
-our society for years now. It's a strange kind of lust:
-K-hunger, Meg-hunger; but it's a shared disease;
-it can kill parties dead, as conversation spirals into
-the deepest and most deviant recesses of software releases
-and expensive peripherals. . . . The mark of the hacker beast.
-I have it too. The whole "electronic community," whatever the hell
-that is, has it. Gail Thackeray has it. Gail Thackeray is a hacker cop.
-My immediate reaction is a strong rush of indignant pity:
-WHY DOESN'T SOMEBODY BUY THIS WOMAN HER AMIGA?!
-It's not like she's asking for a Cray X-MP
-supercomputer mainframe; an Amiga's a sweet little
-cookie-box thing. We're losing zillions in organized fraud;
-prosecuting and defending a single hacker case in court can cost
-a hundred grand easy. How come nobody can come up with four lousy grand
-so this woman can do her job? For a hundred grand we could buy every
-computer cop in America an Amiga. There aren't that many of 'em.
-
-Computers. The lust, the hunger, for computers.
-The loyalty they inspire, the intense sense of possessiveness.
-The culture they have bred. I myself am sitting in downtown Phoenix,
-Arizona because it suddenly occurred to me that the police might--
-just MIGHT--come and take away my computer. The prospect of this,
-the mere IMPLIED THREAT, was unbearable. It literally changed my life.
-It was changing the lives of many others. Eventually it would change
-everybody's life.
-
-Gail Thackeray was one of the top computer-crime people in America.
-And I was just some novelist, and yet I had a better computer than hers.
-PRACTICALLY EVERYBODY I KNEW had a better computer than Gail Thackeray
-and her feeble laptop 286. It was like sending the sheriff in to clean
-up Dodge City and arming her with a slingshot cut from an old rubber tire.
-
-But then again, you don't need a howitzer to enforce the law.
-You can do a lot just with a badge. With a badge alone,
-you can basically wreak havoc, take a terrible vengeance on wrongdoers.
-Ninety percent of "computer crime investigation" is just "crime investigation:"
-names, places, dossiers, modus operandi, search warrants, victims,
-complainants, informants. . . .
-
-What will computer crime look like in ten years? Will it get better?
-Did "Sundevil" send 'em reeling back in confusion?
-
-It'll be like it is now, only worse, she tells me with perfect conviction.
-Still there in the background, ticking along, changing with the times:
-the criminal underworld. It'll be like drugs are. Like our problems
-with alcohol. All the cops and laws in the world never solved our problems
-with alcohol. If there's something people want, a certain percentage
-of them are just going to take it. Fifteen percent of the populace
-will never steal. Fifteen percent will steal most anything not nailed down.
-The battle is for the hearts and minds of the remaining seventy percent.
-
-And criminals catch on fast. If there's not "too steep a learning curve"--
-if it doesn't require a baffling amount of expertise and practice--
-then criminals are often some of the first through the gate of a
-new technology. Especially if it helps them to hide.
-They have tons of cash, criminals. The new communications tech--
-like pagers, cellular phones, faxes, Federal Express--were pioneered
-by rich corporate people, and by criminals. In the early years
-of pagers and beepers, dope dealers were so enthralled this technology
-that owing a beeper was practically prima facie evidence of cocaine dealing.
-CB radio exploded when the speed limit hit 55 and breaking the highway law
-became a national pastime. Dope dealers send cash by Federal Express,
-despite, or perhaps BECAUSE OF, the warnings in FedEx offices that tell you
-never to try this. Fed Ex uses X-rays and dogs on their mail,
-to stop drug shipments. That doesn't work very well.
-
-Drug dealers went wild over cellular phones.
-There are simple methods of faking ID on cellular phones,
-making the location of the call mobile, free of charge,
-and effectively untraceable. Now victimized cellular
-companies routinely bring in vast toll-lists of calls
-to Colombia and Pakistan.
-
-Judge Greene's fragmentation of the phone company
-is driving law enforcement nuts. Four thousand
-telecommunications companies. Fraud skyrocketing.
-Every temptation in the world available with a phone
-and a credit card number. Criminals untraceable.
-A galaxy of "new neat rotten things to do."
-
-If there were one thing Thackeray would like to have,
-it would be an effective legal end-run through this new
-fragmentation minefield.
-
-It would be a new form of electronic search warrant,
-an "electronic letter of marque" to be issued by a judge.
-It would create a new category of "electronic emergency."
-Like a wiretap, its use would be rare, but it would cut
-across state lines and force swift cooperation from all concerned.
-Cellular, phone, laser, computer network, PBXes, AT&T, Baby Bells,
-long-distance entrepreneurs, packet radio. Some document,
-some mighty court-order, that could slice through four thousand
-separate forms of corporate red-tape, and get her at once to
-the source of calls, the source of email threats and viruses,
-the sources of bomb threats, kidnapping threats. "From now on,"
-she says, "the Lindbergh baby will always die."
-
-Something that would make the Net sit still, if only for a moment.
-Something that would get her up to speed. Seven league boots.
-That's what she really needs. "Those guys move in nanoseconds
-and I'm on the Pony Express."
-
-And then, too, there's the coming international angle.
-Electronic crime has never been easy to localize,
-to tie to a physical jurisdiction. And phone-phreaks
-and hackers loathe boundaries, they jump them whenever they can.
-The English. The Dutch. And the Germans, especially the ubiquitous
-Chaos Computer Club. The Australians. They've all learned phone-phreaking
-from America. It's a growth mischief industry. The multinational
-networks are global, but governments and the police simply aren't.
-Neither are the laws. Or the legal frameworks for citizen protection.
-
-One language is global, though--English. Phone phreaks speak English;
-it's their native tongue even if they're Germans. English may have started
-in England but now it's the Net language; it might as well be called "CNNese."
-
-Asians just aren't much into phone phreaking. They're the world masters
-at organized software piracy. The French aren't into phone-phreaking either.
-The French are into computerized industrial espionage.
-
-In the old days of the MIT righteous hackerdom, crashing systems
-didn't hurt anybody. Not all that much, anyway. Not permanently.
-Now the players are more venal. Now the consequences are worse.
-Hacking will begin killing people soon. Already there are methods
-of stacking calls onto 911 systems, annoying the police, and possibly
-causing the death of some poor soul calling in with a genuine emergency.
-Hackers in Amtrak computers, or air-traffic control computers, will kill
-somebody someday. Maybe a lot of people. Gail Thackeray expects it.
-
-And the viruses are getting nastier. The "Scud" virus is the latest one out.
-It wipes hard-disks.
-
-According to Thackeray, the idea that phone-phreaks are Robin Hoods is a fraud.
-They don't deserve this repute. Basically, they pick on the weak. AT&T now
-protects itself with the fearsome ANI (Automatic Number Identification)
-trace capability. When AT&T wised up and tightened security generally,
-the phreaks drifted into the Baby Bells. The Baby Bells lashed out in 1989
-and 1990, so the phreaks switched to smaller long-distance entrepreneurs.
-Today, they are moving into locally owned PBXes and voice-mail systems,
-which are full of security holes, dreadfully easy to hack. These victims
-aren't the moneybags Sheriff of Nottingham or Bad King John, but small groups
-of innocent people who find it hard to protect themselves, and who really
-suffer from these depredations. Phone phreaks pick on the weak. They do it
-for power. If it were legal, they wouldn't do it. They don't want service,
-or knowledge, they want the thrill of power-tripping. There's plenty of
-knowledge or service around if you're willing to pay. Phone phreaks don't pay,
-they steal. It's because it is illegal that it feels like power,
-that it gratifies their vanity.
-
-I leave Gail Thackeray with a handshake at the door of her office building--
-a vast International-Style office building downtown. The Sheriff's office
-is renting part of it. I get the vague impression that quite a lot of the
-building is empty--real estate crash.
-
-In a Phoenix sports apparel store, in a downtown mall, I meet
-the "Sun Devil" himself. He is the cartoon mascot of
-Arizona State University, whose football stadium, "Sundevil,"
-is near the local Secret Service HQ--hence the name Operation Sundevil.
-The Sun Devil himself is named "Sparky." Sparky the Sun Devil is maroon
-and bright yellow, the school colors. Sparky brandishes a three-tined
-yellow pitchfork. He has a small mustache, pointed ears, a barbed tail,
-and is dashing forward jabbing the air with the pitchfork,
-with an expression of devilish glee.
-
-Phoenix was the home of Operation Sundevil. The Legion of Doom
-ran a hacker bulletin board called "The Phoenix Project."
-An Australian hacker named "Phoenix" once burrowed through
-the Internet to attack Cliff Stoll, then bragged and boasted
-about it to The New York Times. This net of coincidence
-is both odd and meaningless.
-
-The headquarters of the Arizona Attorney General, Gail Thackeray's
-former workplace, is on 1275 Washington Avenue. Many of the downtown
-streets in Phoenix are named after prominent American presidents:
-Washington, Jefferson, Madison. . . .
-
-After dark, all the employees go home to their suburbs.
-Washington, Jefferson and Madison--what would be the
-Phoenix inner city, if there were an inner city in this
-sprawling automobile-bred town--become the haunts
-of transients and derelicts. The homeless. The sidewalks
-along Washington are lined with orange trees.
-Ripe fallen fruit lies scattered like croquet balls
-on the sidewalks and gutters. No one seems to be eating them.
-I try a fresh one. It tastes unbearably bitter.
-
-The Attorney General's office, built in 1981 during the
-Babbitt administration, is a long low two-story building
-of white cement and wall-sized sheets of curtain-glass.
-Behind each glass wall is a lawyer's office, quite open
-and visible to anyone strolling by. Across the street
-is a dour government building labelled simply ECONOMIC SECURITY,
-something that has not been in great supply in the American
-Southwest lately.
-
-The offices are about twelve feet square. They feature
-tall wooden cases full of red-spined lawbooks;
-Wang computer monitors; telephones; Post-it notes galore.
-Also framed law diplomas and a general excess of bad
-Western landscape art. Ansel Adams photos are a big favorite,
-perhaps to compensate for the dismal specter of the parking lot,
-two acres of striped black asphalt, which features gravel landscaping
-and some sickly-looking barrel cacti.
-
-It has grown dark. Gail Thackeray has told me that the people
-who work late here, are afraid of muggings in the parking lot.
-It seems cruelly ironic that a woman tracing electronic racketeers
-across the interstate labyrinth of Cyberspace should fear an assault
-by a homeless derelict in the parking lot of her own workplace.
-
-Perhaps this is less than coincidence. Perhaps these two seemingly
-disparate worlds are somehow generating one another. The poor and
-disenfranchised take to the streets, while the rich and computer-equipped,
-safe in their bedrooms, chatter over their modems. Quite often the derelicts
-kick the glass out and break in to the lawyers' offices, if they see something
-they need or want badly enough.
-
-I cross the parking lot to the street behind the Attorney General's office.
-A pair of young tramps are bedding down on flattened sheets of cardboard,
-under an alcove stretching over the sidewalk. One tramp wears a
-glitter-covered T-shirt reading "CALIFORNIA" in Coca-Cola cursive.
-His nose and cheeks look chafed and swollen; they glisten with
-what seems to be Vaseline. The other tramp has a ragged long-sleeved
-shirt and lank brown hair parted in the middle. They both wear blue jeans
-coated in grime. They are both drunk.
-
-"You guys crash here a lot?" I ask them.
-
-They look at me warily. I am wearing black jeans, a black pinstriped
-suit jacket and a black silk tie. I have odd shoes and a funny haircut.
-
-"It's our first time here," says the red-nosed tramp unconvincingly.
-There is a lot of cardboard stacked here. More than any two people could use.
-
-"We usually stay at the Vinnie's down the street," says the brown-haired tramp,
-puffing a Marlboro with a meditative air, as he sprawls with his head on
-a blue nylon backpack. "The Saint Vincent's."
-
-"You know who works in that building over there?" I ask, pointing.
-
-The brown-haired tramp shrugs. "Some kind of attorneys, it says."
-
-We urge one another to take it easy. I give them five bucks.
-
-A block down the street I meet a vigorous workman who is wheeling along
-some kind of industrial trolley; it has what appears to be a tank of
-propane on it.
-
-We make eye contact. We nod politely. I walk past him. "Hey!
-Excuse me sir!" he says.
-
-"Yes?" I say, stopping and turning.
-
-"Have you seen," the guy says rapidly, "a black guy, about 6'7",
-scars on both his cheeks like this--" he gestures-- "wears a
-black baseball cap on backwards, wandering around here anyplace?"
-
-"Sounds like I don't much WANT to meet him," I say.
-
-"He took my wallet," says my new acquaintance.
-"Took it this morning. Y'know, some people would be
-SCARED of a guy like that. But I'm not scared.
-I'm from Chicago. I'm gonna hunt him down.
-We do things like that in Chicago."
-
-"Yeah?"
-
-"I went to the cops and now he's got an APB out on his ass,"
-he says with satisfaction. "You run into him, you let me know."
-
-"Okay," I say. "What is your name, sir?"
-
-"Stanley. . . ."
-
-"And how can I reach you?"
-
-"Oh," Stanley says, in the same rapid voice,
-"you don't have to reach, uh, me.
-You can just call the cops. Go straight to the cops."
-He reaches into a pocket and pulls out a greasy piece of pasteboard.
-"See, here's my report on him."
-
-I look. The "report," the size of an index card, is labelled PRO-ACT:
-Phoenix Residents Opposing Active Crime Threat. . . . or is it
-Organized Against Crime Threat? In the darkening street it's hard
-to read. Some kind of vigilante group? Neighborhood watch?
-I feel very puzzled.
-
-"Are you a police officer, sir?"
-
-He smiles, seems very pleased by the question.
-
-"No," he says.
-
-"But you are a `Phoenix Resident?'"
-
-"Would you believe a homeless person," Stanley says.
-
-"Really? But what's with the. . . ." For the first time I take a close look
-at Stanley's trolley. It's a rubber-wheeled thing of industrial metal,
-but the device I had mistaken for a tank of propane is in fact a water-cooler.
-Stanley also has an Army duffel-bag, stuffed tight as a sausage with clothing
-or perhaps a tent, and, at the base of his trolley, a cardboard box and a
-battered leather briefcase.
-
-"I see," I say, quite at a loss. For the first time I notice that Stanley
-has a wallet. He has not lost his wallet at all. It is in his back pocket
-and chained to his belt. It's not a new wallet. It seems to have seen
-a lot of wear.
-
-"Well, you know how it is, brother," says Stanley.
-Now that I know that he is homeless--A POSSIBLE
-THREAT--my entire perception of him has changed
-in an instant. His speech, which once seemed just
-bright and enthusiastic, now seems to have a
-dangerous tang of mania. "I have to do this!"
-he assures me. "Track this guy down. . . .
-It's a thing I do. . . you know. . .to keep myself together!"
-He smiles, nods, lifts his trolley by its decaying rubber handgrips.
-
-"Gotta work together, y'know," Stanley booms, his face alight
-with cheerfulness, "the police can't do everything!"
-The gentlemen I met in my stroll in downtown Phoenix
-are the only computer illiterates in this book.
-To regard them as irrelevant, however, would be a grave mistake.
-
-As computerization spreads across society, the populace at large
-is subjected to wave after wave of future shock. But, as a
-necessary converse, the "computer community" itself is subjected
-to wave after wave of incoming computer illiterates.
-How will those currently enjoying America's digital bounty regard,
-and treat, all this teeming refuse yearning to breathe free?
-Will the electronic frontier be another Land of Opportunity--
-or an armed and monitored enclave, where the disenfranchised
-snuggle on their cardboard at the locked doors of our houses of justice?
-
-Some people just don't get along with computers. They can't read.
-They can't type. They just don't have it in their heads to master
-arcane instructions in wirebound manuals. Somewhere, the process
-of computerization of the populace will reach a limit. Some people--
-quite decent people maybe, who might have thrived in any other situation--
-will be left irretrievably outside the bounds. What's to be done with
-these people, in the bright new shiny electroworld? How will they
-be regarded, by the mouse-whizzing masters of cyberspace? With contempt?
-Indifference? Fear?
-
-In retrospect, it astonishes me to realize how quickly poor Stanley
-became a perceived threat. Surprise and fear are closely allied feelings.
-And the world of computing is full of surprises.
-
-I met one character in the streets of Phoenix whose role in this book
-is supremely and directly relevant. That personage was Stanley's giant
-thieving scarred phantom. This phantasm is everywhere in this book.
-He is the specter haunting cyberspace.
-
-Sometimes he's a maniac vandal ready to smash the phone system
-for no sane reason at all. Sometimes he's a fascist fed,
-coldly programming his mighty mainframes to destroy our Bill of Rights.
-Sometimes he's a telco bureaucrat, covertly conspiring to register all modems
-in the service of an Orwellian surveillance regime. Mostly, though,
-this fearsome phantom is a "hacker." He's strange, he doesn't belong,
-he's not authorized, he doesn't smell right, he's not keeping his proper place,
-he's not one of us. The focus of fear is the hacker, for much the same
-reasons that Stanley's fancied assailant is black.
-
-Stanley's demon can't go away, because he doesn't exist.
-Despite singleminded and tremendous effort, he can't be arrested,
-sued, jailed, or fired. The only constructive way to do ANYTHING
-about him is to learn more about Stanley himself. This learning process
-may be repellent, it may be ugly, it may involve grave elements of paranoiac
-confusion, but it's necessary. Knowing Stanley requires something more
-than class-crossing condescension. It requires more than steely
-legal objectivity. It requires human compassion and sympathy.
-
-To know Stanley is to know his demon. If you know the other guy's demon,
-then maybe you'll come to know some of your own. You'll be able to
-separate reality from illusion. And then you won't do your cause,
-and yourself, more harm than good. Like poor damned Stanley from Chicago did.
-
-#
-
-The Federal Computer Investigations Committee (FCIC) is the most important
-and influential organization in the realm of American computer-crime.
-Since the police of other countries have largely taken their computer-crime
-cues from American methods, the FCIC might well be called the most important
-computer crime group in the world.
-
-It is also, by federal standards, an organization of great unorthodoxy.
-State and local investigators mix with federal agents. Lawyers,
-financial auditors and computer-security programmers trade notes
-with street cops. Industry vendors and telco security people show up
-to explain their gadgetry and plead for protection and justice.
-Private investigators, think-tank experts and industry pundits throw in
-their two cents' worth. The FCIC is the antithesis of a formal bureaucracy.
-
-Members of the FCIC are obscurely proud of this fact; they recognize their
-group as aberrant, but are entirely convinced that this, for them,
-outright WEIRD behavior is nevertheless ABSOLUTELY NECESSARY
-to get their jobs done.
-
-FCIC regulars --from the Secret Service, the FBI, the IRS,
-the Department of Labor, the offices of federal attorneys,
-state police, the Air Force, from military intelligence--
-often attend meetings, held hither and thither across the country,
-at their own expense. The FCIC doesn't get grants. It doesn't
-charge membership fees. It doesn't have a boss. It has no headquarters--
-just a mail drop in Washington DC, at the Fraud Division of the Secret Service.
-It doesn't have a budget. It doesn't have schedules. It meets three times
-a year--sort of. Sometimes it issues publications, but the FCIC
-has no regular publisher, no treasurer, not even a secretary.
-There are no minutes of FCIC meetings. Non-federal people are considered
-"non-voting members," but there's not much in the way of elections.
-There are no badges, lapel pins or certificates of membership.
-Everyone is on a first-name basis. There are about forty of them.
-Nobody knows how many, exactly. People come, people go--
-sometimes people "go" formally but still hang around anyway.
-Nobody has ever exactly figured out what "membership" of this
-"Committee" actually entails.
-
-Strange as this may seem to some, to anyone familiar with the social world
-of computing, the "organization" of the FCIC is very recognizable.
-
-For years now, economists and management theorists have speculated
-that the tidal wave of the information revolution would destroy rigid,
-pyramidal bureaucracies, where everything is top-down and
-centrally controlled. Highly trained "employees" would take on
-much greater autonomy, being self-starting, and self-motivating,
-moving from place to place, task to task, with great speed and fluidity.
-"Ad-hocracy" would rule, with groups of people spontaneously knitting
-together across organizational lines, tackling the problem at hand,
-applying intense computer-aided expertise to it, and then vanishing
-whence they came.
-
-This is more or less what has actually happened in the world of
-federal computer investigation. With the conspicuous exception
-of the phone companies, which are after all over a hundred years old,
-practically EVERY organization that plays any important role in this book
-functions just like the FCIC. The Chicago Task Force, the Arizona
-Racketeering Unit, the Legion of Doom, the Phrack crowd, the
-Electronic Frontier Foundation--they ALL look and act like "tiger teams"
-or "user's groups." They are all electronic ad-hocracies leaping up
-spontaneously to attempt to meet a need.
-
-Some are police. Some are, by strict definition, criminals.
-Some are political interest-groups. But every single group
-has that same quality of apparent spontaneity--"Hey, gang!
-My uncle's got a barn--let's put on a show!"
-
-Every one of these groups is embarrassed by this "amateurism,"
-and, for the sake of their public image in a world of non-computer people,
-they all attempt to look as stern and formal and impressive as possible.
-These electronic frontier-dwellers resemble groups of nineteenth-century
-pioneers hankering after the respectability of statehood.
-There are however, two crucial differences in the historical experience
-of these "pioneers" of the nineteeth and twenty-first centuries.
-
-First, powerful information technology DOES play into the hands of small,
-fluid, loosely organized groups. There have always been "pioneers,"
-"hobbyists," "amateurs," "dilettantes," "volunteers," "movements,"
-"users' groups" and "blue-ribbon panels of experts" around.
-But a group of this kind--when technically equipped to ship
-huge amounts of specialized information, at lightning speed,
-to its members, to government, and to the press--is simply
-a different kind of animal. It's like the difference between
-an eel and an electric eel.
-
-The second crucial change is that American society is currently
-in a state approaching permanent technological revolution.
-In the world of computers particularly, it is practically impossible
-to EVER stop being a "pioneer," unless you either drop dead or
-deliberately jump off the bus. The scene has never slowed down
-enough to become well-institutionalized. And after twenty, thirty,
-forty years the "computer revolution" continues to spread,
-to permeate new corners of society. Anything that really works
-is already obsolete.
-
-If you spend your entire working life as a "pioneer," the word "pioneer"
-begins to lose its meaning. Your way of life looks less and less like
-an introduction to something else" more stable and organized,
-and more and more like JUST THE WAY THINGS ARE. A "permanent revolution"
-is really a contradiction in terms. If "turmoil" lasts long enough,
-it simply becomes A NEW KIND OF SOCIETY--still the same game of history,
-but new players, new rules.
-
-Apply this to the world of late twentieth-century law enforcement,
-and the implications are novel and puzzling indeed. Any bureaucratic
-rulebook you write about computer-crime will be flawed when you write it,
-and almost an antique by the time it sees print. The fluidity and fast
-reactions of the FCIC give them a great advantage in this regard,
-which explains their success. Even with the best will in the world
-(which it does not, in fact, possess) it is impossible for an organization
-the size of the U.S. Federal Bureau of Investigation to get up to speed
-on the theory and practice of computer crime. If they tried to train all
-their agents to do this, it would be SUICIDAL, as they would NEVER BE ABLE
-TO DO ANYTHING ELSE.
-
-The FBI does try to train its agents in the basics of electronic crime,
-at their base in Quantico, Virginia. And the Secret Service, along with
-many other law enforcement groups, runs quite successful and well-attended
-training courses on wire fraud, business crime, and computer intrusion
-at the Federal Law Enforcement Training Center (FLETC, pronounced "fletsy")
-in Glynco, Georgia. But the best efforts of these bureaucracies does not
-remove the absolute need for a "cutting-edge mess" like the FCIC.
-
-For you see--the members of FCIC ARE the trainers of the rest
-of law enforcement. Practically and literally speaking,
-they are the Glynco computer-crime faculty by another name.
-If the FCIC went over a cliff on a bus, the U.S. law enforcement
-community would be rendered deaf dumb and blind in the world
-of computer crime, and would swiftly feel a desperate need
-to reinvent them. And this is no time to go starting from scratch.
-
-On June 11, 1991, I once again arrived in Phoenix, Arizona,
-for the latest meeting of the Federal Computer Investigations Committee.
-This was more or less the twentieth meeting of this stellar group.
-The count was uncertain, since nobody could figure out whether to
-include the meetings of "the Colluquy," which is what the FCIC
-was called in the mid-1980s before it had even managed to obtain
-the dignity of its own acronym.
-
-Since my last visit to Arizona, in May, the local AzScam bribery scandal
-had resolved itself in a general muddle of humiliation. The Phoenix chief
-of police, whose agents had videotaped nine state legislators up to no good,
-had resigned his office in a tussle with the Phoenix city council over
-the propriety of his undercover operations.
-
-The Phoenix Chief could now join Gail Thackeray and eleven of her closest
-associates in the shared experience of politically motivated unemployment.
-As of June, resignations were still continuing at the Arizona Attorney
-General's office, which could be interpreted as either a New Broom
-Sweeping Clean or a Night of the Long Knives Part II, depending on
-your point of view.
-
-The meeting of FCIC was held at the Scottsdale Hilton Resort.
-Scottsdale is a wealthy suburb of Phoenix, known as "Scottsdull"
-to scoffing local trendies, but well-equipped with posh shopping-malls
-and manicured lawns, while conspicuously undersupplied with homeless derelicts.
-The Scottsdale Hilton Resort was a sprawling hotel in postmodern
-crypto-Southwestern style. It featured a "mission bell tower"
-plated in turquoise tile and vaguely resembling a Saudi minaret.
-
-Inside it was all barbarically striped Santa Fe Style decor.
-There was a health spa downstairs and a large oddly-shaped
-pool in the patio. A poolside umbrella-stand offered Ben and Jerry's
-politically correct Peace Pops.
-
-I registered as a member of FCIC, attaining a handy discount rate,
-then went in search of the Feds. Sure enough, at the back of the
-hotel grounds came the unmistakable sound of Gail Thackeray
-holding forth.
-
-Since I had also attended the Computers Freedom and Privacy conference
-(about which more later), this was the second time I had seen Thackeray
-in a group of her law enforcement colleagues. Once again I was struck
-by how simply pleased they seemed to see her. It was natural that she'd
-get SOME attention, as Gail was one of two women in a group of some thirty men;
-but there was a lot more to it than that.
-
-Gail Thackeray personifies the social glue of the FCIC. They could give
-a damn about her losing her job with the Attorney General. They were sorry
-about it, of course, but hell, they'd all lost jobs. If they were the kind
-of guys who liked steady boring jobs, they would never have gotten into
-computer work in the first place.
-
-I wandered into her circle and was immediately introduced to five strangers.
-The conditions of my visit at FCIC were reviewed. I would not quote
-anyone directly. I would not tie opinions expressed to the agencies
-of the attendees. I would not (a purely hypothetical example)
-report the conversation of a guy from the Secret Service talking
-quite civilly to a guy from the FBI, as these two agencies NEVER
-talk to each other, and the IRS (also present, also hypothetical)
-NEVER TALKS TO ANYBODY.
-
-Worse yet, I was forbidden to attend the first conference. And I didn't.
-I have no idea what the FCIC was up to behind closed doors that afternoon.
-I rather suspect that they were engaging in a frank and thorough confession
-of their errors, goof-ups and blunders, as this has been a feature of every
-FCIC meeting since their legendary Memphis beer-bust of 1986. Perhaps the
-single greatest attraction of FCIC is that it is a place where you can go,
-let your hair down, and completely level with people who actually comprehend
-what you are talking about. Not only do they understand you, but they
-REALLY PAY ATTENTION, they are GRATEFUL FOR YOUR INSIGHTS, and they
-FORGIVE YOU, which in nine cases out of ten is something even your
-boss can't do, because as soon as you start talking "ROM," "BBS,"
-or "T-1 trunk," his eyes glaze over.
-
-I had nothing much to do that afternoon. The FCIC were beavering away
-in their conference room. Doors were firmly closed, windows too dark
-to peer through. I wondered what a real hacker, a computer intruder,
-would do at a meeting like this.
-
-The answer came at once. He would "trash" the place. Not reduce the place
-to trash in some orgy of vandalism; that's not the use of the term in the
-hacker milieu. No, he would quietly EMPTY THE TRASH BASKETS and silently
-raid any valuable data indiscreetly thrown away.
-
-Journalists have been known to do this. (Journalists hunting information
-have been known to do almost every single unethical thing that hackers
-have ever done. They also throw in a few awful techniques all their own.)
-The legality of `trashing' is somewhat dubious but it is not in fact
-flagrantly illegal. It was, however, absurd to contemplate trashing the FCIC.
-These people knew all about trashing. I wouldn't last fifteen seconds.
-
-The idea sounded interesting, though. I'd been hearing a lot about
-the practice lately. On the spur of the moment, I decided I would try
-trashing the office ACROSS THE HALL from the FCIC, an area which had
-nothing to do with the investigators.
-
-The office was tiny; six chairs, a table. . . . Nevertheless, it was open,
-so I dug around in its plastic trash can.
-
-To my utter astonishment, I came up with the torn scraps of a SPRINT
-long-distance phone bill. More digging produced a bank statement
-and the scraps of a hand-written letter, along with gum, cigarette ashes,
-candy wrappers and a day-old-issue of USA TODAY.
-
-The trash went back in its receptacle while the scraps of data went into
-my travel bag. I detoured through the hotel souvenir shop for some
-Scotch tape and went up to my room.
-
-Coincidence or not, it was quite true. Some poor soul had, in fact,
-thrown a SPRINT bill into the hotel's trash. Date May 1991,
-total amount due: $252.36. Not a business phone, either,
-but a residential bill, in the name of someone called Evelyn
-(not her real name). Evelyn's records showed a ## PAST DUE BILL ##!
-Here was her nine-digit account ID. Here was a stern computer-printed warning:
-
-"TREAT YOUR FONCARD AS YOU WOULD ANY CREDIT CARD. TO SECURE AGAINST FRAUD,
-NEVER GIVE YOUR FONCARD NUMBER OVER THE PHONE UNLESS YOU INITIATED THE CALL.
-IF YOU RECEIVE SUSPICIOUS CALLS PLEASE NOTIFY CUSTOMER SERVICE IMMEDIATELY!"
-
-I examined my watch. Still plenty of time left for the FCIC to carry on.
-I sorted out the scraps of Evelyn's SPRINT bill and re-assembled them with
-fresh Scotch tape. Here was her ten-digit FONCARD number. Didn't seem
-to have the ID number necessary to cause real fraud trouble.
-
-I did, however, have Evelyn's home phone number. And the phone numbers
-for a whole crowd of Evelyn's long-distance friends and acquaintances.
-In San Diego, Folsom, Redondo, Las Vegas, La Jolla, Topeka, and Northampton
-Massachusetts. Even somebody in Australia!
-
-I examined other documents. Here was a bank statement. It was Evelyn's
-IRA account down at a bank in San Mateo California (total balance $1877.20).
-Here was a charge-card bill for $382.64. She was paying it off bit by bit.
-
-Driven by motives that were completely unethical and prurient,
-I now examined the handwritten notes. They had been torn fairly
-thoroughly, so much so that it took me almost an entire five minutes
-to reassemble them.
-
-They were drafts of a love letter. They had been written on
-the lined stationery of Evelyn's employer, a biomedical company.
-Probably written at work when she should have been doing something else.
-
-"Dear Bob," (not his real name) "I guess in everyone's life there comes
-a time when hard decisions have to be made, and this is a difficult one
-for me--very upsetting. Since you haven't called me, and I don't understand
-why, I can only surmise it's because you don't want to. I thought I would
-have heard from you Friday. I did have a few unusual problems with my phone
-and possibly you tried, I hope so.
-
-"Robert, you asked me to `let go'. . . ."
-
-The first note ended. UNUSUAL PROBLEMS WITH HER PHONE?
-I looked swiftly at the next note.
-
-"Bob, not hearing from you for the whole weekend has left me very perplexed. . . ."
-
-Next draft.
-
-"Dear Bob, there is so much I don't understand right now, and I wish I did.
-I wish I could talk to you, but for some unknown reason you have elected not
-to call--this is so difficult for me to understand. . . ."
-
-She tried again.
-
-"Bob, Since I have always held you in such high esteem, I had every hope that
-we could remain good friends, but now one essential ingredient is missing--
-respect. Your ability to discard people when their purpose is served is
-appalling to me. The kindest thing you could do for me now is to leave me
-alone. You are no longer welcome in my heart or home. . . ."
-
-Try again.
-
-"Bob, I wrote a very factual note to you to say how much respect I had lost
-for you, by the way you treat people, me in particular, so uncaring and cold.
-The kindest thing you can do for me is to leave me alone entirely,
-as you are no longer welcome in my heart or home. I would appreciate it
-if you could retire your debt to me as soon as possible--I wish no link
-to you in any way. Sincerely, Evelyn."
-
-Good heavens, I thought, the bastard actually owes her money!
-I turned to the next page.
-
-"Bob: very simple. GOODBYE! No more mind games--no more fascination--
-no more coldness--no more respect for you! It's over--Finis. Evie"
-
-There were two versions of the final brushoff letter, but they read about
-the same. Maybe she hadn't sent it. The final item in my illicit and
-shameful booty was an envelope addressed to "Bob" at his home address,
-but it had no stamp on it and it hadn't been mailed.
-
-Maybe she'd just been blowing off steam because her rascal boyfriend
-had neglected to call her one weekend. Big deal. Maybe they'd kissed
-and made up, maybe she and Bob were down at Pop's Chocolate Shop now,
-sharing a malted. Sure.
-
-Easy to find out. All I had to do was call Evelyn up. With a half-clever
-story and enough brass-plated gall I could probably trick the truth out of her.
-Phone-phreaks and hackers deceive people over the phone all the time.
-It's called "social engineering." Social engineering is a very common practice
-in the underground, and almost magically effective. Human beings are almost
-always the weakest link in computer security. The simplest way to learn
-Things You Are Not Meant To Know is simply to call up and exploit the
-knowledgeable people. With social engineering, you use the bits of specialized
-knowledge you already have as a key, to manipulate people into believing
-that you are legitimate. You can then coax, flatter, or frighten them into
-revealing almost anything you want to know. Deceiving people (especially
-over the phone) is easy and fun. Exploiting their gullibility is very
-gratifying; it makes you feel very superior to them.
-
-If I'd been a malicious hacker on a trashing raid, I would now have Evelyn
-very much in my power. Given all this inside data, it wouldn't take much
-effort at all to invent a convincing lie. If I were ruthless enough,
-and jaded enough, and clever enough, this momentary indiscretion of hers--
-maybe committed in tears, who knows--could cause her a whole world of
-confusion and grief.
-
-I didn't even have to have a MALICIOUS motive. Maybe I'd be "on her side,"
-and call up Bob instead, and anonymously threaten to break both his kneecaps
-if he didn't take Evelyn out for a steak dinner pronto. It was still
-profoundly NONE OF MY BUSINESS. To have gotten this knowledge at all
-was a sordid act and to use it would be to inflict a sordid injury.
-
-To do all these awful things would require exactly zero high-tech expertise.
-All it would take was the willingness to do it and a certain amount
-of bent imagination.
-
-I went back downstairs. The hard-working FCIC, who had labored forty-five
-minutes over their schedule, were through for the day, and adjourned to the
-hotel bar. We all had a beer.
-
-I had a chat with a guy about "Isis," or rather IACIS,
-the International Association of Computer Investigation Specialists.
-They're into "computer forensics," the techniques of picking computer-
-systems apart without destroying vital evidence. IACIS, currently run
-out of Oregon, is comprised of investigators in the U.S., Canada, Taiwan
-and Ireland. "Taiwan and Ireland?" I said. Are TAIWAN and IRELAND
-really in the forefront of this stuff? Well not exactly, my informant
-admitted. They just happen to have been the first ones to have caught
-on by word of mouth. Still, the international angle counts, because this
-is obviously an international problem. Phone-lines go everywhere.
-
-There was a Mountie here from the Royal Canadian Mounted Police.
-He seemed to be having quite a good time. Nobody had flung this
-Canadian out because he might pose a foreign security risk.
-These are cyberspace cops. They still worry a lot about "jurisdictions,"
-but mere geography is the least of their troubles.
-
-NASA had failed to show. NASA suffers a lot from computer intrusions,
-in particular from Australian raiders and a well-trumpeted Chaos
-Computer Club case, and in 1990 there was a brief press flurry
-when it was revealed that one of NASA's Houston branch-exchanges
-had been systematically ripped off by a gang of phone-phreaks.
-But the NASA guys had had their funding cut. They were stripping everything.
-
-Air Force OSI, its Office of Special Investigations, is the ONLY federal
-entity dedicated full-time to computer security. They'd been expected
-to show up in force, but some of them had cancelled--a Pentagon budget pinch.
-
-As the empties piled up, the guys began joshing around and telling war-stories.
-"These are cops," Thackeray said tolerantly. "If they're not talking shop
-they talk about women and beer."
-
-I heard the story about the guy who, asked for "a copy" of a computer disk,
-PHOTOCOPIED THE LABEL ON IT. He put the floppy disk onto the glass plate
-of a photocopier. The blast of static when the copier worked completely
-erased all the real information on the disk.
-
-Some other poor souls threw a whole bag of confiscated diskettes
-into the squad-car trunk next to the police radio. The powerful radio
-signal blasted them, too.
-
-We heard a bit about Dave Geneson, the first computer prosecutor,
-a mainframe-runner in Dade County, turned lawyer. Dave Geneson
-was one guy who had hit the ground running, a signal virtue
-in making the transition to computer-crime. It was generally
-agreed that it was easier to learn the world of computers first,
-then police or prosecutorial work. You could take certain computer
-people and train 'em to successful police work--but of course they
-had to have the COP MENTALITY. They had to have street smarts.
-Patience. Persistence. And discretion. You've got to make sure
-they're not hot-shots, show-offs, "cowboys."
-
-Most of the folks in the bar had backgrounds in military intelligence,
-or drugs, or homicide. It was rudely opined that "military intelligence"
-was a contradiction in terms, while even the grisly world of homicide
-was considered cleaner than drug enforcement. One guy had been 'way
-undercover doing dope-work in Europe for four years straight.
-"I'm almost recovered now," he said deadpan, with the acid black humor
-that is pure cop. "Hey, now I can say FUCKER without putting MOTHER
-in front of it."
-
-"In the cop world," another guy said earnestly, "everything is good and bad,
-black and white. In the computer world everything is gray."
-
-One guy--a founder of the FCIC, who'd been with the group
-since it was just the Colluquy--described his own introduction
-to the field. He'd been a Washington DC homicide guy called in
-on a "hacker" case. From the word "hacker," he naturally assumed
-he was on the trail of a knife-wielding marauder, and went to the
-computer center expecting blood and a body. When he finally figured
-out what was happening there (after loudly demanding, in vain,
-that the programmers "speak English"), he called headquarters
-and told them he was clueless about computers. They told him nobody
-else knew diddly either, and to get the hell back to work.
-
-So, he said, he had proceeded by comparisons. By analogy. By metaphor.
-"Somebody broke in to your computer, huh?" Breaking and entering;
-I can understand that. How'd he get in? "Over the phone-lines."
-Harassing phone-calls, I can understand that! What we need here
-is a tap and a trace!
-
-It worked. It was better than nothing. And it worked a lot faster
-when he got hold of another cop who'd done something similar.
-And then the two of them got another, and another, and pretty soon
-the Colluquy was a happening thing. It helped a lot that everybody
-seemed to know Carlton Fitzpatrick, the data-processing trainer in Glynco.
-
-The ice broke big-time in Memphis in '86. The Colluquy had attracted
-a bunch of new guys--Secret Service, FBI, military, other feds, heavy guys.
-Nobody wanted to tell anybody anything. They suspected that if word got back
-to the home office they'd all be fired. They passed an uncomfortably
-guarded afternoon.
-
-The formalities got them nowhere. But after the formal session was over,
-the organizers brought in a case of beer. As soon as the participants
-knocked it off with the bureaucratic ranks and turf-fighting, everything
-changed. "I bared my soul," one veteran reminisced proudly. By nightfall
-they were building pyramids of empty beer-cans and doing everything
-but composing a team fight song.
-
-FCIC were not the only computer-crime people around. There was DATTA
-(District Attorneys' Technology Theft Association), though they mostly
-specialized in chip theft, intellectual property, and black-market cases.
-There was HTCIA (High Tech Computer Investigators Association),
-also out in Silicon Valley, a year older than FCIC and featuring
-brilliant people like Donald Ingraham. There was LEETAC
-(Law Enforcement Electronic Technology Assistance Committee)
-in Florida, and computer-crime units in Illinois and Maryland
-and Texas and Ohio and Colorado and Pennsylvania. But these were
-local groups. FCIC were the first to really network nationally
-and on a federal level.
-
-FCIC people live on the phone lines. Not on bulletin board systems--
-they know very well what boards are, and they know that boards aren't secure.
-Everyone in the FCIC has a voice-phone bill like you wouldn't believe.
-FCIC people have been tight with the telco people for a long time.
-Telephone cyberspace is their native habitat.
-
-FCIC has three basic sub-tribes: the trainers, the security people,
-and the investigators. That's why it's called an "Investigations
-Committee" with no mention of the term "computer-crime"--the dreaded
-"C-word." FCIC, officially, is "an association of agencies rather
-than individuals;" unofficially, this field is small enough that
-the influence of individuals and individual expertise is paramount.
-Attendance is by invitation only, and most everyone in FCIC considers
-himself a prophet without honor in his own house.
-
-Again and again I heard this, with different terms but identical
-sentiments. "I'd been sitting in the wilderness talking to myself."
-"I was totally isolated." "I was desperate." "FCIC is the best
-thing there is about computer crime in America." "FCIC is what
-really works." "This is where you hear real people telling you
-what's really happening out there, not just lawyers picking nits."
-"We taught each other everything we knew."
-
-The sincerity of these statements convinces me that this is true.
-FCIC is the real thing and it is invaluable. It's also very sharply
-at odds with the rest of the traditions and power structure
-in American law enforcement. There probably hasn't been anything
-around as loose and go-getting as the FCIC since the start of the
-U.S. Secret Service in the 1860s. FCIC people are living like
-twenty-first-century people in a twentieth-century environment,
-and while there's a great deal to be said for that, there's also
-a great deal to be said against it, and those against it happen
-to control the budgets.
-
-I listened to two FCIC guys from Jersey compare life histories.
-One of them had been a biker in a fairly heavy-duty gang in the 1960s.
-"Oh, did you know so-and-so?" said the other guy from Jersey.
-"Big guy, heavyset?"
-
-"Yeah, I knew him."
-
-"Yeah, he was one of ours. He was our plant in the gang."
-
-"Really? Wow! Yeah, I knew him. Helluva guy."
-
-Thackeray reminisced at length about being tear-gassed blind
-in the November 1969 antiwar protests in Washington Circle,
-covering them for her college paper. "Oh yeah, I was there,"
-said another cop. "Glad to hear that tear gas hit somethin'.
-Haw haw haw." He'd been so blind himself, he confessed,
-that later that day he'd arrested a small tree.
-
-FCIC are an odd group, sifted out by coincidence and necessity,
-and turned into a new kind of cop. There are a lot of specialized
-cops in the world--your bunco guys, your drug guys, your tax guys,
-but the only group that matches FCIC for sheer isolation are probably
-the child-pornography people. Because they both deal with conspirators
-who are desperate to exchange forbidden data and also desperate to hide;
-and because nobody else in law enforcement even wants to hear about it.
-
-FCIC people tend to change jobs a lot. They tend not to get the equipment
-and training they want and need. And they tend to get sued quite often.
-
-As the night wore on and a band set up in the bar, the talk grew darker.
-Nothing ever gets done in government, someone opined, until there's
-a DISASTER. Computing disasters are awful, but there's no denying
-that they greatly help the credibility of FCIC people. The Internet Worm,
-for instance. "For years we'd been warning about that--but it's nothing
-compared to what's coming." They expect horrors, these people.
-They know that nothing will really get done until there is a horror.
-
-#
-
-Next day we heard an extensive briefing from a guy who'd been a computer cop,
-gotten into hot water with an Arizona city council, and now installed
-computer networks for a living (at a considerable rise in pay).
-He talked about pulling fiber-optic networks apart.
-
-Even a single computer, with enough peripherals, is a literal
-"network"--a bunch of machines all cabled together, generally
-with a complexity that puts stereo units to shame. FCIC people
-invent and publicize methods of seizing computers and maintaining
-their evidence. Simple things, sometimes, but vital rules of thumb
-for street cops, who nowadays often stumble across a busy computer
-in the midst of a drug investigation or a white-collar bust.
-For instance: Photograph the system before you touch it.
-Label the ends of all the cables before you detach anything.
-"Park" the heads on the disk drives before you move them.
-Get the diskettes. Don't put the diskettes in magnetic fields.
-Don't write on diskettes with ballpoint pens. Get the manuals.
-Get the printouts. Get the handwritten notes. Copy data before
-you look at it, and then examine the copy instead of the original.
-
-Now our lecturer distributed copied diagrams of a typical LAN
-or "Local Area Network", which happened to be out of Connecticut.
-ONE HUNDRED AND FIFTY-NINE desktop computers, each with its own
-peripherals. Three "file servers." Five "star couplers"
-each with thirty-two ports. One sixteen-port coupler
-off in the corner office. All these machines talking to each other,
-distributing electronic mail, distributing software, distributing,
-quite possibly, criminal evidence. All linked by high-capacity
-fiber-optic cable. A bad guy--cops talk a about "bad guys"
---might be lurking on PC #47 lot or #123 and distributing
-his ill doings onto some dupe's "personal" machine in
-another office--or another floor--or, quite possibly,
-two or three miles away! Or, conceivably, the evidence might
-be "data-striped"--split up into meaningless slivers stored,
-one by one, on a whole crowd of different disk drives.
-
-The lecturer challenged us for solutions. I for one was utterly clueless.
-As far as I could figure, the Cossacks were at the gate; there were probably
-more disks in this single building than were seized during the entirety
-of Operation Sundevil.
-
-"Inside informant," somebody said. Right. There's always the human angle,
-something easy to forget when contemplating the arcane recesses of high
-technology. Cops are skilled at getting people to talk, and computer people,
-given a chair and some sustained attention, will talk about their computers
-till their throats go raw. There's a case on record of a single question--
-"How'd you do it?"--eliciting a forty-five-minute videotaped confession
-from a computer criminal who not only completely incriminated himself
-but drew helpful diagrams.
-
-Computer people talk. Hackers BRAG. Phone-phreaks
-talk PATHOLOGICALLY--why else are they stealing phone-codes,
-if not to natter for ten hours straight to their friends
-on an opposite seaboard? Computer-literate people do
-in fact possess an arsenal of nifty gadgets and techniques
-that would allow them to conceal all kinds of exotic skullduggery,
-and if they could only SHUT UP about it, they could probably
-get away with all manner of amazing information-crimes.
-But that's just not how it works--or at least,
-that's not how it's worked SO FAR.
-
-Most every phone-phreak ever busted has swiftly implicated his mentors,
-his disciples, and his friends. Most every white-collar computer-criminal,
-smugly convinced that his clever scheme is bulletproof, swiftly learns
-otherwise when, for the first time in his life, an actual no-kidding
-policeman leans over, grabs the front of his shirt, looks him right
-in the eye and says: "All right, ASSHOLE--you and me are going downtown!"
-All the hardware in the world will not insulate your nerves from
-these actual real-life sensations of terror and guilt.
-
-Cops know ways to get from point A to point Z without thumbing
-through every letter in some smart-ass bad-guy's alphabet.
-Cops know how to cut to the chase. Cops know a lot of things
-other people don't know.
-
-Hackers know a lot of things other people don't know, too.
-Hackers know, for instance, how to sneak into your computer
-through the phone-lines. But cops can show up RIGHT ON YOUR DOORSTEP
-and carry off YOU and your computer in separate steel boxes.
-A cop interested in hackers can grab them and grill them.
-A hacker interested in cops has to depend on hearsay,
-underground legends, and what cops are willing to publicly reveal.
-And the Secret Service didn't get named "the SECRET Service"
-because they blab a lot.
-
-Some people, our lecturer informed us, were under the mistaken
-impression that it was "impossible" to tap a fiber-optic line.
-Well, he announced, he and his son had just whipped up a
-fiber-optic tap in his workshop at home. He passed it around
-the audience, along with a circuit-covered LAN plug-in card
-so we'd all recognize one if we saw it on a case. We all had a look.
-
-The tap was a classic "Goofy Prototype"--a thumb-length rounded
-metal cylinder with a pair of plastic brackets on it.
-From one end dangled three thin black cables, each of which ended
-in a tiny black plastic cap. When you plucked the safety-cap
-off the end of a cable, you could see the glass fiber--
-no thicker than a pinhole.
-
-Our lecturer informed us that the metal cylinder was a
-"wavelength division multiplexer." Apparently, what one did
-was to cut the fiber-optic cable, insert two of the legs into
-the cut to complete the network again, and then read any passing data
-on the line by hooking up the third leg to some kind of monitor.
-Sounded simple enough. I wondered why nobody had thought of it before.
-I also wondered whether this guy's son back at the workshop had any
-teenage friends.
-
-We had a break. The guy sitting next to me was wearing a giveaway
-baseball cap advertising the Uzi submachine gun. We had a desultory chat
-about the merits of Uzis. Long a favorite of the Secret Service,
-it seems Uzis went out of fashion with the advent of the Persian Gulf War,
-our Arab allies taking some offense at Americans toting Israeli weapons.
-Besides, I was informed by another expert, Uzis jam. The equivalent weapon
-of choice today is the Heckler & Koch, manufactured in Germany.
-
-The guy with the Uzi cap was a forensic photographer. He also did a lot
-of photographic surveillance work in computer crime cases. He used to,
-that is, until the firings in Phoenix. He was now a private investigator and,
-with his wife, ran a photography salon specializing in weddings and portrait
-photos. At--one must repeat--a considerable rise in income.
-
-He was still FCIC. If you were FCIC, and you needed to talk
-to an expert about forensic photography, well, there he was,
-willing and able. If he hadn't shown up, people would have missed him.
-
-Our lecturer had raised the point that preliminary investigation
-of a computer system is vital before any seizure is undertaken.
-It's vital to understand how many machines are in there, what kinds
-there are, what kind of operating system they use, how many people
-use them, where the actual data itself is stored. To simply barge into
-an office demanding "all the computers" is a recipe for swift disaster.
-
-This entails some discreet inquiries beforehand. In fact, what it
-entails is basically undercover work. An intelligence operation.
-SPYING, not to put too fine a point on it.
-
-In a chat after the lecture, I asked an attendee whether "trashing" might work.
-
-I received a swift briefing on the theory and practice of "trash covers."
-Police "trash covers," like "mail covers" or like wiretaps, require the
-agreement of a judge. This obtained, the "trashing" work of cops is just
-like that of hackers, only more so and much better organized. So much so,
-I was informed, that mobsters in Phoenix make extensive use of locked
-garbage cans picked up by a specialty high-security trash company.
-
-In one case, a tiger team of Arizona cops had trashed a local residence
-for four months. Every week they showed up on the municipal garbage truck,
-disguised as garbagemen, and carried the contents of the suspect cans off
-to a shade tree, where they combed through the garbage--a messy task,
-especially considering that one of the occupants was undergoing
-kidney dialysis. All useful documents were cleaned, dried and examined.
-A discarded typewriter-ribbon was an especially valuable source of data,
-as its long one-strike ribbon of film contained the contents of every
-letter mailed out of the house. The letters were neatly retyped by
-a police secretary equipped with a large desk-mounted magnifying glass.
-
-There is something weirdly disquieting about the whole subject of
-"trashing"-- an unsuspected and indeed rather disgusting mode of
-deep personal vulnerability. Things that we pass by every day,
-that we take utterly for granted, can be exploited with so little work.
-Once discovered, the knowledge of these vulnerabilities tend to spread.
-
-Take the lowly subject of MANHOLE COVERS. The humble manhole cover
-reproduces many of the dilemmas of computer-security in miniature.
-Manhole covers are, of course, technological artifacts, access-points
-to our buried urban infrastructure. To the vast majority of us,
-manhole covers are invisible. They are also vulnerable. For many years now,
-the Secret Service has made a point of caulking manhole covers along all routes
-of the Presidential motorcade. This is, of course, to deter terrorists from
-leaping out of underground ambush or, more likely, planting remote-control
-car-smashing bombs beneath the street.
-
-Lately, manhole covers have seen more and more criminal exploitation,
-especially in New York City. Recently, a telco in New York City
-discovered that a cable television service had been sneaking into
-telco manholes and installing cable service alongside the phone-lines--
-WITHOUT PAYING ROYALTIES. New York companies have also suffered a
-general plague of (a) underground copper cable theft; (b) dumping of garbage,
-including toxic waste, and (c) hasty dumping of murder victims.
-
-Industry complaints reached the ears of an innovative New England
-industrial-security company, and the result was a new product known
-as "the Intimidator," a thick titanium-steel bolt with a precisely machined
-head that requires a special device to unscrew. All these "keys" have registered
-serial numbers kept on file with the manufacturer. There are now some
-thousands of these "Intimidator" bolts being sunk into American pavements
-wherever our President passes, like some macabre parody of strewn roses.
-They are also spreading as fast as steel dandelions around US military bases
-and many centers of private industry.
-
-Quite likely it has never occurred to you to peer under a manhole cover,
-perhaps climb down and walk around down there with a flashlight, just to see
-what it's like. Formally speaking, this might be trespassing, but if you
-didn't hurt anything, and didn't make an absolute habit of it, nobody would
-really care. The freedom to sneak under manholes was likely a freedom
-you never intended to exercise.
-
-You now are rather less likely to have that freedom at all.
-You may never even have missed it until you read about it here,
-but if you're in New York City it's gone, and elsewhere it's likely going.
-This is one of the things that crime, and the reaction to
-crime, does to us.
-
-The tenor of the meeting now changed as the Electronic Frontier Foundation
-arrived. The EFF, whose personnel and history will be examined in detail
-in the next chapter, are a pioneering civil liberties group who arose in
-direct response to the Hacker Crackdown of 1990.
-
-Now Mitchell Kapor, the Foundation's president, and Michael Godwin,
-its chief attorney, were confronting federal law enforcement MANO A MANO
-for the first time ever. Ever alert to the manifold uses of publicity,
-Mitch Kapor and Mike Godwin had brought their own journalist in tow:
-Robert Draper, from Austin, whose recent well-received book about
-ROLLING STONE magazine was still on the stands. Draper was on assignment
-for TEXAS MONTHLY.
-
-The Steve Jackson/EFF civil lawsuit against the Chicago Computer Fraud
-and Abuse Task Force was a matter of considerable regional interest in Texas.
-There were now two Austinite journalists here on the case. In fact,
-counting Godwin (a former Austinite and former journalist) there were
-three of us. Lunch was like Old Home Week.
-
-Later, I took Draper up to my hotel room. We had a long frank talk
-about the case, networking earnestly like a miniature freelance-journo
-version of the FCIC: privately confessing the numerous blunders
-of journalists covering the story, and trying hard to figure out
-who was who and what the hell was really going on out there.
-I showed Draper everything I had dug out of the Hilton trashcan.
-We pondered the ethics of "trashing" for a while, and agreed
-that they were dismal. We also agreed that finding a SPRINT
-bill on your first time out was a heck of a coincidence.
-
-First I'd "trashed"--and now, mere hours later, I'd bragged to someone else.
-Having entered the lifestyle of hackerdom, I was now, unsurprisingly,
-following its logic. Having discovered something remarkable through
-a surreptitious action, I of course HAD to "brag," and to drag the passing
-Draper into my iniquities. I felt I needed a witness. Otherwise nobody
-would have believed what I'd discovered. . . .
-
-Back at the meeting, Thackeray cordially, if rather tentatively,
-introduced Kapor and Godwin to her colleagues. Papers were distributed.
-Kapor took center stage. The brilliant Bostonian high-tech entrepreneur,
-normally the hawk in his own administration and quite an effective
-public speaker, seemed visibly nervous, and frankly admitted as much.
-He began by saying he consided computer-intrusion to be morally wrong,
-and that the EFF was not a "hacker defense fund," despite what had appeared
-in print. Kapor chatted a bit about the basic motivations of his group,
-emphasizing their good faith and willingness to listen and seek common ground
-with law enforcement--when, er, possible.
-
-Then, at Godwin's urging, Kapor suddenly remarked that EFF's own Internet
-machine had been "hacked" recently, and that EFF did not consider
-this incident amusing.
-
-After this surprising confession, things began to loosen up
-quite rapidly. Soon Kapor was fielding questions, parrying objections,
-challenging definitions, and juggling paradigms with something akin
-to his usual gusto.
-
-Kapor seemed to score quite an effect with his shrewd and skeptical analysis
-of the merits of telco "Caller-ID" services. (On this topic, FCIC and EFF
-have never been at loggerheads, and have no particular established earthworks
-to defend.) Caller-ID has generally been promoted as a privacy service
-for consumers, a presentation Kapor described as a "smokescreen,"
-the real point of Caller-ID being to ALLOW CORPORATE CUSTOMERS TO BUILD
-EXTENSIVE COMMERCIAL DATABASES ON EVERYBODY WHO PHONES OR FAXES THEM.
-Clearly, few people in the room had considered this possibility,
-except perhaps for two late-arrivals from US WEST RBOC security,
-who chuckled nervously.
-
-Mike Godwin then made an extensive presentation on
-"Civil Liberties Implications of Computer Searches and Seizures."
-Now, at last, we were getting to the real nitty-gritty here,
-real political horse-trading. The audience listened with close
-attention, angry mutters rising occasionally: "He's trying to
-teach us our jobs!" "We've been thinking about this for years!
-We think about these issues every day!" "If I didn't seize the works,
-I'd be sued by the guy's victims!" "I'm violating the law if I leave
-ten thousand disks full of illegal PIRATED SOFTWARE and STOLEN CODES!"
-"It's our job to make sure people don't trash the Constitution--
-we're the DEFENDERS of the Constitution!" "We seize stuff when
-we know it will be forfeited anyway as restitution for the victim!"
-
-"If it's forfeitable, then don't get a search warrant, get a
-forfeiture warrant," Godwin suggested coolly. He further remarked
-that most suspects in computer crime don't WANT to see their computers
-vanish out the door, headed God knew where, for who knows how long.
-They might not mind a search, even an extensive search, but they want
-their machines searched on-site.
-
-"Are they gonna feed us?" somebody asked sourly.
-
-"How about if you take copies of the data?" Godwin parried.
-
-"That'll never stand up in court."
-
-"Okay, you make copies, give THEM the copies, and take the originals."
-
-Hmmm.
-
-Godwin championed bulletin-board systems as repositories of First Amendment
-protected free speech. He complained that federal computer-crime training
-manuals gave boards a bad press, suggesting that they are hotbeds of crime
-haunted by pedophiles and crooks, whereas the vast majority of the nation's
-thousands of boards are completely innocuous, and nowhere near so
-romantically suspicious.
-
-People who run boards violently resent it when their systems are seized,
-and their dozens (or hundreds) of users look on in abject horror.
-Their rights of free expression are cut short. Their right to associate
-with other people is infringed. And their privacy is violated as their
-private electronic mail becomes police property.
-
-Not a soul spoke up to defend the practice of seizing boards.
-The issue passed in chastened silence. Legal principles aside--
-(and those principles cannot be settled without laws passed or
-court precedents)--seizing bulletin boards has become public-relations
-poison for American computer police.
-
-And anyway, it's not entirely necessary. If you're a cop, you can get 'most
-everything you need from a pirate board, just by using an inside informant.
-Plenty of vigilantes--well, CONCERNED CITIZENS--will inform police the moment
-they see a pirate board hit their area (and will tell the police all about it,
-in such technical detail, actually, that you kinda wish they'd shut up).
-They will happily supply police with extensive downloads or printouts.
-It's IMPOSSIBLE to keep this fluid electronic information out of the
-hands of police.
-
-Some people in the electronic community become enraged at the prospect
-of cops "monitoring" bulletin boards. This does have touchy aspects,
-as Secret Service people in particular examine bulletin boards with
-some regularity. But to expect electronic police to be deaf dumb
-and blind in regard to this particular medium rather flies in the face
-of common sense. Police watch television, listen to radio, read newspapers
-and magazines; why should the new medium of boards be different?
-Cops can exercise the same access to electronic information
-as everybody else. As we have seen, quite a few computer
-police maintain THEIR OWN bulletin boards, including anti-hacker
-"sting" boards, which have generally proven quite effective.
-
-As a final clincher, their Mountie friends in Canada (and colleagues
-in Ireland and Taiwan) don't have First Amendment or American
-constitutional restrictions, but they do have phone lines,
-and can call any bulletin board in America whenever they please.
-The same technological determinants that play into the hands of hackers,
-phone phreaks and software pirates can play into the hands of police.
-"Technological determinants" don't have ANY human allegiances.
-They're not black or white, or Establishment or Underground,
-or pro-or-anti anything.
-
-Godwin complained at length about what he called "the Clever Hobbyist
-hypothesis" --the assumption that the "hacker" you're busting is clearly
-a technical genius, and must therefore by searched with extreme thoroughness.
-So: from the law's point of view, why risk missing anything? Take the works.
-Take the guy's computer. Take his books. Take his notebooks.
-Take the electronic drafts of his love letters. Take his Walkman.
-Take his wife's computer. Take his dad's computer. Take his kid
-sister's computer. Take his employer's computer. Take his compact disks--
-they MIGHT be CD-ROM disks, cunningly disguised as pop music.
-Take his laser printer--he might have hidden something vital in the
-printer's 5meg of memory. Take his software manuals and hardware
-documentation. Take his science-fiction novels and his simulation-
-gaming books. Take his Nintendo Game-Boy and his Pac-Man arcade game.
-Take his answering machine, take his telephone out of the wall.
-Take anything remotely suspicious.
-
-Godwin pointed out that most "hackers" are not, in fact, clever
-genius hobbyists. Quite a few are crooks and grifters who don't
-have much in the way of technical sophistication; just some rule-of-thumb
-rip-off techniques. The same goes for most fifteen-year-olds who've
-downloaded a code-scanning program from a pirate board. There's no
-real need to seize everything in sight. It doesn't require an entire
-computer system and ten thousand disks to prove a case in court.
-
-What if the computer is the instrumentality of a crime? someone demanded.
-
-Godwin admitted quietly that the doctrine of seizing the instrumentality
-of a crime was pretty well established in the American legal system.
-
-The meeting broke up. Godwin and Kapor had to leave. Kapor was testifying
-next morning before the Massachusetts Department Of Public Utility,
-about ISDN narrowband wide-area networking.
-
-As soon as they were gone, Thackeray seemed elated.
-She had taken a great risk with this. Her colleagues had not,
-in fact, torn Kapor and Godwin's heads off. She was very proud of them,
-and told them so.
-
-"Did you hear what Godwin said about INSTRUMENTALITY OF A CRIME?"
-she exulted, to nobody in particular. "Wow, that means
-MITCH ISN'T GOING TO SUE ME."
-
-#
-
-America's computer police are an interesting group.
-As a social phenomenon they are far more interesting,
-and far more important, than teenage phone phreaks
-and computer hackers. First, they're older and wiser;
-not dizzy hobbyists with leaky morals, but seasoned adult
-professionals with all the responsibilities of public service.
-And, unlike hackers, they possess not merely TECHNICAL
-power alone, but heavy-duty legal and social authority.
-
-And, very interestingly, they are just as much at
-sea in cyberspace as everyone else. They are not
-happy about this. Police are authoritarian by nature,
-and prefer to obey rules and precedents. (Even those police
-who secretly enjoy a fast ride in rough territory will soberly
-disclaim any "cowboy" attitude.) But in cyberspace there ARE
-no rules and precedents. They are groundbreaking pioneers,
-Cyberspace Rangers, whether they like it or not.
-
-In my opinion, any teenager enthralled by computers,
-fascinated by the ins and outs of computer security,
-and attracted by the lure of specialized forms of knowledge and power,
-would do well to forget all about "hacking" and set his (or her)
-sights on becoming a fed. Feds can trump hackers at almost every
-single thing hackers do, including gathering intelligence,
-undercover disguise, trashing, phone-tapping, building dossiers,
-networking, and infiltrating computer systems--CRIMINAL computer systems.
-Secret Service agents know more about phreaking, coding and carding
-than most phreaks can find out in years, and when it comes to viruses,
-break-ins, software bombs and trojan horses, Feds have direct access to red-hot
-confidential information that is only vague rumor in the underground.
-
-And if it's an impressive public rep you're after, there are few people
-in the world who can be so chillingly impressive as a well-trained,
-well-armed United States Secret Service agent.
-
-Of course, a few personal sacrifices are necessary in order to obtain
-that power and knowledge. First, you'll have the galling discipline
-of belonging to a large organization; but the world of computer crime
-is still so small, and so amazingly fast-moving, that it will remain
-spectacularly fluid for years to come. The second sacrifice is that
-you'll have to give up ripping people off. This is not a great loss.
-Abstaining from the use of illegal drugs, also necessary, will be a boon
-to your health.
-
-A career in computer security is not a bad choice for a young man
-or woman today. The field will almost certainly expand drastically
-in years to come. If you are a teenager today, by the time you
-become a professional, the pioneers you have read about in this book
-will be the grand old men and women of the field, swamped by their many
-disciples and successors. Of course, some of them, like William P. Wood
-of the 1865 Secret Service, may well be mangled in the whirring machinery
-of legal controversy; but by the time you enter the computer-crime field,
-it may have stabilized somewhat, while remaining entertainingly challenging.
-
-But you can't just have a badge. You have to win it. First, there's the
-federal law enforcement training. And it's hard--it's a challenge.
-A real challenge--not for wimps and rodents.
-
-Every Secret Service agent must complete gruelling courses at the
-Federal Law Enforcement Training Center. (In fact, Secret Service
-agents are periodically re-trained during their entire careers.)
-
-In order to get a glimpse of what this might be like,
-I myself travelled to FLETC.
-
-#
-
-The Federal Law Enforcement Training Center is a 1500-acre facility
-on Georgia's Atlantic coast. It's a milieu of marshgrass, seabirds,
-damp, clinging sea-breezes, palmettos, mosquitos, and bats.
-Until 1974, it was a Navy Air Base, and still features a working runway,
-and some WWII vintage blockhouses and officers' quarters.
-The Center has since benefitted by a forty-million-dollar retrofit,
-but there's still enough forest and swamp on the facility for the
-Border Patrol to put in tracking practice.
-
-As a town, "Glynco" scarcely exists. The nearest real town is Brunswick,
-a few miles down Highway 17, where I stayed at the aptly named Marshview
-Holiday Inn. I had Sunday dinner at a seafood restaurant called "Jinright's,"
-where I feasted on deep-fried alligator tail. This local favorite was
-a heaped basket of bite-sized chunks of white, tender, almost fluffy
-reptile meat, steaming in a peppered batter crust. Alligator makes
-a culinary experience that's hard to forget, especially when liberally
-basted with homemade cocktail sauce from a Jinright squeeze-bottle.
-
-The crowded clientele were tourists, fishermen, local black folks
-in their Sunday best, and white Georgian locals who all seemed
-to bear an uncanny resemblance to Georgia humorist Lewis Grizzard.
-
-The 2,400 students from 75 federal agencies who make up the FLETC
-population scarcely seem to make a dent in the low-key local scene.
-The students look like tourists, and the teachers seem to have taken
-on much of the relaxed air of the Deep South. My host was Mr. Carlton
-Fitzpatrick, the Program Coordinator of the Financial Fraud Institute.
-Carlton Fitzpatrick is a mustached, sinewy, well-tanned Alabama native
-somewhere near his late forties, with a fondness for chewing tobacco,
-powerful computers, and salty, down-home homilies. We'd met before,
-at FCIC in Arizona.
-
-The Financial Fraud Institute is one of the nine divisions at FLETC.
-Besides Financial Fraud, there's Driver & Marine, Firearms,
-and Physical Training. These are specialized pursuits.
-There are also five general training divisions: Basic Training,
-Operations, Enforcement Techniques, Legal Division, and Behavioral Science.
-
-Somewhere in this curriculum is everything necessary to turn green college
-graduates into federal agents. First they're given ID cards. Then they get
-the rather miserable-looking blue coveralls known as "smurf suits."
-The trainees are assigned a barracks and a cafeteria, and immediately
-set on FLETC's bone-grinding physical training routine. Besides the
-obligatory daily jogging--(the trainers run up danger flags beside
-the track when the humidity rises high enough to threaten heat stroke)--
-here's the Nautilus machines, the martial arts, the survival skills. . . .
-
-The eighteen federal agencies who maintain on-site academies at FLETC
-employ a wide variety of specialized law enforcement units, some of them
-rather arcane. There's Border Patrol, IRS Criminal Investigation Division,
-Park Service, Fish and Wildlife, Customs, Immigration, Secret Service and
-the Treasury's uniformed subdivisions. . . . If you're a federal cop
-and you don't work for the FBI, you train at FLETC. This includes people
-as apparently obscure as the agents of the Railroad Retirement Board
-Inspector General. Or the Tennessee Valley Authority Police,
-who are in fact federal police officers, and can and do arrest criminals
-on the federal property of the Tennessee Valley Authority.
-
-And then there are the computer-crime people. All sorts, all backgrounds.
-Mr. Fitzpatrick is not jealous of his specialized knowledge. Cops all over,
-in every branch of service, may feel a need to learn what he can teach.
-Backgrounds don't matter much. Fitzpatrick himself was originally a
-Border Patrol veteran, then became a Border Patrol instructor at FLETC.
-His Spanish is still fluent--but he found himself strangely fascinated
-when the first computers showed up at the Training Center. Fitzpatrick
-did have a background in electrical engineering, and though he never
-considered himself a computer hacker, he somehow found himself writing
-useful little programs for this new and promising gizmo.
-
-He began looking into the general subject of computers and crime,
-reading Donn Parker's books and articles, keeping an ear cocked
-for war stories, useful insights from the field, the up-and-coming
-people of the local computer-crime and high-technology units. . . .
-Soon he got a reputation around FLETC as the resident "computer expert,"
-and that reputation alone brought him more exposure, more experience--
-until one day he looked around, and sure enough he WAS a federal
-computer-crime expert.
-
-In fact, this unassuming, genial man may be THE federal computer-crime expert.
-There are plenty of very good computer people, and plenty of very good
-federal investigators, but the area where these worlds of expertise overlap
-is very slim. And Carlton Fitzpatrick has been right at the center of that
-since 1985, the first year of the Colluquy, a group which owes much to
-his influence.
-
-He seems quite at home in his modest, acoustic-tiled office,
-with its Ansel Adams-style Western photographic art, a gold-framed
-Senior Instructor Certificate, and a towering bookcase crammed with
-three-ring binders with ominous titles such as Datapro Reports on
-Information Security and CFCA Telecom Security '90.
-
-The phone rings every ten minutes; colleagues show up at the door
-to chat about new developments in locksmithing or to shake their heads
-over the latest dismal developments in the BCCI global banking scandal.
-
-Carlton Fitzpatrick is a fount of computer-crime war-stories,
-related in an acerbic drawl. He tells me the colorful tale
-of a hacker caught in California some years back. He'd been
-raiding systems, typing code without a detectable break,
-for twenty, twenty-four, thirty-six hours straight. Not just
-logged on--TYPING. Investigators were baffled. Nobody
-could do that. Didn't he have to go to the bathroom?
-Was it some kind of automatic keyboard-whacking device
-that could actually type code?
-
-A raid on the suspect's home revealed a situation of astonishing squalor.
-The hacker turned out to be a Pakistani computer-science student who had
-flunked out of a California university. He'd gone completely underground
-as an illegal electronic immigrant, and was selling stolen phone-service
-to stay alive. The place was not merely messy and dirty, but in a state
-of psychotic disorder. Powered by some weird mix of culture shock,
-computer addiction, and amphetamines, the suspect had in fact been sitting
-in front of his computer for a day and a half straight, with snacks and
-drugs at hand on the edge of his desk and a chamber-pot under his chair.
-
-Word about stuff like this gets around in the hacker-tracker community.
-
-Carlton Fitzpatrick takes me for a guided tour by car around the
-FLETC grounds. One of our first sights is the biggest indoor
-firing range in the world. There are federal trainees in there,
-Fitzpatrick assures me politely, blasting away with a wide variety
-of automatic weapons: Uzis, Glocks, AK-47s. . . . He's willing to
-take me inside. I tell him I'm sure that's really interesting,
-but I'd rather see his computers. Carlton Fitzpatrick seems quite
-surprised and pleased. I'm apparently the first journalist he's ever
-seen who has turned down the shooting gallery in favor of microchips.
-
-Our next stop is a favorite with touring Congressmen: the three-mile
-long FLETC driving range. Here trainees of the Driver & Marine Division
-are taught high-speed pursuit skills, setting and breaking road-blocks,
-diplomatic security driving for VIP limousines. . . . A favorite FLETC
-pastime is to strap a passing Senator into the passenger seat beside a
-Driver & Marine trainer, hit a hundred miles an hour, then take it right into
-"the skid-pan," a section of greased track where two tons of Detroit iron
-can whip and spin like a hockey puck.
-
-Cars don't fare well at FLETC. First they're rifled again and again
-for search practice. Then they do 25,000 miles of high-speed
-pursuit training; they get about seventy miles per set
-of steel-belted radials. Then it's off to the skid pan,
-where sometimes they roll and tumble headlong in the grease.
-When they're sufficiently grease-stained, dented, and creaky,
-they're sent to the roadblock unit, where they're battered without pity.
-And finally then they're sacrificed to the Bureau of Alcohol,
-Tobacco and Firearms, whose trainees learn the ins and outs
-of car-bomb work by blowing them into smoking wreckage.
-
-There's a railroad box-car on the FLETC grounds, and a large
-grounded boat, and a propless plane; all training-grounds for searches.
-The plane sits forlornly on a patch of weedy tarmac next to an eerie
-blockhouse known as the "ninja compound," where anti-terrorism specialists
-practice hostage rescues. As I gaze on this creepy paragon of modern
-low-intensity warfare, my nerves are jangled by a sudden staccato outburst
-of automatic weapons fire, somewhere in the woods to my right.
-"Nine-millimeter," Fitzpatrick judges calmly.
-
-Even the eldritch ninja compound pales somewhat compared
-to the truly surreal area known as "the raid-houses."
-This is a street lined on both sides with nondescript
-concrete-block houses with flat pebbled roofs.
-They were once officers' quarters. Now they are training grounds.
-The first one to our left, Fitzpatrick tells me, has been specially
-adapted for computer search-and-seizure practice. Inside it has been
-wired for video from top to bottom, with eighteen pan-and-tilt
-remotely controlled videocams mounted on walls and in corners.
-Every movement of the trainee agent is recorded live by teachers,
-for later taped analysis. Wasted movements, hesitations, possibly lethal
-tactical mistakes--all are gone over in detail.
-
-Perhaps the weirdest single aspect of this building is its front door,
-scarred and scuffed all along the bottom, from the repeated impact,
-day after day, of federal shoe-leather.
-
-Down at the far end of the row of raid-houses some people are practicing
-a murder. We drive by slowly as some very young and rather nervous-looking
-federal trainees interview a heavyset bald man on the raid-house lawn.
-Dealing with murder takes a lot of practice; first you have to learn
-to control your own instinctive disgust and panic, then you have to learn
-to control the reactions of a nerve-shredded crowd of civilians,
-some of whom may have just lost a loved one, some of whom may be murderers--
-quite possibly both at once.
-
-A dummy plays the corpse. The roles of the bereaved, the morbidly curious,
-and the homicidal are played, for pay, by local Georgians: waitresses,
-musicians, most anybody who needs to moonlight and can learn a script.
-These people, some of whom are FLETC regulars year after year,
-must surely have one of the strangest jobs in the world.
-
-Something about the scene: "normal" people in a weird situation,
-standing around talking in bright Georgia sunshine, unsuccessfully
-pretending that something dreadful has gone on, while a dummy lies
-inside on faked bloodstains. . . . While behind this weird masquerade,
-like a nested set of Russian dolls, are grim future realities of real death,
-real violence, real murders of real people, that these young agents
-will really investigate, many times during their careers. . . .
-Over and over. . . . Will those anticipated murders look like this,
-feel like this--not as "real" as these amateur actors are trying to
-make it seem, but both as "real," and as numbingly unreal, as watching
-fake people standing around on a fake lawn? Something about this scene
-unhinges me. It seems nightmarish to me, Kafkaesque. I simply don't
-know how to take it; my head is turned around; I don't know whether to laugh,
-cry, or just shudder.
-
-When the tour is over, Carlton Fitzpatrick and I talk about computers.
-For the first time cyberspace seems like quite a comfortable place.
-It seems very real to me suddenly, a place where I know what I'm talking about,
-a place I'm used to. It's real. "Real." Whatever.
-
-Carlton Fitzpatrick is the only person I've met in cyberspace circles
-who is happy with his present equipment. He's got a 5 Meg RAM PC with
-a 112 meg hard disk; a 660 meg's on the way. He's got a Compaq 386 desktop,
-and a Zenith 386 laptop with 120 meg. Down the hall is a NEC Multi-Sync 2A
-with a CD-ROM drive and a 9600 baud modem with four com-lines.
-There's a training minicomputer, and a 10-meg local mini just for the Center,
-and a lab-full of student PC clones and half-a-dozen Macs or so.
-There's a Data General MV 2500 with 8 meg on board and a 370 meg disk.
-
-Fitzpatrick plans to run a UNIX board on the Data General when he's
-finished beta-testing the software for it, which he wrote himself.
-It'll have E-mail features, massive files on all manner of computer-crime
-and investigation procedures, and will follow the computer-security
-specifics of the Department of Defense "Orange Book." He thinks
-it will be the biggest BBS in the federal government.
-
-Will it have Phrack on it? I ask wryly.
-
-Sure, he tells me. Phrack, TAP, Computer Underground Digest,
-all that stuff. With proper disclaimers, of course.
-
-I ask him if he plans to be the sysop. Running a system that size is very
-time-consuming, and Fitzpatrick teaches two three-hour courses every day.
-
-No, he says seriously, FLETC has to get its money worth out of the instructors.
-He thinks he can get a local volunteer to do it, a high-school student.
-
-He says a bit more, something I think about an Eagle Scout law-enforcement
-liaison program, but my mind has rocketed off in disbelief.
-
-"You're going to put a TEENAGER in charge of a federal security BBS?"
-I'm speechless. It hasn't escaped my notice that the FLETC Financial
-Fraud Institute is the ULTIMATE hacker-trashing target; there is stuff in here,
-stuff of such utter and consummate cool by every standard of the
-digital underground. . . .
-
-I imagine the hackers of my acquaintance, fainting dead-away from
-forbidden-knowledge greed-fits, at the mere prospect of cracking
-the superultra top-secret computers used to train the Secret Service
-in computer-crime. . . .
-
-"Uhm, Carlton," I babble, "I'm sure he's a really nice kid and all,
-but that's a terrible temptation to set in front of somebody who's,
-you know, into computers and just starting out. . . ."
-
-"Yeah," he says, "that did occur to me." For the first time I begin
-to suspect that he's pulling my leg.
-
-He seems proudest when he shows me an ongoing project called JICC,
-Joint Intelligence Control Council. It's based on the services provided
-by EPIC, the El Paso Intelligence Center, which supplies data and intelligence
-to the Drug Enforcement Administration, the Customs Service, the Coast Guard,
-and the state police of the four southern border states. Certain EPIC files
-can now be accessed by drug-enforcement police of Central America,
-South America and the Caribbean, who can also trade information
-among themselves. Using a telecom program called "White Hat,"
-written by two brothers named Lopez from the Dominican Republic,
-police can now network internationally on inexpensive PCs.
-Carlton Fitzpatrick is teaching a class of drug-war agents
-from the Third World, and he's very proud of their progress.
-Perhaps soon the sophisticated smuggling networks of the
-Medellin Cartel will be matched by a sophisticated computer
-network of the Medellin Cartel's sworn enemies. They'll track boats,
-track contraband, track the international drug-lords who now leap over
-borders with great ease, defeating the police through the clever use
-of fragmented national jurisdictions.
-
-JICC and EPIC must remain beyond the scope of this book.
-They seem to me to be very large topics fraught with complications
-that I am not fit to judge. I do know, however, that the international,
-computer-assisted networking of police, across national boundaries,
-is something that Carlton Fitzpatrick considers very important,
-a harbinger of a desirable future. I also know that networks
-by their nature ignore physical boundaries. And I also know
-that where you put communications you put a community,
-and that when those communities become self-aware
-they will fight to preserve themselves and to expand their influence.
-I make no judgements whether this is good or bad.
-It's just cyberspace; it's just the way things are.
-
-I asked Carlton Fitzpatrick what advice he would have for
-a twenty-year-old who wanted to shine someday in the world
-of electronic law enforcement.
-
-He told me that the number one rule was simply not to be
-scared of computers. You don't need to be an obsessive
-"computer weenie," but you mustn't be buffaloed just because
-some machine looks fancy. The advantages computers give
-smart crooks are matched by the advantages they give smart cops.
-Cops in the future will have to enforce the law "with their heads,
-not their holsters." Today you can make good cases without ever
-leaving your office. In the future, cops who resist the computer
-revolution will never get far beyond walking a beat.
-
-I asked Carlton Fitzpatrick if he had some single message for the public;
-some single thing that he would most like the American public to know
-about his work.
-
-He thought about it while. "Yes," he said finally. "TELL me the rules,
-and I'll TEACH those rules!" He looked me straight in the eye.
-"I do the best that I can."
-
-
-
-PART FOUR: THE CIVIL LIBERTARIANS
-
-
-The story of the Hacker Crackdown, as we have followed it thus far,
-has been technological, subcultural, criminal and legal.
-The story of the Civil Libertarians, though it partakes
-of all those other aspects, is profoundly and thoroughly POLITICAL.
-
-In 1990, the obscure, long-simmering struggle over the ownership
-and nature of cyberspace became loudly and irretrievably public.
-People from some of the oddest corners of American society suddenly
-found themselves public figures. Some of these people found this
-situation much more than they had ever bargained for. They backpedalled,
-and tried to retreat back to the mandarin obscurity of their cozy
-subcultural niches. This was generally to prove a mistake.
-
-But the civil libertarians seized the day in 1990. They found themselves
-organizing, propagandizing, podium-pounding, persuading, touring,
-negotiating, posing for publicity photos, submitting to interviews,
-squinting in the limelight as they tried a tentative, but growingly
-sophisticated, buck-and-wing upon the public stage.
-
-It's not hard to see why the civil libertarians should have
-this competitive advantage.
-
-The hackers of the digital underground are an hermetic elite.
-They find it hard to make any remotely convincing case for
-their actions in front of the general public. Actually,
-hackers roundly despise the "ignorant" public, and have never
-trusted the judgement of "the system." Hackers do propagandize,
-but only among themselves, mostly in giddy, badly spelled manifestos
-of class warfare, youth rebellion or naive techie utopianism.
-Hackers must strut and boast in order to establish and preserve
-their underground reputations. But if they speak out too loudly
-and publicly, they will break the fragile surface-tension of the underground,
-and they will be harrassed or arrested. Over the longer term,
-most hackers stumble, get busted, get betrayed, or simply give up.
-As a political force, the digital underground is hamstrung.
-
-The telcos, for their part, are an ivory tower under protracted seige.
-They have plenty of money with which to push their calculated public image,
-but they waste much energy and goodwill attacking one another with
-slanderous and demeaning ad campaigns. The telcos have suffered
-at the hands of politicians, and, like hackers, they don't trust
-the public's judgement. And this distrust may be well-founded.
-Should the general public of the high-tech 1990s come to understand
-its own best interests in telecommunications, that might well pose
-a grave threat to the specialized technical power and authority
-that the telcos have relished for over a century. The telcos do
-have strong advantages: loyal employees, specialized expertise,
-influence in the halls of power, tactical allies in law enforcement,
-and unbelievably vast amounts of money. But politically speaking, they lack
-genuine grassroots support; they simply don't seem to have many friends.
-
-Cops know a lot of things other people don't know.
-But cops willingly reveal only those aspects of their
-knowledge that they feel will meet their institutional
-purposes and further public order. Cops have respect,
-they have responsibilities, they have power in the streets
-and even power in the home, but cops don't do particularly
-well in limelight. When pressed, they will step out in the
-public gaze to threaten bad-guys, or to cajole prominent citizens,
-or perhaps to sternly lecture the naive and misguided.
-But then they go back within their time-honored fortress
-of the station-house, the courtroom and the rule-book.
-
-The electronic civil libertarians, however, have proven to be
-born political animals. They seemed to grasp very early on
-the postmodern truism that communication is power. Publicity is power.
-Soundbites are power. The ability to shove one's issue onto the public
-agenda--and KEEP IT THERE--is power. Fame is power. Simple personal
-fluency and eloquence can be power, if you can somehow catch the
-public's eye and ear.
-
-The civil libertarians had no monopoly on "technical power"--
-though they all owned computers, most were not particularly
-advanced computer experts. They had a good deal of money,
-but nowhere near the earthshaking wealth and the galaxy
-of resources possessed by telcos or federal agencies.
-They had no ability to arrest people. They carried
-out no phreak and hacker covert dirty-tricks.
-
-But they really knew how to network.
-
-Unlike the other groups in this book, the civil libertarians
-have operated very much in the open, more or less right
-in the public hurly-burly. They have lectured audiences galore
-and talked to countless journalists, and have learned to
-refine their spiels. They've kept the cameras clicking,
-kept those faxes humming, swapped that email,
-run those photocopiers on overtime, licked envelopes
-and spent small fortunes on airfare and long-distance.
-In an information society, this open, overt, obvious activity
-has proven to be a profound advantage.
-
-In 1990, the civil libertarians of cyberspace assembled
-out of nowhere in particular, at warp speed. This "group"
-(actually, a networking gaggle of interested parties
-which scarcely deserves even that loose term) has almost nothing
-in the way of formal organization. Those formal civil libertarian
-organizations which did take an interest in cyberspace issues,
-mainly the Computer Professionals for Social Responsibility
-and the American Civil Liberties Union, were carried along
-by events in 1990, and acted mostly as adjuncts,
-underwriters or launching-pads.
-
-The civil libertarians nevertheless enjoyed the greatest success
-of any of the groups in the Crackdown of 1990. At this writing,
-their future looks rosy and the political initiative is firmly in their hands.
-This should be kept in mind as we study the highly unlikely lives
-and lifestyles of the people who actually made this happen.
-
-#
-
-In June 1989, Apple Computer, Inc., of Cupertino,
-California, had a problem. Someone had illicitly copied
-a small piece of Apple's proprietary software, software
-which controlled an internal chip driving the Macintosh
-screen display. This Color QuickDraw source code was
-a closely guarded piece of Apple's intellectual property.
-Only trusted Apple insiders were supposed to possess it.
-
-But the "NuPrometheus League" wanted things otherwise.
-This person (or persons) made several illicit copies
-of this source code, perhaps as many as two dozen.
-He (or she, or they) then put those illicit floppy disks
-into envelopes and mailed them to people all over America:
-people in the computer industry who were associated with,
-but not directly employed by, Apple Computer.
-
-The NuPrometheus caper was a complex, highly ideological,
-and very hacker-like crime. Prometheus, it will be recalled,
-stole the fire of the Gods and gave this potent gift to the
-general ranks of downtrodden mankind. A similar god-in-the-manger
-attitude was implied for the corporate elite of Apple Computer,
-while the "Nu" Prometheus had himself cast in the role of rebel demigod.
-The illicitly copied data was given away for free.
-
-The new Prometheus, whoever he was, escaped the
-fate of the ancient Greek Prometheus, who was chained
-to a rock for centuries by the vengeful gods while an eagle
-tore and ate his liver. On the other hand, NuPrometheus
-chickened out somewhat by comparison with his role model.
-The small chunk of Color QuickDraw code he had filched
-and replicated was more or less useless to Apple's
-industrial rivals (or, in fact, to anyone else).
-Instead of giving fire to mankind, it was more as if
-NuPrometheus had photocopied the schematics for part of a Bic lighter.
-The act was not a genuine work of industrial espionage.
-It was best interpreted as a symbolic, deliberate slap
-in the face for the Apple corporate heirarchy.
-
-Apple's internal struggles were well-known in the industry. Apple's founders,
-Jobs and Wozniak, had both taken their leave long since. Their raucous core
-of senior employees had been a barnstorming crew of 1960s Californians,
-many of them markedly less than happy with the new button-down multimillion
-dollar regime at Apple. Many of the programmers and developers who had
-invented the Macintosh model in the early 1980s had also taken their leave of
-the company. It was they, not the current masters of Apple's corporate fate,
-who had invented the stolen Color QuickDraw code. The NuPrometheus stunt
-was well-calculated to wound company morale.
-
-Apple called the FBI. The Bureau takes an interest in high-profile
-intellectual-property theft cases, industrial espionage and theft
-of trade secrets. These were likely the right people to call,
-and rumor has it that the entities responsible were in fact discovered
-by the FBI, and then quietly squelched by Apple management. NuPrometheus
-was never publicly charged with a crime, or prosecuted, or jailed.
-But there were no further illicit releases of Macintosh internal software.
-Eventually the painful issue of NuPrometheus was allowed to fade.
-
-In the meantime, however, a large number of puzzled bystanders
-found themselves entertaining surprise guests from the FBI.
-
-One of these people was John Perry Barlow. Barlow is a most unusual man,
-difficult to describe in conventional terms. He is perhaps best known as
-a songwriter for the Grateful Dead, for he composed lyrics for
-"Hell in a Bucket," "Picasso Moon," "Mexicali Blues," "I Need a Miracle,"
-and many more; he has been writing for the band since 1970.
-
-Before we tackle the vexing question as to why a rock lyricist
-should be interviewed by the FBI in a computer-crime case,
-it might be well to say a word or two about the Grateful Dead.
-The Grateful Dead are perhaps the most successful and long-lasting
-of the numerous cultural emanations from the Haight-Ashbury district
-of San Francisco, in the glory days of Movement politics and
-lysergic transcendance. The Grateful Dead are a nexus, a veritable
-whirlwind, of applique decals, psychedelic vans, tie-dyed T-shirts,
-earth-color denim, frenzied dancing and open and unashamed drug use.
-The symbols, and the realities, of Californian freak power surround
-the Grateful Dead like knotted macrame.
-
-The Grateful Dead and their thousands of Deadhead devotees
-are radical Bohemians. This much is widely understood.
-Exactly what this implies in the 1990s is rather more problematic.
-
-The Grateful Dead are among the world's most popular
-and wealthy entertainers: number 20, according to Forbes magazine,
-right between M.C. Hammer and Sean Connery. In 1990, this jeans-clad
-group of purported raffish outcasts earned seventeen million dollars.
-They have been earning sums much along this line for quite some time now.
-
-And while the Dead are not investment bankers or three-piece-suit
-tax specialists--they are, in point of fact, hippie musicians--
-this money has not been squandered in senseless Bohemian excess.
-The Dead have been quietly active for many years, funding various
-worthy activities in their extensive and widespread cultural community.
-
-The Grateful Dead are not conventional players in the American
-power establishment. They nevertheless are something of a force
-to be reckoned with. They have a lot of money and a lot of friends
-in many places, both likely and unlikely.
-
-The Dead may be known for back-to-the-earth environmentalist rhetoric,
-but this hardly makes them anti-technological Luddites. On the contrary,
-like most rock musicians, the Grateful Dead have spent their entire adult
-lives in the company of complex electronic equipment. They have funds to burn
-on any sophisticated tool and toy that might happen to catch their fancy.
-And their fancy is quite extensive.
-
-The Deadhead community boasts any number of recording engineers,
-lighting experts, rock video mavens, electronic technicians
-of all descriptions. And the drift goes both ways. Steve Wozniak,
-Apple's co-founder, used to throw rock festivals. Silicon Valley rocks out.
-
-These are the 1990s, not the 1960s. Today, for a surprising number of people
-all over America, the supposed dividing line between Bohemian and technician
-simply no longer exists. People of this sort may have a set of windchimes
-and a dog with a knotted kerchief 'round its neck, but they're also quite
-likely to own a multimegabyte Macintosh running MIDI synthesizer software
-and trippy fractal simulations. These days, even Timothy Leary himself,
-prophet of LSD, does virtual-reality computer-graphics demos in
-his lecture tours.
-
-John Perry Barlow is not a member of the Grateful Dead. He is, however,
-a ranking Deadhead.
-
-Barlow describes himself as a "techno-crank." A vague term like
-"social activist" might not be far from the mark, either.
-But Barlow might be better described as a "poet"--if one keeps in mind
-Percy Shelley's archaic definition of poets as "unacknowledged legislators
-of the world."
-
-Barlow once made a stab at acknowledged legislator status. In 1987,
-he narrowly missed the Republican nomination for a seat in the
-Wyoming State Senate. Barlow is a Wyoming native, the third-generation
-scion of a well-to-do cattle-ranching family. He is in his early forties,
-married and the father of three daughters.
-
-Barlow is not much troubled by other people's narrow notions of consistency.
-In the late 1980s, this Republican rock lyricist cattle rancher sold his ranch
-and became a computer telecommunications devotee.
-
-The free-spirited Barlow made this transition with ease. He genuinely
-enjoyed computers. With a beep of his modem, he leapt from small-town
-Pinedale, Wyoming, into electronic contact with a large and lively crowd
-of bright, inventive, technological sophisticates from all over the world.
-Barlow found the social milieu of computing attractive: its fast-lane pace,
-its blue-sky rhetoric, its open-endedness. Barlow began dabbling in
-computer journalism, with marked success, as he was a quick study,
-and both shrewd and eloquent. He frequently travelled to San Francisco
-to network with Deadhead friends. There Barlow made extensive contacts
-throughout the Californian computer community, including friendships
-among the wilder spirits at Apple.
-
-In May 1990, Barlow received a visit from a local Wyoming agent of the FBI.
-The NuPrometheus case had reached Wyoming.
-
-Barlow was troubled to find himself under investigation in an
-area of his interests once quite free of federal attention.
-He had to struggle to explain the very nature of computer-crime
-to a headscratching local FBI man who specialized in cattle-rustling.
-Barlow, chatting helpfully and demonstrating the wonders of his modem
-to the puzzled fed, was alarmed to find all "hackers" generally under
-FBI suspicion as an evil influence in the electronic community.
-The FBI, in pursuit of a hacker called "NuPrometheus," were tracing
-attendees of a suspect group called the Hackers Conference.
-
-The Hackers Conference, which had been started in 1984, was a
-yearly Californian meeting of digital pioneers and enthusiasts.
-The hackers of the Hackers Conference had little if anything to do
-with the hackers of the digital underground. On the contrary,
-the hackers of this conference were mostly well-to-do Californian
-high-tech CEOs, consultants, journalists and entrepreneurs.
-(This group of hackers were the exact sort of "hackers"
-most likely to react with militant fury at any criminal
-degradation of the term "hacker.")
-
-Barlow, though he was not arrested or accused of a crime,
-and though his computer had certainly not gone out the door,
-was very troubled by this anomaly. He carried the word to the Well.
-
-Like the Hackers Conference, "the Well" was an emanation of the
-Point Foundation. Point Foundation, the inspiration of a wealthy
-Californian 60s radical named Stewart Brand, was to be a major
-launch-pad of the civil libertarian effort.
-
-Point Foundation's cultural efforts, like those of their fellow Bay Area
-Californians the Grateful Dead, were multifaceted and multitudinous.
-Rigid ideological consistency had never been a strong suit of the
-Whole Earth Catalog. This Point publication had enjoyed a strong
-vogue during the late 60s and early 70s, when it offered hundreds
-of practical (and not so practical) tips on communitarian living,
-environmentalism, and getting back-to-the-land. The Whole Earth Catalog,
-and its sequels, sold two and half million copies and won a
-National Book Award.
-
-With the slow collapse of American radical dissent, the Whole Earth Catalog
-had slipped to a more modest corner of the cultural radar; but in its
-magazine incarnation, CoEvolution Quarterly, the Point Foundation
-continued to offer a magpie potpourri of "access to tools and ideas."
-
-CoEvolution Quarterly, which started in 1974, was never a widely
-popular magazine. Despite periodic outbreaks of millenarian fervor,
-CoEvolution Quarterly failed to revolutionize Western civilization
-and replace leaden centuries of history with bright new Californian paradigms.
-Instead, this propaganda arm of Point Foundation cakewalked a fine line between
-impressive brilliance and New Age flakiness. CoEvolution Quarterly carried
-no advertising, cost a lot, and came out on cheap newsprint with modest
-black-and-white graphics. It was poorly distributed, and spread mostly
-by subscription and word of mouth.
-
-It could not seem to grow beyond 30,000 subscribers.
-And yet--it never seemed to shrink much, either.
-Year in, year out, decade in, decade out, some strange
-demographic minority accreted to support the magazine.
-The enthusiastic readership did not seem to have much
-in the way of coherent politics or ideals. It was sometimes
-hard to understand what held them together (if the often bitter
-debate in the letter-columns could be described as "togetherness").
-
-But if the magazine did not flourish, it was resilient; it got by.
-Then, in 1984, the birth-year of the Macintosh computer,
-CoEvolution Quarterly suddenly hit the rapids. Point Foundation
-had discovered the computer revolution. Out came the Whole Earth
-Software Catalog of 1984, arousing headscratching doubts among
-the tie-dyed faithful, and rabid enthusiasm among the nascent
-"cyberpunk" milieu, present company included. Point Foundation
-started its yearly Hackers Conference, and began to take an
-extensive interest in the strange new possibilities of
-digital counterculture. CoEvolution Quarterlyfolded its teepee,
-replaced by Whole Earth Software Review and eventually by Whole Earth
-Review (the magazine's present incarnation, currently under
-the editorship of virtual-reality maven Howard Rheingold).
-
-1985 saw the birth of the "WELL"--the "Whole Earth 'Lectronic Link."
-The Well was Point Foundation's bulletin board system.
-
-As boards went, the Well was an anomaly from the beginning,
-and remained one. It was local to San Francisco.
-It was huge, with multiple phonelines and enormous files
-of commentary. Its complex UNIX-based software might be
-most charitably described as "user-opaque." It was run on
-a mainframe out of the rambling offices of a non-profit
-cultural foundation in Sausalito. And it was crammed with
-fans of the Grateful Dead.
-
-Though the Well was peopled by chattering hipsters of the Bay Area
-counterculture, it was by no means a "digital underground" board.
-Teenagers were fairly scarce; most Well users (known as "Wellbeings")
-were thirty- and forty-something Baby Boomers. They tended to work
-in the information industry: hardware, software, telecommunications,
-media, entertainment. Librarians, academics, and journalists were
-especially common on the Well, attracted by Point Foundation's
-open-handed distribution of "tools and ideas."
-
-There were no anarchy files on the Well, scarcely a
-dropped hint about access codes or credit-card theft.
-No one used handles. Vicious "flame-wars" were held to
-a comparatively civilized rumble. Debates were sometimes sharp,
-but no Wellbeing ever claimed that a rival had disconnected his phone,
-trashed his house, or posted his credit card numbers.
-
-The Well grew slowly as the 1980s advanced. It charged a modest sum
-for access and storage, and lost money for years--but not enough to hamper
-the Point Foundation, which was nonprofit anyway. By 1990, the Well
-had about five thousand users. These users wandered about a gigantic
-cyberspace smorgasbord of "Conferences", each conference itself consisting
-of a welter of "topics," each topic containing dozens, sometimes hundreds
-of comments, in a tumbling, multiperson debate that could last for months
-or years on end.
-
-
-In 1991, the Well's list of conferences looked like this:
-
-
-CONFERENCES ON THE WELL
-
-WELL "Screenzine" Digest (g zine)
-
-Best of the WELL - vintage material - (g best)
-
-Index listing of new topics in all conferences - (g newtops)
-
-Business - Education
-----------------------
-
-Apple Library Users Group(g alug) Agriculture (g agri)
-Brainstorming (g brain) Classifieds (g cla)
-Computer Journalism (g cj) Consultants (g consult)
-Consumers (g cons) Design (g design)
-Desktop Publishing (g desk) Disability (g disability)
-Education (g ed) Energy (g energy91)
-Entrepreneurs (g entre) Homeowners (g home)
-Indexing (g indexing) Investments (g invest)
-Kids91 (g kids) Legal (g legal)
-One Person Business (g one)
-Periodical/newsletter (g per)
-Telecomm Law (g tcl) The Future (g fut)
-Translators (g trans) Travel (g tra)
-Work (g work)
-
-Electronic Frontier Foundation (g eff)
-Computers, Freedom & Privacy (g cfp)
-Computer Professionals for Social Responsibility (g cpsr)
-
-Social - Political - Humanities
----------------------------------
-
-Aging (g gray) AIDS (g aids)
-Amnesty International (g amnesty) Archives (g arc)
-Berkeley (g berk) Buddhist (g wonderland)
-Christian (g cross) Couples (g couples)
-Current Events (g curr) Dreams (g dream)
-Drugs (g dru) East Coast (g east)
-Emotional Health@@@@ (g private) Erotica (g eros)
-Environment (g env) Firearms (g firearms)
-First Amendment (g first) Fringes of Reason (g fringes)
-Gay (g gay) Gay (Private)# (g gaypriv)
-Geography (g geo) German (g german)
-Gulf War (g gulf) Hawaii (g aloha)
-Health (g heal) History (g hist)
-Holistic (g holi) Interview (g inter)
-Italian (g ital) Jewish (g jew)
-Liberty (g liberty) Mind (g mind)
-Miscellaneous (g misc) Men on the WELL@@ (g mow)
-Network Integration (g origin) Nonprofits (g non)
-North Bay (g north) Northwest (g nw)
-Pacific Rim (g pacrim) Parenting (g par)
-Peace (g pea) Peninsula (g pen)
-Poetry (g poetry) Philosophy (g phi)
-Politics (g pol) Psychology (g psy)
-Psychotherapy (g therapy) Recovery## (g recovery)
-San Francisco (g sanfran) Scams (g scam)
-Sexuality (g sex) Singles (g singles)
-Southern (g south) Spanish (g spanish)
-Spirituality (g spirit) Tibet (g tibet)
-Transportation (g transport) True Confessions (g tru)
-Unclear (g unclear) WELL Writer's Workshop@@@(g www)
-Whole Earth (g we) Women on the WELL@(g wow)
-Words (g words) Writers (g wri)
-
-@@@@Private Conference - mail wooly for entry
-@@@Private conference - mail sonia for entry
-@@Private conference - mail flash for entry
-@ Private conference - mail reva for entry
-# Private Conference - mail hudu for entry
-## Private Conference - mail dhawk for entry
-
-Arts - Recreation - Entertainment
------------------------------------
-ArtCom Electronic Net (g acen)
-Audio-Videophilia (g aud)
-Bicycles (g bike) Bay Area Tonight@@(g bat)
-Boating (g wet) Books (g books)
-CD's (g cd) Comics (g comics)
-Cooking (g cook) Flying (g flying)
-Fun (g fun) Games (g games)
-Gardening (g gard) Kids (g kids)
-Nightowls@ (g owl) Jokes (g jokes)
-MIDI (g midi) Movies (g movies)
-Motorcycling (g ride) Motoring (g car)
-Music (g mus) On Stage (g onstage)
-Pets (g pets) Radio (g rad)
-Restaurant (g rest) Science Fiction (g sf)
-Sports (g spo) Star Trek (g trek)
-Television (g tv) Theater (g theater)
-Weird (g weird) Zines/Factsheet Five(g f5)
-@Open from midnight to 6am
-@@Updated daily
-
-Grateful Dead
--------------
-Grateful Dead (g gd) Deadplan@ (g dp)
-Deadlit (g deadlit) Feedback (g feedback)
-GD Hour (g gdh) Tapes (g tapes)
-Tickets (g tix) Tours (g tours)
-
-@Private conference - mail tnf for entry
-
-Computers
------------
-AI/Forth/Realtime (g realtime) Amiga (g amiga)
-Apple (g app) Computer Books (g cbook)
-Art & Graphics (g gra) Hacking (g hack)
-HyperCard (g hype) IBM PC (g ibm)
-LANs (g lan) Laptop (g lap)
-Macintosh (g mac) Mactech (g mactech)
-Microtimes (g microx) Muchomedia (g mucho)
-NeXt (g next) OS/2 (g os2)
-Printers (g print) Programmer's Net (g net)
-Siggraph (g siggraph) Software Design (g sdc)
-Software/Programming (g software)
-Software Support (g ssc)
-Unix (g unix) Windows (g windows)
-Word Processing (g word)
-
-Technical - Communications
-----------------------------
-Bioinfo (g bioinfo) Info (g boing)
-Media (g media) NAPLPS (g naplps)
-Netweaver (g netweaver) Networld (g networld)
-Packet Radio (g packet) Photography (g pho)
-Radio (g rad) Science (g science)
-Technical Writers (g tec) Telecommunications(g tele)
-Usenet (g usenet) Video (g vid)
-Virtual Reality (g vr)
-
-The WELL Itself
----------------
-Deeper (g deeper) Entry (g ent)
-General (g gentech) Help (g help)
-Hosts (g hosts) Policy (g policy)
-System News (g news) Test (g test)
-
-The list itself is dazzling, bringing to the untutored eye
-a dizzying impression of a bizarre milieu of mountain-climbing
-Hawaiian holistic photographers trading true-life confessions
-with bisexual word-processing Tibetans.
-
-But this confusion is more apparent than real. Each of these conferences
-was a little cyberspace world in itself, comprising dozens and perhaps
-hundreds of sub-topics. Each conference was commonly frequented by
-a fairly small, fairly like-minded community of perhaps a few dozen people.
-It was humanly impossible to encompass the entire Well (especially since
-access to the Well's mainframe computer was billed by the hour).
-Most long-time users contented themselves with a few favorite
-topical neighborhoods, with the occasional foray elsewhere
-for a taste of exotica. But especially important news items,
-and hot topical debates, could catch the attention of the entire
-Well community.
-
-Like any community, the Well had its celebrities, and John Perry Barlow,
-the silver-tongued and silver-modemed lyricist of the Grateful Dead,
-ranked prominently among them. It was here on the Well that Barlow
-posted his true-life tale of computer-crime encounter with the FBI.
-
-The story, as might be expected, created a great stir. The Well was
-already primed for hacker controversy. In December 1989, Harper's magazine
-had hosted a debate on the Well about the ethics of illicit computer intrusion.
-While over forty various computer-mavens took part, Barlow proved a star
-in the debate. So did "Acid Phreak" and "Phiber Optik," a pair of young
-New York hacker-phreaks whose skills at telco switching-station intrusion
-were matched only by their apparently limitless hunger for fame.
-The advent of these two boldly swaggering outlaws in the precincts
-of the Well created a sensation akin to that of Black Panthers
-at a cocktail party for the radically chic.
-
-Phiber Optik in particular was to seize the day in 1990.
-A devotee of the 2600 circle and stalwart of the New York
-hackers' group "Masters of Deception," Phiber Optik was
-a splendid exemplar of the computer intruder as committed dissident.
-The eighteen-year-old Optik, a high-school dropout and part-time
-computer repairman, was young, smart, and ruthlessly obsessive,
-a sharp-dressing, sharp-talking digital dude who was utterly
-and airily contemptuous of anyone's rules but his own.
-By late 1991, Phiber Optik had appeared in Harper's,
-Esquire, The New York Times, in countless public debates
-and conventions, even on a television show hosted by Geraldo Rivera.
-
-Treated with gingerly respect by Barlow and other Well mavens,
-Phiber Optik swiftly became a Well celebrity. Strangely, despite
-his thorny attitude and utter single-mindedness, Phiber Optik seemed
-to arouse strong protective instincts in most of the people who met him.
-He was great copy for journalists, always fearlessly ready to swagger,
-and, better yet, to actually DEMONSTRATE some off-the-wall digital stunt.
-He was a born media darling.
-
-Even cops seemed to recognize that there was something peculiarly unworldly
-and uncriminal about this particular troublemaker. He was so bold,
-so flagrant, so young, and so obviously doomed, that even those
-who strongly disapproved of his actions grew anxious for his welfare,
-and began to flutter about him as if he were an endangered seal pup.
-
-In January 24, 1990 (nine days after the Martin Luther King Day Crash),
-Phiber Optik, Acid Phreak, and a third NYC scofflaw named Scorpion were
-raided by the Secret Service. Their computers went out the door,
-along with the usual blizzard of papers, notebooks, compact disks,
-answering machines, Sony Walkmans, etc. Both Acid Phreak and
-Phiber Optik were accused of having caused the Crash.
-
-The mills of justice ground slowly. The case eventually fell into
-the hands of the New York State Police. Phiber had lost his machinery
-in the raid, but there were no charges filed against him for over a year.
-His predicament was extensively publicized on the Well, where it caused
-much resentment for police tactics. It's one thing to merely hear about
-a hacker raided or busted; it's another to see the police attacking someone
-you've come to know personally, and who has explained his motives at length.
-Through the Harper's debate on the Well, it had become clear to the
-Wellbeings that Phiber Optik was not in fact going to "hurt anything."
-In their own salad days, many Wellbeings had tasted tear-gas in pitched
-street-battles with police. They were inclined to indulgence for
-acts of civil disobedience.
-
-Wellbeings were also startled to learn of the draconian thoroughness
-of a typical hacker search-and-seizure. It took no great stretch of
-imagination for them to envision themselves suffering much the same treatment.
-
-As early as January 1990, sentiment on the Well had already begun to sour,
-and people had begun to grumble that "hackers" were getting a raw deal
-from the ham-handed powers-that-be. The resultant issue of Harper's
-magazine posed the question as to whether computer-intrusion was a "crime"
-at all. As Barlow put it later: "I've begun to wonder if we wouldn't
-also regard spelunkers as desperate criminals if AT&T owned all the caves."
-
-In February 1991, more than a year after the raid on his home,
-Phiber Optik was finally arrested, and was charged with first-degree
-Computer Tampering and Computer Trespass, New York state offenses.
-He was also charged with a theft-of-service misdemeanor, involving a complex
-free-call scam to a 900 number. Phiber Optik pled guilty to the misdemeanor
-charge, and was sentenced to 35 hours of community service.
-
-This passing harassment from the unfathomable world of straight people
-seemed to bother Optik himself little if at all. Deprived of his computer
-by the January search-and-seizure, he simply bought himself a portable
-computer so the cops could no longer monitor the phone where he lived
-with his Mom, and he went right on with his depredations, sometimes on
-live radio or in front of television cameras.
-
-The crackdown raid may have done little to dissuade Phiber Optik,
-but its galling affect on the Wellbeings was profound. As 1990 rolled on,
-the slings and arrows mounted: the Knight Lightning raid,
-the Steve Jackson raid, the nation-spanning Operation Sundevil.
-The rhetoric of law enforcement made it clear that there was,
-in fact, a concerted crackdown on hackers in progress.
-
-The hackers of the Hackers Conference, the Wellbeings, and their ilk,
-did not really mind the occasional public misapprehension of "hacking;"
-if anything, this membrane of differentiation from straight society
-made the "computer community" feel different, smarter, better.
-They had never before been confronted, however, by a concerted
-vilification campaign.
-
-Barlow's central role in the counter-struggle was one of the major
-anomalies of 1990. Journalists investigating the controversy
-often stumbled over the truth about Barlow, but they commonly
-dusted themselves off and hurried on as if nothing had happened.
-It was as if it were TOO MUCH TO BELIEVE that a 1960s freak
-from the Grateful Dead had taken on a federal law enforcement operation
-head-to-head and ACTUALLY SEEMED TO BE WINNING!
-
-Barlow had no easily detectable power-base for a political struggle
-of this kind. He had no formal legal or technical credentials.
-Barlow was, however, a computer networker of truly stellar brilliance.
-He had a poet's gift of concise, colorful phrasing. He also had a
-journalist's shrewdness, an off-the-wall, self-deprecating wit,
-and a phenomenal wealth of simple personal charm.
-
-The kind of influence Barlow possessed is fairly common currency
-in literary, artistic, or musical circles. A gifted critic can
-wield great artistic influence simply through defining
-the temper of the times, by coining the catch-phrases
-and the terms of debate that become the common currency of the period.
-(And as it happened, Barlow WAS a part-time art critic,
-with a special fondness for the Western art of Frederic Remington.)
-
-Barlow was the first commentator to adopt William Gibson's
-striking science-fictional term "cyberspace" as a synonym
-for the present-day nexus of computer and telecommunications networks.
-Barlow was insistent that cyberspace should be regarded as
-a qualitatively new world, a "frontier." According to Barlow,
-the world of electronic communications, now made visible through
-the computer screen, could no longer be usefully regarded
-as just a tangle of high-tech wiring. Instead, it had become
-a PLACE, cyberspace, which demanded a new set of metaphors,
-a new set of rules and behaviors. The term, as Barlow employed it,
-struck a useful chord, and this concept of cyberspace was picked up
-by Time, Scientific American, computer police, hackers, and even
-Constitutional scholars. "Cyberspace" now seems likely to become
-a permanent fixture of the language.
-
-Barlow was very striking in person: a tall, craggy-faced, bearded,
-deep-voiced Wyomingan in a dashing Western ensemble of jeans, jacket,
-cowboy boots, a knotted throat-kerchief and an ever-present Grateful Dead
-cloisonne lapel pin.
-
-Armed with a modem, however, Barlow was truly in his element.
-Formal hierarchies were not Barlow's strong suit; he rarely missed
-a chance to belittle the "large organizations and their drones,"
-with their uptight, institutional mindset. Barlow was very much
-of the free-spirit persuasion, deeply unimpressed by brass-hats
-and jacks-in-office. But when it came to the digital grapevine,
-Barlow was a cyberspace ad-hocrat par excellence.
-
-There was not a mighty army of Barlows. There was only one Barlow,
-and he was a fairly anomolous individual. However, the situation only
-seemed to REQUIRE a single Barlow. In fact, after 1990, many people
-must have concluded that a single Barlow was far more than
-they'd ever bargained for.
-
-Barlow's querulous mini-essay about his encounter with the FBI
-struck a strong chord on the Well. A number of other free spirits
-on the fringes of Apple Computing had come under suspicion,
-and they liked it not one whit better than he did.
-
-One of these was Mitchell Kapor, the co-inventor of the spreadsheet
-program "Lotus 1-2-3" and the founder of Lotus Development Corporation.
-Kapor had written-off the passing indignity of being fingerprinted
-down at his own local Boston FBI headquarters, but Barlow's post
-made the full national scope of the FBI's dragnet clear to Kapor.
-The issue now had Kapor's full attention. As the Secret Service
-swung into anti-hacker operation nationwide in 1990, Kapor watched
-every move with deep skepticism and growing alarm.
-
-As it happened, Kapor had already met Barlow, who had interviewed Kapor
-for a California computer journal. Like most people who met Barlow,
-Kapor had been very taken with him. Now Kapor took it upon himself
-to drop in on Barlow for a heart-to-heart talk about the situation.
-
-Kapor was a regular on the Well. Kapor had been a devotee of the
-Whole Earth Catalogsince the beginning, and treasured a complete run
-of the magazine. And Kapor not only had a modem, but a private jet.
-In pursuit of the scattered high-tech investments of Kapor Enterprises Inc.,
-his personal, multi-million dollar holding company, Kapor commonly crossed
-state lines with about as much thought as one might give to faxing a letter.
-
-The Kapor-Barlow council of June 1990, in Pinedale, Wyoming, was the start
-of the Electronic Frontier Foundation. Barlow swiftly wrote a manifesto,
-"Crime and Puzzlement," which announced his, and Kapor's, intention
-to form a political organization to "raise and disburse funds for education,
-lobbying, and litigation in the areas relating to digital speech and the
-extension of the Constitution into Cyberspace."
-
-Furthermore, proclaimed the manifesto, the foundation would
-"fund, conduct, and support legal efforts to demonstrate
-that the Secret Service has exercised prior restraint on publications,
-limited free speech, conducted improper seizure of equipment and data,
-used undue force, and generally conducted itself in a fashion which
-is arbitrary, oppressive, and unconstitutional."
-
-"Crime and Puzzlement" was distributed far and wide through computer
-networking channels, and also printed in the Whole Earth Review.
-The sudden declaration of a coherent, politicized counter-strike
-from the ranks of hackerdom electrified the community. Steve Wozniak
-(perhaps a bit stung by the NuPrometheus scandal) swiftly offered
-to match any funds Kapor offered the Foundation.
-
-John Gilmore, one of the pioneers of Sun Microsystems, immediately offered
-his own extensive financial and personal support. Gilmore, an ardent
-libertarian, was to prove an eloquent advocate of electronic privacy issues,
-especially freedom from governmental and corporate computer-assisted
-surveillance of private citizens.
-
-A second meeting in San Francisco rounded up further allies:
-Stewart Brand of the Point Foundation, virtual-reality pioneers
-Jaron Lanier and Chuck Blanchard, network entrepreneur and venture
-capitalist Nat Goldhaber. At this dinner meeting, the activists settled on
-a formal title: the Electronic Frontier Foundation, Incorporated.
-Kapor became its president. A new EFF Conference was opened on
-the Point Foundation's Well, and the Well was declared
-"the home of the Electronic Frontier Foundation."
-
-Press coverage was immediate and intense. Like their
-nineteenth-century spiritual ancestors, Alexander Graham Bell
-and Thomas Watson, the high-tech computer entrepreneurs
-of the 1970s and 1980s--people such as Wozniak, Jobs, Kapor,
-Gates, and H. Ross Perot, who had raised themselves by their bootstraps
-to dominate a glittering new industry--had always made very good copy.
-
-But while the Wellbeings rejoiced, the press in general seemed
-nonplussed by the self-declared "civilizers of cyberspace."
-EFF's insistence that the war against "hackers" involved grave
-Constitutional civil liberties issues seemed somewhat farfetched,
-especially since none of EFF's organizers were lawyers
-or established politicians. The business press in particular
-found it easier to seize on the apparent core of the story--
-that high-tech entrepreneur Mitchell Kapor had established
-a "defense fund for hackers." Was EFF a genuinely important
-political development--or merely a clique of wealthy eccentrics,
-dabbling in matters better left to the proper authorities?
-The jury was still out.
-
-But the stage was now set for open confrontation.
-And the first and the most critical battle was the
-hacker show-trial of "Knight Lightning."
-
-#
-
-It has been my practice throughout this book to refer to hackers
-only by their "handles." There is little to gain by giving
-the real names of these people, many of whom are juveniles,
-many of whom have never been convicted of any crime, and many
-of whom had unsuspecting parents who have already suffered enough.
-
-But the trial of Knight Lightning on July 24-27, 1990,
-made this particular "hacker" a nationally known public figure.
-It can do no particular harm to himself or his family if I repeat
-the long-established fact that his name is Craig Neidorf (pronounced NYE-dorf).
-
-Neidorf's jury trial took place in the United States District Court,
-Northern District of Illinois, Eastern Division, with the
-Honorable Nicholas J. Bua presiding. The United States of America
-was the plaintiff, the defendant Mr. Neidorf. The defendant's attorney
-was Sheldon T. Zenner of the Chicago firm of Katten, Muchin and Zavis.
-
-The prosecution was led by the stalwarts of the Chicago Computer Fraud
-and Abuse Task Force: William J. Cook, Colleen D. Coughlin, and
-David A. Glockner, all Assistant United States Attorneys.
-The Secret Service Case Agent was Timothy M. Foley.
-
-It will be recalled that Neidorf was the co-editor of an underground hacker
-"magazine" called Phrack. Phrack was an entirely electronic publication,
-distributed through bulletin boards and over electronic networks.
-It was amateur publication given away for free. Neidorf had never made
-any money for his work in Phrack. Neither had his unindicted co-editor
-"Taran King" or any of the numerous Phrack contributors.
-
-The Chicago Computer Fraud and Abuse Task Force, however,
-had decided to prosecute Neidorf as a fraudster.
-To formally admit that Phrack was a "magazine"
-and Neidorf a "publisher" was to open a prosecutorial
-Pandora's Box of First Amendment issues. To do this
-was to play into the hands of Zenner and his EFF advisers,
-which now included a phalanx of prominent New York civil rights
-lawyers as well as the formidable legal staff of Katten, Muchin and Zavis.
-Instead, the prosecution relied heavily on the issue of access device fraud:
-Section 1029 of Title 18, the section from which the Secret Service drew
-its most direct jurisdiction over computer crime.
-
-Neidorf's alleged crimes centered around the E911 Document.
-He was accused of having entered into a fraudulent scheme with the Prophet,
-who, it will be recalled, was the Atlanta LoD member who had illicitly
-copied the E911 Document from the BellSouth AIMSX system.
-
-The Prophet himself was also a co-defendant in the Neidorf case,
-part-and-parcel of the alleged "fraud scheme" to "steal" BellSouth's
-E911 Document (and to pass the Document across state lines,
-which helped establish the Neidorf trial as a federal case).
-The Prophet, in the spirit of full co-operation, had agreed
-to testify against Neidorf.
-
-In fact, all three of the Atlanta crew stood ready to testify against Neidorf.
-Their own federal prosecutors in Atlanta had charged the Atlanta Three with:
-(a) conspiracy, (b) computer fraud, (c) wire fraud, (d) access device fraud,
-and (e) interstate transportation of stolen property (Title 18, Sections 371,
-1030, 1343, 1029, and 2314).
-
-Faced with this blizzard of trouble, Prophet and Leftist had ducked
-any public trial and had pled guilty to reduced charges--one conspiracy
-count apiece. Urvile had pled guilty to that odd bit of Section 1029
-which makes it illegal to possess "fifteen or more" illegal access devices
-(in his case, computer passwords). And their sentences were scheduled
-for September 14, 1990--well after the Neidorf trial. As witnesses,
-they could presumably be relied upon to behave.
-
-Neidorf, however, was pleading innocent. Most everyone else caught up
-in the crackdown had "cooperated fully" and pled guilty in hope
-of reduced sentences. (Steve Jackson was a notable exception,
-of course, and had strongly protested his innocence from the
-very beginning. But Steve Jackson could not get a day in court--
-Steve Jackson had never been charged with any crime in the first place.)
-
-Neidorf had been urged to plead guilty. But Neidorf was a political science
-major and was disinclined to go to jail for "fraud" when he had not made
-any money, had not broken into any computer, and had been publishing
-a magazine that he considered protected under the First Amendment.
-
-Neidorf's trial was the ONLY legal action of the entire Crackdown
-that actually involved bringing the issues at hand out for a public test
-in front of a jury of American citizens.
-
-Neidorf, too, had cooperated with investigators. He had voluntarily
-handed over much of the evidence that had led to his own indictment.
-He had already admitted in writing that he knew that the E911 Document
-had been stolen before he had "published" it in Phrack--or, from the
-prosecution's point of view, illegally transported stolen property by wire
-in something purporting to be a "publication."
-
-But even if the "publication" of the E911 Document was not held to be a crime,
-that wouldn't let Neidorf off the hook. Neidorf had still received
-the E911 Document when Prophet had transferred it to him from Rich Andrews'
-Jolnet node. On that occasion, it certainly hadn't been "published"--
-it was hacker booty, pure and simple, transported across state lines.
-
-The Chicago Task Force led a Chicago grand jury to indict Neidorf
-on a set of charges that could have put him in jail for thirty years.
-When some of these charges were successfully challenged before Neidorf
-actually went to trial, the Chicago Task Force rearranged his
-indictment so that he faced a possible jail term of over sixty years!
-As a first offender, it was very unlikely that Neidorf would in fact
-receive a sentence so drastic; but the Chicago Task Force clearly
-intended to see Neidorf put in prison, and his conspiratorial "magazine"
-put permanently out of commission. This was a federal case, and Neidorf
-was charged with the fraudulent theft of property worth almost
-eighty thousand dollars.
-
-William Cook was a strong believer in high-profile prosecutions
-with symbolic overtones. He often published articles on his work
-in the security trade press, arguing that "a clear message had
-to be sent to the public at large and the computer community
-in particular that unauthorized attacks on computers and the theft
-of computerized information would not be tolerated by the courts."
-
-The issues were complex, the prosecution's tactics somewhat unorthodox,
-but the Chicago Task Force had proved sure-footed to date. "Shadowhawk"
-had been bagged on the wing in 1989 by the Task Force, and sentenced
-to nine months in prison, and a $10,000 fine. The Shadowhawk case involved
-charges under Section 1030, the "federal interest computer" section.
-
-Shadowhawk had not in fact been a devotee of "federal-interest" computers
-per se. On the contrary, Shadowhawk, who owned an AT&T home computer,
-seemed to cherish a special aggression toward AT&T. He had bragged on
-the underground boards "Phreak Klass 2600" and "Dr. Ripco" of his skills
-at raiding AT&T, and of his intention to crash AT&T's national phone system.
-Shadowhawk's brags were noticed by Henry Kluepfel of Bellcore Security,
-scourge of the outlaw boards, whose relations with the Chicago Task Force
-were long and intimate.
-
-The Task Force successfully established that Section 1030 applied to
-the teenage Shadowhawk, despite the objections of his defense attorney.
-Shadowhawk had entered a computer "owned" by U.S. Missile Command
-and merely "managed" by AT&T. He had also entered an AT&T computer
-located at Robbins Air Force Base in Georgia. Attacking AT&T was
-of "federal interest" whether Shadowhawk had intended it or not.
-
-The Task Force also convinced the court that a piece of AT&T
-software that Shadowhawk had illicitly copied from Bell Labs,
-the "Artificial Intelligence C5 Expert System," was worth a cool
-one million dollars. Shadowhawk's attorney had argued that
-Shadowhawk had not sold the program and had made no profit from
-the illicit copying. And in point of fact, the C5 Expert System
-was experimental software, and had no established market value
-because it had never been on the market in the first place.
-AT&T's own assessment of a "one million dollar" figure for its
-own intangible property was accepted without challenge
-by the court, however. And the court concurred with
-the government prosecutors that Shadowhawk showed clear
-"intent to defraud" whether he'd gotten any money or not.
-Shadowhawk went to jail.
-
-The Task Force's other best-known triumph had been the conviction
-and jailing of "Kyrie." Kyrie, a true denizen of the digital
-criminal underground, was a 36-year-old Canadian woman,
-convicted and jailed for telecommunications fraud in Canada.
-After her release from prison, she had fled the wrath of Canada Bell
-and the Royal Canadian Mounted Police, and eventually settled,
-very unwisely, in Chicago.
-
-"Kyrie," who also called herself "Long Distance Information,"
-specialized in voice-mail abuse. She assembled large numbers
-of hot long-distance codes, then read them aloud into a series
-of corporate voice-mail systems. Kyrie and her friends were
-electronic squatters in corporate voice-mail systems,
-using them much as if they were pirate bulletin boards,
-then moving on when their vocal chatter clogged the system
-and the owners necessarily wised up. Kyrie's camp followers
-were a loose tribe of some hundred and fifty phone-phreaks,
-who followed her trail of piracy from machine to machine,
-ardently begging for her services and expertise.
-
-Kyrie's disciples passed her stolen credit-card numbers,
-in exchange for her stolen "long distance information."
-Some of Kyrie's clients paid her off in cash, by scamming
-credit-card cash advances from Western Union.
-
-Kyrie travelled incessantly, mostly through airline tickets
-and hotel rooms that she scammed through stolen credit cards.
-Tiring of this, she found refuge with a fellow female phone
-phreak in Chicago. Kyrie's hostess, like a surprising number
-of phone phreaks, was blind. She was also physically disabled.
-Kyrie allegedly made the best of her new situation by applying for,
-and receiving, state welfare funds under a false identity as
-a qualified caretaker for the handicapped.
-
-Sadly, Kyrie's two children by a former marriage had also vanished
-underground with her; these pre-teen digital refugees had no legal
-American identity, and had never spent a day in school.
-
-Kyrie was addicted to technical mastery and enthralled by her own
-cleverness and the ardent worship of her teenage followers.
-This foolishly led her to phone up Gail Thackeray in Arizona,
-to boast, brag, strut, and offer to play informant.
-Thackeray, however, had already learned far more
-than enough about Kyrie, whom she roundly despised
-as an adult criminal corrupting minors, a "female Fagin."
-Thackeray passed her tapes of Kyrie's boasts to the Secret Service.
-
-Kyrie was raided and arrested in Chicago in May 1989.
-She confessed at great length and pled guilty.
-
-In August 1990, Cook and his Task Force colleague Colleen Coughlin
-sent Kyrie to jail for 27 months, for computer and telecommunications fraud.
-This was a markedly severe sentence by the usual wrist-slapping standards
-of "hacker" busts. Seven of Kyrie's foremost teenage disciples were also
-indicted and convicted. The Kyrie "high-tech street gang," as Cook
-described it, had been crushed. Cook and his colleagues had been
-the first ever to put someone in prison for voice-mail abuse.
-Their pioneering efforts had won them attention and kudos.
-
-In his article on Kyrie, Cook drove the message home to the readers
-of Security Management magazine, a trade journal for corporate
-security professionals. The case, Cook said, and Kyrie's stiff sentence,
-"reflect a new reality for hackers and computer crime victims in the
-'90s. . . . Individuals and corporations who report computer
-and telecommunications crimes can now expect that their cooperation
-with federal law enforcement will result in meaningful punishment.
-Companies and the public at large must report computer-enhanced
-crimes if they want prosecutors and the course to protect their rights
-to the tangible and intangible property developed and stored on computers."
-
-Cook had made it his business to construct this "new reality for hackers."
-He'd also made it his business to police corporate property rights
-to the intangible.
-
-Had the Electronic Frontier Foundation been a "hacker defense fund"
-as that term was generally understood, they presumably would have stood up
-for Kyrie. Her 1990 sentence did indeed send a "message" that federal heat
-was coming down on "hackers." But Kyrie found no defenders at EFF,
-or anywhere else, for that matter. EFF was not a bail-out fund
-for electronic crooks.
-
-The Neidorf case paralleled the Shadowhawk case in certain ways.
-The victim once again was allowed to set the value of the "stolen" property.
-Once again Kluepfel was both investigator and technical advisor.
-Once again no money had changed hands, but the "intent to defraud" was central.
-
-The prosecution's case showed signs of weakness early on. The Task Force
-had originally hoped to prove Neidorf the center of a nationwide
-Legion of Doom criminal conspiracy. The Phrack editors threw physical
-get-togethers every summer, which attracted hackers from across the country;
-generally two dozen or so of the magazine's favorite contributors and readers.
-(Such conventions were common in the hacker community; 2600 Magazine,
-for instance, held public meetings of hackers in New York, every month.)
-LoD heavy-dudes were always a strong presence at these Phrack-sponsored
-"Summercons."
-
-In July 1988, an Arizona hacker named "Dictator" attended Summercon
-in Neidorf's home town of St. Louis. Dictator was one of Gail Thackeray's
-underground informants; Dictator's underground board in Phoenix was
-a sting operation for the Secret Service. Dictator brought an undercover
-crew of Secret Service agents to Summercon. The agents bored spyholes
-through the wall of Dictator's hotel room in St Louis, and videotaped
-the frolicking hackers through a one-way mirror. As it happened,
-however, nothing illegal had occurred on videotape, other than the
-guzzling of beer by a couple of minors. Summercons were social events,
-not sinister cabals. The tapes showed fifteen hours of raucous laughter,
-pizza-gobbling, in-jokes and back-slapping.
-
-Neidorf's lawyer, Sheldon Zenner, saw the Secret Service tapes
-before the trial. Zenner was shocked by the complete harmlessness
-of this meeting, which Cook had earlier characterized as a sinister
-interstate conspiracy to commit fraud. Zenner wanted to show the
-Summercon tapes to the jury. It took protracted maneuverings
-by the Task Force to keep the tapes from the jury as "irrelevant."
-
-The E911 Document was also proving a weak reed. It had originally
-been valued at $79,449. Unlike Shadowhawk's arcane Artificial Intelligence
-booty, the E911 Document was not software--it was written in English.
-Computer-knowledgeable people found this value--for a twelve-page
-bureaucratic document--frankly incredible. In his "Crime and Puzzlement"
-manifesto for EFF, Barlow commented: "We will probably never know how
-this figure was reached or by whom, though I like to imagine an appraisal
-team consisting of Franz Kafka, Joseph Heller, and Thomas Pynchon."
-
-As it happened, Barlow was unduly pessimistic. The EFF did, in fact,
-eventually discover exactly how this figure was reached, and by whom--
-but only in 1991, long after the Neidorf trial was over.
-
-Kim Megahee, a Southern Bell security manager,
-had arrived at the document's value by simply adding up
-the "costs associated with the production" of the E911 Document.
-Those "costs" were as follows:
-
-1. A technical writer had been hired to research and write the E911 Document.
- 200 hours of work, at $35 an hour, cost : $7,000. A Project Manager had
- overseen the technical writer. 200 hours, at $31 an hour, made: $6,200.
-
-2. A week of typing had cost $721 dollars. A week of formatting had
- cost $721. A week of graphics formatting had cost $742.
-
-3. Two days of editing cost $367.
-
-4. A box of order labels cost five dollars.
-
-5. Preparing a purchase order for the Document, including typing
- and the obtaining of an authorizing signature from within the
- BellSouth bureaucracy, cost $129.
-
-6. Printing cost $313. Mailing the Document to fifty people
- took fifty hours by a clerk, and cost $858.
-
-7. Placing the Document in an index took two clerks an hour each,
- totalling $43.
-
-Bureaucratic overhead alone, therefore, was alleged to have cost
-a whopping $17,099. According to Mr. Megahee, the typing
-of a twelve-page document had taken a full week. Writing it
-had taken five weeks, including an overseer who apparently
-did nothing else but watch the author for five weeks.
-Editing twelve pages had taken two days. Printing and mailing
-an electronic document (which was already available on the
-Southern Bell Data Network to any telco employee who needed it),
-had cost over a thousand dollars.
-
-But this was just the beginning. There were also the HARDWARE EXPENSES.
-Eight hundred fifty dollars for a VT220 computer monitor.
-THIRTY-ONE THOUSAND DOLLARS for a sophisticated VAXstation II computer.
-Six thousand dollars for a computer printer. TWENTY-TWO THOUSAND DOLLARS
-for a copy of "Interleaf" software. Two thousand five hundred dollars
-for VMS software. All this to create the twelve-page Document.
-
-Plus ten percent of the cost of the software and the hardware, for maintenance.
-(Actually, the ten percent maintenance costs, though mentioned, had been left
-off the final $79,449 total, apparently through a merciful oversight).
-
-Mr. Megahee's letter had been mailed directly to William Cook himself,
-at the office of the Chicago federal attorneys. The United States Government
-accepted these telco figures without question.
-
-As incredulity mounted, the value of the E911 Document was officially
-revised downward. This time, Robert Kibler of BellSouth Security
-estimated the value of the twelve pages as a mere $24,639.05--based,
-purportedly, on "R&D costs." But this specific estimate,
-right down to the nickel, did not move the skeptics at all;
-in fact it provoked open scorn and a torrent of sarcasm.
-
-The financial issues concerning theft of proprietary information
-have always been peculiar. It could be argued that BellSouth
-had not "lost" its E911 Document at all in the first place,
-and therefore had not suffered any monetary damage from this "theft."
-And Sheldon Zenner did in fact argue this at Neidorf's trial--
-that Prophet's raid had not been "theft," but was better understood
-as illicit copying.
-
-The money, however, was not central to anyone's true purposes in this trial.
-It was not Cook's strategy to convince the jury that the E911 Document
-was a major act of theft and should be punished for that reason alone.
-His strategy was to argue that the E911 Document was DANGEROUS.
-It was his intention to establish that the E911 Document was "a road-map"
-to the Enhanced 911 System. Neidorf had deliberately and recklessly
-distributed a dangerous weapon. Neidorf and the Prophet did not care
-(or perhaps even gloated at the sinister idea) that the E911 Document
-could be used by hackers to disrupt 911 service, "a life line for every
-person certainly in the Southern Bell region of the United States,
-and indeed, in many communities throughout the United States,"
-in Cook's own words. Neidorf had put people's lives in danger.
-
-In pre-trial maneuverings, Cook had established that the E911 Document
-was too hot to appear in the public proceedings of the Neidorf trial.
-The JURY ITSELF would not be allowed to ever see this Document,
-lest it slip into the official court records, and thus into the hands
-of the general public, and, thus, somehow, to malicious hackers
-who might lethally abuse it.
-
-Hiding the E911 Document from the jury may have been a
-clever legal maneuver, but it had a severe flaw. There were,
-in point of fact, hundreds, perhaps thousands, of people,
-already in possession of the E911 Document, just as Phrack
-had published it. Its true nature was already obvious
-to a wide section of the interested public (all of whom,
-by the way, were, at least theoretically, party to
-a gigantic wire-fraud conspiracy). Most everyone
-in the electronic community who had a modem and any
-interest in the Neidorf case already had a copy of the Document.
-It had already been available in Phrack for over a year.
-
-People, even quite normal people without any particular
-prurient interest in forbidden knowledge, did not shut their eyes
-in terror at the thought of beholding a "dangerous" document
-from a telephone company. On the contrary, they tended to trust
-their own judgement and simply read the Document for themselves.
-And they were not impressed.
-
-One such person was John Nagle. Nagle was a forty-one-year-old
-professional programmer with a masters' degree in computer science
-from Stanford. He had worked for Ford Aerospace, where he had invented
-a computer-networking technique known as the "Nagle Algorithm,"
-and for the prominent Californian computer-graphics firm "Autodesk,"
-where he was a major stockholder.
-
-Nagle was also a prominent figure on the Well, much respected
-for his technical knowledgeability.
-
-Nagle had followed the civil-liberties debate closely,
-for he was an ardent telecommunicator. He was no particular friend
-of computer intruders, but he believed electronic publishing
-had a great deal to offer society at large, and attempts
-to restrain its growth, or to censor free electronic expression,
-strongly roused his ire.
-
-The Neidorf case, and the E911 Document, were both being discussed
-in detail on the Internet, in an electronic publication called Telecom Digest.
-Nagle, a longtime Internet maven, was a regular reader of Telecom Digest.
-Nagle had never seen a copy of Phrack, but the implications of the case
-disturbed him.
-
-While in a Stanford bookstore hunting books on robotics,
-Nagle happened across a book called The Intelligent Network.
-Thumbing through it at random, Nagle came across an entire chapter
-meticulously detailing the workings of E911 police emergency systems.
-This extensive text was being sold openly, and yet in Illinois
-a young man was in danger of going to prison for publishing
-a thin six-page document about 911 service.
-
-Nagle made an ironic comment to this effect in Telecom Digest.
-From there, Nagle was put in touch with Mitch Kapor,
-and then with Neidorf's lawyers.
-
-Sheldon Zenner was delighted to find a computer telecommunications expert
-willing to speak up for Neidorf, one who was not a wacky teenage "hacker."
-Nagle was fluent, mature, and respectable; he'd once had a federal
-security clearance.
-
-Nagle was asked to fly to Illinois to join the defense team.
-
-Having joined the defense as an expert witness, Nagle read the entire
-E911 Document for himself. He made his own judgement about its potential
-for menace.
-
-The time has now come for you yourself, the reader, to have a look
-at the E911 Document. This six-page piece of work was the pretext
-for a federal prosecution that could have sent an electronic publisher
-to prison for thirty, or even sixty, years. It was the pretext
-for the search and seizure of Steve Jackson Games, a legitimate publisher
-of printed books. It was also the formal pretext for the search
-and seizure of the Mentor's bulletin board, "Phoenix Project,"
-and for the raid on the home of Erik Bloodaxe. It also had much
-to do with the seizure of Richard Andrews' Jolnet node
-and the shutdown of Charles Boykin's AT&T node.
-The E911 Document was the single most important piece
-of evidence in the Hacker Crackdown. There can be no real
-and legitimate substitute for the Document itself.
-
-
-==Phrack Inc.==
-
-Volume Two, Issue 24, File 5 of 13
-
-Control Office Administration
-Of Enhanced 911 Services For
-Special Services and Account Centers
-
-by the Eavesdropper
-
-March, 1988
-
-
-Description of Service
-~~~~~~~~~~~~~~~~~~~~~
-The control office for Emergency 911 service is assigned in
-accordance with the existing standard guidelines to one of
-the following centers:
-
-o Special Services Center (SSC)
-o Major Accounts Center (MAC)
-o Serving Test Center (STC)
-o Toll Control Center (TCC)
-
-The SSC/MAC designation is used in this document interchangeably
-for any of these four centers. The Special Services Centers (SSCs)
-or Major Account Centers (MACs) have been designated as the trouble
-reporting contact for all E911 customer (PSAP) reported troubles.
-Subscribers who have trouble on an E911 call will continue
-to contact local repair service (CRSAB) who will refer the
-trouble to the SSC/MAC, when appropriate.
-
-Due to the critical nature of E911 service, the control
-and timely repair of troubles is demanded. As the primary
-E911 customer contact, the SSC/MAC is in the unique position
-to monitor the status of the trouble and insure its resolution.
-
-System Overview
-~~~~~~~~~~~~~~
-The number 911 is intended as a nationwide universal
-telephone number which provides the public with direct
-access to a Public Safety Answering Point (PSAP). A PSAP
-is also referred to as an Emergency Service Bureau (ESB).
-A PSAP is an agency or facility which is authorized by a
-municipality to receive and respond to police, fire and/or
-ambulance services. One or more attendants are located
-at the PSAP facilities to receive and handle calls of an
-emergency nature in accordance with the local municipal
-requirements.
-
-An important advantage of E911 emergency service is
-improved (reduced) response times for emergency
-services. Also close coordination among agencies
-providing various emergency services is a valuable
-capability provided by E911 service.
-
-1A ESS is used as the tandem office for the E911 network to
-route all 911 calls to the correct (primary) PSAP designated
-to serve the calling station. The E911 feature was
-developed primarily to provide routing to the correct PSAP
-for all 911 calls. Selective routing allows a 911 call
-originated from a particular station located in a particular
-district, zone, or town, to be routed to the primary PSAP
-designated to serve that customer station regardless of
-wire center boundaries. Thus, selective routing eliminates
-the problem of wire center boundaries not coinciding with
-district or other political boundaries.
-
-The services available with the E911 feature include:
-
-Forced Disconnect Default Routing
-Alternative Routing Night Service
-Selective Routing Automatic Number
-Identification (ANI)
-Selective Transfer Automatic Location
-Identification (ALI)
-
-
-Preservice/Installation Guidelines
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-When a contract for an E911 system has been signed, it is
-the responsibility of Network Marketing to establish an
-implementation/cutover committee which should include
-a representative from the SSC/MAC. Duties of the E911
-Implementation Team include coordination of all phases
-of the E911 system deployment and the formation of an
-on-going E911 maintenance subcommittee.
-
-Marketing is responsible for providing the following
-customer specific information to the SSC/MAC prior to
-the start of call through testing:
-
-o All PSAP's (name, address, local contact)
-o All PSAP circuit ID's
-o 1004 911 service request including PSAP details on each PSAP
- (1004 Section K, L, M)
-o Network configuration
-o Any vendor information (name, telephone number, equipment)
-
-The SSC/MAC needs to know if the equipment and sets
-at the PSAP are maintained by the BOCs, an independent
-company, or an outside vendor, or any combination.
-This information is then entered on the PSAP profile sheets
-and reviewed quarterly for changes, additions and deletions.
-
-Marketing will secure the Major Account Number (MAN)
-and provide this number to Corporate Communications
-so that the initial issue of the service orders carry
-the MAN and can be tracked by the SSC/MAC via CORDNET.
-PSAP circuits are official services by definition.
-
-All service orders required for the installation of the E911
-system should include the MAN assigned to the city/county
-which has purchased the system.
-
-In accordance with the basic SSC/MAC strategy for provisioning,
-the SSC/MAC will be Overall Control Office (OCO) for all Node
-to PSAP circuits (official services) and any other services
-for this customer. Training must be scheduled for all SSC/MAC
-involved personnel during the pre-service stage of the project.
-
-The E911 Implementation Team will form the on-going
-maintenance subcommittee prior to the initial
-implementation of the E911 system. This sub-committee
-will establish post implementation quality assurance
-procedures to ensure that the E911 system continues to
-provide quality service to the customer.
-Customer/Company training, trouble reporting interfaces
-for the customer, telephone company and any involved
-independent telephone companies needs to be addressed
-and implemented prior to E911 cutover. These functions
-can be best addressed by the formation of a sub-
-committee of the E911 Implementation Team to set up
-guidelines for and to secure service commitments of
-interfacing organizations. A SSC/MAC supervisor should
-chair this subcommittee and include the following
-organizations:
-
-1) Switching Control Center
- - E911 translations
- - Trunking
- - End office and Tandem office hardware/software
-2) Recent Change Memory Administration Center
- - Daily RC update activity for TN/ESN translations
- - Processes validity errors and rejects
-3) Line and Number Administration
- - Verification of TN/ESN translations
-4) Special Service Center/Major Account Center
- - Single point of contact for all PSAP and Node to host troubles
- - Logs, tracks & statusing of all trouble reports
- - Trouble referral, follow up, and escalation
- - Customer notification of status and restoration
- - Analyzation of "chronic" troubles
- - Testing, installation and maintenance of E911 circuits
-5) Installation and Maintenance (SSIM/I&M)
- - Repair and maintenance of PSAP equipment and Telco owned sets
-6) Minicomputer Maintenance Operations Center
- - E911 circuit maintenance (where applicable)
-7) Area Maintenance Engineer
- - Technical assistance on voice (CO-PSAP) network related E911 troubles
-
-
-Maintenance Guidelines
-~~~~~~~~~~~~~~~~~~~~~
-The CCNC will test the Node circuit from the 202T at the
-Host site to the 202T at the Node site. Since Host to Node
-(CCNC to MMOC) circuits are official company services,
-the CCNC will refer all Node circuit troubles to the
-SSC/MAC. The SSC/MAC is responsible for the testing
-and follow up to restoration of these circuit troubles.
-
-Although Node to PSAP circuit are official services, the
-MMOC will refer PSAP circuit troubles to the appropriate
-SSC/MAC. The SSC/MAC is responsible for testing and
-follow up to restoration of PSAP circuit troubles.
-
-The SSC/MAC will also receive reports from
-CRSAB/IMC(s) on subscriber 911 troubles when they are
-not line troubles. The SSC/MAC is responsible for testing
-and restoration of these troubles.
-
-Maintenance responsibilities are as follows:
-
-SCC@ Voice Network (ANI to PSAP)
-@SCC responsible for tandem switch
-
-SSIM/I&M PSAP Equipment (Modems, CIU's, sets)
-Vendor PSAP Equipment (when CPE)
-SSC/MAC PSAP to Node circuits, and tandem to
- PSAP voice circuits (EMNT)
-MMOC Node site (Modems, cables, etc)
-
-Note: All above work groups are required to resolve troubles
-by interfacing with appropriate work groups for resolution.
-
-The Switching Control Center (SCC) is responsible for
-E911/1AESS translations in tandem central offices.
-These translations route E911 calls, selective transfer,
-default routing, speed calling, etc., for each PSAP.
-The SCC is also responsible for troubleshooting on
-the voice network (call originating to end office tandem equipment).
-
-For example, ANI failures in the originating offices would
-be a responsibility of the SCC.
-
-Recent Change Memory Administration Center (RCMAC) performs
-the daily tandem translation updates (recent change)
-for routing of individual telephone numbers.
-
-Recent changes are generated from service order activity
-(new service, address changes, etc.) and compiled into
-a daily file by the E911 Center (ALI/DMS E911 Computer).
-
-SSIM/I&M is responsible for the installation and repair of
-PSAP equipment. PSAP equipment includes ANI Controller,
-ALI Controller, data sets, cables, sets, and other peripheral
-equipment that is not vendor owned. SSIM/I&M is responsible
-for establishing maintenance test kits, complete with spare parts
-for PSAP maintenance. This includes test gear, data sets,
-and ANI/ALI Controller parts.
-
-Special Services Center (SSC) or Major Account Center
-(MAC) serves as the trouble reporting contact for all
-(PSAP) troubles reported by customer. The SSC/MAC
-refers troubles to proper organizations for handling and
-tracks status of troubles, escalating when necessary.
-The SSC/MAC will close out troubles with customer.
-The SSC/MAC will analyze all troubles and tracks "chronic"
-PSAP troubles.
-
-Corporate Communications Network Center (CCNC) will
-test and refer troubles on all node to host circuits.
-All E911 circuits are classified as official company property.
-
-The Minicomputer Maintenance Operations Center
-(MMOC) maintains the E911 (ALI/DMS) computer
-hardware at the Host site. This MMOC is also responsible
-for monitoring the system and reporting certain PSAP
-and system problems to the local MMOC's, SCC's or
-SSC/MAC's. The MMOC personnel also operate software
-programs that maintain the TN data base under the
-direction of the E911 Center. The maintenance of the
-NODE computer (the interface between the PSAP and the
-ALI/DMS computer) is a function of the MMOC at the
-NODE site. The MMOC's at the NODE sites may also be
-involved in the testing of NODE to Host circuits.
-The MMOC will also assist on Host to PSAP and data network
-related troubles not resolved through standard trouble
-clearing procedures.
-
-Installation And Maintenance Center (IMC) is responsible
-for referral of E911 subscriber troubles that are not subscriber
-line problems.
-
-E911 Center - Performs the role of System Administration
-and is responsible for overall operation of the E911
-computer software. The E911 Center does A-Z trouble
-analysis and provides statistical information on the
-performance of the system.
-
-This analysis includes processing PSAP inquiries (trouble
-reports) and referral of network troubles. The E911 Center
-also performs daily processing of tandem recent change
-and provides information to the RCMAC for tandem input.
-The E911 Center is responsible for daily processing
-of the ALI/DMS computer data base and provides error files,
-etc. to the Customer Services department for investigation and correction.
-The E911 Center participates in all system implementations and on-going
-maintenance effort and assists in the development of procedures,
-training and education of information to all groups.
-
-Any group receiving a 911 trouble from the SSC/MAC should
-close out the trouble with the SSC/MAC or provide a status
-if the trouble has been referred to another group.
-This will allow the SSC/MAC to provide a status back
-to the customer or escalate as appropriate.
-
-Any group receiving a trouble from the Host site (MMOC
-or CCNC) should close the trouble back to that group.
-
-The MMOC should notify the appropriate SSC/MAC
-when the Host, Node, or all Node circuits are down so that
-the SSC/MAC can reply to customer reports that may be
-called in by the PSAPs. This will eliminate duplicate
-reporting of troubles. On complete outages the MMOC
-will follow escalation procedures for a Node after two (2)
-hours and for a PSAP after four (4) hours. Additionally the
-MMOC will notify the appropriate SSC/MAC when the
-Host, Node, or all Node circuits are down.
-
-The PSAP will call the SSC/MAC to report E911 troubles.
-The person reporting the E911 trouble may not have a
-circuit I.D. and will therefore report the PSAP name and
-address. Many PSAP troubles are not circuit specific. In
-those instances where the caller cannot provide a circuit
-I.D., the SSC/MAC will be required to determine the
-circuit I.D. using the PSAP profile. Under no circumstances
-will the SSC/MAC Center refuse to take the trouble.
-The E911 trouble should be handled as quickly as possible,
-with the SSC/MAC providing as much assistance as
-possible while taking the trouble report from the caller.
-
-The SSC/MAC will screen/test the trouble to determine the
-appropriate handoff organization based on the following criteria:
-
-PSAP equipment problem: SSIM/I&M
-Circuit problem: SSC/MAC
-Voice network problem: SCC (report trunk group number)
-Problem affecting multiple PSAPs (No ALI report from
-all PSAPs): Contact the MMOC to check for NODE or
-Host computer problems before further testing.
-
-The SSC/MAC will track the status of reported troubles
-and escalate as appropriate. The SSC/MAC will close out
-customer/company reports with the initiating contact.
-Groups with specific maintenance responsibilities,
-defined above, will investigate "chronic" troubles upon
-request from the SSC/MAC and the ongoing maintenance subcommittee.
-
-All "out of service" E911 troubles are priority one type reports.
-One link down to a PSAP is considered a priority one trouble
-and should be handled as if the PSAP was isolated.
-
-The PSAP will report troubles with the ANI controller, ALI
-controller or set equipment to the SSC/MAC.
-
-NO ANI: Where the PSAP reports NO ANI (digital
-display screen is blank) ask if this condition exists on all
-screens and on all calls. It is important to differentiate
-between blank screens and screens displaying 911-00XX,
-or all zeroes.
-
-When the PSAP reports all screens on all calls, ask if there
-is any voice contact with callers. If there is no voice
-contact the trouble should be referred to the SCC
-immediately since 911 calls are not getting through which
-may require alternate routing of calls to another PSAP.
-
-When the PSAP reports this condition on all screens
-but not all calls and has voice contact with callers,
-the report should be referred to SSIM/I&M for dispatch.
-The SSC/MAC should verify with the SCC that ANI
-is pulsing before dispatching SSIM.
-
-When the PSAP reports this condition on one screen for
-all calls (others work fine) the trouble should be referred
-to SSIM/I&M for dispatch, because the trouble is isolated to
-one piece of equipment at the customer premise.
-
-An ANI failure (i.e. all zeroes) indicates that the ANI has
-not been received by the PSAP from the tandem office or
-was lost by the PSAP ANI controller. The PSAP may
-receive "02" alarms which can be caused by the ANI
-controller logging more than three all zero failures on the
-same trunk. The PSAP has been instructed to report this
-condition to the SSC/MAC since it could indicate an
-equipment trouble at the PSAP which might be affecting
-all subscribers calling into the PSAP. When all zeroes are
-being received on all calls or "02" alarms continue, a tester
-should analyze the condition to determine the appropriate
-action to be taken. The tester must perform cooperative
-testing with the SCC when there appears to be a problem
-on the Tandem-PSAP trunks before requesting dispatch.
-
-When an occasional all zero condition is reported,
-the SSC/MAC should dispatch SSIM/I&M to routine
-equipment on a "chronic" troublesweep.
-
-The PSAPs are instructed to report incidental ANI failures
-to the BOC on a PSAP inquiry trouble ticket (paper) that
-is sent to the Customer Services E911 group and forwarded
-to E911 center when required. This usually involves only a
-particular telephone number and is not a condition that
-would require a report to the SSC/MAC. Multiple ANI
-failures which our from the same end office (XX denotes
-end office), indicate a hard trouble condition may exist
-in the end office or end office tandem trunks. The PSAP will
-report this type of condition to the SSC/MAC and the
-SSC/MAC should refer the report to the SCC responsible
-for the tandem office. NOTE: XX is the ESCO (Emergency
-Service Number) associated with the incoming 911 trunks
-into the tandem. It is important that the C/MAC tell the
-SCC what is displayed at the PSAP (i.e. 911-0011) which
-indicates to the SCC which end office is in trouble.
-
-Note: It is essential that the PSAP fill out inquiry form
-on every ANI failure.
-
-The PSAP will report a trouble any time an address is not
-received on an address display (screen blank) E911 call.
-(If a record is not in the 911 data base or an ANI failure
-is encountered, the screen will provide a display noticing
-such condition). The SSC/MAC should verify with the PSAP
-whether the NO ALI condition is on one screen or all screens.
-
-When the condition is on one screen (other screens
-receive ALI information) the SSC/MAC will request
-SSIM/I&M to dispatch.
-
-If no screens are receiving ALI information, there is usually
-a circuit trouble between the PSAP and the Host computer.
-The SSC/MAC should test the trouble and refer for restoral.
-
-Note: If the SSC/MAC receives calls from multiple
-PSAP's, all of which are receiving NO ALI, there is a
-problem with the Node or Node to Host circuits or the
-Host computer itself. Before referring the trouble the
-SSC/MAC should call the MMOC to inquire if the Node
-or Host is in trouble.
-
-Alarm conditions on the ANI controller digital display at
-the PSAP are to be reported by the PSAP's. These alarms
-can indicate various trouble conditions so the SSC/MAC
-should ask the PSAP if any portion of the E911 system
-is not functioning properly.
-
-The SSC/MAC should verify with the PSAP attendant that
-the equipment's primary function is answering E911 calls.
-If it is, the SSC/MAC should request a dispatch SSIM/I&M.
-If the equipment is not primarily used for E911,
-then the SSC/MAC should advise PSAP to contact their CPE vendor.
-
-Note: These troubles can be quite confusing when the
-PSAP has vendor equipment mixed in with equipment
-that the BOC maintains. The Marketing representative
-should provide the SSC/MAC information concerning any
-unusual or exception items where the PSAP should
-contact their vendor. This information should be included
-in the PSAP profile sheets.
-
-ANI or ALI controller down: When the host computer sees
-the PSAP equipment down and it does not come back up,
-the MMOC will report the trouble to the SSC/MAC;
-the equipment is down at the PSAP, a dispatch will be required.
-
-PSAP link (circuit) down: The MMOC will provide the
-SSC/MAC with the circuit ID that the Host computer
-indicates in trouble. Although each PSAP has two circuits,
-when either circuit is down the condition must be treated
-as an emergency since failure of the second circuit will
-cause the PSAP to be isolated.
-
-Any problems that the MMOC identifies from the Node
-location to the Host computer will be handled directly
-with the appropriate MMOC(s)/CCNC.
-
-Note: The customer will call only when a problem is
-apparent to the PSAP. When only one circuit is down to
-the PSAP, the customer may not be aware there is a
-trouble, even though there is one link down,
-notification should appear on the PSAP screen.
-Troubles called into the SSC/MAC from the MMOC
-or other company employee should not be closed out
-by calling the PSAP since it may result in the
-customer responding that they do not have a trouble.
-These reports can only be closed out by receiving
-information that the trouble was fixed and by checking
-with the company employee that reported the trouble.
-The MMOC personnel will be able to verify that the
-trouble has cleared by reviewing a printout from the host.
-
-When the CRSAB receives a subscriber complaint
-(i.e., cannot dial 911) the RSA should obtain as much
-information as possible while the customer is on the line.
-
-For example, what happened when the subscriber dialed 911?
-The report is automatically directed to the IMC for subscriber line testing.
-When no line trouble is found, the IMC will refer the trouble condition
-to the SSC/MAC. The SSC/MAC will contact Customer Services E911 Group
-and verify that the subscriber should be able to call 911 and obtain the ESN.
-The SSC/MAC will verify the ESN via 2SCCS. When both verifications match,
-the SSC/MAC will refer the report to the SCC responsible for the 911 tandem
-office for investigation and resolution. The MAC is responsible for tracking
-the trouble and informing the IMC when it is resolved.
-
-
-For more information, please refer to E911 Glossary of Terms.
-End of Phrack File
-_____________________________________
-
-
-The reader is forgiven if he or she was entirely unable to read
-this document. John Perry Barlow had a great deal of fun at its expense,
-in "Crime and Puzzlement:" "Bureaucrat-ese of surpassing opacity. . . .
-To read the whole thing straight through without entering coma requires
-either a machine or a human who has too much practice thinking like one.
-Anyone who can understand it fully and fluidly had altered his consciousness
-beyond the ability to ever again read Blake, Whitman, or Tolstoy. . . .
-the document contains little of interest to anyone who is not a student
-of advanced organizational sclerosis."
-
-With the Document itself to hand, however, exactly as it was published
-(in its six-page edited form) in Phrack, the reader may be able to verify
-a few statements of fact about its nature. First, there is no software,
-no computer code, in the Document. It is not computer-programming language
-like FORTRAN or C++, it is English; all the sentences have nouns and verbs
-and punctuation. It does not explain how to break into the E911 system.
-It does not suggest ways to destroy or damage the E911 system.
-
-There are no access codes in the Document. There are no computer passwords.
-It does not explain how to steal long distance service. It does not explain
-how to break in to telco switching stations. There is nothing in it about
-using a personal computer or a modem for any purpose at all, good or bad.
-
-Close study will reveal that this document is not about machinery.
-The E911 Document is about ADMINISTRATION. It describes how one creates
-and administers certain units of telco bureaucracy:
-Special Service Centers and Major Account Centers (SSC/MAC).
-It describes how these centers should distribute responsibility
-for the E911 service, to other units of telco bureaucracy,
-in a chain of command, a formal hierarchy. It describes
-who answers customer complaints, who screens calls,
-who reports equipment failures, who answers those reports,
-who handles maintenance, who chairs subcommittees,
-who gives orders, who follows orders, WHO tells WHOM what to do.
-The Document is not a "roadmap" to computers.
-The Document is a roadmap to PEOPLE.
-
-As an aid to breaking into computer systems, the Document is USELESS.
-As an aid to harassing and deceiving telco people, however, the Document
-might prove handy (especially with its Glossary, which I have not included).
-An intense and protracted study of this Document and its Glossary,
-combined with many other such documents, might teach one to speak like
-a telco employee. And telco people live by SPEECH--they live by phone
-communication. If you can mimic their language over the phone,
-you can "social-engineer" them. If you can con telco people, you can
-wreak havoc among them. You can force them to no longer trust one another;
-you can break the telephonic ties that bind their community; you can make
-them paranoid. And people will fight harder to defend their community
-than they will fight to defend their individual selves.
-
-This was the genuine, gut-level threat posed by Phrack magazine.
-The real struggle was over the control of telco language,
-the control of telco knowledge. It was a struggle to defend the social
-"membrane of differentiation" that forms the walls of the telco
-community's ivory tower --the special jargon that allows telco
-professionals to recognize one another, and to exclude charlatans,
-thieves, and upstarts. And the prosecution brought out this fact.
-They repeatedly made reference to the threat posed to telco professionals
-by hackers using "social engineering."
-
-However, Craig Neidorf was not on trial for learning to speak like
-a professional telecommunications expert. Craig Neidorf was on trial
-for access device fraud and transportation of stolen property.
-He was on trial for stealing a document that was purportedly
-highly sensitive and purportedly worth tens of thousands of dollars.
-
-#
-
-John Nagle read the E911 Document. He drew his own conclusions.
-And he presented Zenner and his defense team with an overflowing box
-of similar material, drawn mostly from Stanford University's
-engineering libraries. During the trial, the defense team--Zenner,
-half-a-dozen other attorneys, Nagle, Neidorf, and computer-security
-expert Dorothy Denning, all pored over the E911 Document line-by-line.
-
-On the afternoon of July 25, 1990, Zenner began to cross-examine
-a woman named Billie Williams, a service manager for Southern Bell
-in Atlanta. Ms. Williams had been responsible for the E911 Document.
-(She was not its author--its original "author" was a Southern Bell
-staff manager named Richard Helms. However, Mr. Helms should not bear
-the entire blame; many telco staff people and maintenance personnel
-had amended the Document. It had not been so much "written" by a
-single author, as built by committee out of concrete-blocks of jargon.)
-
-Ms. Williams had been called as a witness for the prosecution,
-and had gamely tried to explain the basic technical structure
-of the E911 system, aided by charts.
-
-Now it was Zenner's turn. He first established that the
-"proprietary stamp" that BellSouth had used on the E911 Document
-was stamped on EVERY SINGLE DOCUMENT that BellSouth wrote--
-THOUSANDS of documents. "We do not publish anything other
-than for our own company," Ms. Williams explained.
-"Any company document of this nature is considered proprietary."
-Nobody was in charge of singling out special high-security publications
-for special high-security protection. They were ALL special,
-no matter how trivial, no matter what their subject matter--
-the stamp was put on as soon as any document was written,
-and the stamp was never removed.
-
-Zenner now asked whether the charts she had been using to explain
-the mechanics of E911 system were "proprietary," too.
-Were they PUBLIC INFORMATION, these charts, all about PSAPs,
-ALIs, nodes, local end switches? Could he take the charts out
-in the street and show them to anybody, "without violating
-some proprietary notion that BellSouth has?"
-
-Ms Williams showed some confusion, but finally areed that the charts were,
-in fact, public.
-
-"But isn't this what you said was basically what appeared in Phrack?"
-
-Ms. Williams denied this.
-
-Zenner now pointed out that the E911 Document as published in Phrack
-was only half the size of the original E911 Document (as Prophet
-had purloined it). Half of it had been deleted--edited by Neidorf.
-
-Ms. Williams countered that "Most of the information that is
-in the text file is redundant."
-
-Zenner continued to probe. Exactly what bits of knowledge in the Document
-were, in fact, unknown to the public? Locations of E911 computers?
-Phone numbers for telco personnel? Ongoing maintenance subcommittees?
-Hadn't Neidorf removed much of this?
-
-Then he pounced. "Are you familiar with Bellcore Technical Reference
-Document TR-TSY-000350?" It was, Zenner explained, officially titled
-"E911 Public Safety Answering Point Interface Between 1-1AESS Switch
-and Customer Premises Equipment." It contained highly detailed
-and specific technical information about the E911 System.
-It was published by Bellcore and publicly available for about $20.
-
-He showed the witness a Bellcore catalog which listed thousands
-of documents from Bellcore and from all the Baby Bells, BellSouth included.
-The catalog, Zenner pointed out, was free. Anyone with a credit card
-could call the Bellcore toll-free 800 number and simply order any
-of these documents, which would be shipped to any customer without question.
-Including, for instance, "BellSouth E911 Service Interfaces to
-Customer Premises Equipment at a Public Safety Answering Point."
-
-Zenner gave the witness a copy of "BellSouth E911 Service Interfaces,"
-which cost, as he pointed out, $13, straight from the catalog.
-"Look at it carefully," he urged Ms. Williams, "and tell me
-if it doesn't contain about twice as much detailed information
-about the E911 system of BellSouth than appeared anywhere in Phrack."
-
-"You want me to. . . ." Ms. Williams trailed off. "I don't understand."
-
-"Take a careful look," Zenner persisted. "Take a look at that document,
-and tell me when you're done looking at it if, indeed, it doesn't contain
-much more detailed information about the E911 system than appeared in Phrack."
-
-"Phrack wasn't taken from this," Ms. Williams said.
-
-"Excuse me?" said Zenner.
-
-"Phrack wasn't taken from this."
-
-"I can't hear you," Zenner said.
-
-"Phrack was not taken from this document. I don't understand
-your question to me."
-
-"I guess you don't," Zenner said.
-
-At this point, the prosecution's case had been gutshot.
-Ms. Williams was distressed. Her confusion was quite genuine.
-Phrack had not been taken from any publicly available Bellcore document.
-Phrack's E911 Document had been stolen from her own company's computers,
-from her own company's text files, that her own colleagues had written,
-and revised, with much labor.
-
-But the "value" of the Document had been blown to smithereens.
-It wasn't worth eighty grand. According to Bellcore it was worth
-thirteen bucks. And the looming menace that it supposedly posed
-had been reduced in instants to a scarecrow. Bellcore itself
-was selling material far more detailed and "dangerous,"
-to anybody with a credit card and a phone.
-
-Actually, Bellcore was not giving this information to just anybody.
-They gave it to ANYBODY WHO ASKED, but not many did ask.
-Not many people knew that Bellcore had a free catalog and an 800 number.
-John Nagle knew, but certainly the average teenage phreak didn't know.
-"Tuc," a friend of Neidorf's and sometime Phrack contributor, knew,
-and Tuc had been very helpful to the defense, behind the scenes.
-But the Legion of Doom didn't know--otherwise, they would never
-have wasted so much time raiding dumpsters. Cook didn't know.
-Foley didn't know. Kluepfel didn't know. The right hand
-of Bellcore knew not what the left hand was doing. The right
-hand was battering hackers without mercy, while the left hand
-was distributing Bellcore's intellectual property to anybody
-who was interested in telephone technical trivia--apparently,
-a pathetic few.
-
-The digital underground was so amateurish and poorly organized
-that they had never discovered this heap of unguarded riches.
-The ivory tower of the telcos was so wrapped-up in the fog
-of its own technical obscurity that it had left all the
-windows open and flung open the doors. No one had even noticed.
-
-Zenner sank another nail in the coffin. He produced a printed issue
-of Telephone Engineer & Management, a prominent industry journal
-that comes out twice a month and costs $27 a year. This particular issue
-of TE&M, called "Update on 911," featured a galaxy of technical details
-on 911 service and a glossary far more extensive than Phrack's.
-
-The trial rumbled on, somehow, through its own momentum.
-Tim Foley testified about his interrogations of Neidorf.
-Neidorf's written admission that he had known the E911 Document
-was pilfered was officially read into the court record.
-
-An interesting side issue came up: "Terminus" had once passed Neidorf
-a piece of UNIX AT&T software, a log-in sequence, that had been cunningly
-altered so that it could trap passwords. The UNIX software itself was
-illegally copied AT&T property, and the alterations "Terminus" had made to it,
-had transformed it into a device for facilitating computer break-ins. Terminus
-himself would eventually plead guilty to theft of this piece of software,
-and the Chicago group would send Terminus to prison for it. But it was
-of dubious relevance in the Neidorf case. Neidorf hadn't written the program.
-He wasn't accused of ever having used it. And Neidorf wasn't being charged
-with software theft or owning a password trapper.
-
-On the next day, Zenner took the offensive. The civil libertarians
-now had their own arcane, untried legal weaponry to launch into action--
-the Electronic Communications Privacy Act of 1986, 18 US Code,
-Section 2701 et seq. Section 2701 makes it a crime to intentionally
-access without authorization a facility in which an electronic communication
-service is provided--it is, at heart, an anti-bugging and anti-tapping law,
-intended to carry the traditional protections of telephones into other
-electronic channels of communication. While providing penalties for amateur
-snoops, however, Section 2703 of the ECPA also lays some formal difficulties
-on the bugging and tapping activities of police.
-
-The Secret Service, in the person of Tim Foley, had served Richard Andrews
-with a federal grand jury subpoena, in their pursuit of Prophet,
-the E911 Document, and the Terminus software ring. But according to
-the Electronic Communications Privacy Act, a "provider of remote
-computing service" was legally entitled to "prior notice" from
-the government if a subpoena was used. Richard Andrews and his
-basement UNIX node, Jolnet, had not received any "prior notice."
-Tim Foley had purportedly violated the ECPA and committed
-an electronic crime! Zenner now sought the judge's permission
-to cross-examine Foley on the topic of Foley's own electronic misdeeds.
-
-Cook argued that Richard Andrews' Jolnet was a privately owned
-bulletin board, and not within the purview of ECPA. Judge Bua
-granted the motion of the government to prevent cross-examination
-on that point, and Zenner's offensive fizzled. This, however,
-was the first direct assault on the legality of the actions
-of the Computer Fraud and Abuse Task Force itself--
-the first suggestion that they themselves had broken the law,
-and might, perhaps, be called to account.
-
-Zenner, in any case, did not really need the ECPA.
-Instead, he grilled Foley on the glaring contradictions in
-the supposed value of the E911 Document. He also brought up
-the embarrassing fact that the supposedly red-hot E911 Document
-had been sitting around for months, in Jolnet, with Kluepfel's knowledge,
-while Kluepfel had done nothing about it.
-
-In the afternoon, the Prophet was brought in to testify
-for the prosecution. (The Prophet, it will be recalled,
-had also been indicted in the case as partner in a fraud
-scheme with Neidorf.) In Atlanta, the Prophet had already
-pled guilty to one charge of conspiracy, one charge of wire fraud
-and one charge of interstate transportation of stolen property.
-The wire fraud charge, and the stolen property charge,
-were both directly based on the E911 Document.
-
-The twenty-year-old Prophet proved a sorry customer,
-answering questions politely but in a barely audible mumble,
-his voice trailing off at the ends of sentences.
-He was constantly urged to speak up.
-
-Cook, examining Prophet, forced him to admit that
-he had once had a "drug problem," abusing amphetamines,
-marijuana, cocaine, and LSD. This may have established
-to the jury that "hackers" are, or can be, seedy lowlife characters,
-but it may have damaged Prophet's credibility somewhat.
-Zenner later suggested that drugs might have damaged Prophet's memory.
-The interesting fact also surfaced that Prophet had never
-physically met Craig Neidorf. He didn't even know
-Neidorf's last name--at least, not until the trial.
-
-Prophet confirmed the basic facts of his hacker career.
-He was a member of the Legion of Doom. He had abused codes,
-he had broken into switching stations and re-routed calls,
-he had hung out on pirate bulletin boards. He had raided
-the BellSouth AIMSX computer, copied the E911 Document,
-stored it on Jolnet, mailed it to Neidorf. He and Neidorf
-had edited it, and Neidorf had known where it came from.
-
-Zenner, however, had Prophet confirm that Neidorf was not a member
-of the Legion of Doom, and had not urged Prophet to break into
-BellSouth computers. Neidorf had never urged Prophet to defraud anyone,
-or to steal anything. Prophet also admitted that he had never known Neidorf
-to break in to any computer. Prophet said that no one in the Legion of Doom
-considered Craig Neidorf a "hacker" at all. Neidorf was not a UNIX maven,
-and simply lacked the necessary skill and ability to break into computers.
-Neidorf just published a magazine.
-
-On Friday, July 27, 1990, the case against Neidorf collapsed.
-Cook moved to dismiss the indictment, citing "information currently
-available to us that was not available to us at the inception of the trial."
-Judge Bua praised the prosecution for this action, which he described as
-"very responsible," then dismissed a juror and declared a mistrial.
-
-Neidorf was a free man. His defense, however, had cost himself
-and his family dearly. Months of his life had been consumed in anguish;
-he had seen his closest friends shun him as a federal criminal.
-He owed his lawyers over a hundred thousand dollars, despite
-a generous payment to the defense by Mitch Kapor.
-
-Neidorf was not found innocent. The trial was simply dropped.
-Nevertheless, on September 9, 1991, Judge Bua granted Neidorf's
-motion for the "expungement and sealing" of his indictment record.
-The United States Secret Service was ordered to delete and destroy
-all fingerprints, photographs, and other records of arrest
-or processing relating to Neidorf's indictment, including
-their paper documents and their computer records.
-
-Neidorf went back to school, blazingly determined to become a lawyer.
-Having seen the justice system at work, Neidorf lost much of his enthusiasm
-for merely technical power. At this writing, Craig Neidorf is working
-in Washington as a salaried researcher for the American Civil Liberties Union.
-
-#
-
-The outcome of the Neidorf trial changed the EFF
-from voices-in-the-wilderness to the media darlings
-of the new frontier.
-
-Legally speaking, the Neidorf case was not a sweeping triumph
-for anyone concerned. No constitutional principles had been established.
-The issues of "freedom of the press" for electronic publishers remained
-in legal limbo. There were public misconceptions about the case.
-Many people thought Neidorf had been found innocent and relieved
-of all his legal debts by Kapor. The truth was that the government
-had simply dropped the case, and Neidorf's family had gone deeply
-into hock to support him.
-
-But the Neidorf case did provide a single, devastating, public sound-bite:
-THE FEDS SAID IT WAS WORTH EIGHTY GRAND, AND IT WAS ONLY WORTH THIRTEEN BUCKS.
-
-This is the Neidorf case's single most memorable element. No serious report
-of the case missed this particular element. Even cops could not read this
-without a wince and a shake of the head. It left the public credibility
-of the crackdown agents in tatters.
-
-The crackdown, in fact, continued, however. Those two charges
-against Prophet, which had been based on the E911 Document,
-were quietly forgotten at his sentencing--even though Prophet
-had already pled guilty to them. Georgia federal prosecutors
-strongly argued for jail time for the Atlanta Three, insisting on
-"the need to send a message to the community," "the message that
-hackers around the country need to hear."
-
-There was a great deal in their sentencing memorandum
-about the awful things that various other hackers had done
-(though the Atlanta Three themselves had not, in fact,
-actually committed these crimes). There was also much
-speculation about the awful things that the Atlanta Three
-MIGHT have done and WERE CAPABLE of doing (even though
-they had not, in fact, actually done them).
-The prosecution's argument carried the day.
-The Atlanta Three were sent to prison:
-Urvile and Leftist both got 14 months each,
-while Prophet (a second offender) got 21 months.
-
-The Atlanta Three were also assessed staggering fines as "restitution":
-$233,000 each. BellSouth claimed that the defendants had "stolen"
-"approximately $233,880 worth" of "proprietary computer access information"--
-specifically, $233,880 worth of computer passwords and connect addresses.
-BellSouth's astonishing claim of the extreme value of its own computer
-passwords and addresses was accepted at face value by the Georgia court.
-Furthermore (as if to emphasize its theoretical nature) this enormous sum
-was not divvied up among the Atlanta Three, but each of them had to pay
-all of it.
-
-A striking aspect of the sentence was that the Atlanta Three were
-specifically forbidden to use computers, except for work or under supervision.
-Depriving hackers of home computers and modems makes some sense if one
-considers hackers as "computer addicts," but EFF, filing an amicus brief
-in the case, protested that this punishment was unconstitutional--
-it deprived the Atlanta Three of their rights of free association
-and free expression through electronic media.
-
-Terminus, the "ultimate hacker," was finally sent to prison for a year
-through the dogged efforts of the Chicago Task Force. His crime,
-to which he pled guilty, was the transfer of the UNIX password trapper,
-which was officially valued by AT&T at $77,000, a figure which aroused
-intense skepticism among those familiar with UNIX "login.c" programs.
-
-The jailing of Terminus and the Atlanta Legionnaires of Doom, however,
-did not cause the EFF any sense of embarrassment or defeat.
-On the contrary, the civil libertarians were rapidly gathering strength.
-
-An early and potent supporter was Senator Patrick Leahy,
-Democrat from Vermont, who had been a Senate sponsor
-of the Electronic Communications Privacy Act. Even before
-the Neidorf trial, Leahy had spoken out in defense of hacker-power
-and freedom of the keyboard: "We cannot unduly inhibit the inquisitive
-13-year-old who, if left to experiment today, may tomorrow develop
-the telecommunications or computer technology to lead the United States
-into the 21st century. He represents our future and our best hope
-to remain a technologically competitive nation."
-
-It was a handsome statement, rendered perhaps rather more effective
-by the fact that the crackdown raiders DID NOT HAVE any Senators
-speaking out for THEM. On the contrary, their highly secretive
-actions and tactics, all "sealed search warrants" here and
-"confidential ongoing investigations" there, might have won
-them a burst of glamorous publicity at first, but were crippling
-them in the on-going propaganda war. Gail Thackeray was reduced
-to unsupported bluster: "Some of these people who are loudest
-on the bandwagon may just slink into the background,"
-she predicted in Newsweek--when all the facts came out,
-and the cops were vindicated.
-
-But all the facts did not come out. Those facts that did,
-were not very flattering. And the cops were not vindicated.
-And Gail Thackeray lost her job. By the end of 1991,
-William Cook had also left public employment.
-
-1990 had belonged to the crackdown, but by '91 its agents
-were in severe disarray, and the libertarians were on a roll.
-People were flocking to the cause.
-
-A particularly interesting ally had been Mike Godwin of Austin, Texas.
-Godwin was an individual almost as difficult to describe as Barlow;
-he had been editor of the student newspaper of the University of Texas,
-and a computer salesman, and a programmer, and in 1990 was back
-in law school, looking for a law degree.
-
-Godwin was also a bulletin board maven. He was very well-known
-in the Austin board community under his handle "Johnny Mnemonic,"
-which he adopted from a cyberpunk science fiction story by William Gibson.
-Godwin was an ardent cyberpunk science fiction fan. As a fellow Austinite
-of similar age and similar interests, I myself had known Godwin socially
-for many years. When William Gibson and myself had been writing our
-collaborative SF novel, The Difference Engine, Godwin had been our
-technical advisor in our effort to link our Apple word-processors
-from Austin to Vancouver. Gibson and I were so pleased by his generous
-expert help that we named a character in the novel "Michael Godwin"
-in his honor.
-
-The handle "Mnemonic" suited Godwin very well. His erudition
-and his mastery of trivia were impressive to the point of stupor;
-his ardent curiosity seemed insatiable, and his desire to debate
-and argue seemed the central drive of his life. Godwin had even
-started his own Austin debating society, wryly known as the
-"Dull Men's Club." In person, Godwin could be overwhelming;
-a flypaper-brained polymath who could not seem to let any idea go.
-On bulletin boards, however, Godwin's closely reasoned,
-highly grammatical, erudite posts suited the medium well,
-and he became a local board celebrity.
-
-Mike Godwin was the man most responsible for the public national exposure
-of the Steve Jackson case. The Izenberg seizure in Austin had received
-no press coverage at all. The March 1 raids on Mentor, Bloodaxe, and
-Steve Jackson Games had received a brief front-page splash in the
-front page of the Austin American-Statesman, but it was confused
-and ill-informed: the warrants were sealed, and the Secret Service
-wasn't talking. Steve Jackson seemed doomed to obscurity.
-Jackson had not been arrested; he was not charged with any crime;
-he was not on trial. He had lost some computers in an ongoing
-investigation--so what? Jackson tried hard to attract attention
-to the true extent of his plight, but he was drawing a blank;
-no one in a position to help him seemed able to get a mental grip
-on the issues.
-
-Godwin, however, was uniquely, almost magically, qualified
-to carry Jackson's case to the outside world. Godwin was
-a board enthusiast, a science fiction fan, a former journalist,
-a computer salesman, a lawyer-to-be, and an Austinite.
-Through a coincidence yet more amazing, in his last year
-of law school Godwin had specialized in federal prosecutions
-and criminal procedure. Acting entirely on his own, Godwin made
-up a press packet which summarized the issues and provided useful
-contacts for reporters. Godwin's behind-the-scenes effort
-(which he carried out mostly to prove a point in a local board debate)
-broke the story again in the Austin American-Statesman and then in Newsweek.
-
-Life was never the same for Mike Godwin after that. As he joined the growing
-civil liberties debate on the Internet, it was obvious to all parties involved
-that here was one guy who, in the midst of complete murk and confusion,
-GENUINELY UNDERSTOOD EVERYTHING HE WAS TALKING ABOUT. The disparate elements
-of Godwin's dilettantish existence suddenly fell together as neatly as
-the facets of a Rubik's cube.
-
-When the time came to hire a full-time EFF staff attorney,
-Godwin was the obvious choice. He took the Texas bar exam,
-left Austin, moved to Cambridge, became a full-time, professional,
-computer civil libertarian, and was soon touring the nation on behalf
-of EFF, delivering well-received addresses on the issues to crowds
-as disparate as academics, industrialists, science fiction fans,
-and federal cops.
-
-Michael Godwin is currently the chief legal counsel of
-the Electronic Frontier Foundation in Cambridge, Massachusetts.
-
-#
-
-Another early and influential participant in the controversy
-was Dorothy Denning. Dr. Denning was unique among investigators
-of the computer underground in that she did not enter the debate
-with any set of politicized motives. She was a professional
-cryptographer and computer security expert whose primary interest
-in hackers was SCHOLARLY. She had a B.A. and M.A. in mathematics,
-and a Ph.D. in computer science from Purdue. She had worked for SRI
-International, the California think-tank that was also the home of
-computer-security maven Donn Parker, and had authored an influential text
-called Cryptography and Data Security. In 1990, Dr. Denning was working for
-Digital Equipment Corporation in their Systems Reseach Center. Her husband,
-Peter Denning, was also a computer security expert, working for NASA's
-Research Institute for Advanced Computer Science. He had edited the
-well-received Computers Under Attack: Intruders, Worms and Viruses.
-
-Dr. Denning took it upon herself to contact the digital underground,
-more or less with an anthropological interest. There she discovered
-that these computer-intruding hackers, who had been characterized
-as unethical, irresponsible, and a serious danger to society,
-did in fact have their own subculture and their own rules.
-They were not particularly well-considered rules, but they were,
-in fact, rules. Basically, they didn't take money and they
-didn't break anything.
-
-Her dispassionate reports on her researches did a great deal
-to influence serious-minded computer professionals--the sort
-of people who merely rolled their eyes at the cyberspace
-rhapsodies of a John Perry Barlow.
-
-For young hackers of the digital underground, meeting Dorothy Denning
-was a genuinely mind-boggling experience. Here was this neatly coiffed,
-conservatively dressed, dainty little personage, who reminded most
-hackers of their moms or their aunts. And yet she was an IBM systems
-programmer with profound expertise in computer architectures
-and high-security information flow, who had personal friends
-in the FBI and the National Security Agency.
-
-Dorothy Denning was a shining example of the American mathematical
-intelligentsia, a genuinely brilliant person from the central ranks
-of the computer-science elite. And here she was, gently questioning
-twenty-year-old hairy-eyed phone-phreaks over the deeper ethical
-implications of their behavior.
-
-Confronted by this genuinely nice lady, most hackers sat up very straight
-and did their best to keep the anarchy-file stuff down to a faint whiff
-of brimstone. Nevertheless, the hackers WERE in fact prepared to seriously
-discuss serious issues with Dorothy Denning. They were willing to speak
-the unspeakable and defend the indefensible, to blurt out their convictions
-that information cannot be owned, that the databases of governments and large
-corporations were a threat to the rights and privacy of individuals.
-
-Denning's articles made it clear to many that "hacking"
-was not simple vandalism by some evil clique of psychotics.
-"Hacking" was not an aberrant menace that could be charmed away
-by ignoring it, or swept out of existence by jailing a few ringleaders.
-Instead, "hacking" was symptomatic of a growing, primal struggle over
-knowledge and power in the age of information.
-
-Denning pointed out that the attitude of hackers were at least partially
-shared by forward-looking management theorists in the business community:
-people like Peter Drucker and Tom Peters. Peter Drucker, in his book
-The New Realities, had stated that "control of information by the government
-is no longer possible. Indeed, information is now transnational.
-Like money, it has no `fatherland.'"
-
-And management maven Tom Peters had chided large corporations for uptight,
-proprietary attitudes in his bestseller, Thriving on Chaos:
-"Information hoarding, especially by politically motivated,
-power-seeking staffs, had been commonplace throughout American industry,
-service and manufacturing alike. It will be an impossible
-millstone aroung the neck of tomorrow's organizations."
-
-Dorothy Denning had shattered the social membrane of the
-digital underground. She attended the Neidorf trial,
-where she was prepared to testify for the defense as an expert witness.
-She was a behind-the-scenes organizer of two of the most important
-national meetings of the computer civil libertarians. Though not
-a zealot of any description, she brought disparate elements of the
-electronic community into a surprising and fruitful collusion.
-
-Dorothy Denning is currently the Chair of the Computer Science Department
-at Georgetown University in Washington, DC.
-
-#
-
-There were many stellar figures in the civil libertarian community.
-There's no question, however, that its single most influential figure
-was Mitchell D. Kapor. Other people might have formal titles,
-or governmental positions, have more experience with crime,
-or with the law, or with the arcanities of computer security
-or constitutional theory. But by 1991 Kapor had transcended
-any such narrow role. Kapor had become "Mitch."
-
-Mitch had become the central civil-libertarian ad-hocrat.
-Mitch had stood up first, he had spoken out loudly, directly,
-vigorously and angrily, he had put his own reputation,
-and his very considerable personal fortune, on the line.
-By mid-'91 Kapor was the best-known advocate of his cause
-and was known PERSONALLY by almost every single human being in America
-with any direct influence on the question of civil liberties in cyberspace.
-Mitch had built bridges, crossed voids, changed paradigms, forged metaphors,
-made phone-calls and swapped business cards to such spectacular effect
-that it had become impossible for anyone to take any action in the
-"hacker question" without wondering what Mitch might think--
-and say--and tell his friends.
-
-The EFF had simply NETWORKED the situation into an entirely new status quo.
-And in fact this had been EFF's deliberate strategy from the beginning.
-Both Barlow and Kapor loathed bureaucracies and had deliberately
-chosen to work almost entirely through the electronic spiderweb of
-"valuable personal contacts."
-
-After a year of EFF, both Barlow and Kapor had every reason
-to look back with satisfaction. EFF had established its own Internet node,
-"eff.org," with a well-stocked electronic archive of documents on
-electronic civil rights, privacy issues, and academic freedom.
-EFF was also publishing EFFector, a quarterly printed journal,
-as well as EFFector Online, an electronic newsletter with
-over 1,200 subscribers. And EFF was thriving on the Well.
-
-EFF had a national headquarters in Cambridge and a full-time staff.
-It had become a membership organization and was attracting
-grass-roots support. It had also attracted the support
-of some thirty civil-rights lawyers, ready and eager
-to do pro bono work in defense of the Constitution in Cyberspace.
-
-EFF had lobbied successfully in Washington and in Massachusetts
-to change state and federal legislation on computer networking.
-Kapor in particular had become a veteran expert witness,
-and had joined the Computer Science and Telecommunications Board
-of the National Academy of Science and Engineering.
-
-EFF had sponsored meetings such as "Computers, Freedom and Privacy"
-and the CPSR Roundtable. It had carried out a press offensive that,
-in the words of EFFector, "has affected the climate of opinion about
-computer networking and begun to reverse the slide into
-`hacker hysteria' that was beginning to grip the nation."
-
-It had helped Craig Neidorf avoid prison.
-
-And, last but certainly not least, the Electronic Frontier Foundation
-had filed a federal lawsuit in the name of Steve Jackson,
-Steve Jackson Games Inc., and three users of the Illuminati
-bulletin board system. The defendants were, and are,
-the United States Secret Service, William Cook, Tim Foley,
-Barbara Golden and Henry Kleupfel.
-
-The case, which is in pre-trial procedures in an Austin federal court
-as of this writing, is a civil action for damages to redress
-alleged violations of the First and Fourth Amendments to the
-United States Constitution, as well as the Privacy Protection Act
-of 1980 (42 USC 2000aa et seq.), and the Electronic Communications
-Privacy Act (18 USC 2510 et seq and 2701 et seq).
-
-EFF had established that it had credibility. It had also established
-that it had teeth.
-
-In the fall of 1991 I travelled to Massachusetts to speak personally
-with Mitch Kapor. It was my final interview for this book.
-
-#
-
-The city of Boston has always been one of the major intellectual centers
-of the American republic. It is a very old city by American standards,
-a place of skyscrapers overshadowing seventeenth-century graveyards,
-where the high-tech start-up companies of Route 128 co-exist with the
-hand-wrought pre-industrial grace of "Old Ironsides," the USS CONSTITUTION.
-
-The Battle of Bunker Hill, one of the first and bitterest armed clashes
-of the American Revolution, was fought in Boston's environs. Today there is
-a monumental spire on Bunker Hill, visible throughout much of the city.
-The willingness of the republican revolutionaries to take up arms and fire
-on their oppressors has left a cultural legacy that two full centuries
-have not effaced. Bunker Hill is still a potent center of American political
-symbolism, and the Spirit of '76 is still a potent image for those who seek
-to mold public opinion.
-
-Of course, not everyone who wraps himself in the flag is necessarily
-a patriot. When I visited the spire in September 1991, it bore a huge,
-badly-erased, spray-can grafitto around its bottom reading
-"BRITS OUT--IRA PROVOS." Inside this hallowed edifice was
-a glass-cased diorama of thousands of tiny toy soldiers,
-rebels and redcoats, fighting and dying over the green hill,
-the riverside marshes, the rebel trenchworks. Plaques indicated the
-movement of troops, the shiftings of strategy. The Bunker Hill Monument
-is occupied at its very center by the toy soldiers of a military
-war-game simulation.
-
-The Boston metroplex is a place of great universities,
-prominent among the Massachusetts Institute of Technology,
-where the term "computer hacker" was first coined. The Hacker Crackdown
-of 1990 might be interpreted as a political struggle among American cities:
-traditional strongholds of longhair intellectual liberalism,
-such as Boston, San Francisco, and Austin, versus the bare-knuckle
-industrial pragmatism of Chicago and Phoenix (with Atlanta and New York
-wrapped in internal struggle).
-
-The headquarters of the Electronic Frontier Foundation is on
-155 Second Street in Cambridge, a Bostonian suburb north
-of the River Charles. Second Street has weedy sidewalks of dented,
-sagging brick and elderly cracked asphalt; large street-signs warn
-"NO PARKING DURING DECLARED SNOW EMERGENCY." This is an old area
-of modest manufacturing industries; the EFF is catecorner from the
-Greene Rubber Company. EFF's building is two stories of red brick;
-its large wooden windows feature gracefully arched tops and stone sills.
-
-The glass window beside the Second Street entrance bears three sheets
-of neatly laser-printed paper, taped against the glass. They read:
-ON Technology. EFF. KEI.
-
-"ON Technology" is Kapor's software company, which currently specializes
-in "groupware" for the Apple Macintosh computer. "Groupware" is intended
-to promote efficient social interaction among office-workers linked
-by computers. ON Technology's most successful software products to date
-are "Meeting Maker" and "Instant Update."
-
-"KEI" is Kapor Enterprises Inc., Kapor's personal holding company,
-the commercial entity that formally controls his extensive investments
-in other hardware and software corporations.
-
-"EFF" is a political action group--of a special sort.
-
-Inside, someone's bike has been chained to the handrails
-of a modest flight of stairs. A wall of modish glass brick
-separates this anteroom from the offices. Beyond the brick,
-there's an alarm system mounted on the wall, a sleek, complex little
-number that resembles a cross between a thermostat and a CD player.
-Piled against the wall are box after box of a recent special issue
-of Scientific American, "How to Work, Play, and Thrive in Cyberspace,"
-with extensive coverage of electronic networking techniques
-and political issues, including an article by Kapor himself.
-These boxes are addressed to Gerard Van der Leun, EFF's
-Director of Communications, who will shortly mail those magazines
-to every member of the EFF.
-
-The joint headquarters of EFF, KEI, and ON Technology,
-which Kapor currently rents, is a modestly bustling place.
-It's very much the same physical size as Steve Jackson's gaming company.
-It's certainly a far cry from the gigantic gray steel-sided railway
-shipping barn, on the Monsignor O'Brien Highway, that is owned
-by Lotus Development Corporation.
-
-Lotus is, of course, the software giant that Mitchell Kapor founded
-in the late 70s. The software program Kapor co-authored,
-"Lotus 1-2-3," is still that company's most profitable product.
-"Lotus 1-2-3" also bears a singular distinction in the
-digital underground: it's probably the most pirated piece
-of application software in world history.
-
-Kapor greets me cordially in his own office, down a hall.
-Kapor, whose name is pronounced KAY-por, is in his early forties,
-married and the father of two. He has a round face, high forehead,
-straight nose, a slightly tousled mop of black hair peppered with gray.
-His large brown eyes are wideset, reflective, one might almost say soulful.
-He disdains ties, and commonly wears Hawaiian shirts and tropical prints,
-not so much garish as simply cheerful and just that little bit anomalous.
-
-There is just the whiff of hacker brimstone about Mitch Kapor.
-He may not have the hard-riding, hell-for-leather, guitar-strumming
-charisma of his Wyoming colleague John Perry Barlow, but there's
-something about the guy that still stops one short. He has the air
-of the Eastern city dude in the bowler hat, the dreamy,
-Longfellow-quoting poker shark who only HAPPENS to know
-the exact mathematical odds against drawing to an inside straight.
-Even among his computer-community colleagues, who are hardly known
-for mental sluggishness, Kapor strikes one forcefully as a very
-intelligent man. He speaks rapidly, with vigorous gestures,
-his Boston accent sometimes slipping to the sharp nasal tang
-of his youth in Long Island.
-
-Kapor, whose Kapor Family Foundation does much of his philanthropic work,
-is a strong supporter of Boston's Computer Museum. Kapor's interest
-in the history of his industry has brought him some remarkable curios,
-such as the "byte" just outside his office door. This "byte"--
-eight digital bits--has been salvaged from the wreck of an
-electronic computer of the pre-transistor age. It's a standing gunmetal
-rack about the size of a small toaster-oven: with eight slots
-of hand-soldered breadboarding featuring thumb-sized vacuum tubes.
-If it fell off a table it could easily break your foot,
-but it was state-of-the-art computation in the 1940s.
-(It would take exactly 157,184 of these primordial toasters
-to hold the first part of this book.)
-
-There's also a coiling, multicolored, scaly dragon that some
-inspired techno-punk artist has cobbled up entirely out of transistors,
-capacitors, and brightly plastic-coated wiring.
-
-Inside the office, Kapor excuses himself briefly to do a little
-mouse-whizzing housekeeping on his personal Macintosh IIfx.
-If its giant screen were an open window, an agile person
-could climb through it without much trouble at all.
-There's a coffee-cup at Kapor's elbow, a memento of his
-recent trip to Eastern Europe, which has a black-and-white
-stencilled photo and the legend CAPITALIST FOOLS TOUR.
-It's Kapor, Barlow, and two California venture-capitalist luminaries
-of their acquaintance, four windblown, grinning Baby Boomer
-dudes in leather jackets, boots, denim, travel bags,
-standing on airport tarmac somewhere behind the formerly Iron Curtain.
-They look as if they're having the absolute time of their lives.
-
-Kapor is in a reminiscent mood. We talk a bit about his youth--
-high school days as a "math nerd," Saturdays attending Columbia University's
-high-school science honors program, where he had his first experience
-programming computers. IBM 1620s, in 1965 and '66. "I was very interested,"
-says Kapor, "and then I went off to college and got distracted by drugs sex
-and rock and roll, like anybody with half a brain would have then!"
-After college he was a progressive-rock DJ in Hartford, Connecticut,
-for a couple of years.
-
-I ask him if he ever misses his rock and roll days--if he ever wished
-he could go back to radio work.
-
-He shakes his head flatly. "I stopped thinking about going back
-to be a DJ the day after Altamont."
-
-Kapor moved to Boston in 1974 and got a job programming mainframes in COBOL.
-He hated it. He quit and became a teacher of transcendental meditation.
-(It was Kapor's long flirtation with Eastern mysticism that gave the
-world "Lotus.")
-
-In 1976 Kapor went to Switzerland, where the Transcendental Meditation
-movement had rented a gigantic Victorian hotel in St-Moritz. It was
-an all-male group--a hundred and twenty of them--determined upon
-Enlightenment or Bust. Kapor had given the transcendant his best shot.
-He was becoming disenchanted by "the nuttiness in the organization."
-"They were teaching people to levitate," he says, staring at the floor.
-His voice drops an octave, becomes flat. "THEY DON'T LEVITATE."
-
-Kapor chose Bust. He went back to the States and acquired a degree
-in counselling psychology. He worked a while in a hospital,
-couldn't stand that either. "My rep was," he says "a very bright kid
-with a lot of potential who hasn't found himself. Almost thirty.
-Sort of lost."
-
-Kapor was unemployed when he bought his first personal computer--an Apple II.
-He sold his stereo to raise cash and drove to New Hampshire to avoid the
-sales tax.
-
-"The day after I purchased it," Kapor tells me, "I was hanging out
-in a computer store and I saw another guy, a man in his forties,
-well-dressed guy, and eavesdropped on his conversation with the salesman.
-He didn't know anything about computers. I'd had a year programming.
-And I could program in BASIC. I'd taught myself. So I went up to him,
-and I actually sold myself to him as a consultant." He pauses.
-"I don't know where I got the nerve to do this. It was uncharacteristic.
-I just said, `I think I can help you, I've been listening,
-this is what you need to do and I think I can do it for you.'
-And he took me on! He was my first client! I became a computer
-consultant the first day after I bought the Apple II."
-
-Kapor had found his true vocation. He attracted more clients
-for his consultant service, and started an Apple users' group.
-
-A friend of Kapor's, Eric Rosenfeld, a graduate student at MIT,
-had a problem. He was doing a thesis on an arcane form of
-financial statistics, but could not wedge himself into the crowded queue
-for time on MIT's mainframes. (One might note at this point that if
-Mr. Rosenfeld had dishonestly broken into the MIT mainframes,
-Kapor himself might have never invented Lotus 1-2-3 and
-the PC business might have been set back for years!)
-Eric Rosenfeld did have an Apple II, however,
-and he thought it might be possible to scale the problem down.
-Kapor, as favor, wrote a program for him in BASIC that did the job.
-
-It then occurred to the two of them, out of the blue,
-that it might be possible to SELL this program.
-They marketed it themselves, in plastic baggies,
-for about a hundred bucks a pop, mail order.
-"This was a total cottage industry by a marginal consultant,"
-Kapor says proudly. "That's how I got started, honest to God."
-
-Rosenfeld, who later became a very prominent figure on Wall Street,
-urged Kapor to go to MIT's business school for an MBA.
-Kapor did seven months there, but never got his MBA.
-He picked up some useful tools--mainly a firm grasp
-of the principles of accounting--and, in his own words,
-"learned to talk MBA." Then he dropped out and went to Silicon Valley.
-
-The inventors of VisiCalc, the Apple computer's premier business program,
-had shown an interest in Mitch Kapor. Kapor worked diligently for them
-for six months, got tired of California, and went back to Boston
-where they had better bookstores. The VisiCalc group had made
-the critical error of bringing in "professional management."
-"That drove them into the ground," Kapor says.
-
-"Yeah, you don't hear a lot about VisiCalc these days," I muse.
-
-Kapor looks surprised. "Well, Lotus. . . we BOUGHT it."
-
-"Oh. You BOUGHT it?"
-
-"Yeah."
-
-"Sort of like the Bell System buying Western Union?"
-
-Kapor grins. "Yep! Yep! Yeah, exactly!"
-
-Mitch Kapor was not in full command of the destiny of himself
-or his industry. The hottest software commodities of the early 1980s
-were COMPUTER GAMES--the Atari seemed destined to enter every teenage home
-in America. Kapor got into business software simply because he didn't have
-any particular feeling for computer games. But he was supremely fast
-on his feet, open to new ideas and inclined to trust his instincts.
-And his instincts were good. He chose good people to deal with--
-gifted programmer Jonathan Sachs (the co-author of Lotus 1-2-3).
-Financial wizard Eric Rosenfeld, canny Wall Street analyst
-and venture capitalist Ben Rosen. Kapor was the founder and CEO of Lotus,
-one of the most spectacularly successful business ventures of the
-later twentieth century.
-
-He is now an extremely wealthy man. I ask him if he actually
-knows how much money he has.
-
-"Yeah," he says. "Within a percent or two."
-
-How much does he actually have, then?
-
-He shakes his head. "A lot. A lot. Not something I talk about.
-Issues of money and class are things that cut pretty close to the bone."
-
-I don't pry. It's beside the point. One might presume, impolitely,
-that Kapor has at least forty million--that's what he got the year
-he left Lotus. People who ought to know claim Kapor has about
-a hundred and fifty million, give or take a market swing
-in his stock holdings. If Kapor had stuck with Lotus,
-as his colleague friend and rival Bill Gates has stuck
-with his own software start-up, Microsoft, then Kapor
-would likely have much the same fortune Gates has--
-somewhere in the neighborhood of three billion,
-give or take a few hundred million. Mitch Kapor
-has all the money he wants. Money has lost whatever charm
-it ever held for him--probably not much in the first place.
-When Lotus became too uptight, too bureaucratic, too far
-from the true sources of his own satisfaction, Kapor walked.
-He simply severed all connections with the company and went out the door.
-It stunned everyone--except those who knew him best.
-
-Kapor has not had to strain his resources to wreak a thorough
-transformation in cyberspace politics. In its first year,
-EFF's budget was about a quarter of a million dollars.
-Kapor is running EFF out of his pocket change.
-
-Kapor takes pains to tell me that he does not consider himself
-a civil libertarian per se. He has spent quite some time
-with true-blue civil libertarians lately, and there's a
-political-correctness to them that bugs him. They seem
-to him to spend entirely too much time in legal nitpicking
-and not enough vigorously exercising civil rights in the
-everyday real world.
-
-Kapor is an entrepreneur. Like all hackers, he prefers his involvements
-direct, personal, and hands-on. "The fact that EFF has a node on the
-Internet is a great thing. We're a publisher. We're a distributor
-of information." Among the items the eff.org Internet node carries
-is back issues of Phrack. They had an internal debate about that in EFF,
-and finally decided to take the plunge. They might carry other
-digital underground publications--but if they do, he says,
-"we'll certainly carry Donn Parker, and anything Gail Thackeray
-wants to put up. We'll turn it into a public library, that has
-the whole spectrum of use. Evolve in the direction of people making up
-their own minds." He grins. "We'll try to label all the editorials."
-
-Kapor is determined to tackle the technicalities of the Internet
-in the service of the public interest. "The problem with being a node
-on the Net today is that you've got to have a captive technical specialist.
-We have Chris Davis around, for the care and feeding of the balky beast!
-We couldn't do it ourselves!"
-
-He pauses. "So one direction in which technology has to evolve
-is much more standardized units, that a non-technical person
-can feel comfortable with. It's the same shift as from minicomputers to PCs.
-I can see a future in which any person can have a Node on the Net.
-Any person can be a publisher. It's better than the media we now have.
-It's possible. We're working actively."
-
-Kapor is in his element now, fluent, thoroughly in command in his material.
-"You go tell a hardware Internet hacker that everyone should have a node
-on the Net," he says, "and the first thing they're going to say is,
-`IP doesn't scale!'" ("IP" is the interface protocol for the Internet.
-As it currently exists, the IP software is simply not capable of
-indefinite expansion; it will run out of usable addresses, it will saturate.)
-"The answer," Kapor says, "is: evolve the protocol! Get the smart people
-together and figure out what to do. Do we add ID? Do we add new protocol?
-Don't just say, WE CAN'T DO IT."
-
-Getting smart people together to figure out what to do is a skill
-at which Kapor clearly excels. I counter that people on the Internet
-rather enjoy their elite technical status, and don't seem particularly
-anxious to democratize the Net.
-
-Kapor agrees, with a show of scorn. "I tell them that this is the snobbery
-of the people on the Mayflower looking down their noses at the people
-who came over ON THE SECOND BOAT! Just because they got here a year,
-or five years, or ten years before everybody else, that doesn't give
-them ownership of cyberspace! By what right?"
-
-I remark that the telcos are an electronic network, too,
-and they seem to guard their specialized knowledge pretty closely.
-
-Kapor ripostes that the telcos and the Internet are entirely
-different animals. "The Internet is an open system,
-everything is published, everything gets argued about,
-basically by anybody who can get in. Mostly, it's exclusive
-and elitist just because it's so difficult. Let's make it easier to use."
-
-On the other hand, he allows with a swift change of emphasis,
-the so-called elitists do have a point as well. "Before people start coming in,
-who are new, who want to make suggestions, and criticize the Net as
-`all screwed up'. . . . They should at least take the time to understand
-the culture on its own terms. It has its own history--show some respect
-for it. I'm a conservative, to that extent."
-
-The Internet is Kapor's paradigm for the future of telecommunications.
-The Internet is decentralized, non-hierarchical, almost anarchic.
-There are no bosses, no chain of command, no secret data.
-If each node obeys the general interface standards,
-there's simply no need for any central network authority.
-
-Wouldn't that spell the doom of AT&T as an institution? I ask.
-
-That prospect doesn't faze Kapor for a moment. "Their big advantage,
-that they have now, is that they have all of the wiring.
-But two things are happening. Anyone with right-of-way
-is putting down fiber--Southern Pacific Railroad,
-people like that--there's enormous `dark fiber' laid in."
-("Dark Fiber" is fiber-optic cable, whose enormous capacity
-so exceeds the demands of current usage that much of the
-fiber still has no light-signals on it--it's still `dark,'
-awaiting future use.)
-
-"The other thing that's happening is the local-loop stuff
-is going to go wireless. Everyone from Bellcore to the cable TV
-companies to AT&T wants to put in these things called
-`personal communication systems.' So you could have local competition--
-you could have multiplicity of people, a bunch of neighborhoods,
-sticking stuff up on poles. And a bunch of other people laying in dark fiber.
-So what happens to the telephone companies? There's enormous pressure
-on them from both sides.
-
-"The more I look at this, the more I believe that in a post-industrial,
-digital world, the idea of regulated monopolies is bad. People will
-look back on it and say that in the 19th and 20th centuries
-the idea of public utilities was an okay compromise.
-You needed one set of wires in the ground. It was too economically
-inefficient, otherwise. And that meant one entity running it.
-But now, with pieces being wireless--the connections are going
-to be via high-level interfaces, not via wires. I mean, ULTIMATELY
-there are going to be wires--but the wires are just a commodity.
-Fiber, wireless. You no longer NEED a utility."
-
-Water utilities? Gas utilities?
-
-Of course we still need those, he agrees. "But when what you're moving
-is information, instead of physical substances, then you can play by
-a different set of rules. We're evolving those rules now!
-Hopefully you can have a much more decentralized system,
-and one in which there's more competition in the marketplace.
-
-"The role of government will be to make sure that nobody cheats.
-The proverbial `level playing field.' A policy that prevents monopolization.
-It should result in better service, lower prices, more choices,
-and local empowerment." He smiles. "I'm very big on local empowerment."
-
-Kapor is a man with a vision. It's a very novel vision which he
-and his allies are working out in considerable detail and with great energy.
-Dark, cynical, morbid cyberpunk that I am, I cannot avoid considering
-some of the darker implications of "decentralized, nonhierarchical,
-locally empowered" networking.
-
-I remark that some pundits have suggested that electronic networking--faxes,
-phones, small-scale photocopiers--played a strong role in dissolving
-the power of centralized communism and causing the collapse of the Warsaw Pact.
-
-Socialism is totally discredited, says Kapor, fresh back from
-the Eastern Bloc. The idea that faxes did it, all by themselves,
-is rather wishful thinking.
-
-Has it occurred to him that electronic networking might corrode
-America's industrial and political infrastructure to the point
-where the whole thing becomes untenable, unworkable--and the old order
-just collapses headlong, like in Eastern Europe?
-
-"No," Kapor says flatly. "I think that's extraordinarily unlikely.
-In part, because ten or fifteen years ago, I had similar hopes
-about personal computers--which utterly failed to materialize."
-He grins wryly, then his eyes narrow. "I'm VERY opposed to techno-utopias.
-Every time I see one, I either run away, or try to kill it."
-
-It dawns on me then that Mitch Kapor is not trying to
-make the world safe for democracy. He certainly is not
-trying to make it safe for anarchists or utopians--
-least of all for computer intruders or electronic rip-off artists.
-What he really hopes to do is make the world safe for
-future Mitch Kapors. This world of decentralized, small-scale nodes,
-with instant global access for the best and brightest,
-would be a perfect milieu for the shoestring attic capitalism
-that made Mitch Kapor what he is today.
-
-Kapor is a very bright man. He has a rare combination
-of visionary intensity with a strong practical streak.
-The Board of the EFF: John Barlow, Jerry Berman of the ACLU,
-Stewart Brand, John Gilmore, Steve Wozniak, and Esther Dyson,
-the doyenne of East-West computer entrepreneurism--share his gift,
-his vision, and his formidable networking talents.
-They are people of the 1960s, winnowed-out by its turbulence
-and rewarded with wealth and influence. They are some of the best
-and the brightest that the electronic community has to offer.
-But can they do it, in the real world? Or are they only dreaming?
-They are so few. And there is so much against them.
-
-I leave Kapor and his networking employees struggling cheerfully
-with the promising intricacies of their newly installed Macintosh
-System 7 software. The next day is Saturday. EFF is closed.
-I pay a few visits to points of interest downtown.
-
-One of them is the birthplace of the telephone.
-
-It's marked by a bronze plaque in a plinth of black-and-white speckled granite. It sits in the
-plaza of the John F. Kennedy Federal Building, the very place where Kapor was
-once fingerprinted by the FBI.
-
-The plaque has a bas-relief picture of Bell's original telephone.
-"BIRTHPLACE OF THE TELEPHONE," it reads. "Here, on June 2, 1875,
-Alexander Graham Bell and Thomas A. Watson first transmitted sound over wires.
-
-"This successful experiment was completed in a fifth floor garret
-at what was then 109 Court Street and marked the beginning of
-world-wide telephone service."
-
-109 Court Street is long gone. Within sight of Bell's plaque,
-across a street, is one of the central offices of NYNEX,
-the local Bell RBOC, on 6 Bowdoin Square.
-
-I cross the street and circle the telco building, slowly,
-hands in my jacket pockets. It's a bright, windy, New England
-autumn day. The central office is a handsome 1940s-era megalith
-in late Art Deco, eight stories high.
-
-Parked outside the back is a power-generation truck.
-The generator strikes me as rather anomalous. Don't they
-already have their own generators in this eight-story monster?
-Then the suspicion strikes me that NYNEX must have heard
-of the September 17 AT&T power-outage which crashed New York City.
-Belt-and-suspenders, this generator. Very telco.
-
-Over the glass doors of the front entrance is a handsome bronze
-bas-relief of Art Deco vines, sunflowers, and birds, entwining
-the Bell logo and the legend NEW ENGLAND TELEPHONE AND TELEGRAPH COMPANY
---an entity which no longer officially exists.
-
-The doors are locked securely. I peer through the shadowed glass.
-Inside is an official poster reading:
-
-
-"New England Telephone a NYNEX Company
-
-ATTENTION
-
-"All persons while on New England Telephone
-Company premises are required to visibly wear their
-identification cards (C.C.P. Section 2, Page 1).
-
-"Visitors, vendors, contractors, and all others are
-required to visibly wear a daily pass.
-
-"Thank you.
-
-Kevin C. Stanton.
-Building Security Coordinator."
-
-
-Outside, around the corner, is a pull-down ribbed metal security door,
-a locked delivery entrance. Some passing stranger has grafitti-tagged
-this door, with a single word in red spray-painted cursive:
-
-Fury
-
-#
-
-My book on the Hacker Crackdown is almost over now.
-I have deliberately saved the best for last.
-
-In February 1991, I attended the CPSR Public Policy Roundtable,
-in Washington, DC. CPSR, Computer Professionals for Social Responsibility,
-was a sister organization of EFF, or perhaps its aunt, being older
-and perhaps somewhat wiser in the ways of the world of politics.
-
-Computer Professionals for Social Responsibility began in 1981
-in Palo Alto, as an informal discussion group of Californian
-computer scientists and technicians, united by nothing more
-than an electronic mailing list. This typical high-tech
-ad-hocracy received the dignity of its own acronym in 1982,
-and was formally incorporated in 1983.
-
-CPSR lobbied government and public alike with an educational
-outreach effort, sternly warning against any foolish
-and unthinking trust in complex computer systems.
-CPSR insisted that mere computers should never be
-considered a magic panacea for humanity's social,
-ethical or political problems. CPSR members were especially
-troubled about the stability, safety, and dependability
-of military computer systems, and very especially troubled
-by those systems controlling nuclear arsenals. CPSR was
-best-known for its persistent and well-publicized attacks on the
-scientific credibility of the Strategic Defense Initiative ("Star Wars").
-
-In 1990, CPSR was the nation's veteran cyber-political activist group,
-with over two thousand members in twenty- one local chapters across the US.
-It was especially active in Boston, Silicon Valley, and Washington DC,
-where its Washington office sponsored the Public Policy Roundtable.
-
-The Roundtable, however, had been funded by EFF, which had passed CPSR
-an extensive grant for operations. This was the first large-scale,
-official meeting of what was to become the electronic civil
-libertarian community.
-
-Sixty people attended, myself included--in this instance, not so much
-as a journalist as a cyberpunk author. Many of the luminaries
-of the field took part: Kapor and Godwin as a matter of course.
-Richard Civille and Marc Rotenberg of CPSR. Jerry Berman of the ACLU.
-John Quarterman, author of The Matrix. Steven Levy, author of Hackers.
-George Perry and Sandy Weiss of Prodigy Services, there to network
-about the civil-liberties troubles their young commercial
-network was experiencing. Dr. Dorothy Denning. Cliff Figallo,
-manager of the Well. Steve Jackson was there, having finally
-found his ideal target audience, and so was Craig Neidorf,
-"Knight Lightning" himself, with his attorney, Sheldon Zenner.
-Katie Hafner, science journalist, and co-author of Cyberpunk:
-Outlaws and Hackers on the Computer Frontier. Dave Farber,
-ARPAnet pioneer and fabled Internet guru. Janlori Goldman
-of the ACLU's Project on Privacy and Technology. John Nagle
-of Autodesk and the Well. Don Goldberg of the House Judiciary Committee.
-Tom Guidoboni, the defense attorney in the Internet Worm case.
-Lance Hoffman, computer-science professor at The George Washington
-University. Eli Noam of Columbia. And a host of others no less distinguished.
-
-Senator Patrick Leahy delivered the keynote address,
-expressing his determination to keep ahead of the curve
-on the issue of electronic free speech. The address was
-well-received, and the sense of excitement was palpable.
-Every panel discussion was interesting--some were entirely
-compelling. People networked with an almost frantic interest.
-
-I myself had a most interesting and cordial lunch discussion with
-Noel and Jeanne Gayler, Admiral Gayler being a former director
-of the National Security Agency. As this was the first known encounter
-between an actual no-kidding cyberpunk and a chief executive of
-America's largest and best-financed electronic espionage apparat,
-there was naturally a bit of eyebrow-raising on both sides.
-
-Unfortunately, our discussion was off-the-record. In fact
-all the discussions at the CPSR were officially off-the-record,
-the idea being to do some serious networking in an atmosphere
-of complete frankness, rather than to stage a media circus.
-
-In any case, CPSR Roundtable, though interesting and intensely valuable,
-was as nothing compared to the truly mind-boggling event that transpired
-a mere month later.
-
-#
-
-"Computers, Freedom and Privacy." Four hundred people from
-every conceivable corner of America's electronic community.
-As a science fiction writer, I have been to some weird gigs in my day,
-but this thing is truly BEYOND THE PALE. Even "Cyberthon,"
-Point Foundation's "Woodstock of Cyberspace" where Bay Area
-psychedelia collided headlong with the emergent world
-of computerized virtual reality, was like a Kiwanis Club gig
-compared to this astonishing do.
-
-The "electronic community" had reached an apogee.
-Almost every principal in this book is in attendance.
-Civil Libertarians. Computer Cops. The Digital Underground.
-Even a few discreet telco people. Colorcoded dots
-for lapel tags are distributed. Free Expression issues.
-Law Enforcement. Computer Security. Privacy. Journalists.
-Lawyers. Educators. Librarians. Programmers.
-Stylish punk-black dots for the hackers and phone phreaks.
-Almost everyone here seems to wear eight or nine dots,
-to have six or seven professional hats.
-
-It is a community. Something like Lebanon perhaps,
-but a digital nation. People who had feuded all year
-in the national press, people who entertained the deepest
-suspicions of one another's motives and ethics, are now
-in each others' laps. "Computers, Freedom and Privacy"
-had every reason in the world to turn ugly, and yet except
-for small irruptions of puzzling nonsense from the
-convention's token lunatic, a surprising bonhomie reigned.
-CFP was like a wedding-party in which two lovers,
-unstable bride and charlatan groom, tie the knot
-in a clearly disastrous matrimony.
-
-It is clear to both families--even to neighbors and random guests--
-that this is not a workable relationship, and yet the young couple's
-desperate attraction can brook no further delay. They simply cannot
-help themselves. Crockery will fly, shrieks from their newlywed home
-will wake the city block, divorce waits in the wings like a vulture
-over the Kalahari, and yet this is a wedding, and there is going
-to be a child from it. Tragedies end in death; comedies in marriage.
-The Hacker Crackdown is ending in marriage. And there will be a child.
-
-From the beginning, anomalies reign. John Perry Barlow,
-cyberspace ranger, is here. His color photo in
-The New York Times Magazine, Barlow scowling
-in a grim Wyoming snowscape, with long black coat,
-dark hat, a Macintosh SE30 propped on a fencepost
-and an awesome frontier rifle tucked under one arm,
-will be the single most striking visual image
-of the Hacker Crackdown. And he is CFP's guest of honor--
-along with Gail Thackeray of the FCIC! What on earth do
-they expect these dual guests to do with each other? Waltz?
-
-Barlow delivers the first address. Uncharacteristically,
-he is hoarse--the sheer volume of roadwork has worn him down.
-He speaks briefly, congenially, in a plea for conciliation,
-and takes his leave to a storm of applause.
-
-Then Gail Thackeray takes the stage. She's visibly nervous.
-She's been on the Well a lot lately. Reading those Barlow posts.
-Following Barlow is a challenge to anyone. In honor of the famous
-lyricist for the Grateful Dead, she announces reedily, she is going to read--
-A POEM. A poem she has composed herself.
-
-It's an awful poem, doggerel in the rollicking meter of Robert W. Service's
-The Cremation of Sam McGee, but it is in fact, a poem. It's the Ballad
-of the Electronic Frontier! A poem about the Hacker Crackdown and the
-sheer unlikelihood of CFP. It's full of in-jokes. The score or so cops
-in the audience, who are sitting together in a nervous claque,
-are absolutely cracking-up. Gail's poem is the funniest goddamn thing
-they've ever heard. The hackers and civil-libs, who had this woman figured
-for Ilsa She-Wolf of the SS, are staring with their jaws hanging loosely.
-Never in the wildest reaches of their imagination had they figured
-Gail Thackeray was capable of such a totally off-the-wall move.
-You can see them punching their mental CONTROL-RESET buttons.
-Jesus! This woman's a hacker weirdo! She's JUST LIKE US!
-God, this changes everything!
-
-Al Bayse, computer technician for the FBI, had been the only cop
-at the CPSR Roundtable, dragged there with his arm bent by
-Dorothy Denning. He was guarded and tightlipped at CPSR Roundtable;
-a "lion thrown to the Christians."
-
-At CFP, backed by a claque of cops, Bayse suddenly waxes eloquent
-and even droll, describing the FBI's "NCIC 2000", a gigantic digital catalog
-of criminal records, as if he has suddenly become some weird hybrid
-of George Orwell and George Gobel. Tentatively, he makes an arcane
-joke about statistical analysis. At least a third of the crowd laughs aloud.
-
-"They didn't laugh at that at my last speech," Bayse observes.
-He had been addressing cops--STRAIGHT cops, not computer people.
-It had been a worthy meeting, useful one supposes, but nothing like THIS.
-There has never been ANYTHING like this. Without any prodding,
-without any preparation, people in the audience simply begin to ask questions.
-Longhairs, freaky people, mathematicians. Bayse is answering, politely,
-frankly, fully, like a man walking on air. The ballroom's atmosphere
-crackles with surreality. A female lawyer behind me breaks into a sweat
-and a hot waft of surprisingly potent and musky perfume flows off
-her pulse-points.
-
-People are giddy with laughter. People are interested,
-fascinated, their eyes so wide and dark that they seem eroticized.
-Unlikely daisy-chains form in the halls, around the bar, on the escalators:
-cops with hackers, civil rights with FBI, Secret Service with phone phreaks.
-
-Gail Thackeray is at her crispest in a white wool sweater with a
-tiny Secret Service logo. "I found Phiber Optik at the payphones,
-and when he saw my sweater, he turned into a PILLAR OF SALT!" she chortles.
-
-Phiber discusses his case at much length with his arresting officer,
-Don Delaney of the New York State Police. After an hour's chat,
-the two of them look ready to begin singing "Auld Lang Syne."
-Phiber finally finds the courage to get his worst complaint off his chest.
-It isn't so much the arrest. It was the CHARGE. Pirating service
-off 900 numbers. I'm a PROGRAMMER, Phiber insists. This lame charge
-is going to hurt my reputation. It would have been cool to be busted
-for something happening, like Section 1030 computer intrusion.
-Maybe some kind of crime that's scarcely been invented yet.
-Not lousy phone fraud. Phooey.
-
-Delaney seems regretful. He had a mountain of possible criminal charges
-against Phiber Optik. The kid's gonna plead guilty anyway. He's a
-first timer, they always plead. Coulda charged the kid with most anything,
-and gotten the same result in the end. Delaney seems genuinely sorry
-not to have gratified Phiber in this harmless fashion. Too late now.
-Phiber's pled already. All water under the bridge. Whaddya gonna do?
-
-Delaney's got a good grasp on the hacker mentality.
-He held a press conference after he busted a bunch of
-Masters of Deception kids. Some journo had asked him:
-"Would you describe these people as GENIUSES?"
-Delaney's deadpan answer, perfect: "No, I would describe
-these people as DEFENDANTS." Delaney busts a kid for
-hacking codes with repeated random dialling. Tells the
-press that NYNEX can track this stuff in no time flat nowadays,
-and a kid has to be STUPID to do something so easy to catch.
-Dead on again: hackers don't mind being thought of as Genghis Khan
-by the straights, but if there's anything that really gets 'em
-where they live, it's being called DUMB.
-
-Won't be as much fun for Phiber next time around.
-As a second offender he's gonna see prison.
-Hackers break the law. They're not geniuses, either.
-They're gonna be defendants. And yet, Delaney muses over
-a drink in the hotel bar, he has found it impossible to treat
-them as common criminals. Delaney knows criminals. These kids,
-by comparison, are clueless--there is just no crook vibe off of them,
-they don't smell right, they're just not BAD.
-
-Delaney has seen a lot of action. He did Vietnam.
-He's been shot at, he has shot people. He's a homicide
-cop from New York. He has the appearance of a man who
-has not only seen the shit hit the fan but has seen it splattered
-across whole city blocks and left to ferment for years.
-This guy has been around.
-
-He listens to Steve Jackson tell his story. The dreamy
-game strategist has been dealt a bad hand. He has played
-it for all he is worth. Under his nerdish SF-fan exterior
-is a core of iron. Friends of his say Steve Jackson believes
-in the rules, believes in fair play. He will never compromise
-his principles, never give up. "Steve," Delaney says to
-Steve Jackson, "they had some balls, whoever busted you.
-You're all right!" Jackson, stunned, falls silent and
-actually blushes with pleasure.
-
-Neidorf has grown up a lot in the past year. The kid is
-a quick study, you gotta give him that. Dressed by his mom,
-the fashion manager for a national clothing chain,
-Missouri college techie-frat Craig Neidorf out-dappers
-everyone at this gig but the toniest East Coast lawyers.
-The iron jaws of prison clanged shut without him and now
-law school beckons for Neidorf. He looks like a larval Congressman.
-
-Not a "hacker," our Mr. Neidorf. He's not interested
-in computer science. Why should he be? He's not
-interested in writing C code the rest of his life,
-and besides, he's seen where the chips fall.
-To the world of computer science he and Phrack
-were just a curiosity. But to the world of law. . . .
-The kid has learned where the bodies are buried.
-He carries his notebook of press clippings wherever he goes.
-
-Phiber Optik makes fun of Neidorf for a Midwestern geek,
-for believing that "Acid Phreak" does acid and listens to acid rock.
-Hell no. Acid's never done ACID! Acid's into ACID HOUSE MUSIC.
-Jesus. The very idea of doing LSD. Our PARENTS did LSD, ya clown.
-
-Thackeray suddenly turns upon Craig Neidorf the full lighthouse
-glare of her attention and begins a determined half-hour attempt
-to WIN THE BOY OVER. The Joan of Arc of Computer Crime is
-GIVING CAREER ADVICE TO KNIGHT LIGHTNING! "Your experience
-would be very valuable--a real asset," she tells him with
-unmistakeable sixty-thousand-watt sincerity. Neidorf is fascinated.
-He listens with unfeigned attention. He's nodding and saying yes ma'am.
-Yes, Craig, you too can forget all about money and enter the glamorous
-and horribly underpaid world of PROSECUTING COMPUTER CRIME!
-You can put your former friends in prison--ooops. . . .
-
-You cannot go on dueling at modem's length indefinitely.
-You cannot beat one another senseless with rolled-up press-clippings.
-Sooner or later you have to come directly to grips.
-And yet the very act of assembling here has changed
-the entire situation drastically. John Quarterman,
-author of The Matrix, explains the Internet at his symposium.
-It is the largest news network in the world, it is growing
-by leaps and bounds, and yet you cannot measure Internet because
-you cannot stop it in place. It cannot stop, because there
-is no one anywhere in the world with the authority to stop Internet.
-It changes, yes, it grows, it embeds itself across the post-industrial,
-postmodern world and it generates community wherever it
-touches, and it is doing this all by itself.
-
-Phiber is different. A very fin de siecle kid, Phiber Optik.
-Barlow says he looks like an Edwardian dandy. He does rather.
-Shaven neck, the sides of his skull cropped hip-hop close,
-unruly tangle of black hair on top that looks pomaded,
-he stays up till four a.m. and misses all the sessions,
-then hangs out in payphone booths with his acoustic coupler
-gutsily CRACKING SYSTEMS RIGHT IN THE MIDST OF THE HEAVIEST
-LAW ENFORCEMENT DUDES IN THE U.S., or at least PRETENDING to. . . .
-Unlike "Frank Drake." Drake, who wrote Dorothy Denning out
-of nowhere, and asked for an interview for his cheapo
-cyberpunk fanzine, and then started grilling her on her ethics.
-She was squirmin', too. . . . Drake, scarecrow-tall with his
-floppy blond mohawk, rotting tennis shoes and black leather jacket
-lettered ILLUMINATI in red, gives off an unmistakeable air
-of the bohemian literatus. Drake is the kind of guy
-who reads British industrial design magazines and appreciates
-William Gibson because the quality of the prose is so tasty.
-Drake could never touch a phone or a keyboard again,
-and he'd still have the nose-ring and the blurry photocopied
-fanzines and the sampled industrial music. He's a radical punk
-with a desktop-publishing rig and an Internet address.
-Standing next to Drake, the diminutive Phiber looks like he's
-been physically coagulated out of phone-lines. Born to phreak.
-
-Dorothy Denning approaches Phiber suddenly. The two of them
-are about the same height and body-build. Denning's blue eyes
-flash behind the round window-frames of her glasses.
-"Why did you say I was `quaint?'" she asks Phiber, quaintly.
-
-It's a perfect description but Phiber is nonplussed. . .
-"Well, I uh, you know. . . ."
-
-"I also think you're quaint, Dorothy," I say, novelist to the rescue,
-the journo gift of gab. . . . She is neat and dapper and yet there's
-an arcane quality to her, something like a Pilgrim Maiden behind
-leaded glass; if she were six inches high Dorothy Denning would look
-great inside a china cabinet. . .The Cryptographeress. . .
-The Cryptographrix. . .whatever. . . . Weirdly, Peter Denning looks
-just like his wife, you could pick this gentleman out of a thousand guys
-as the soulmate of Dorothy Denning. Wearing tailored slacks,
-a spotless fuzzy varsity sweater, and a neatly knotted academician's tie. . . .
-This fineboned, exquisitely polite, utterly civilized and hyperintelligent
-couple seem to have emerged from some cleaner and finer parallel universe,
-where humanity exists to do the Brain Teasers column in Scientific American.
-Why does this Nice Lady hang out with these unsavory characters?
-
-Because the time has come for it, that's why.
-Because she's the best there is at what she does.
-
-Donn Parker is here, the Great Bald Eagle of Computer Crime. . . .
-With his bald dome, great height, and enormous Lincoln-like hands,
-the great visionary pioneer of the field plows through the lesser mortals
-like an icebreaker. . . . His eyes are fixed on the future with the
-rigidity of a bronze statue. . . . Eventually, he tells his audience,
-all business crime will be computer crime, because businesses will do
-everything through computers. "Computer crime" as a category will vanish.
-
-In the meantime, passing fads will flourish and fail and evaporate. . . .
-Parker's commanding, resonant voice is sphinxlike, everything is viewed
-from some eldritch valley of deep historical abstraction. . . .
-Yes, they've come and they've gone, these passing flaps in the world
-of digital computation. . . . The radio-frequency emanation scandal. . .
-KGB and MI5 and CIA do it every day, it's easy, but nobody else ever has. . . .
-The salami-slice fraud, mostly mythical. . . . "Crimoids," he calls them. . . .
-Computer viruses are the current crimoid champ, a lot less dangerous than
-most people let on, but the novelty is fading and there's a crimoid vacuum at
-the moment, the press is visibly hungering for something more outrageous. . . .
-The Great Man shares with us a few speculations on the coming crimoids. . . .
-Desktop Forgery! Wow. . . . Computers stolen just for the sake of the
-information within them--data-napping! Happened in Britain a while ago,
-could be the coming thing. . . . Phantom nodes in the Internet!
-
-Parker handles his overhead projector sheets with an ecclesiastical air. . . .
-He wears a grey double-breasted suit, a light blue shirt, and a
-very quiet tie of understated maroon and blue paisley. . . .
-Aphorisms emerge from him with slow, leaden emphasis. . . .
-There is no such thing as an adequately secure computer
-when one faces a sufficiently powerful adversary. . . .
-Deterrence is the most socially useful aspect of security. . . .
-People are the primary weakness in all information systems. . . .
-The entire baseline of computer security must be shifted upward. . . .
-Don't ever violate your security by publicly describing
-your security measures. . . .
-
-People in the audience are beginning to squirm, and yet
-there is something about the elemental purity of this guy's
-philosophy that compels uneasy respect. . . . Parker sounds
-like the only sane guy left in the lifeboat, sometimes.
-The guy who can prove rigorously, from deep moral principles,
-that Harvey there, the one with the broken leg and the checkered past,
-is the one who has to be, err. . .that is, Mr. Harvey is best placed
-to make the necessary sacrifice for the security and indeed
-the very survival of the rest of this lifeboat's crew. . . .
-Computer security, Parker informs us mournfully, is a
-nasty topic, and we wish we didn't have to have it. . . .
-The security expert, armed with method and logic, must think--imagine--
-everything that the adversary might do before the adversary might
-actually do it. It is as if the criminal's dark brain were an
-extensive subprogram within the shining cranium of Donn Parker.
-He is a Holmes whose Moriarty does not quite yet exist
-and so must be perfectly simulated.
-
-CFP is a stellar gathering, with the giddiness of a wedding.
-It is a happy time, a happy ending, they know their world
-is changing forever tonight, and they're proud to have been there
-to see it happen, to talk, to think, to help.
-
-And yet as night falls, a certain elegiac quality manifests itself,
-as the crowd gathers beneath the chandeliers with their wineglasses
-and dessert plates. Something is ending here, gone forever,
-and it takes a while to pinpoint it.
-
-It is the End of the Amateurs.
-
-
-
-
-
-
-
-
-
-End of the Project Gutenberg EBook of Hacker Crackdown, by Bruce Sterling
-
-*** END OF THIS PROJECT GUTENBERG EBOOK HACKER CRACKDOWN ***
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diff --git a/testing/tests/sqlcipher/test_async.py b/testing/tests/sqlcipher/test_async.py
deleted file mode 100644
index 5c220cc4..00000000
--- a/testing/tests/sqlcipher/test_async.py
+++ /dev/null
@@ -1,146 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_async.py
-# Copyright (C) 2013, 2014 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-import os
-import hashlib
-
-from twisted.internet import defer
-
-from test_soledad.util import BaseSoledadTest
-from leap.soledad.client._db import adbapi
-from leap.soledad.client._db import sqlcipher
-
-
-class ASyncSQLCipherRetryTestCase(BaseSoledadTest):
-
- """
- Test asynchronous SQLCipher operation.
- """
-
- NUM_DOCS = 5000
-
- def setUp(self):
- BaseSoledadTest.setUp(self)
- self._dbpool = self._get_dbpool()
-
- def tearDown(self):
- self._dbpool.close()
- BaseSoledadTest.tearDown(self)
-
- def _get_dbpool(self):
- tmpdb = os.path.join(self.tempdir, "test.soledad")
- opts = sqlcipher.SQLCipherOptions(tmpdb, "secret", create=True)
- return adbapi.getConnectionPool(opts)
-
- def _get_sample(self):
- if not getattr(self, "_sample", None):
- dirname = os.path.dirname(os.path.realpath(__file__))
- sample_file = os.path.join(dirname, "hacker_crackdown.txt")
- with open(sample_file) as f:
- self._sample = f.readlines()
- return self._sample
-
- def test_concurrent_puts_fail_with_few_retries_and_small_timeout(self):
- """
- Test if concurrent updates to the database with small timeout and
- small number of retries fail with "database is locked" error.
-
- Many concurrent write attempts to the same sqlcipher database may fail
- when the timeout is small and there are no retries. This test will
- pass if any of the attempts to write the database fail.
-
- This test is much dependent on the environment and its result intends
- to contrast with the test for the workaround for the "database is
- locked" problem, which is addressed by the "test_concurrent_puts" test
- below.
-
- If this test ever fails, it means that either (1) the platform where
- you are running is it very powerful and you should try with an even
- lower timeout value, or (2) the bug has been solved by a better
- implementation of the underlying database pool, and thus this test
- should be removed from the test suite.
- """
-
- old_timeout = adbapi.SQLCIPHER_CONNECTION_TIMEOUT
- old_max_retries = adbapi.SQLCIPHER_MAX_RETRIES
-
- adbapi.SQLCIPHER_CONNECTION_TIMEOUT = 1
- adbapi.SQLCIPHER_MAX_RETRIES = 1
-
- def _create_doc(doc):
- return self._dbpool.runU1DBQuery("create_doc", doc)
-
- def _insert_docs():
- deferreds = []
- for i in range(self.NUM_DOCS):
- payload = self._get_sample()[i]
- chash = hashlib.sha256(payload).hexdigest()
- doc = {"number": i, "payload": payload, 'chash': chash}
- d = _create_doc(doc)
- deferreds.append(d)
- return defer.gatherResults(deferreds, consumeErrors=True)
-
- def _errback(e):
- if e.value[0].getErrorMessage() == "database is locked":
- adbapi.SQLCIPHER_CONNECTION_TIMEOUT = old_timeout
- adbapi.SQLCIPHER_MAX_RETRIES = old_max_retries
- return defer.succeed("")
- raise Exception
-
- d = _insert_docs()
- d.addCallback(lambda _: self._dbpool.runU1DBQuery("get_all_docs"))
- d.addErrback(_errback)
- return d
-
- def test_concurrent_puts(self):
- """
- Test that many concurrent puts succeed.
-
- Currently, there's a known problem with the concurrent database pool
- which is that many concurrent attempts to write to the database may
- fail when the lock timeout is small and when there are no (or few)
- retries. We currently workaround this problem by increasing the
- timeout and the number of retries.
-
- Should this test ever fail, it probably means that the timeout and/or
- number of retries should be increased for the platform you're running
- the test. If the underlying database pool is ever fixed, then the test
- above will fail and we should remove this comment from here.
- """
-
- def _create_doc(doc):
- return self._dbpool.runU1DBQuery("create_doc", doc)
-
- def _insert_docs():
- deferreds = []
- for i in range(self.NUM_DOCS):
- payload = self._get_sample()[i]
- chash = hashlib.sha256(payload).hexdigest()
- doc = {"number": i, "payload": payload, 'chash': chash}
- d = _create_doc(doc)
- deferreds.append(d)
- return defer.gatherResults(deferreds, consumeErrors=True)
-
- def _count_docs(results):
- _, docs = results
- if self.NUM_DOCS == len(docs):
- return defer.succeed("")
- raise Exception
-
- d = _insert_docs()
- d.addCallback(lambda _: self._dbpool.runU1DBQuery("get_all_docs"))
- d.addCallback(_count_docs)
- return d
diff --git a/testing/tests/sqlcipher/test_backend.py b/testing/tests/sqlcipher/test_backend.py
deleted file mode 100644
index 68f8f9f2..00000000
--- a/testing/tests/sqlcipher/test_backend.py
+++ /dev/null
@@ -1,677 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_sqlcipher.py
-# Copyright (C) 2013 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Test sqlcipher backend internals.
-"""
-import os
-import pytest
-import time
-import threading
-import sys
-
-# l2db stuff.
-from leap.soledad.common.l2db import errors
-from leap.soledad.common.l2db import query_parser
-
-# soledad stuff.
-from leap.soledad.common.document import SoledadDocument
-from leap.soledad.client._db.sqlite import SQLitePartialExpandDatabase
-from leap.soledad.client._db.sqlcipher import SQLCipherDatabase
-from leap.soledad.client._db.sqlcipher import SQLCipherOptions
-from leap.soledad.client._db.sqlcipher import DatabaseIsNotEncrypted
-
-# u1db tests stuff.
-from test_soledad import u1db_tests as tests
-from test_soledad.u1db_tests import test_backends
-from test_soledad.u1db_tests import test_open
-from test_soledad.util import SQLCIPHER_SCENARIOS
-from test_soledad.util import PASSWORD
-from test_soledad.util import BaseSoledadTest
-
-from testscenarios import TestWithScenarios
-
-if sys.version_info[0] < 3:
- from pysqlcipher import dbapi2
-else:
- from pysqlcipher3 import dbapi2
-
-
-def sqlcipher_open(path, passphrase, create=True, document_factory=None):
- return SQLCipherDatabase(
- SQLCipherOptions(path, passphrase, create=create))
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_common_backend`.
-# -----------------------------------------------------------------------------
-
-class TestSQLCipherBackendImpl(tests.TestCase):
-
- def test__allocate_doc_id(self):
- db = sqlcipher_open(':memory:', PASSWORD)
- doc_id1 = db._allocate_doc_id()
- self.assertTrue(doc_id1.startswith('D-'))
- self.assertEqual(34, len(doc_id1))
- int(doc_id1[len('D-'):], 16)
- self.assertNotEqual(doc_id1, db._allocate_doc_id())
- db.close()
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_backends`.
-# -----------------------------------------------------------------------------
-
-class SQLCipherTests(TestWithScenarios, test_backends.AllDatabaseTests):
- scenarios = SQLCIPHER_SCENARIOS
-
-
-class SQLCipherDatabaseTests(TestWithScenarios,
- test_backends.LocalDatabaseTests):
- scenarios = SQLCIPHER_SCENARIOS
-
-
-class SQLCipherValidateGenNTransIdTests(
- TestWithScenarios,
- test_backends.LocalDatabaseValidateGenNTransIdTests):
- scenarios = SQLCIPHER_SCENARIOS
-
-
-class SQLCipherValidateSourceGenTests(
- TestWithScenarios,
- test_backends.LocalDatabaseValidateSourceGenTests):
- scenarios = SQLCIPHER_SCENARIOS
-
-
-class SQLCipherWithConflictsTests(
- TestWithScenarios,
- test_backends.LocalDatabaseWithConflictsTests):
- scenarios = SQLCIPHER_SCENARIOS
-
-
-class SQLCipherIndexTests(
- TestWithScenarios, test_backends.DatabaseIndexTests):
- scenarios = SQLCIPHER_SCENARIOS
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_sqlite_backend`.
-# -----------------------------------------------------------------------------
-
-@pytest.mark.usefixtures('method_tmpdir')
-class TestSQLCipherDatabase(tests.TestCase):
- """
- Tests from u1db.tests.test_sqlite_backend.TestSQLiteDatabase.
- """
-
- def test_atomic_initialize(self):
- # This test was modified to ensure that db2.close() is called within
- # the thread that created the database.
- dbname = os.path.join(self.tempdir, 'atomic.db')
-
- t2 = None # will be a thread
-
- class SQLCipherDatabaseTesting(SQLCipherDatabase):
- _index_storage_value = "testing"
-
- def __init__(self, dbname, ntry):
- self._try = ntry
- self._is_initialized_invocations = 0
- SQLCipherDatabase.__init__(
- self,
- SQLCipherOptions(dbname, PASSWORD))
-
- def _is_initialized(self, c):
- res = \
- SQLCipherDatabase._is_initialized(self, c)
- if self._try == 1:
- self._is_initialized_invocations += 1
- if self._is_initialized_invocations == 2:
- t2.start()
- # hard to do better and have a generic test
- time.sleep(0.05)
- return res
-
- class SecondTry(threading.Thread):
-
- outcome2 = []
-
- def run(self):
- try:
- db2 = SQLCipherDatabaseTesting(dbname, 2)
- except Exception as e:
- SecondTry.outcome2.append(e)
- else:
- SecondTry.outcome2.append(db2)
-
- t2 = SecondTry()
- db1 = SQLCipherDatabaseTesting(dbname, 1)
- t2.join()
-
- self.assertIsInstance(SecondTry.outcome2[0], SQLCipherDatabaseTesting)
- self.assertTrue(db1._is_initialized(db1._get_sqlite_handle().cursor()))
- db1.close()
-
-
-@pytest.mark.usefixtures('method_tmpdir')
-class TestSQLCipherPartialExpandDatabase(tests.TestCase):
- """
- Tests from u1db.tests.test_sqlite_backend.TestSQLitePartialExpandDatabase.
- """
-
- # The following tests had to be cloned from u1db because they all
- # instantiate the backend directly, so we need to change that in order to
- # our backend be instantiated in place.
-
- def setUp(self):
- self.db = sqlcipher_open(':memory:', PASSWORD)
-
- def tearDown(self):
- self.db.close()
-
- def test_default_replica_uid(self):
- self.assertIsNot(None, self.db._replica_uid)
- self.assertEqual(32, len(self.db._replica_uid))
- int(self.db._replica_uid, 16)
-
- def test__parse_index(self):
- g = self.db._parse_index_definition('fieldname')
- self.assertIsInstance(g, query_parser.ExtractField)
- self.assertEqual(['fieldname'], g.field)
-
- def test__update_indexes(self):
- g = self.db._parse_index_definition('fieldname')
- c = self.db._get_sqlite_handle().cursor()
- self.db._update_indexes('doc-id', {'fieldname': 'val'},
- [('fieldname', g)], c)
- c.execute('SELECT doc_id, field_name, value FROM document_fields')
- self.assertEqual([('doc-id', 'fieldname', 'val')],
- c.fetchall())
-
- def test_create_database(self):
- raw_db = self.db._get_sqlite_handle()
- self.assertNotEqual(None, raw_db)
-
- def test__set_replica_uid(self):
- # Start from scratch, so that replica_uid isn't set.
- self.assertIsNot(None, self.db._real_replica_uid)
- self.assertIsNot(None, self.db._replica_uid)
- self.db._set_replica_uid('foo')
- c = self.db._get_sqlite_handle().cursor()
- c.execute("SELECT value FROM u1db_config WHERE name='replica_uid'")
- self.assertEqual(('foo',), c.fetchone())
- self.assertEqual('foo', self.db._real_replica_uid)
- self.assertEqual('foo', self.db._replica_uid)
- self.db._close_sqlite_handle()
- self.assertEqual('foo', self.db._replica_uid)
-
- def test__open_database(self):
- # SQLCipherDatabase has no _open_database() method, so we just pass
- # (and test for the same funcionality on test_open_database_existing()
- # below).
- pass
-
- def test__open_database_with_factory(self):
- # SQLCipherDatabase has no _open_database() method.
- pass
-
- def test__open_database_non_existent(self):
- path = self.tempdir + '/non-existent.sqlite'
- self.assertRaises(errors.DatabaseDoesNotExist,
- sqlcipher_open,
- path, PASSWORD, create=False)
-
- def test__open_database_during_init(self):
- # The purpose of this test is to ensure that _open_database() parallel
- # db initialization behaviour is correct. As SQLCipherDatabase does
- # not have an _open_database() method, we just do not implement this
- # test.
- pass
-
- def test__open_database_invalid(self):
- # This test was modified to ensure that an empty database file will
- # raise a DatabaseIsNotEncrypted exception instead of a
- # dbapi2.OperationalError exception.
- path1 = self.tempdir + '/invalid1.db'
- with open(path1, 'wb') as f:
- f.write("")
- self.assertRaises(DatabaseIsNotEncrypted,
- sqlcipher_open, path1,
- PASSWORD)
- with open(path1, 'wb') as f:
- f.write("invalid")
- self.assertRaises(dbapi2.DatabaseError,
- sqlcipher_open, path1,
- PASSWORD)
-
- def test_open_database_existing(self):
- # In the context of SQLCipherDatabase, where no _open_database()
- # method exists and thus there's no call to _which_index_storage(),
- # this test tests for the same functionality as
- # test_open_database_create() below. So, we just pass.
- pass
-
- def test_open_database_with_factory(self):
- # SQLCipherDatabase's constructor has no factory parameter.
- pass
-
- def test_open_database_create(self):
- # SQLCipherDatabas has no open_database() method, so we just test for
- # the actual database constructor effects.
- path = self.tempdir + '/new.sqlite'
- db1 = sqlcipher_open(path, PASSWORD, create=True)
- db2 = sqlcipher_open(path, PASSWORD, create=False)
- self.assertIsInstance(db2, SQLCipherDatabase)
- db1.close()
- db2.close()
-
- def test_create_database_initializes_schema(self):
- # This test had to be cloned because our implementation of SQLCipher
- # backend is referenced with an index_storage_value that includes the
- # word "encrypted". See u1db's sqlite_backend and our
- # sqlcipher_backend for reference.
- raw_db = self.db._get_sqlite_handle()
- c = raw_db.cursor()
- c.execute("SELECT * FROM u1db_config")
- config = dict([(r[0], r[1]) for r in c.fetchall()])
- replica_uid = self.db._replica_uid
- self.assertEqual({'sql_schema': '0', 'replica_uid': replica_uid,
- 'index_storage': 'expand referenced encrypted'},
- config)
-
- def test_store_syncable(self):
- doc = self.db.create_doc_from_json(tests.simple_doc)
- # assert that docs are syncable by default
- self.assertEqual(True, doc.syncable)
- # assert that we can store syncable = False
- doc.syncable = False
- self.db.put_doc(doc)
- self.assertEqual(False, self.db.get_doc(doc.doc_id).syncable)
- # assert that we can store syncable = True
- doc.syncable = True
- self.db.put_doc(doc)
- self.assertEqual(True, self.db.get_doc(doc.doc_id).syncable)
-
- def test__close_sqlite_handle(self):
- raw_db = self.db._get_sqlite_handle()
- self.db._close_sqlite_handle()
- self.assertRaises(dbapi2.ProgrammingError,
- raw_db.cursor)
-
- def test__get_generation(self):
- self.assertEqual(0, self.db._get_generation())
-
- def test__get_generation_info(self):
- self.assertEqual((0, ''), self.db._get_generation_info())
-
- def test_create_index(self):
- self.db.create_index('test-idx', "key")
- self.assertEqual([('test-idx', ["key"])], self.db.list_indexes())
-
- def test_create_index_multiple_fields(self):
- self.db.create_index('test-idx', "key", "key2")
- self.assertEqual([('test-idx', ["key", "key2"])],
- self.db.list_indexes())
-
- def test__get_index_definition(self):
- self.db.create_index('test-idx', "key", "key2")
- # TODO: How would you test that an index is getting used for an SQL
- # request?
- self.assertEqual(["key", "key2"],
- self.db._get_index_definition('test-idx'))
-
- def test_list_index_mixed(self):
- # Make sure that we properly order the output
- c = self.db._get_sqlite_handle().cursor()
- # We intentionally insert the data in weird ordering, to make sure the
- # query still gets it back correctly.
- c.executemany("INSERT INTO index_definitions VALUES (?, ?, ?)",
- [('idx-1', 0, 'key10'),
- ('idx-2', 2, 'key22'),
- ('idx-1', 1, 'key11'),
- ('idx-2', 0, 'key20'),
- ('idx-2', 1, 'key21')])
- self.assertEqual([('idx-1', ['key10', 'key11']),
- ('idx-2', ['key20', 'key21', 'key22'])],
- self.db.list_indexes())
-
- def test_no_indexes_no_document_fields(self):
- self.db.create_doc_from_json(
- '{"key1": "val1", "key2": "val2"}')
- c = self.db._get_sqlite_handle().cursor()
- c.execute("SELECT doc_id, field_name, value FROM document_fields"
- " ORDER BY doc_id, field_name, value")
- self.assertEqual([], c.fetchall())
-
- def test_create_extracts_fields(self):
- doc1 = self.db.create_doc_from_json('{"key1": "val1", "key2": "val2"}')
- doc2 = self.db.create_doc_from_json('{"key1": "valx", "key2": "valy"}')
- c = self.db._get_sqlite_handle().cursor()
- c.execute("SELECT doc_id, field_name, value FROM document_fields"
- " ORDER BY doc_id, field_name, value")
- self.assertEqual([], c.fetchall())
- self.db.create_index('test', 'key1', 'key2')
- c.execute("SELECT doc_id, field_name, value FROM document_fields"
- " ORDER BY doc_id, field_name, value")
- self.assertEqual(sorted(
- [(doc1.doc_id, "key1", "val1"),
- (doc1.doc_id, "key2", "val2"),
- (doc2.doc_id, "key1", "valx"),
- (doc2.doc_id, "key2", "valy"), ]), sorted(c.fetchall()))
-
- def test_put_updates_fields(self):
- self.db.create_index('test', 'key1', 'key2')
- doc1 = self.db.create_doc_from_json(
- '{"key1": "val1", "key2": "val2"}')
- doc1.content = {"key1": "val1", "key2": "valy"}
- self.db.put_doc(doc1)
- c = self.db._get_sqlite_handle().cursor()
- c.execute("SELECT doc_id, field_name, value FROM document_fields"
- " ORDER BY doc_id, field_name, value")
- self.assertEqual([(doc1.doc_id, "key1", "val1"),
- (doc1.doc_id, "key2", "valy"), ], c.fetchall())
-
- def test_put_updates_nested_fields(self):
- self.db.create_index('test', 'key', 'sub.doc')
- doc1 = self.db.create_doc_from_json(tests.nested_doc)
- c = self.db._get_sqlite_handle().cursor()
- c.execute("SELECT doc_id, field_name, value FROM document_fields"
- " ORDER BY doc_id, field_name, value")
- self.assertEqual([(doc1.doc_id, "key", "value"),
- (doc1.doc_id, "sub.doc", "underneath"), ],
- c.fetchall())
-
- def test__ensure_schema_rollback(self):
- path = self.tempdir + '/rollback.db'
-
- class SQLitePartialExpandDbTesting(SQLCipherDatabase):
-
- def _set_replica_uid_in_transaction(self, uid):
- super(SQLitePartialExpandDbTesting,
- self)._set_replica_uid_in_transaction(uid)
- if fail:
- raise Exception()
-
- db = SQLitePartialExpandDbTesting.__new__(SQLitePartialExpandDbTesting)
- db._db_handle = dbapi2.connect(path) # db is there but not yet init-ed
- fail = True
- self.assertRaises(Exception, db._ensure_schema)
- fail = False
- db._initialize(db._db_handle.cursor())
-
- def test_open_database_non_existent(self):
- path = self.tempdir + '/non-existent.sqlite'
- self.assertRaises(errors.DatabaseDoesNotExist,
- sqlcipher_open, path, "123",
- create=False)
-
- def test_delete_database_existent(self):
- path = self.tempdir + '/new.sqlite'
- db = sqlcipher_open(path, "123", create=True)
- db.close()
- SQLCipherDatabase.delete_database(path)
- self.assertRaises(errors.DatabaseDoesNotExist,
- sqlcipher_open, path, "123",
- create=False)
-
- def test_delete_database_nonexistent(self):
- path = self.tempdir + '/non-existent.sqlite'
- self.assertRaises(errors.DatabaseDoesNotExist,
- SQLCipherDatabase.delete_database, path)
-
- def test__get_indexed_fields(self):
- self.db.create_index('idx1', 'a', 'b')
- self.assertEqual(set(['a', 'b']), self.db._get_indexed_fields())
- self.db.create_index('idx2', 'b', 'c')
- self.assertEqual(set(['a', 'b', 'c']), self.db._get_indexed_fields())
-
- def test_indexed_fields_expanded(self):
- self.db.create_index('idx1', 'key1')
- doc1 = self.db.create_doc_from_json('{"key1": "val1", "key2": "val2"}')
- self.assertEqual(set(['key1']), self.db._get_indexed_fields())
- c = self.db._get_sqlite_handle().cursor()
- c.execute("SELECT doc_id, field_name, value FROM document_fields"
- " ORDER BY doc_id, field_name, value")
- self.assertEqual([(doc1.doc_id, 'key1', 'val1')], c.fetchall())
-
- def test_create_index_updates_fields(self):
- doc1 = self.db.create_doc_from_json('{"key1": "val1", "key2": "val2"}')
- self.db.create_index('idx1', 'key1')
- self.assertEqual(set(['key1']), self.db._get_indexed_fields())
- c = self.db._get_sqlite_handle().cursor()
- c.execute("SELECT doc_id, field_name, value FROM document_fields"
- " ORDER BY doc_id, field_name, value")
- self.assertEqual([(doc1.doc_id, 'key1', 'val1')], c.fetchall())
-
- def assertFormatQueryEquals(self, exp_statement, exp_args, definition,
- values):
- statement, args = self.db._format_query(definition, values)
- self.assertEqual(exp_statement, statement)
- self.assertEqual(exp_args, args)
-
- def test__format_query(self):
- self.assertFormatQueryEquals(
- "SELECT d.doc_id, d.doc_rev, d.content, count(c.doc_rev) FROM "
- "document d, document_fields d0 LEFT OUTER JOIN conflicts c ON "
- "c.doc_id = d.doc_id WHERE d.doc_id = d0.doc_id AND d0.field_name "
- "= ? AND d0.value = ? GROUP BY d.doc_id, d.doc_rev, d.content "
- "ORDER BY d0.value;", ["key1", "a"],
- ["key1"], ["a"])
-
- def test__format_query2(self):
- self.assertFormatQueryEquals(
- 'SELECT d.doc_id, d.doc_rev, d.content, count(c.doc_rev) FROM '
- 'document d, document_fields d0, document_fields d1, '
- 'document_fields d2 LEFT OUTER JOIN conflicts c ON c.doc_id = '
- 'd.doc_id WHERE d.doc_id = d0.doc_id AND d0.field_name = ? AND '
- 'd0.value = ? AND d.doc_id = d1.doc_id AND d1.field_name = ? AND '
- 'd1.value = ? AND d.doc_id = d2.doc_id AND d2.field_name = ? AND '
- 'd2.value = ? GROUP BY d.doc_id, d.doc_rev, d.content ORDER BY '
- 'd0.value, d1.value, d2.value;',
- ["key1", "a", "key2", "b", "key3", "c"],
- ["key1", "key2", "key3"], ["a", "b", "c"])
-
- def test__format_query_wildcard(self):
- self.assertFormatQueryEquals(
- 'SELECT d.doc_id, d.doc_rev, d.content, count(c.doc_rev) FROM '
- 'document d, document_fields d0, document_fields d1, '
- 'document_fields d2 LEFT OUTER JOIN conflicts c ON c.doc_id = '
- 'd.doc_id WHERE d.doc_id = d0.doc_id AND d0.field_name = ? AND '
- 'd0.value = ? AND d.doc_id = d1.doc_id AND d1.field_name = ? AND '
- 'd1.value GLOB ? AND d.doc_id = d2.doc_id AND d2.field_name = ? '
- 'AND d2.value NOT NULL GROUP BY d.doc_id, d.doc_rev, d.content '
- 'ORDER BY d0.value, d1.value, d2.value;',
- ["key1", "a", "key2", "b*", "key3"], ["key1", "key2", "key3"],
- ["a", "b*", "*"])
-
- def assertFormatRangeQueryEquals(self, exp_statement, exp_args, definition,
- start_value, end_value):
- statement, args = self.db._format_range_query(
- definition, start_value, end_value)
- self.assertEqual(exp_statement, statement)
- self.assertEqual(exp_args, args)
-
- def test__format_range_query(self):
- self.assertFormatRangeQueryEquals(
- 'SELECT d.doc_id, d.doc_rev, d.content, count(c.doc_rev) FROM '
- 'document d, document_fields d0, document_fields d1, '
- 'document_fields d2 LEFT OUTER JOIN conflicts c ON c.doc_id = '
- 'd.doc_id WHERE d.doc_id = d0.doc_id AND d0.field_name = ? AND '
- 'd0.value >= ? AND d.doc_id = d1.doc_id AND d1.field_name = ? AND '
- 'd1.value >= ? AND d.doc_id = d2.doc_id AND d2.field_name = ? AND '
- 'd2.value >= ? AND d.doc_id = d0.doc_id AND d0.field_name = ? AND '
- 'd0.value <= ? AND d.doc_id = d1.doc_id AND d1.field_name = ? AND '
- 'd1.value <= ? AND d.doc_id = d2.doc_id AND d2.field_name = ? AND '
- 'd2.value <= ? GROUP BY d.doc_id, d.doc_rev, d.content ORDER BY '
- 'd0.value, d1.value, d2.value;',
- ['key1', 'a', 'key2', 'b', 'key3', 'c', 'key1', 'p', 'key2', 'q',
- 'key3', 'r'],
- ["key1", "key2", "key3"], ["a", "b", "c"], ["p", "q", "r"])
-
- def test__format_range_query_no_start(self):
- self.assertFormatRangeQueryEquals(
- 'SELECT d.doc_id, d.doc_rev, d.content, count(c.doc_rev) FROM '
- 'document d, document_fields d0, document_fields d1, '
- 'document_fields d2 LEFT OUTER JOIN conflicts c ON c.doc_id = '
- 'd.doc_id WHERE d.doc_id = d0.doc_id AND d0.field_name = ? AND '
- 'd0.value <= ? AND d.doc_id = d1.doc_id AND d1.field_name = ? AND '
- 'd1.value <= ? AND d.doc_id = d2.doc_id AND d2.field_name = ? AND '
- 'd2.value <= ? GROUP BY d.doc_id, d.doc_rev, d.content ORDER BY '
- 'd0.value, d1.value, d2.value;',
- ['key1', 'a', 'key2', 'b', 'key3', 'c'],
- ["key1", "key2", "key3"], None, ["a", "b", "c"])
-
- def test__format_range_query_no_end(self):
- self.assertFormatRangeQueryEquals(
- 'SELECT d.doc_id, d.doc_rev, d.content, count(c.doc_rev) FROM '
- 'document d, document_fields d0, document_fields d1, '
- 'document_fields d2 LEFT OUTER JOIN conflicts c ON c.doc_id = '
- 'd.doc_id WHERE d.doc_id = d0.doc_id AND d0.field_name = ? AND '
- 'd0.value >= ? AND d.doc_id = d1.doc_id AND d1.field_name = ? AND '
- 'd1.value >= ? AND d.doc_id = d2.doc_id AND d2.field_name = ? AND '
- 'd2.value >= ? GROUP BY d.doc_id, d.doc_rev, d.content ORDER BY '
- 'd0.value, d1.value, d2.value;',
- ['key1', 'a', 'key2', 'b', 'key3', 'c'],
- ["key1", "key2", "key3"], ["a", "b", "c"], None)
-
- def test__format_range_query_wildcard(self):
- self.assertFormatRangeQueryEquals(
- 'SELECT d.doc_id, d.doc_rev, d.content, count(c.doc_rev) FROM '
- 'document d, document_fields d0, document_fields d1, '
- 'document_fields d2 LEFT OUTER JOIN conflicts c ON c.doc_id = '
- 'd.doc_id WHERE d.doc_id = d0.doc_id AND d0.field_name = ? AND '
- 'd0.value >= ? AND d.doc_id = d1.doc_id AND d1.field_name = ? AND '
- 'd1.value >= ? AND d.doc_id = d2.doc_id AND d2.field_name = ? AND '
- 'd2.value NOT NULL AND d.doc_id = d0.doc_id AND d0.field_name = ? '
- 'AND d0.value <= ? AND d.doc_id = d1.doc_id AND d1.field_name = ? '
- 'AND (d1.value < ? OR d1.value GLOB ?) AND d.doc_id = d2.doc_id '
- 'AND d2.field_name = ? AND d2.value NOT NULL GROUP BY d.doc_id, '
- 'd.doc_rev, d.content ORDER BY d0.value, d1.value, d2.value;',
- ['key1', 'a', 'key2', 'b', 'key3', 'key1', 'p', 'key2', 'q', 'q*',
- 'key3'],
- ["key1", "key2", "key3"], ["a", "b*", "*"], ["p", "q*", "*"])
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_open`.
-# -----------------------------------------------------------------------------
-
-
-class SQLCipherOpen(test_open.TestU1DBOpen):
-
- def test_open_no_create(self):
- self.assertRaises(errors.DatabaseDoesNotExist,
- sqlcipher_open, self.db_path,
- PASSWORD,
- create=False)
- self.assertFalse(os.path.exists(self.db_path))
-
- def test_open_create(self):
- db = sqlcipher_open(self.db_path, PASSWORD, create=True)
- self.addCleanup(db.close)
- self.assertTrue(os.path.exists(self.db_path))
- self.assertIsInstance(db, SQLCipherDatabase)
-
- def test_open_with_factory(self):
- db = sqlcipher_open(self.db_path, PASSWORD, create=True,
- document_factory=SoledadDocument)
- self.addCleanup(db.close)
- doc = db.create_doc({})
- self.assertTrue(isinstance(doc, SoledadDocument))
-
- def test_open_existing(self):
- db = sqlcipher_open(self.db_path, PASSWORD)
- self.addCleanup(db.close)
- doc = db.create_doc_from_json(tests.simple_doc)
- # Even though create=True, we shouldn't wipe the db
- db2 = sqlcipher_open(self.db_path, PASSWORD, create=True)
- self.addCleanup(db2.close)
- doc2 = db2.get_doc(doc.doc_id)
- self.assertEqual(doc, doc2)
-
- def test_open_existing_no_create(self):
- db = sqlcipher_open(self.db_path, PASSWORD)
- self.addCleanup(db.close)
- db2 = sqlcipher_open(self.db_path, PASSWORD, create=False)
- self.addCleanup(db2.close)
- self.assertIsInstance(db2, SQLCipherDatabase)
-
-
-# -----------------------------------------------------------------------------
-# Tests for actual encryption of the database
-# -----------------------------------------------------------------------------
-
-class SQLCipherEncryptionTests(BaseSoledadTest):
-
- """
- Tests to guarantee SQLCipher is indeed encrypting data when storing.
- """
-
- def _delete_dbfiles(self):
- for dbfile in [self.DB_FILE]:
- if os.path.exists(dbfile):
- os.unlink(dbfile)
-
- def setUp(self):
- BaseSoledadTest.setUp(self)
- self.DB_FILE = os.path.join(self.tempdir, 'test.db')
- self._delete_dbfiles()
-
- def tearDown(self):
- self._delete_dbfiles()
- BaseSoledadTest.tearDown(self)
-
- def test_try_to_open_encrypted_db_with_sqlite_backend(self):
- """
- SQLite backend should not succeed to open SQLCipher databases.
- """
- db = sqlcipher_open(self.DB_FILE, PASSWORD)
- doc = db.create_doc_from_json(tests.simple_doc)
- db.close()
- try:
- # trying to open an encrypted database with the regular u1db
- # backend should raise a DatabaseError exception.
- SQLitePartialExpandDatabase(self.DB_FILE,
- document_factory=SoledadDocument)
- raise DatabaseIsNotEncrypted()
- except dbapi2.DatabaseError:
- # at this point we know that the regular U1DB sqlcipher backend
- # did not succeed on opening the database, so it was indeed
- # encrypted.
- db = sqlcipher_open(self.DB_FILE, PASSWORD)
- doc = db.get_doc(doc.doc_id)
- self.assertEqual(tests.simple_doc, doc.get_json(),
- 'decrypted content mismatch')
- db.close()
-
- def test_try_to_open_raw_db_with_sqlcipher_backend(self):
- """
- SQLCipher backend should not succeed to open unencrypted databases.
- """
- db = SQLitePartialExpandDatabase(self.DB_FILE,
- document_factory=SoledadDocument)
- db.create_doc_from_json(tests.simple_doc)
- db.close()
- try:
- # trying to open the a non-encrypted database with sqlcipher
- # backend should raise a DatabaseIsNotEncrypted exception.
- db = sqlcipher_open(self.DB_FILE, PASSWORD)
- db.close()
- raise dbapi2.DatabaseError(
- "SQLCipher backend should not be able to open non-encrypted "
- "dbs.")
- except DatabaseIsNotEncrypted:
- pass
diff --git a/testing/tests/sync/__init__.py b/testing/tests/sync/__init__.py
deleted file mode 100644
index e69de29b..00000000
--- a/testing/tests/sync/__init__.py
+++ /dev/null
diff --git a/testing/tests/sync/test_sqlcipher_sync.py b/testing/tests/sync/test_sqlcipher_sync.py
deleted file mode 100644
index 26f63a40..00000000
--- a/testing/tests/sync/test_sqlcipher_sync.py
+++ /dev/null
@@ -1,719 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_sqlcipher.py
-# Copyright (C) 2013-2016 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Test sqlcipher backend sync.
-"""
-import os
-
-from uuid import uuid4
-
-from testscenarios import TestWithScenarios
-
-from leap.soledad.common.l2db import sync
-from leap.soledad.common.l2db import vectorclock
-from leap.soledad.common.l2db import errors
-
-from leap.soledad.client.http_target import SoledadHTTPSyncTarget
-
-from test_soledad import u1db_tests as tests
-from test_soledad.util import SQLCIPHER_SCENARIOS
-from test_soledad.util import make_soledad_app
-from test_soledad.util import soledad_sync_target
-from test_soledad.util import BaseSoledadTest
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_sync`.
-# -----------------------------------------------------------------------------
-
-def sync_via_synchronizer_and_soledad(test, db_source, db_target,
- trace_hook=None,
- trace_hook_shallow=None):
- if trace_hook:
- test.skipTest("full trace hook unsupported over http")
- path = test._http_at[db_target]
- target = SoledadHTTPSyncTarget.connect(
- test.getURL(path), test._soledad._crypto)
- target.set_token_credentials('user-uuid', 'auth-token')
- if trace_hook_shallow:
- target._set_trace_hook_shallow(trace_hook_shallow)
- return sync.Synchronizer(db_source, target).sync()
-
-
-def sync_via_synchronizer(test, db_source, db_target,
- trace_hook=None,
- trace_hook_shallow=None):
- target = db_target.get_sync_target()
- trace_hook = trace_hook or trace_hook_shallow
- if trace_hook:
- target._set_trace_hook(trace_hook)
- return sync.Synchronizer(db_source, target).sync()
-
-
-sync_scenarios = []
-for name, scenario in SQLCIPHER_SCENARIOS:
- scenario['do_sync'] = sync_via_synchronizer
- sync_scenarios.append((name, scenario))
-
-
-class SQLCipherDatabaseSyncTests(
- TestWithScenarios,
- tests.DatabaseBaseTests,
- BaseSoledadTest):
-
- """
- Test for succesfull sync between SQLCipher and LeapBackend.
-
- Some of the tests in this class had to be adapted because the remote
- backend always receive encrypted content, and so it can not rely on
- document's content comparison to try to autoresolve conflicts.
- """
-
- scenarios = sync_scenarios
-
- def setUp(self):
- self._use_tracking = {}
- super(tests.DatabaseBaseTests, self).setUp()
-
- def create_database(self, replica_uid, sync_role=None):
- if replica_uid == 'test' and sync_role is None:
- # created up the chain by base class but unused
- return None
- db = self.create_database_for_role(replica_uid, sync_role)
- if sync_role:
- self._use_tracking[db] = (replica_uid, sync_role)
- self.addCleanup(db.close)
- return db
-
- def create_database_for_role(self, replica_uid, sync_role):
- # hook point for reuse
- return tests.DatabaseBaseTests.create_database(self, replica_uid)
-
- def sync(self, db_from, db_to, trace_hook=None,
- trace_hook_shallow=None):
- from_name, from_sync_role = self._use_tracking[db_from]
- to_name, to_sync_role = self._use_tracking[db_to]
- if from_sync_role not in ('source', 'both'):
- raise Exception("%s marked for %s use but used as source" %
- (from_name, from_sync_role))
- if to_sync_role not in ('target', 'both'):
- raise Exception("%s marked for %s use but used as target" %
- (to_name, to_sync_role))
- return self.do_sync(self, db_from, db_to, trace_hook,
- trace_hook_shallow)
-
- def assertLastExchangeLog(self, db, expected):
- log = getattr(db, '_last_exchange_log', None)
- if log is None:
- return
- self.assertEqual(expected, log)
-
- def copy_database(self, db, sync_role=None):
- # DO NOT COPY OR REUSE THIS CODE OUTSIDE TESTS: COPYING U1DB DATABASES
- # IS THE WRONG THING TO DO, THE ONLY REASON WE DO SO HERE IS TO TEST
- # THAT WE CORRECTLY DETECT IT HAPPENING SO THAT WE CAN RAISE ERRORS
- # RATHER THAN CORRUPT USER DATA. USE SYNC INSTEAD, OR WE WILL SEND
- # NINJA TO YOUR HOUSE.
- db_copy = tests.DatabaseBaseTests.copy_database(self, db)
- name, orig_sync_role = self._use_tracking[db]
- self._use_tracking[db_copy] = (name + '(copy)', sync_role or
- orig_sync_role)
- return db_copy
-
- def test_sync_tracks_db_generation_of_other(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.assertEqual(0, self.sync(self.db1, self.db2))
- self.assertEqual(
- (0, ''), self.db1._get_replica_gen_and_trans_id('test2'))
- self.assertEqual(
- (0, ''), self.db2._get_replica_gen_and_trans_id('test1'))
- self.assertLastExchangeLog(self.db2,
- {'receive':
- {'docs': [], 'last_known_gen': 0},
- 'return':
- {'docs': [], 'last_gen': 0}})
-
- def test_sync_autoresolves(self):
- """
- Test for sync autoresolve remote.
-
- This test was adapted because the remote database receives encrypted
- content and so it can't compare documents contents to autoresolve.
- """
- # The remote database can't autoresolve conflicts based on magic
- # content convergence, so we modify this test to leave the possibility
- # of the remode document ending up in conflicted state.
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc1 = self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc')
- rev1 = doc1.rev
- doc2 = self.db2.create_doc_from_json(tests.simple_doc, doc_id='doc')
- rev2 = doc2.rev
- self.sync(self.db1, self.db2)
- doc = self.db1.get_doc('doc')
- self.assertFalse(doc.has_conflicts)
- # if remote content is in conflicted state, then document revisions
- # will be different.
- # self.assertEqual(doc.rev, self.db2.get_doc('doc').rev)
- v = vectorclock.VectorClockRev(doc.rev)
- self.assertTrue(v.is_newer(vectorclock.VectorClockRev(rev1)))
- self.assertTrue(v.is_newer(vectorclock.VectorClockRev(rev2)))
-
- def test_sync_autoresolves_moar(self):
- """
- Test for sync autoresolve local.
-
- This test was adapted to decrypt remote content before assert.
- """
- # here we test that when a database that has a conflicted document is
- # the source of a sync, and the target database has a revision of the
- # conflicted document that is newer than the source database's, and
- # that target's database's document's content is the same as the
- # source's document's conflict's, the source's document's conflict gets
- # autoresolved, and the source's document's revision bumped.
- #
- # idea is as follows:
- # A B
- # a1 -
- # `------->
- # a1 a1
- # v v
- # a2 a1b1
- # `------->
- # a1b1+a2 a1b1
- # v
- # a1b1+a2 a1b2 (a1b2 has same content as a2)
- # `------->
- # a3b2 a1b2 (autoresolved)
- # `------->
- # a3b2 a3b2
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc')
- self.sync(self.db1, self.db2)
- for db, content in [(self.db1, '{}'), (self.db2, '{"hi": 42}')]:
- doc = db.get_doc('doc')
- doc.set_json(content)
- db.put_doc(doc)
- self.sync(self.db1, self.db2)
- # db1 and db2 now both have a doc of {hi:42}, but db1 has a conflict
- doc = self.db1.get_doc('doc')
- rev1 = doc.rev
- self.assertTrue(doc.has_conflicts)
- # set db2 to have a doc of {} (same as db1 before the conflict)
- doc = self.db2.get_doc('doc')
- doc.set_json('{}')
- self.db2.put_doc(doc)
- rev2 = doc.rev
- # sync it across
- self.sync(self.db1, self.db2)
- # tadaa!
- doc = self.db1.get_doc('doc')
- self.assertFalse(doc.has_conflicts)
- vec1 = vectorclock.VectorClockRev(rev1)
- vec2 = vectorclock.VectorClockRev(rev2)
- vec3 = vectorclock.VectorClockRev(doc.rev)
- self.assertTrue(vec3.is_newer(vec1))
- self.assertTrue(vec3.is_newer(vec2))
- # because the conflict is on the source, sync it another time
- self.sync(self.db1, self.db2)
- # make sure db2 now has the exact same thing
- doc1 = self.db1.get_doc('doc')
- self.assertGetEncryptedDoc(
- self.db2,
- doc1.doc_id, doc1.rev, doc1.get_json(), False)
-
- def test_sync_autoresolves_moar_backwards(self):
- # here we would test that when a database that has a conflicted
- # document is the target of a sync, and the source database has a
- # revision of the conflicted document that is newer than the target
- # database's, and that source's database's document's content is the
- # same as the target's document's conflict's, the target's document's
- # conflict gets autoresolved, and the document's revision bumped.
- #
- # Despite that, in Soledad we suppose that the server never syncs, so
- # it never has conflicted documents. Also, if it had, convergence
- # would not be possible by checking document's contents because they
- # would be encrypted in server.
- #
- # Therefore we suppress this test.
- pass
-
- def test_sync_autoresolves_moar_backwards_three(self):
- # here we would test that when a database that has a conflicted
- # document is the target of a sync, and the source database has a
- # revision of the conflicted document that is newer than the target
- # database's, and that source's database's document's content is the
- # same as the target's document's conflict's, the target's document's
- # conflict gets autoresolved, and the document's revision bumped.
- #
- # We use the same reasoning from the last test to suppress this one.
- pass
-
- def test_sync_pulling_doesnt_update_other_if_changed(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc = self.db2.create_doc_from_json(tests.simple_doc)
- # After the local side has sent its list of docs, before we start
- # receiving the "targets" response, we update the local database with a
- # new record.
- # When we finish synchronizing, we can notice that something locally
- # was updated, and we cannot tell c2 our new updated generation
-
- def before_get_docs(state):
- if state != 'before get_docs':
- return
- self.db1.create_doc_from_json(tests.simple_doc)
-
- self.assertEqual(0, self.sync(self.db1, self.db2,
- trace_hook=before_get_docs))
- self.assertLastExchangeLog(self.db2,
- {'receive':
- {'docs': [], 'last_known_gen': 0},
- 'return':
- {'docs': [(doc.doc_id, doc.rev)],
- 'last_gen': 1}})
- self.assertEqual(1, self.db1._get_replica_gen_and_trans_id('test2')[0])
- # c2 should not have gotten a '_record_sync_info' call, because the
- # local database had been updated more than just by the messages
- # returned from c2.
- self.assertEqual(
- (0, ''), self.db2._get_replica_gen_and_trans_id('test1'))
-
- def test_sync_doesnt_update_other_if_nothing_pulled(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc)
-
- def no_record_sync_info(state):
- if state != 'record_sync_info':
- return
- self.fail('SyncTarget.record_sync_info was called')
- self.assertEqual(1, self.sync(self.db1, self.db2,
- trace_hook_shallow=no_record_sync_info))
- self.assertEqual(
- 1,
- self.db2._get_replica_gen_and_trans_id(self.db1._replica_uid)[0])
-
- def test_sync_ignores_convergence(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'both')
- doc = self.db1.create_doc_from_json(tests.simple_doc)
- self.db3 = self.create_database('test3', 'target')
- self.assertEqual(1, self.sync(self.db1, self.db3))
- self.assertEqual(0, self.sync(self.db2, self.db3))
- self.assertEqual(1, self.sync(self.db1, self.db2))
- self.assertLastExchangeLog(self.db2,
- {'receive':
- {'docs': [(doc.doc_id, doc.rev)],
- 'source_uid': 'test1',
- 'source_gen': 1, 'last_known_gen': 0},
- 'return': {'docs': [], 'last_gen': 1}})
-
- def test_sync_ignores_superseded(self):
- self.db1 = self.create_database('test1', 'both')
- self.db2 = self.create_database('test2', 'both')
- doc = self.db1.create_doc_from_json(tests.simple_doc)
- doc_rev1 = doc.rev
- self.db3 = self.create_database('test3', 'target')
- self.sync(self.db1, self.db3)
- self.sync(self.db2, self.db3)
- new_content = '{"key": "altval"}'
- doc.set_json(new_content)
- self.db1.put_doc(doc)
- doc_rev2 = doc.rev
- self.sync(self.db2, self.db1)
- self.assertLastExchangeLog(self.db1,
- {'receive':
- {'docs': [(doc.doc_id, doc_rev1)],
- 'source_uid': 'test2',
- 'source_gen': 1, 'last_known_gen': 0},
- 'return':
- {'docs': [(doc.doc_id, doc_rev2)],
- 'last_gen': 2}})
- self.assertGetDoc(self.db1, doc.doc_id, doc_rev2, new_content, False)
-
- def test_sync_sees_remote_conflicted(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc1 = self.db1.create_doc_from_json(tests.simple_doc)
- doc_id = doc1.doc_id
- doc1_rev = doc1.rev
- self.db1.create_index('test-idx', 'key')
- new_doc = '{"key": "altval"}'
- doc2 = self.db2.create_doc_from_json(new_doc, doc_id=doc_id)
- doc2_rev = doc2.rev
- self.assertTransactionLog([doc1.doc_id], self.db1)
- self.sync(self.db1, self.db2)
- self.assertLastExchangeLog(self.db2,
- {'receive':
- {'docs': [(doc_id, doc1_rev)],
- 'source_uid': 'test1',
- 'source_gen': 1, 'last_known_gen': 0},
- 'return':
- {'docs': [(doc_id, doc2_rev)],
- 'last_gen': 1}})
- self.assertTransactionLog([doc_id, doc_id], self.db1)
- self.assertGetDoc(self.db1, doc_id, doc2_rev, new_doc, True)
- self.assertGetDoc(self.db2, doc_id, doc2_rev, new_doc, False)
- from_idx = self.db1.get_from_index('test-idx', 'altval')[0]
- self.assertEqual(doc2.doc_id, from_idx.doc_id)
- self.assertEqual(doc2.rev, from_idx.rev)
- self.assertTrue(from_idx.has_conflicts)
- self.assertEqual([], self.db1.get_from_index('test-idx', 'value'))
-
- def test_sync_sees_remote_delete_conflicted(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc1 = self.db1.create_doc_from_json(tests.simple_doc)
- doc_id = doc1.doc_id
- self.db1.create_index('test-idx', 'key')
- self.sync(self.db1, self.db2)
- doc2 = self.make_document(doc1.doc_id, doc1.rev, doc1.get_json())
- new_doc = '{"key": "altval"}'
- doc1.set_json(new_doc)
- self.db1.put_doc(doc1)
- self.db2.delete_doc(doc2)
- self.assertTransactionLog([doc_id, doc_id], self.db1)
- self.sync(self.db1, self.db2)
- self.assertLastExchangeLog(self.db2,
- {'receive':
- {'docs': [(doc_id, doc1.rev)],
- 'source_uid': 'test1',
- 'source_gen': 2, 'last_known_gen': 1},
- 'return': {'docs': [(doc_id, doc2.rev)],
- 'last_gen': 2}})
- self.assertTransactionLog([doc_id, doc_id, doc_id], self.db1)
- self.assertGetDocIncludeDeleted(self.db1, doc_id, doc2.rev, None, True)
- self.assertGetDocIncludeDeleted(
- self.db2, doc_id, doc2.rev, None, False)
- self.assertEqual([], self.db1.get_from_index('test-idx', 'value'))
-
- def test_sync_local_race_conflicted(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc = self.db1.create_doc_from_json(tests.simple_doc)
- doc_id = doc.doc_id
- doc1_rev = doc.rev
- self.db1.create_index('test-idx', 'key')
- self.sync(self.db1, self.db2)
- content1 = '{"key": "localval"}'
- content2 = '{"key": "altval"}'
- doc.set_json(content2)
- self.db2.put_doc(doc)
- doc2_rev2 = doc.rev
- triggered = []
-
- def after_whatschanged(state):
- if state != 'after whats_changed':
- return
- triggered.append(True)
- doc = self.make_document(doc_id, doc1_rev, content1)
- self.db1.put_doc(doc)
-
- self.sync(self.db1, self.db2, trace_hook=after_whatschanged)
- self.assertEqual([True], triggered)
- self.assertGetDoc(self.db1, doc_id, doc2_rev2, content2, True)
- from_idx = self.db1.get_from_index('test-idx', 'altval')[0]
- self.assertEqual(doc.doc_id, from_idx.doc_id)
- self.assertEqual(doc.rev, from_idx.rev)
- self.assertTrue(from_idx.has_conflicts)
- self.assertEqual([], self.db1.get_from_index('test-idx', 'value'))
- self.assertEqual([], self.db1.get_from_index('test-idx', 'localval'))
-
- def test_sync_propagates_deletes(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'both')
- doc1 = self.db1.create_doc_from_json(tests.simple_doc)
- doc_id = doc1.doc_id
- self.db1.create_index('test-idx', 'key')
- self.sync(self.db1, self.db2)
- self.db2.create_index('test-idx', 'key')
- self.db3 = self.create_database('test3', 'target')
- self.sync(self.db1, self.db3)
- self.db1.delete_doc(doc1)
- deleted_rev = doc1.rev
- self.sync(self.db1, self.db2)
- self.assertLastExchangeLog(self.db2,
- {'receive':
- {'docs': [(doc_id, deleted_rev)],
- 'source_uid': 'test1',
- 'source_gen': 2, 'last_known_gen': 1},
- 'return': {'docs': [], 'last_gen': 2}})
- self.assertGetDocIncludeDeleted(
- self.db1, doc_id, deleted_rev, None, False)
- self.assertGetDocIncludeDeleted(
- self.db2, doc_id, deleted_rev, None, False)
- self.assertEqual([], self.db1.get_from_index('test-idx', 'value'))
- self.assertEqual([], self.db2.get_from_index('test-idx', 'value'))
- self.sync(self.db2, self.db3)
- self.assertLastExchangeLog(self.db3,
- {'receive':
- {'docs': [(doc_id, deleted_rev)],
- 'source_uid': 'test2',
- 'source_gen': 2,
- 'last_known_gen': 0},
- 'return':
- {'docs': [], 'last_gen': 2}})
- self.assertGetDocIncludeDeleted(
- self.db3, doc_id, deleted_rev, None, False)
-
- def test_sync_propagates_deletes_2(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json('{"a": "1"}', doc_id='the-doc')
- self.sync(self.db1, self.db2)
- doc1_2 = self.db2.get_doc('the-doc')
- self.db2.delete_doc(doc1_2)
- self.sync(self.db1, self.db2)
- self.assertGetDocIncludeDeleted(
- self.db1, 'the-doc', doc1_2.rev, None, False)
-
- def test_sync_detects_identical_replica_uid(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test1', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc1')
- self.assertRaises(
- errors.InvalidReplicaUID, self.sync, self.db1, self.db2)
-
- def test_optional_sync_preserve_json(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- cont1 = '{ "a": 2 }'
- cont2 = '{ "b":3}'
- self.db1.create_doc_from_json(cont1, doc_id="1")
- self.db2.create_doc_from_json(cont2, doc_id="2")
- self.sync(self.db1, self.db2)
- self.assertEqual(cont1, self.db2.get_doc("1").get_json())
- self.assertEqual(cont2, self.db1.get_doc("2").get_json())
-
- def test_sync_propagates_resolution(self):
- """
- Test if synchronization propagates resolution.
-
- This test was adapted to decrypt remote content before assert.
- """
- self.db1 = self.create_database('test1', 'both')
- self.db2 = self.create_database('test2', 'both')
- doc1 = self.db1.create_doc_from_json('{"a": 1}', doc_id='the-doc')
- db3 = self.create_database('test3', 'both')
- self.sync(self.db2, self.db1)
- self.assertEqual(
- self.db1._get_generation_info(),
- self.db2._get_replica_gen_and_trans_id(self.db1._replica_uid))
- self.assertEqual(
- self.db2._get_generation_info(),
- self.db1._get_replica_gen_and_trans_id(self.db2._replica_uid))
- self.sync(db3, self.db1)
- # update on 2
- doc2 = self.make_document('the-doc', doc1.rev, '{"a": 2}')
- self.db2.put_doc(doc2)
- self.sync(self.db2, db3)
- self.assertEqual(db3.get_doc('the-doc').rev, doc2.rev)
- # update on 1
- doc1.set_json('{"a": 3}')
- self.db1.put_doc(doc1)
- # conflicts
- self.sync(self.db2, self.db1)
- self.sync(db3, self.db1)
- self.assertTrue(self.db2.get_doc('the-doc').has_conflicts)
- self.assertTrue(db3.get_doc('the-doc').has_conflicts)
- # resolve
- conflicts = self.db2.get_doc_conflicts('the-doc')
- doc4 = self.make_document('the-doc', None, '{"a": 4}')
- revs = [doc.rev for doc in conflicts]
- self.db2.resolve_doc(doc4, revs)
- doc2 = self.db2.get_doc('the-doc')
- self.assertEqual(doc4.get_json(), doc2.get_json())
- self.assertFalse(doc2.has_conflicts)
- self.sync(self.db2, db3)
- doc3 = db3.get_doc('the-doc')
-
- self.assertEqual(doc4.get_json(), doc3.get_json())
- self.assertFalse(doc3.has_conflicts)
- self.db1.close()
- self.db2.close()
- db3.close()
-
- def test_sync_puts_changes(self):
- """
- Test if sync puts changes in remote replica.
-
- This test was adapted to decrypt remote content before assert.
- """
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc = self.db1.create_doc_from_json(tests.simple_doc)
- self.assertEqual(1, self.sync(self.db1, self.db2))
- self.assertGetEncryptedDoc(
- self.db2, doc.doc_id, doc.rev, tests.simple_doc, False)
- self.assertEqual(1, self.db1._get_replica_gen_and_trans_id('test2')[0])
- self.assertEqual(1, self.db2._get_replica_gen_and_trans_id('test1')[0])
- self.assertLastExchangeLog(
- self.db2,
- {'receive': {'docs': [(doc.doc_id, doc.rev)],
- 'source_uid': 'test1',
- 'source_gen': 1, 'last_known_gen': 0},
- 'return': {'docs': [], 'last_gen': 1}})
-
- def test_sync_pulls_changes(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- doc = self.db2.create_doc_from_json(tests.simple_doc)
- self.db1.create_index('test-idx', 'key')
- self.assertEqual(0, self.sync(self.db1, self.db2))
- self.assertGetDoc(self.db1, doc.doc_id, doc.rev,
- tests.simple_doc, False)
- self.assertEqual(1, self.db1._get_replica_gen_and_trans_id('test2')[0])
- self.assertEqual(1, self.db2._get_replica_gen_and_trans_id('test1')[0])
- self.assertLastExchangeLog(self.db2,
- {'receive':
- {'docs': [], 'last_known_gen': 0},
- 'return':
- {'docs': [(doc.doc_id, doc.rev)],
- 'last_gen': 1}})
- self.assertEqual([doc], self.db1.get_from_index('test-idx', 'value'))
-
- def test_sync_supersedes_conflicts(self):
- self.db1 = self.create_database('test1', 'both')
- self.db2 = self.create_database('test2', 'target')
- self.db3 = self.create_database('test3', 'both')
- doc1 = self.db1.create_doc_from_json('{"a": 1}', doc_id='the-doc')
- self.db2.create_doc_from_json('{"b": 1}', doc_id='the-doc')
- self.db3.create_doc_from_json('{"c": 1}', doc_id='the-doc')
- self.sync(self.db3, self.db1)
- self.assertEqual(
- self.db1._get_generation_info(),
- self.db3._get_replica_gen_and_trans_id(self.db1._replica_uid))
- self.assertEqual(
- self.db3._get_generation_info(),
- self.db1._get_replica_gen_and_trans_id(self.db3._replica_uid))
- self.sync(self.db3, self.db2)
- self.assertEqual(
- self.db2._get_generation_info(),
- self.db3._get_replica_gen_and_trans_id(self.db2._replica_uid))
- self.assertEqual(
- self.db3._get_generation_info(),
- self.db2._get_replica_gen_and_trans_id(self.db3._replica_uid))
- self.assertEqual(3, len(self.db3.get_doc_conflicts('the-doc')))
- doc1.set_json('{"a": 2}')
- self.db1.put_doc(doc1)
- self.sync(self.db3, self.db1)
- # original doc1 should have been removed from conflicts
- self.assertEqual(3, len(self.db3.get_doc_conflicts('the-doc')))
-
- def test_sync_stops_after_get_sync_info(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc)
- self.sync(self.db1, self.db2)
-
- def put_hook(state):
- self.fail("Tracehook triggered for %s" % (state,))
-
- self.sync(self.db1, self.db2, trace_hook_shallow=put_hook)
-
- def test_sync_detects_rollback_in_source(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc1')
- self.sync(self.db1, self.db2)
- self.db1_copy = self.copy_database(self.db1)
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.sync(self.db1, self.db2)
- self.assertRaises(
- errors.InvalidGeneration, self.sync, self.db1_copy, self.db2)
-
- def test_sync_detects_rollback_in_target(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id="divergent")
- self.sync(self.db1, self.db2)
- self.db2_copy = self.copy_database(self.db2)
- self.db2.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.sync(self.db1, self.db2)
- self.assertRaises(
- errors.InvalidGeneration, self.sync, self.db1, self.db2_copy)
-
- def test_sync_detects_diverged_source(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db3 = self.copy_database(self.db1)
- self.db1.create_doc_from_json(tests.simple_doc, doc_id="divergent")
- self.db3.create_doc_from_json(tests.simple_doc, doc_id="divergent")
- self.sync(self.db1, self.db2)
- self.assertRaises(
- errors.InvalidTransactionId, self.sync, self.db3, self.db2)
-
- def test_sync_detects_diverged_target(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db3 = self.copy_database(self.db2)
- self.db3.create_doc_from_json(tests.nested_doc, doc_id="divergent")
- self.db1.create_doc_from_json(tests.simple_doc, doc_id="divergent")
- self.sync(self.db1, self.db2)
- self.assertRaises(
- errors.InvalidTransactionId, self.sync, self.db1, self.db3)
-
- def test_sync_detects_rollback_and_divergence_in_source(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc1')
- self.sync(self.db1, self.db2)
- self.db1_copy = self.copy_database(self.db1)
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id='doc3')
- self.sync(self.db1, self.db2)
- self.db1_copy.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.db1_copy.create_doc_from_json(tests.simple_doc, doc_id='doc3')
- self.assertRaises(
- errors.InvalidTransactionId, self.sync, self.db1_copy, self.db2)
-
- def test_sync_detects_rollback_and_divergence_in_target(self):
- self.db1 = self.create_database('test1', 'source')
- self.db2 = self.create_database('test2', 'target')
- self.db1.create_doc_from_json(tests.simple_doc, doc_id="divergent")
- self.sync(self.db1, self.db2)
- self.db2_copy = self.copy_database(self.db2)
- self.db2.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.db2.create_doc_from_json(tests.simple_doc, doc_id='doc3')
- self.sync(self.db1, self.db2)
- self.db2_copy.create_doc_from_json(tests.simple_doc, doc_id='doc2')
- self.db2_copy.create_doc_from_json(tests.simple_doc, doc_id='doc3')
- self.assertRaises(
- errors.InvalidTransactionId, self.sync, self.db1, self.db2_copy)
-
-
-def make_local_db_and_soledad_target(
- test, path='test',
- source_replica_uid=uuid4().hex):
- test.startTwistedServer()
- replica_uid = os.path.basename(path)
- db = test.request_state._create_database(replica_uid)
- st = soledad_sync_target(
- test, db._dbname,
- source_replica_uid=source_replica_uid)
- return db, st
-
-
-target_scenarios = [
- ('leap', {
- 'create_db_and_target': make_local_db_and_soledad_target,
- 'make_app_with_state': make_soledad_app,
- 'do_sync': sync_via_synchronizer_and_soledad}),
-]
diff --git a/testing/tests/sync/test_sync.py b/testing/tests/sync/test_sync.py
deleted file mode 100644
index fb9a0245..00000000
--- a/testing/tests/sync/test_sync.py
+++ /dev/null
@@ -1,233 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_sync.py
-# Copyright (C) 2013, 2014 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-import json
-import pytest
-import threading
-import time
-
-from six.moves.urllib.parse import urljoin
-from mock import Mock
-from twisted.internet import defer
-
-from testscenarios import TestWithScenarios
-
-from leap.soledad.common import couch
-from leap.soledad.client import sync
-
-from test_soledad import u1db_tests as tests
-from test_soledad.u1db_tests import TestCaseWithServer
-from test_soledad.u1db_tests import simple_doc
-from test_soledad.util import make_token_soledad_app
-from test_soledad.util import make_soledad_document_for_test
-from test_soledad.util import soledad_sync_target
-from test_soledad.util import BaseSoledadTest
-from test_soledad.util import SoledadWithCouchServerMixin
-from test_soledad.util import CouchDBTestCase
-
-
-class InterruptableSyncTestCase(
- BaseSoledadTest, CouchDBTestCase, TestCaseWithServer):
-
- """
- Tests for encrypted sync using Soledad server backed by a couch database.
- """
-
- @staticmethod
- def make_app_with_state(state):
- return make_token_soledad_app(state)
-
- make_document_for_test = make_soledad_document_for_test
-
- sync_target = soledad_sync_target
-
- def make_app(self):
- self.request_state = couch.CouchServerState(self.couch_url)
- return self.make_app_with_state(self.request_state)
-
- def setUp(self):
- TestCaseWithServer.setUp(self)
- CouchDBTestCase.setUp(self)
-
- def tearDown(self):
- CouchDBTestCase.tearDown(self)
- TestCaseWithServer.tearDown(self)
-
- def test_interruptable_sync(self):
- """
- Test if Soledad can sync many smallfiles.
- """
-
- self.skipTest("Sync is currently not interruptable.")
-
- class _SyncInterruptor(threading.Thread):
-
- """
- A thread meant to interrupt the sync process.
- """
-
- def __init__(self, soledad, couchdb):
- self._soledad = soledad
- self._couchdb = couchdb
- threading.Thread.__init__(self)
-
- def run(self):
- while db._get_generation() < 2:
- # print "WAITING %d" % db._get_generation()
- time.sleep(0.1)
- self._soledad.stop_sync()
- time.sleep(1)
-
- number_of_docs = 10
- self.startServer()
-
- # instantiate soledad and create a document
- sol = self._soledad_instance(
- user='user-uuid', server_url=self.getURL())
-
- # ensure remote db exists before syncing
- db = couch.CouchDatabase.open_database(
- urljoin(self.couch_url, 'user-user-uuid'),
- create=True)
-
- # create interruptor thread
- t = _SyncInterruptor(sol, db)
- t.start()
-
- d = sol.get_all_docs()
- d.addCallback(lambda results: self.assertEqual([], results[1]))
-
- def _create_docs(results):
- # create many small files
- deferreds = []
- for i in range(0, number_of_docs):
- deferreds.append(sol.create_doc(json.loads(simple_doc)))
- return defer.DeferredList(deferreds)
-
- # sync with server
- d.addCallback(_create_docs)
- d.addCallback(lambda _: sol.get_all_docs())
- d.addCallback(
- lambda results: self.assertEqual(number_of_docs, len(results[1])))
- d.addCallback(lambda _: sol.sync())
- d.addCallback(lambda _: t.join())
- d.addCallback(lambda _: db.get_all_docs())
- d.addCallback(
- lambda results: self.assertNotEqual(
- number_of_docs, len(results[1])))
- d.addCallback(lambda _: sol.sync())
- d.addCallback(lambda _: db.get_all_docs())
- d.addCallback(
- lambda results: self.assertEqual(number_of_docs, len(results[1])))
-
- def _tear_down(results):
- db.delete_database()
- db.close()
- sol.close()
-
- d.addCallback(_tear_down)
- return d
-
-
-@pytest.mark.needs_couch
-class TestSoledadDbSync(
- TestWithScenarios,
- SoledadWithCouchServerMixin,
- tests.TestCaseWithServer):
-
- """
- Test db.sync remote sync shortcut
- """
-
- scenarios = [
- ('py-token-http', {
- 'make_app_with_state': make_token_soledad_app,
- 'make_database_for_test': tests.make_memory_database_for_test,
- 'token': True
- }),
- ]
-
- oauth = False
- token = False
-
- def setUp(self):
- """
- Need to explicitely invoke inicialization on all bases.
- """
- SoledadWithCouchServerMixin.setUp(self)
- self.startTwistedServer()
- self.db = self.make_database_for_test(self, 'test1')
- self.db2 = self.request_state._create_database(replica_uid='test')
-
- def tearDown(self):
- """
- Need to explicitely invoke destruction on all bases.
- """
- SoledadWithCouchServerMixin.tearDown(self)
- # tests.TestCaseWithServer.tearDown(self)
-
- def do_sync(self):
- """
- Perform sync using SoledadSynchronizer, SoledadSyncTarget
- and Token auth.
- """
- target = soledad_sync_target(
- self, self.db2._dbname,
- source_replica_uid=self._soledad._dbpool.replica_uid)
- return sync.SoledadSynchronizer(
- self.db,
- target).sync()
-
- @defer.inlineCallbacks
- def test_db_sync(self):
- """
- Test sync.
-
- Adapted to check for encrypted content.
- """
-
- doc1 = self.db.create_doc_from_json(tests.simple_doc)
- doc2 = self.db2.create_doc_from_json(tests.nested_doc)
-
- local_gen_before_sync = yield self.do_sync()
- gen, _, changes = self.db.whats_changed(local_gen_before_sync)
- self.assertEqual(1, len(changes))
- self.assertEqual(doc2.doc_id, changes[0][0])
- self.assertEqual(1, gen - local_gen_before_sync)
- self.assertGetEncryptedDoc(
- self.db2, doc1.doc_id, doc1.rev, tests.simple_doc, False)
- self.assertGetEncryptedDoc(
- self.db, doc2.doc_id, doc2.rev, tests.nested_doc, False)
-
- # TODO: add u1db.tests.test_sync.TestRemoteSyncIntegration
-
-
-class TestSoledadSynchronizer(BaseSoledadTest):
-
- def setUp(self):
- BaseSoledadTest.setUp(self)
- self.db = Mock()
- self.target = Mock()
- self.synchronizer = sync.SoledadSynchronizer(
- self.db,
- self.target)
-
- def test_docs_by_gen_includes_deleted(self):
- changes = [('id', 'gen', 'trans')]
- docs_by_gen = self.synchronizer._docs_by_gen_from_changes(changes)
- f, args, kwargs = docs_by_gen[0][0]
- self.assertIn('include_deleted', kwargs)
- self.assertTrue(kwargs['include_deleted'])
diff --git a/testing/tests/sync/test_sync_mutex.py b/testing/tests/sync/test_sync_mutex.py
deleted file mode 100644
index fdd2aacd..00000000
--- a/testing/tests/sync/test_sync_mutex.py
+++ /dev/null
@@ -1,133 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_sync_mutex.py
-# Copyright (C) 2013, 2014 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-
-
-"""
-Test that synchronization is a critical section and, as such, there might not
-be two concurrent synchronization processes at the same time.
-"""
-
-
-import pytest
-import time
-import uuid
-
-from six.moves.urllib.parse import urljoin
-
-from twisted.internet import defer
-
-from leap.soledad.client.sync import SoledadSynchronizer
-
-from leap.soledad.common.couch.state import CouchServerState
-from leap.soledad.common.couch import CouchDatabase
-from test_soledad.u1db_tests import TestCaseWithServer
-
-from test_soledad.util import CouchDBTestCase
-from test_soledad.util import BaseSoledadTest
-from test_soledad.util import make_token_soledad_app
-from test_soledad.util import make_soledad_document_for_test
-from test_soledad.util import soledad_sync_target
-
-
-# monkey-patch the soledad synchronizer so it stores start and finish times
-
-_old_sync = SoledadSynchronizer.sync
-
-
-def _timed_sync(self):
- t = time.time()
-
- sync_id = uuid.uuid4()
-
- if not getattr(self.source, 'sync_times', False):
- self.source.sync_times = {}
-
- self.source.sync_times[sync_id] = {'start': t}
-
- def _store_finish_time(passthrough):
- t = time.time()
- self.source.sync_times[sync_id]['end'] = t
- return passthrough
-
- d = _old_sync(self)
- d.addBoth(_store_finish_time)
- return d
-
-
-SoledadSynchronizer.sync = _timed_sync
-
-# -- end of monkey-patching
-
-
-@pytest.mark.needs_couch
-class TestSyncMutex(
- BaseSoledadTest, CouchDBTestCase, TestCaseWithServer):
-
- @staticmethod
- def make_app_with_state(state):
- return make_token_soledad_app(state)
-
- make_document_for_test = make_soledad_document_for_test
-
- sync_target = soledad_sync_target
-
- def make_app(self):
- self.request_state = CouchServerState(self.couch_url)
- return self.make_app_with_state(self.request_state)
-
- def setUp(self):
- TestCaseWithServer.setUp(self)
- CouchDBTestCase.setUp(self)
- self.user = ('user-%s' % uuid.uuid4().hex)
-
- def tearDown(self):
- CouchDBTestCase.tearDown(self)
- TestCaseWithServer.tearDown(self)
-
- def test_two_concurrent_syncs_do_not_overlap_no_docs(self):
- self.startServer()
-
- # ensure remote db exists before syncing
- db = CouchDatabase.open_database(
- urljoin(self.couch_url, 'user-' + self.user),
- create=True)
-
- sol = self._soledad_instance(
- user=self.user, server_url=self.getURL())
-
- d1 = sol.sync()
- d2 = sol.sync()
-
- def _assert_syncs_do_not_overlap(thearg):
- # recover sync times
- sync_times = []
- for key in sol._dbsyncer.sync_times:
- sync_times.append(sol._dbsyncer.sync_times[key])
- sync_times.sort(key=lambda s: s['start'])
-
- self.assertTrue(
- (sync_times[0]['start'] < sync_times[0]['end'] and
- sync_times[0]['end'] < sync_times[1]['start'] and
- sync_times[1]['start'] < sync_times[1]['end']))
-
- db.delete_database()
- db.close()
- sol.close()
-
- d = defer.gatherResults([d1, d2])
- d.addBoth(_assert_syncs_do_not_overlap)
- return d
diff --git a/testing/tests/sync/test_sync_target.py b/testing/tests/sync/test_sync_target.py
deleted file mode 100644
index 712f0d3f..00000000
--- a/testing/tests/sync/test_sync_target.py
+++ /dev/null
@@ -1,968 +0,0 @@
-# -*- coding: utf-8 -*-
-# test_sync_target.py
-# Copyright (C) 2013, 2014 LEAP
-#
-# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
-"""
-Test Leap backend bits: sync target
-"""
-import os
-import time
-import json
-import pytest
-import random
-import string
-import shutil
-
-from six import StringIO as cStringIO
-from uuid import uuid4
-
-from testscenarios import TestWithScenarios
-from twisted.internet import defer
-
-from leap.soledad.client import http_target as target
-from leap.soledad.client.http_target.fetch_protocol import DocStreamReceiver
-from leap.soledad.client._db.sqlcipher import SQLCipherU1DBSync
-from leap.soledad.client._db.sqlcipher import SQLCipherOptions
-from leap.soledad.client._db.sqlcipher import SQLCipherDatabase
-from leap.soledad.client import _crypto
-
-from leap.soledad.common import l2db
-
-from leap.soledad.common.document import SoledadDocument
-from test_soledad import u1db_tests as tests
-from test_soledad.util import make_sqlcipher_database_for_test
-from test_soledad.util import make_soledad_app
-from test_soledad.util import make_token_soledad_app
-from test_soledad.util import make_soledad_document_for_test
-from test_soledad.util import soledad_sync_target
-from twisted.trial import unittest
-from test_soledad.util import SoledadWithCouchServerMixin
-from test_soledad.util import ADDRESS
-from test_soledad.util import SQLCIPHER_SCENARIOS
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_remote_sync_target`.
-# -----------------------------------------------------------------------------
-
-class TestSoledadParseReceivedDocResponse(unittest.TestCase):
-
- """
- Some tests had to be copied to this class so we can instantiate our own
- target.
- """
-
- def parse(self, stream):
- parser = DocStreamReceiver(None, defer.Deferred(),
- lambda *_: defer.succeed(42))
- parser.dataReceived(stream)
- parser.finish()
-
- def test_extra_comma(self):
- doc = SoledadDocument('i', rev='r')
- doc.content = {'a': 'b'}
-
- encrypted_docstr = _crypto.SoledadCrypto('safe').encrypt_doc(doc)
-
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse("[\r\n{},\r\n]")
-
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse(
- ('[\r\n{},\r\n{"id": "i", "rev": "r", ' +
- '"gen": 3, "trans_id": "T-sid"},\r\n' +
- '%s,\r\n]') % encrypted_docstr)
-
- def test_wrong_start(self):
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse("{}\r\n]")
-
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse("\r\n{}\r\n]")
-
- def test_wrong_end(self):
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse("[\r\n{}")
-
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse("[\r\n")
-
- def test_missing_comma(self):
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse(
- '[\r\n{}\r\n{"id": "i", "rev": "r", '
- '"content": "c", "gen": 3}\r\n]')
-
- def test_no_entries(self):
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse("[\r\n]")
-
- def test_error_in_stream(self):
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse(
- '[\r\n{"new_generation": 0},'
- '\r\n{"error": "unavailable"}\r\n')
-
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse(
- '[\r\n{"error": "unavailable"}\r\n')
-
- with self.assertRaises(l2db.errors.BrokenSyncStream):
- self.parse('[\r\n{"error": "?"}\r\n')
-
-#
-# functions for TestRemoteSyncTargets
-#
-
-
-def make_local_db_and_soledad_target(
- test, path='test',
- source_replica_uid=uuid4().hex):
- test.startTwistedServer()
- replica_uid = os.path.basename(path)
- db = test.request_state._create_database(replica_uid)
- st = soledad_sync_target(
- test, db._dbname,
- source_replica_uid=source_replica_uid)
- return db, st
-
-
-def make_local_db_and_token_soledad_target(
- test,
- source_replica_uid=uuid4().hex):
- db, st = make_local_db_and_soledad_target(
- test, path='test',
- source_replica_uid=source_replica_uid)
- st.set_token_credentials('user-uuid', 'auth-token')
- return db, st
-
-
-@pytest.mark.needs_couch
-class TestSoledadSyncTarget(
- TestWithScenarios,
- SoledadWithCouchServerMixin,
- tests.TestCaseWithServer):
-
- scenarios = [
- ('token_soledad',
- {'make_app_with_state': make_token_soledad_app,
- 'make_document_for_test': make_soledad_document_for_test,
- 'create_db_and_target': make_local_db_and_token_soledad_target,
- 'make_database_for_test': make_sqlcipher_database_for_test,
- 'sync_target': soledad_sync_target}),
- ]
-
- def getSyncTarget(self, path=None, source_replica_uid=uuid4().hex):
- if self.port is None:
- self.startTwistedServer()
- if path is None:
- path = self.db2._dbname
- target = self.sync_target(
- self, path,
- source_replica_uid=source_replica_uid)
- return target
-
- def setUp(self):
- TestWithScenarios.setUp(self)
- SoledadWithCouchServerMixin.setUp(self)
- self.startTwistedServer()
- self.db1 = make_sqlcipher_database_for_test(self, 'test1')
- self.db2 = self.request_state._create_database('test')
-
- def tearDown(self):
- # db2, _ = self.request_state.ensure_database('test2')
- self.delete_db(self.db2._dbname)
- self.db1.close()
- SoledadWithCouchServerMixin.tearDown(self)
- TestWithScenarios.tearDown(self)
-
- @defer.inlineCallbacks
- def test_sync_exchange_send(self):
- """
- Test for sync exchanging send of document.
-
- This test was adapted to decrypt remote content before assert.
- """
- db = self.db2
- remote_target = self.getSyncTarget()
- other_docs = []
-
- def receive_doc(doc, gen, trans_id):
- other_docs.append((doc.doc_id, doc.rev, doc.get_json()))
-
- doc = self.make_document('doc-here', 'replica:1', '{"value": "here"}')
- get_doc = (lambda _: doc, (1,), {})
- new_gen, trans_id = yield remote_target.sync_exchange(
- [(get_doc, 10, 'T-sid')], 'replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=receive_doc)
- self.assertEqual(1, new_gen)
- self.assertGetEncryptedDoc(
- db, 'doc-here', 'replica:1', '{"value": "here"}', False)
-
- @defer.inlineCallbacks
- def test_sync_exchange_send_failure_and_retry_scenario(self):
- """
- Test for sync exchange failure and retry.
-
- This test was adapted to decrypt remote content before assert.
- """
-
- def blackhole_getstderr(inst):
- return cStringIO.StringIO()
-
- db = self.db2
- _put_doc_if_newer = db._put_doc_if_newer
- trigger_ids = ['doc-here2']
-
- def bomb_put_doc_if_newer(self, doc, save_conflict,
- replica_uid=None, replica_gen=None,
- replica_trans_id=None, number_of_docs=None,
- doc_idx=None, sync_id=None):
- if doc.doc_id in trigger_ids:
- raise l2db.errors.U1DBError
- return _put_doc_if_newer(doc, save_conflict=save_conflict,
- replica_uid=replica_uid,
- replica_gen=replica_gen,
- replica_trans_id=replica_trans_id,
- number_of_docs=number_of_docs,
- doc_idx=doc_idx, sync_id=sync_id)
- from leap.soledad.common.backend import SoledadBackend
- self.patch(
- SoledadBackend, '_put_doc_if_newer', bomb_put_doc_if_newer)
- remote_target = self.getSyncTarget(
- source_replica_uid='replica')
- other_changes = []
-
- def receive_doc(doc, gen, trans_id):
- other_changes.append(
- (doc.doc_id, doc.rev, doc.get_json(), gen, trans_id))
-
- doc1 = self.make_document('doc-here', 'replica:1', '{"value": "here"}')
- doc2 = self.make_document('doc-here2', 'replica:1',
- '{"value": "here2"}')
- get_doc1 = (lambda _: doc1, (1,), {})
- get_doc2 = (lambda _: doc2, (2,), {})
-
- with self.assertRaises(l2db.errors.U1DBError):
- yield remote_target.sync_exchange(
- [(get_doc1, 10, 'T-sid'), (get_doc2, 11, 'T-sud')],
- 'replica',
- last_known_generation=0,
- last_known_trans_id=None,
- insert_doc_cb=receive_doc)
-
- self.assertGetEncryptedDoc(
- db, 'doc-here', 'replica:1', '{"value": "here"}',
- False)
- self.assertEqual(
- (10, 'T-sid'), db._get_replica_gen_and_trans_id('replica'))
- self.assertEqual([], other_changes)
- # retry
- trigger_ids = []
- new_gen, trans_id = yield remote_target.sync_exchange(
- [(get_doc2, 11, 'T-sud')], 'replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=receive_doc)
- self.assertGetEncryptedDoc(
- db, 'doc-here2', 'replica:1', '{"value": "here2"}',
- False)
- self.assertEqual(
- (11, 'T-sud'), db._get_replica_gen_and_trans_id('replica'))
- self.assertEqual(2, new_gen)
- self.assertEqual(
- ('doc-here', 'replica:1', '{"value": "here"}', 1),
- other_changes[0][:-1])
-
- @defer.inlineCallbacks
- def test_sync_exchange_send_ensure_callback(self):
- """
- Test for sync exchange failure and retry.
-
- This test was adapted to decrypt remote content before assert.
- """
- remote_target = self.getSyncTarget()
- other_docs = []
- replica_uid_box = []
-
- def receive_doc(doc, gen, trans_id):
- other_docs.append((doc.doc_id, doc.rev, doc.get_json()))
-
- def ensure_cb(replica_uid):
- replica_uid_box.append(replica_uid)
-
- doc = self.make_document('doc-here', 'replica:1', '{"value": "here"}')
- get_doc = (lambda _: doc, (1,), {})
- new_gen, trans_id = yield remote_target.sync_exchange(
- [(get_doc, 10, 'T-sid')], 'replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=receive_doc,
- ensure_callback=ensure_cb)
- self.assertEqual(1, new_gen)
- db = self.db2
- self.assertEqual(1, len(replica_uid_box))
- self.assertEqual(db._replica_uid, replica_uid_box[0])
- self.assertGetEncryptedDoc(
- db, 'doc-here', 'replica:1', '{"value": "here"}', False)
-
- @defer.inlineCallbacks
- def test_sync_exchange_send_events(self):
- """
- Test for sync exchange's SOLEDAD_SYNC_SEND_STATUS event.
- """
- remote_target = self.getSyncTarget()
- uuid = remote_target.uuid
- events = []
-
- def mocked_events(*args):
- events.append((args))
- self.patch(
- target.send, '_emit_send_status', mocked_events)
-
- doc = self.make_document('doc-here', 'replica:1', '{"value": "here"}')
- doc2 = self.make_document('doc-here', 'replica:1', '{"value": "here"}')
- doc3 = self.make_document('doc-here', 'replica:1', '{"value": "here"}')
- get_doc = (lambda _: doc, (1,), {})
- get_doc2 = (lambda _: doc2, (1,), {})
- get_doc3 = (lambda _: doc3, (1,), {})
- docs = [(get_doc, 10, 'T-sid'),
- (get_doc2, 11, 'T-sid2'), (get_doc3, 12, 'T-sid3')]
- new_gen, trans_id = yield remote_target.sync_exchange(
- docs, 'replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=lambda _: 1,
- ensure_callback=lambda _: 1)
- self.assertEqual(1, new_gen)
- self.assertEqual(4, len(events))
- self.assertEquals([(uuid, 0, 3), (uuid, 1, 3), (uuid, 2, 3),
- (uuid, 3, 3)], events)
-
- def test_sync_exchange_in_stream_error(self):
- self.skipTest("bypass this test because our sync_exchange process "
- "does not return u1db error 503 \"unavailable\" for "
- "now")
-
- @defer.inlineCallbacks
- def test_get_sync_info(self):
- db = self.db2
- db._set_replica_gen_and_trans_id('other-id', 1, 'T-transid')
- remote_target = self.getSyncTarget(
- source_replica_uid='other-id')
- sync_info = yield remote_target.get_sync_info('other-id')
- self.assertEqual(
- ('test', 0, '', 1, 'T-transid'),
- sync_info)
-
- @defer.inlineCallbacks
- def test_record_sync_info(self):
- remote_target = self.getSyncTarget(
- source_replica_uid='other-id')
- yield remote_target.record_sync_info('other-id', 2, 'T-transid')
- self.assertEqual((2, 'T-transid'),
- self.db2._get_replica_gen_and_trans_id('other-id'))
-
- @defer.inlineCallbacks
- def test_sync_exchange_receive(self):
- db = self.db2
- doc = db.create_doc_from_json('{"value": "there"}')
- remote_target = self.getSyncTarget()
- other_changes = []
-
- def receive_doc(doc, gen, trans_id):
- other_changes.append(
- (doc.doc_id, doc.rev, doc.get_json(), gen, trans_id))
-
- new_gen, trans_id = yield remote_target.sync_exchange(
- [], 'replica', last_known_generation=0, last_known_trans_id=None,
- insert_doc_cb=receive_doc)
- self.assertEqual(1, new_gen)
- self.assertEqual(
- (doc.doc_id, doc.rev, '{"value": "there"}', 1),
- other_changes[0][:-1])
-
-
-# -----------------------------------------------------------------------------
-# The following tests come from `u1db.tests.test_sync`.
-# -----------------------------------------------------------------------------
-
-target_scenarios = [
- ('mem,token_soledad',
- {'create_db_and_target': make_local_db_and_token_soledad_target,
- 'make_app_with_state': make_soledad_app,
- 'make_database_for_test': tests.make_memory_database_for_test,
- 'copy_database_for_test': tests.copy_memory_database_for_test,
- 'make_document_for_test': tests.make_document_for_test})
-]
-
-
-@pytest.mark.needs_couch
-class SoledadDatabaseSyncTargetTests(
- TestWithScenarios,
- SoledadWithCouchServerMixin,
- tests.DatabaseBaseTests,
- tests.TestCaseWithServer):
- """
- Adaptation of u1db.tests.test_sync.DatabaseSyncTargetTests.
- """
-
- # TODO: implement _set_trace_hook(_shallow) in SoledadHTTPSyncTarget so
- # skipped tests can be succesfully executed.
-
- scenarios = target_scenarios
-
- whitebox = False
-
- def setUp(self):
- tests.TestCaseWithServer.setUp(self)
- self.other_changes = []
- SoledadWithCouchServerMixin.setUp(self)
- self.db, self.st = make_local_db_and_soledad_target(self)
-
- def tearDown(self):
- self.db.close()
- tests.TestCaseWithServer.tearDown(self)
- SoledadWithCouchServerMixin.tearDown(self)
-
- def set_trace_hook(self, callback, shallow=False):
- setter = (self.st._set_trace_hook if not shallow else
- self.st._set_trace_hook_shallow)
- try:
- setter(callback)
- except NotImplementedError:
- self.skipTest("%s does not implement _set_trace_hook"
- % (self.st.__class__.__name__,))
-
- @defer.inlineCallbacks
- def test_sync_exchange(self):
- """
- Test sync exchange.
-
- This test was adapted to decrypt remote content before assert.
- """
- docs_by_gen = [
- ((self.make_document,
- ('doc-id', 'replica:1', tests.simple_doc,), {}),
- 10, 'T-sid')]
- new_gen, trans_id = yield self.st.sync_exchange(
- docs_by_gen, 'replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertGetEncryptedDoc(
- self.db, 'doc-id', 'replica:1', tests.simple_doc, False)
- self.assertTransactionLog(['doc-id'], self.db)
- last_trans_id = self.getLastTransId(self.db)
- self.assertEqual(([], 1, last_trans_id),
- (self.other_changes, new_gen, last_trans_id))
- sync_info = yield self.st.get_sync_info('replica')
- self.assertEqual(10, sync_info[3])
-
- @defer.inlineCallbacks
- def test_sync_exchange_push_many(self):
- """
- Test sync exchange.
-
- This test was adapted to decrypt remote content before assert.
- """
- docs_by_gen = [
- ((self.make_document,
- ('doc-id', 'replica:1', tests.simple_doc), {}), 10, 'T-1'),
- ((self.make_document,
- ('doc-id2', 'replica:1', tests.nested_doc), {}), 11, 'T-2')]
- new_gen, trans_id = yield self.st.sync_exchange(
- docs_by_gen, 'replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertGetEncryptedDoc(
- self.db, 'doc-id', 'replica:1', tests.simple_doc, False)
- self.assertGetEncryptedDoc(
- self.db, 'doc-id2', 'replica:1', tests.nested_doc, False)
- self.assertTransactionLog(['doc-id', 'doc-id2'], self.db)
- last_trans_id = self.getLastTransId(self.db)
- self.assertEqual(([], 2, last_trans_id),
- (self.other_changes, new_gen, trans_id))
- sync_info = yield self.st.get_sync_info('replica')
- self.assertEqual(11, sync_info[3])
-
- @defer.inlineCallbacks
- def test_sync_exchange_returns_many_new_docs(self):
- """
- Test sync exchange.
-
- This test was adapted to avoid JSON serialization comparison as local
- and remote representations might differ. It looks directly at the
- doc's contents instead.
- """
- doc = self.db.create_doc_from_json(tests.simple_doc)
- doc2 = self.db.create_doc_from_json(tests.nested_doc)
- self.assertTransactionLog([doc.doc_id, doc2.doc_id], self.db)
- new_gen, _ = yield self.st.sync_exchange(
- [], 'other-replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id, doc2.doc_id], self.db)
- self.assertEqual(2, new_gen)
- self.assertEqual(
- [(doc.doc_id, doc.rev, 1),
- (doc2.doc_id, doc2.rev, 2)],
- [c[:-3] + c[-2:-1] for c in self.other_changes])
- self.assertEqual(
- json.loads(tests.simple_doc),
- json.loads(self.other_changes[0][2]))
- self.assertEqual(
- json.loads(tests.nested_doc),
- json.loads(self.other_changes[1][2]))
- if self.whitebox:
- self.assertEqual(
- self.db._last_exchange_log['return'],
- {'last_gen': 2, 'docs':
- [(doc.doc_id, doc.rev), (doc2.doc_id, doc2.rev)]})
-
- def receive_doc(self, doc, gen, trans_id):
- self.other_changes.append(
- (doc.doc_id, doc.rev, doc.get_json(), gen, trans_id))
-
- def test_get_sync_target(self):
- self.assertIsNot(None, self.st)
-
- @defer.inlineCallbacks
- def test_get_sync_info(self):
- sync_info = yield self.st.get_sync_info('other')
- self.assertEqual(
- ('test', 0, '', 0, ''), sync_info)
-
- @defer.inlineCallbacks
- def test_create_doc_updates_sync_info(self):
- sync_info = yield self.st.get_sync_info('other')
- self.assertEqual(
- ('test', 0, '', 0, ''), sync_info)
- self.db.create_doc_from_json(tests.simple_doc)
- sync_info = yield self.st.get_sync_info('other')
- self.assertEqual(1, sync_info[1])
-
- @defer.inlineCallbacks
- def test_record_sync_info(self):
- yield self.st.record_sync_info('replica', 10, 'T-transid')
- sync_info = yield self.st.get_sync_info('replica')
- self.assertEqual(
- ('test', 0, '', 10, 'T-transid'), sync_info)
-
- @defer.inlineCallbacks
- def test_sync_exchange_deleted(self):
- doc = self.db.create_doc_from_json('{}')
- edit_rev = 'replica:1|' + doc.rev
- docs_by_gen = [
- ((self.make_document, (doc.doc_id, edit_rev, None), {}),
- 10, 'T-sid')]
- new_gen, trans_id = yield self.st.sync_exchange(
- docs_by_gen, 'replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertGetDocIncludeDeleted(
- self.db, doc.doc_id, edit_rev, None, False)
- self.assertTransactionLog([doc.doc_id, doc.doc_id], self.db)
- last_trans_id = self.getLastTransId(self.db)
- self.assertEqual(([], 2, last_trans_id),
- (self.other_changes, new_gen, trans_id))
- sync_info = yield self.st.get_sync_info('replica')
- self.assertEqual(10, sync_info[3])
-
- @defer.inlineCallbacks
- def test_sync_exchange_refuses_conflicts(self):
- doc = self.db.create_doc_from_json(tests.simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- new_doc = '{"key": "altval"}'
- docs_by_gen = [
- ((self.make_document, (doc.doc_id, 'replica:1', new_doc), {}), 10,
- 'T-sid')]
- new_gen, _ = yield self.st.sync_exchange(
- docs_by_gen, 'replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- self.assertEqual(
- (doc.doc_id, doc.rev, tests.simple_doc, 1),
- self.other_changes[0][:-1])
- self.assertEqual(1, new_gen)
- if self.whitebox:
- self.assertEqual(self.db._last_exchange_log['return'],
- {'last_gen': 1, 'docs': [(doc.doc_id, doc.rev)]})
-
- @defer.inlineCallbacks
- def test_sync_exchange_ignores_convergence(self):
- doc = self.db.create_doc_from_json(tests.simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- gen, txid = self.db._get_generation_info()
- docs_by_gen = [
- ((self.make_document, (doc.doc_id, doc.rev, tests.simple_doc), {}),
- 10, 'T-sid')]
- new_gen, _ = yield self.st.sync_exchange(
- docs_by_gen, 'replica', last_known_generation=gen,
- last_known_trans_id=txid, insert_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- self.assertEqual(([], 1), (self.other_changes, new_gen))
-
- @defer.inlineCallbacks
- def test_sync_exchange_returns_new_docs(self):
- doc = self.db.create_doc_from_json(tests.simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- new_gen, _ = yield self.st.sync_exchange(
- [], 'other-replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- self.assertEqual(
- (doc.doc_id, doc.rev, tests.simple_doc, 1),
- self.other_changes[0][:-1])
- self.assertEqual(1, new_gen)
- if self.whitebox:
- self.assertEqual(self.db._last_exchange_log['return'],
- {'last_gen': 1, 'docs': [(doc.doc_id, doc.rev)]})
-
- @defer.inlineCallbacks
- def test_sync_exchange_returns_deleted_docs(self):
- doc = self.db.create_doc_from_json(tests.simple_doc)
- self.db.delete_doc(doc)
- self.assertTransactionLog([doc.doc_id, doc.doc_id], self.db)
- new_gen, _ = yield self.st.sync_exchange(
- [], 'other-replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id, doc.doc_id], self.db)
- self.assertEqual(2, new_gen)
- self.assertEqual(
- (doc.doc_id, doc.rev, None, 2), self.other_changes[0][:-1])
- if self.whitebox:
- self.assertEqual(self.db._last_exchange_log['return'],
- {'last_gen': 2, 'docs': [(doc.doc_id, doc.rev)]})
-
- @defer.inlineCallbacks
- def test_sync_exchange_getting_newer_docs(self):
- doc = self.db.create_doc_from_json(tests.simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- new_doc = '{"key": "altval"}'
- docs_by_gen = [
- ((self.make_document, (doc.doc_id, 'test:1|z:2', new_doc), {}), 10,
- 'T-sid')]
- new_gen, _ = yield self.st.sync_exchange(
- docs_by_gen, 'other-replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertTransactionLog([doc.doc_id, doc.doc_id], self.db)
- self.assertEqual(([], 2), (self.other_changes, new_gen))
-
- @defer.inlineCallbacks
- def test_sync_exchange_with_concurrent_updates_of_synced_doc(self):
- expected = []
-
- def before_whatschanged_cb(state):
- if state != 'before whats_changed':
- return
- cont = '{"key": "cuncurrent"}'
- conc_rev = self.db.put_doc(
- self.make_document(doc.doc_id, 'test:1|z:2', cont))
- expected.append((doc.doc_id, conc_rev, cont, 3))
-
- self.set_trace_hook(before_whatschanged_cb)
- doc = self.db.create_doc_from_json(tests.simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- new_doc = '{"key": "altval"}'
- docs_by_gen = [
- ((self.make_document, (doc.doc_id, 'test:1|z:2', new_doc), {}), 10,
- 'T-sid')]
- new_gen, _ = yield self.st.sync_exchange(
- docs_by_gen, 'other-replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertEqual(expected, [c[:-1] for c in self.other_changes])
- self.assertEqual(3, new_gen)
-
- @defer.inlineCallbacks
- def test_sync_exchange_with_concurrent_updates(self):
-
- def after_whatschanged_cb(state):
- if state != 'after whats_changed':
- return
- self.db.create_doc_from_json('{"new": "doc"}')
-
- self.set_trace_hook(after_whatschanged_cb)
- doc = self.db.create_doc_from_json(tests.simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- new_doc = '{"key": "altval"}'
- docs_by_gen = [
- ((self.make_document, (doc.doc_id, 'test:1|z:2', new_doc), {}), 10,
- 'T-sid')]
- new_gen, _ = yield self.st.sync_exchange(
- docs_by_gen, 'other-replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertEqual(([], 2), (self.other_changes, new_gen))
-
- @defer.inlineCallbacks
- def test_sync_exchange_converged_handling(self):
- doc = self.db.create_doc_from_json(tests.simple_doc)
- docs_by_gen = [
- ((self.make_document, ('new', 'other:1', '{}'), {}), 4, 'T-foo'),
- ((self.make_document, (doc.doc_id, doc.rev, doc.get_json()), {}),
- 5, 'T-bar')]
- new_gen, _ = yield self.st.sync_exchange(
- docs_by_gen, 'other-replica', last_known_generation=0,
- last_known_trans_id=None, insert_doc_cb=self.receive_doc)
- self.assertEqual(([], 2), (self.other_changes, new_gen))
-
- @defer.inlineCallbacks
- def test_sync_exchange_detect_incomplete_exchange(self):
- def before_get_docs_explode(state):
- if state != 'before get_docs':
- return
- raise l2db.errors.U1DBError("fail")
- self.set_trace_hook(before_get_docs_explode)
- # suppress traceback printing in the wsgiref server
- # self.patch(simple_server.ServerHandler,
- # 'log_exception', lambda h, exc_info: None)
- doc = self.db.create_doc_from_json(tests.simple_doc)
- self.assertTransactionLog([doc.doc_id], self.db)
- self.assertRaises(
- (l2db.errors.U1DBError, l2db.errors.BrokenSyncStream),
- self.st.sync_exchange, [], 'other-replica',
- last_known_generation=0, last_known_trans_id=None,
- insert_doc_cb=self.receive_doc)
-
- @defer.inlineCallbacks
- def test_sync_exchange_doc_ids(self):
- sync_exchange_doc_ids = getattr(self.st, 'sync_exchange_doc_ids', None)
- if sync_exchange_doc_ids is None:
- self.skipTest("sync_exchange_doc_ids not implemented")
- db2 = self.create_database('test2')
- doc = db2.create_doc_from_json(tests.simple_doc)
- new_gen, trans_id = yield sync_exchange_doc_ids(
- db2, [(doc.doc_id, 10, 'T-sid')], 0, None,
- insert_doc_cb=self.receive_doc)
- self.assertGetDoc(self.db, doc.doc_id, doc.rev,
- tests.simple_doc, False)
- self.assertTransactionLog([doc.doc_id], self.db)
- last_trans_id = self.getLastTransId(self.db)
- self.assertEqual(([], 1, last_trans_id),
- (self.other_changes, new_gen, trans_id))
- self.assertEqual(10, self.st.get_sync_info(db2._replica_uid)[3])
-
- @defer.inlineCallbacks
- def test__set_trace_hook(self):
- called = []
-
- def cb(state):
- called.append(state)
-
- self.set_trace_hook(cb)
- yield self.st.sync_exchange([], 'replica', 0, None, self.receive_doc)
- yield self.st.record_sync_info('replica', 0, 'T-sid')
- self.assertEqual(['before whats_changed',
- 'after whats_changed',
- 'before get_docs',
- 'record_sync_info',
- ],
- called)
-
- @defer.inlineCallbacks
- def test__set_trace_hook_shallow(self):
- if (self.st._set_trace_hook_shallow == self.st._set_trace_hook or
- self.st._set_trace_hook_shallow.im_func ==
- target.SoledadHTTPSyncTarget._set_trace_hook_shallow.im_func):
- # shallow same as full
- expected = ['before whats_changed',
- 'after whats_changed',
- 'before get_docs',
- 'record_sync_info',
- ]
- else:
- expected = ['sync_exchange', 'record_sync_info']
-
- called = []
-
- def cb(state):
- called.append(state)
-
- self.set_trace_hook(cb, shallow=True)
- yield self.st.sync_exchange([], 'replica', 0, None, self.receive_doc)
- yield self.st.record_sync_info('replica', 0, 'T-sid')
- self.assertEqual(expected, called)
-
-
-WAIT_STEP = 1
-MAX_WAIT = 10
-DBPASS = "pass"
-
-
-class SyncTimeoutError(Exception):
-
- """
- Dummy exception to notify timeout during sync.
- """
- pass
-
-
-@pytest.mark.needs_couch
-class TestSoledadDbSync(
- TestWithScenarios,
- SoledadWithCouchServerMixin,
- tests.TestCaseWithServer):
-
- """Test db.sync remote sync shortcut"""
-
- scenarios = [
- ('py-token-http', {
- 'create_db_and_target': make_local_db_and_token_soledad_target,
- 'make_app_with_state': make_token_soledad_app,
- 'make_database_for_test': make_sqlcipher_database_for_test,
- 'token': True
- }),
- ]
-
- oauth = False
- token = False
-
- def setUp(self):
- """
- Need to explicitely invoke inicialization on all bases.
- """
- SoledadWithCouchServerMixin.setUp(self)
- self.server = self.server_thread = None
- self.startTwistedServer()
- self.syncer = None
-
- # config info
- self.db1_file = os.path.join(self.tempdir, "db1.u1db")
- os.unlink(self.db1_file)
- self.db_pass = DBPASS
- self.email = ADDRESS
-
- # get a random prefix for each test, so we do not mess with
- # concurrency during initialization and shutting down of
- # each local db.
- self.rand_prefix = ''.join(
- map(lambda x: random.choice(string.ascii_letters), range(6)))
-
- # open test dbs: db1 will be the local sqlcipher db (which
- # instantiates a syncdb). We use the self._soledad instance that was
- # already created on some setUp method.
- import binascii
- tohex = binascii.b2a_hex
- key = tohex(self._soledad.secrets.local_key)
- dbpath = self._soledad._local_db_path
-
- self.opts = SQLCipherOptions(
- dbpath, key, is_raw_key=True, create=False)
- self.db1 = SQLCipherDatabase(self.opts)
-
- self.db2 = self.request_state._create_database(replica_uid='test')
-
- def tearDown(self):
- """
- Need to explicitely invoke destruction on all bases.
- """
- dbsyncer = getattr(self, 'dbsyncer', None)
- if dbsyncer:
- dbsyncer.close()
- self.db1.close()
- self.db2.close()
- self._soledad.close()
-
- # XXX should not access "private" attrs
- shutil.rmtree(os.path.dirname(self._soledad._local_db_path))
- SoledadWithCouchServerMixin.tearDown(self)
-
- def do_sync(self, target_name):
- """
- Perform sync using SoledadSynchronizer, SoledadSyncTarget
- and Token auth.
- """
- if self.token:
- creds = {'token': {
- 'uuid': 'user-uuid',
- 'token': 'auth-token',
- }}
- target_url = self.getURL(self.db2._dbname)
-
- # get a u1db syncer
- crypto = self._soledad._crypto
- replica_uid = self.db1._replica_uid
- dbsyncer = SQLCipherU1DBSync(
- self.opts,
- crypto,
- replica_uid,
- None)
- self.dbsyncer = dbsyncer
- return dbsyncer.sync(target_url,
- creds=creds)
- else:
- return self._do_sync(self, target_name)
-
- def _do_sync(self, target_name):
- if self.oauth:
- path = '~/' + target_name
- extra = dict(creds={'oauth': {
- 'consumer_key': tests.consumer1.key,
- 'consumer_secret': tests.consumer1.secret,
- 'token_key': tests.token1.key,
- 'token_secret': tests.token1.secret,
- }})
- else:
- path = target_name
- extra = {}
- target_url = self.getURL(path)
- return self.db.sync(target_url, **extra)
-
- def wait_for_sync(self):
- """
- Wait for sync to finish.
- """
- wait = 0
- syncer = self.syncer
- if syncer is not None:
- while syncer.syncing:
- time.sleep(WAIT_STEP)
- wait += WAIT_STEP
- if wait >= MAX_WAIT:
- raise SyncTimeoutError
-
- def test_db_sync(self):
- """
- Test sync.
-
- Adapted to check for encrypted content.
- """
- doc1 = self.db1.create_doc_from_json(tests.simple_doc)
- doc2 = self.db2.create_doc_from_json(tests.nested_doc)
- d = self.do_sync('test')
-
- def _assert_successful_sync(results):
- import time
- # need to give time to the encryption to proceed
- # TODO should implement a defer list to subscribe to the
- # all-decrypted event
- time.sleep(2)
- local_gen_before_sync = results
- self.wait_for_sync()
-
- gen, _, changes = self.db1.whats_changed(local_gen_before_sync)
- self.assertEqual(1, len(changes))
-
- self.assertEqual(doc2.doc_id, changes[0][0])
- self.assertEqual(1, gen - local_gen_before_sync)
-
- self.assertGetEncryptedDoc(
- self.db2, doc1.doc_id, doc1.rev, tests.simple_doc, False)
- self.assertGetEncryptedDoc(
- self.db1, doc2.doc_id, doc2.rev, tests.nested_doc, False)
-
- d.addCallback(_assert_successful_sync)
- return d
-
-
-@pytest.mark.needs_couch
-class SQLCipherSyncTargetTests(SoledadDatabaseSyncTargetTests):
-
- # TODO: implement _set_trace_hook(_shallow) in SoledadHTTPSyncTarget so
- # skipped tests can be succesfully executed.
-
- scenarios = (tests.multiply_scenarios(SQLCIPHER_SCENARIOS,
- target_scenarios))
-
- whitebox = False