import email import json import os import pytest import random import time import treq import urllib from string import ascii_lowercase from subprocess import check_call from twisted.internet import reactor from twisted.internet.defer import returnValue from twisted.web.client import Agent from twisted.web.client import BrowserLikePolicyForHTTPS from twisted.internet.ssl import Certificate from twisted.cred.credentials import UsernamePassword import pgpy from pgpy.constants import ( PubKeyAlgorithm, KeyFlags, HashAlgorithm, SymmetricKeyAlgorithm, CompressionAlgorithm ) from bonafide import provider from bonafide.session import Session from leap.soledad.common.blobs import Flags _provider = 'cdev.bitmask.net' uri = "https://api.%s:4430/1/" % _provider ca = "https://%s/ca.crt" % _provider random.seed() # # session management: user creation and authentication # def _get_invite_code(): invite = os.environ.get('INVITE_CODE') if not invite: raise Exception('The INVITE_CODE environment variable is empty, but ' 'we need it set to interact with the provider.') return invite @pytest.inlineCallbacks def _get_ca_file(tmpdir): response = yield treq.get(ca) pemdata = yield response.text() fname = os.path.join(tmpdir.strpath, 'cacert.pem') with open(fname, 'w') as f: f.write(pemdata) returnValue(fname) @pytest.inlineCallbacks def get_session(tmpdir): # setup user params invite = _get_invite_code() username = ''.join(random.choice(ascii_lowercase) for i in range(20)) # users starting with "test_user" get removed by cron on a regular basis username = 'tmp_user_e2e_' + username passphrase = ''.join(random.choice(ascii_lowercase) for i in range(20)) # create user and login credentials = UsernamePassword(username, passphrase) api = provider.Api('https://api.%s:4430' % _provider) cdev_pem = yield _get_ca_file(tmpdir) session = Session(credentials, api, cdev_pem) print("creating user") yield session.signup(username, passphrase, invite=invite) print("logging in") yield session.authenticate() returnValue(session) # # OpenPGP key creation and upload # def gen_key(username): print("generating OpenPGP key pair") key = pgpy.PGPKey.new(PubKeyAlgorithm.RSAEncryptOrSign, 4096) uid = pgpy.PGPUID.new(username, email='%s@%s' % (username, _provider)) key.add_uid( uid, usage={KeyFlags.EncryptCommunications}, hashes=[HashAlgorithm.SHA512], ciphers=[SymmetricKeyAlgorithm.AES256], compression=[CompressionAlgorithm.Uncompressed] ) return key @pytest.inlineCallbacks def _get_http_client(): response = yield treq.get(ca) pemdata = yield response.text() cert = Certificate.loadPEM(pemdata) policy = BrowserLikePolicyForHTTPS(trustRoot=cert) agent = Agent(reactor, contextFactory=policy) client = treq.client.HTTPClient(agent) returnValue(client) @pytest.inlineCallbacks def put_key(uuid, token, data): print("uploading public key to server") client = yield _get_http_client() headers = { 'Authorization': [str('Token token=%s' % token)], 'Content-Type': ['application/x-www-form-urlencoded'], } data = str(urllib.urlencode({'user[public_key]': data})) response = yield client.put( '%s/users/%s.json' % (uri, uuid), headers=headers, data=data) assert response.code == 204 # # mail sending # def send_email(username): address = "%s@%s" % (username, _provider) print("sending email to %s" % address) secret = ''.join(random.choice(ascii_lowercase) for i in range(20)) cmd = [ 'swaks', '--silent', '2', '--helo', 'ci.leap.se', '-f', 'ci@leap.se', '-t', address, '-h-Subject', 'e2e test token', '--body', secret, '-tlsc' ] check_call(cmd) return secret # # incoming message retrieval # @pytest.inlineCallbacks def get_incoming_fd(client): pending = [] attempts = 1 while not pending: print("attempting to fetch incoming blob (%d/10)" % attempts) pending = yield client.blobmanager.remote_list( namespace='MX', filter_flag=Flags.PENDING) if not pending and attempts == 10: raise Exception("Timed out waiting for message to get delivered.") attempts += 1 time.sleep(1) assert len(pending) == 1 fd = yield client.blobmanager.get(pending.pop(), namespace='MX') returnValue(fd) def get_received_secret(key, fd): print("decoding incoming blob to get the secret") encrypted = pgpy.PGPMessage.from_blob(fd.read()) decrypted = key.decrypt(encrypted) doc_content = json.loads(decrypted.message) content = doc_content['content'] email_message = email.message_from_string(content) received_secret = email_message.get_payload().strip() return received_secret