"""Test ObjectStore backend bits. For these tests to run, a couch server has to be running on (default) port 5984. """ import copy from leap.soledad.backends import couch from leap.soledad.tests import u1db_tests as tests from leap.soledad.tests.u1db_tests import test_backends from leap.soledad.tests.u1db_tests import test_sync try: import simplejson as json except ImportError: import json # noqa #----------------------------------------------------------------------------- # A wrapper for running couchdb locally. #----------------------------------------------------------------------------- import re import os import tempfile import subprocess import time import unittest # from: https://github.com/smcq/paisley/blob/master/paisley/test/util.py # TODO: include license of above project. class CouchDBWrapper(object): """ Wrapper for external CouchDB instance which is started and stopped for testing. """ def start(self): self.tempdir = tempfile.mkdtemp(suffix='.couch.test') path = os.path.join(os.path.dirname(__file__), 'couchdb.ini.template') handle = open(path) conf = handle.read() % { 'tempdir': self.tempdir, } handle.close() confPath = os.path.join(self.tempdir, 'test.ini') handle = open(confPath, 'w') handle.write(conf) handle.close() # create the dirs from the template os.mkdir(os.path.join(self.tempdir, 'lib')) os.mkdir(os.path.join(self.tempdir, 'log')) args = ['couchdb', '-n' '-a', confPath] #null = open('/dev/null', 'w') self.process = subprocess.Popen( args, env=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE) # find port logPath = os.path.join(self.tempdir, 'log', 'couch.log') while not os.path.exists(logPath): if self.process.poll() is not None: raise Exception(""" couchdb exited with code %d. stdout: %s stderr: %s""" % ( self.process.returncode, self.process.stdout.read(), self.process.stderr.read())) time.sleep(0.01) while os.stat(logPath).st_size == 0: time.sleep(0.01) PORT_RE = re.compile( 'Apache CouchDB has started on http://127.0.0.1:(?P\d+)') handle = open(logPath) line = handle.read() handle.close() m = PORT_RE.search(line) if not m: self.stop() raise Exception("Cannot find port in line %s" % line) self.port = int(m.group('port')) def stop(self): self.process.terminate() os.system("rm -rf %s" % self.tempdir) class CouchDBTestCase(unittest.TestCase): """ TestCase base class for tests against a real CouchDB server. """ def setUp(self): self.wrapper = CouchDBWrapper() self.wrapper.start() #self.db = self.wrapper.db super(CouchDBTestCase, self).setUp() def tearDown(self): self.wrapper.stop() super(CouchDBTestCase, self).tearDown() #----------------------------------------------------------------------------- # The following tests come from `u1db.tests.test_common_backend`. #----------------------------------------------------------------------------- class TestCouchBackendImpl(CouchDBTestCase): def test__allocate_doc_id(self): db = couch.CouchDatabase('http://localhost:'+str(self.wrapper.port), 'u1db_tests') 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()) #----------------------------------------------------------------------------- # The following tests come from `u1db.tests.test_backends`. #----------------------------------------------------------------------------- def make_couch_database_for_test(test, replica_uid): port = str(test.wrapper.port) return couch.CouchDatabase('http://localhost:'+port, replica_uid, replica_uid=replica_uid or 'test') def copy_couch_database_for_test(test, db): port = str(test.wrapper.port) new_db = couch.CouchDatabase('http://localhost:'+port, db._replica_uid + '_copy', replica_uid=db._replica_uid or 'test') gen, docs = db.get_all_docs(include_deleted=True) for doc in docs: new_db._put_doc(doc) new_db._transaction_log = copy.deepcopy(db._transaction_log) new_db._conflicts = copy.deepcopy(db._conflicts) new_db._other_generations = copy.deepcopy(db._other_generations) new_db._indexes = copy.deepcopy(db._indexes) new_db._set_u1db_data() return new_db 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': tests.make_document_for_test, }), ] class CouchTests(test_backends.AllDatabaseTests, CouchDBTestCase): scenarios = COUCH_SCENARIOS def tearDown(self): self.db.delete_database() super(CouchTests, self).tearDown() class CouchDatabaseTests(test_backends.LocalDatabaseTests, CouchDBTestCase): scenarios = COUCH_SCENARIOS def tearDown(self): self.db.delete_database() super(CouchDatabaseTests, self).tearDown() class CouchValidateGenNTransIdTests( test_backends.LocalDatabaseValidateGenNTransIdTests, CouchDBTestCase): scenarios = COUCH_SCENARIOS def tearDown(self): self.db.delete_database() super(CouchValidateGenNTransIdTests, self).tearDown() class CouchValidateSourceGenTests( test_backends.LocalDatabaseValidateSourceGenTests, CouchDBTestCase): scenarios = COUCH_SCENARIOS def tearDown(self): self.db.delete_database() super(CouchValidateSourceGenTests, self).tearDown() class CouchWithConflictsTests( test_backends.LocalDatabaseWithConflictsTests, CouchDBTestCase): scenarios = COUCH_SCENARIOS def tearDown(self): self.db.delete_database() super(CouchWithConflictsTests, self).tearDown() # Notice: the CouchDB backend is currently used for storing encrypted data in # the server, so indexing makes no sense. Thus, we ignore index testing for # now. class CouchIndexTests(test_backends.DatabaseIndexTests, CouchDBTestCase): scenarios = COUCH_SCENARIOS def tearDown(self): self.db.delete_database() super(CouchIndexTests, self).tearDown() #----------------------------------------------------------------------------- # The following tests come from `u1db.tests.test_sync`. #----------------------------------------------------------------------------- target_scenarios = [ ('local', {'create_db_and_target': test_sync._make_local_db_and_target}), ] simple_doc = tests.simple_doc nested_doc = tests.nested_doc class CouchDatabaseSyncTargetTests(test_sync.DatabaseSyncTargetTests, CouchDBTestCase): scenarios = (tests.multiply_scenarios(COUCH_SCENARIOS, target_scenarios)) def tearDown(self): self.db.delete_database() super(CouchDatabaseSyncTargetTests, self).tearDown() 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)]}) sync_scenarios = [] for name, scenario in COUCH_SCENARIOS: scenario = dict(scenario) scenario['do_sync'] = test_sync.sync_via_synchronizer sync_scenarios.append((name, scenario)) scenario = dict(scenario) class CouchDatabaseSyncTests(test_sync.DatabaseSyncTests, CouchDBTestCase): scenarios = sync_scenarios def setUp(self): self.db = None self.db1 = None self.db2 = None self.db3 = None super(CouchDatabaseSyncTests, self).setUp() def tearDown(self): self.db and self.db.delete_database() self.db1 and self.db1.delete_database() self.db2 and self.db2.delete_database() self.db3 and self.db3.delete_database() db = self.create_database('test1_copy', 'source') db.delete_database() db = self.create_database('test2_copy', 'target') db.delete_database() db = self.create_database('test3', 'target') db.delete_database() super(CouchDatabaseSyncTests, self).tearDown() load_tests = tests.load_with_scenarios