def setUp(self): self.unittest_dir = cd_unittest() self.master_key = MasterKey() self.settings = Settings() self.file_name = f'{DIR_USER_DATA}{self.settings.software_operation}_groups' self.contact_list = ContactList(self.master_key, self.settings) self.group_list = GroupList(self.master_key, self.settings, self.contact_list) self.nicks = [ 'Alice', 'Bob', 'Charlie', 'David', 'Eric', 'Fido', 'Guido', 'Heidi', 'Ivan', 'Joana', 'Karol' ] self.group_names = [ 'test_group_1', 'test_group_2', 'test_group_3', 'test_group_4', 'test_group_5', 'test_group_6', 'test_group_7', 'test_group_8', 'test_group_9', 'test_group_10', 'test_group_11' ] members = list(map(create_contact, self.nicks)) self.contact_list.contacts = members self.group_list.groups = \ [Group(name =name, group_id =group_name_to_group_id(name), log_messages =False, notifications=False, members =members, settings =self.settings, store_groups =self.group_list.store_groups) for name in self.group_names] self.single_member_data_len = ( GROUP_STATIC_LENGTH + self.settings.max_number_of_group_members * ONION_SERVICE_PUBLIC_KEY_LENGTH)
def test_add_contact(self): # Setup contact1 = Contact('*****@*****.**', '*****@*****.**', 'Alice', 32 * b'\x01', 32 * b'\x02', True, True, True) contact2 = Contact('*****@*****.**', '*****@*****.**', 'Charlie', 32 * b'\x01', 32 * b'\x02', True, True, True) settings = Settings(software_operation='ut', m_number_of_accnts=20) master_k = MasterKey() contact_l = ContactList(master_k, settings) contact_l.contacts = [contact1, contact2] contact_l.add_contact('*****@*****.**', '*****@*****.**', 'Alice', 32 * b'\x03', 32 * b'\x04', True, True, True) contact_l.add_contact('*****@*****.**', '*****@*****.**', 'David', 32 * b'\x03', 32 * b'\x04', True, True, True) contact_l2 = ContactList(master_k, settings) c_alice = contact_l2.get_contact('Alice') c_david = contact_l2.get_contact('David') # Test self.assertIsInstance(c_alice, Contact) self.assertIsInstance(c_david, Contact) self.assertEqual(c_alice.tx_fingerprint, 32 * b'\x03') self.assertEqual(c_david.tx_fingerprint, 32 * b'\x03')
def test_add_contact(self): tx_fingerprint = FINGERPRINT_LENGTH * b'\x03' rx_fingerprint = FINGERPRINT_LENGTH * b'\x04' self.assertIsNone( self.contact_list.add_contact( nick_to_pub_key('Faye'), 'Faye', tx_fingerprint, rx_fingerprint, KEX_STATUS_UNVERIFIED, self.settings.log_messages_by_default, self.settings.accept_files_by_default, self.settings.show_notifications_by_default)) # Test new contact was stored by loading # the database from file to another object contact_list2 = ContactList(MasterKey(), Settings()) faye = contact_list2.get_contact_by_pub_key(nick_to_pub_key('Faye')) self.assertEqual(len(self.contact_list), len(self.real_contact_list) + 1) self.assertIsInstance(faye, Contact) self.assertEqual(faye.tx_fingerprint, tx_fingerprint) self.assertEqual(faye.rx_fingerprint, rx_fingerprint) self.assertEqual(faye.kex_status, KEX_STATUS_UNVERIFIED) self.assertEqual(faye.log_messages, self.settings.log_messages_by_default) self.assertEqual(faye.file_reception, self.settings.accept_files_by_default) self.assertEqual(faye.notifications, self.settings.show_notifications_by_default)
def setUp(self): self.master_key = MasterKey() self.settings = Settings() self.contact_list = ContactList(self.master_key, self.settings) self.contact_list.contacts = list( map(create_contact, ['Alice', 'Benny', 'Charlie', 'David', 'Eric']))
def test_contact_printing(self): # Setup contact_list = ContactList(MasterKey(), Settings()) contact_list.contacts = [ create_contact(n) for n in ['Alice', 'Bob', 'Charlie', 'David'] ] # Teardown self.assertIsNone(contact_list.print_contacts())
def test_len_returns_number_of_contacts(self): # Setup contact = Contact('*****@*****.**', '*****@*****.**', 'Alice', 32 * b'\x01', 32 * b'\x02', True, True, True) contact_l = ContactList(MasterKey(), Settings()) contact_l.contacts = 5 * [contact] # Test self.assertEqual(len(contact_l), 5)
def test_iterate_over_contacts(self): # Setup contact = Contact('*****@*****.**', '*****@*****.**', 'Alice', 32 * b'\x01', 32 * b'\x02', True, True, True) contact_l = ContactList(MasterKey(), Settings()) contact_l.contacts = 5 * [contact] # Test for c in contact_l: self.assertIsInstance(c, Contact)
def test_load_of_modified_database_raises_critical_error(self) -> None: self.contact_list.store_contacts() # Test reading works normally self.assertIsInstance(ContactList(self.master_key, self.settings), ContactList) # Test loading of tampered database raises CriticalError tamper_file(self.file_name, tamper_size=1) with self.assertRaises(SystemExit): ContactList(self.master_key, self.settings)
def setUp(self) -> None: """Pre-test actions.""" self.unit_test_dir = cd_unit_test() self.master_key = MasterKey() self.settings = Settings() self.file_name = f'{DIR_USER_DATA}{self.settings.software_operation}_contacts' self.contact_list = ContactList(self.master_key, self.settings) self.full_contact_list = ['Alice', 'Bob', 'Charlie', 'David', 'Eric', LOCAL_ID] self.contact_list.contacts = list(map(create_contact, self.full_contact_list)) self.real_contact_list = self.full_contact_list[:] self.real_contact_list.remove(LOCAL_ID)
def test_add_contact_that_replaces_an_existing_contact(self): alice = self.contact_list.get_contact_by_pub_key( nick_to_pub_key('Alice')) new_nick = 'Alice2' new_tx_fingerprint = FINGERPRINT_LENGTH * b'\x03' new_rx_fingerprint = FINGERPRINT_LENGTH * b'\x04' # Verify that existing nick, kex status and fingerprints are # different from those that will replace the existing data self.assertNotEqual(alice.nick, new_nick) self.assertNotEqual(alice.tx_fingerprint, new_tx_fingerprint) self.assertNotEqual(alice.rx_fingerprint, new_rx_fingerprint) self.assertNotEqual(alice.kex_status, KEX_STATUS_UNVERIFIED) # Make sure each contact setting is opposite from default value alice.log_messages = not self.settings.log_messages_by_default alice.file_reception = not self.settings.accept_files_by_default alice.notifications = not self.settings.show_notifications_by_default # Replace the existing contact self.assertIsNone( self.contact_list.add_contact( nick_to_pub_key('Alice'), new_nick, new_tx_fingerprint, new_rx_fingerprint, KEX_STATUS_UNVERIFIED, self.settings.log_messages_by_default, self.settings.accept_files_by_default, self.settings.show_notifications_by_default)) # Load database to another object from # file to verify new contact was stored contact_list2 = ContactList(MasterKey(), Settings()) alice = contact_list2.get_contact_by_pub_key(nick_to_pub_key('Alice')) # Verify the content of loaded data self.assertEqual(len(contact_list2), len(self.real_contact_list)) self.assertIsInstance(alice, Contact) # Test replaced contact replaced nick, fingerprints and kex status self.assertEqual(alice.nick, new_nick) self.assertEqual(alice.tx_fingerprint, new_tx_fingerprint) self.assertEqual(alice.rx_fingerprint, new_rx_fingerprint) self.assertEqual(alice.kex_status, KEX_STATUS_UNVERIFIED) # Test replaced contact kept settings set # to be opposite from default settings self.assertNotEqual(alice.log_messages, self.settings.log_messages_by_default) self.assertNotEqual(alice.file_reception, self.settings.accept_files_by_default) self.assertNotEqual(alice.notifications, self.settings.show_notifications_by_default)
def test_database_encryption_with_another_key(self, _: Any) -> None: # Setup window = RxWindow(type=WIN_TYPE_CONTACT, uid=nick_to_pub_key('Alice'), name='Alice', type_print='contact') contact_list = ContactList(self.old_master_key, self.settings) contact_list.contacts = [create_contact('Alice')] group_list = GroupList() # Create temp file that must be removed. temp_file_data = os.urandom(LOG_ENTRY_LENGTH) with open(self.tmp_file_name, 'wb+') as f: f.write(temp_file_data) # Add a message from contact Alice to user (Bob). for p in assembly_packet_creator(MESSAGE, 'This is a short message'): write_log_entry(p, nick_to_pub_key('Alice'), self.message_log, origin=ORIGIN_CONTACT_HEADER) # Add a message from user (Bob) to Alice. for p in assembly_packet_creator(MESSAGE, 'This is a short message'): write_log_entry(p, nick_to_pub_key('Alice'), self.message_log) # Check logfile content. message = (CLEAR_ENTIRE_SCREEN + CURSOR_LEFT_UP_CORNER + f"""\ Log file of message(s) sent to contact Alice ════════════════════════════════════════════════════════════════════════════════ {self.time} Alice: This is a short message {self.time} Me: This is a short message <End of log file> """) self.assertIsNone( change_log_db_key(self.old_master_key.master_key, self.new_master_key.master_key, self.settings)) with open(self.tmp_file_name, 'rb') as f: purp_temp_data = f.read() self.assertNotEqual(purp_temp_data, temp_file_data) # Test that decryption with new key is identical. replace_log_db(self.settings) self.assert_prints(message, access_logs, window, contact_list, group_list, self.settings, self.new_master_key) # Test that temp file is removed. self.assertFalse(os.path.isfile(self.tmp_file_name))
def test_add_contact(self): self.assertIsNone( self.contact_list.add_contact(f'*****@*****.**', '*****@*****.**', f'Faye', FINGERPRINT_LEN * b'\x03', FINGERPRINT_LEN * b'\x04', True, True, True)) contact_list2 = ContactList(MasterKey(), Settings()) c_alice = contact_list2.get_contact('Alice') c_faye = contact_list2.get_contact('Faye') self.assertEqual(len(self.contact_list), 6) self.assertIsInstance(c_alice, Contact) self.assertEqual(c_alice.tx_fingerprint, FINGERPRINT_LEN * b'\x01') self.assertEqual(c_faye.tx_fingerprint, FINGERPRINT_LEN * b'\x03')
def setUp(self): self.unittest_dir = cd_unittest() self.master_key = MasterKey() self.settings = Settings() self.window = RxWindow(type=WIN_TYPE_CONTACT, uid=nick_to_pub_key('Alice'), name='Alice', type_print='contact') self.contact_list = ContactList(self.master_key, self.settings) self.contact_list.contacts = list( map(create_contact, ['Alice', 'Charlie'])) self.time = STATIC_TIMESTAMP self.group_list = GroupList(groups=['test_group']) self.group = self.group_list.get_group('test_group') self.group.members = self.contact_list.contacts self.args = self.window, self.contact_list, self.group_list, self.settings, self.master_key self.msg = ( "Lorem ipsum dolor sit amet, consectetur adipiscing elit. Aenean condimentum consectetur purus quis" " dapibus. Fusce venenatis lacus ut rhoncus faucibus. Cras sollicitudin commodo sapien, sed bibendu" "m velit maximus in. Aliquam ac metus risus. Sed cursus ornare luctus. Integer aliquet lectus id ma" "ssa blandit imperdiet. Ut sed massa eget quam facilisis rutrum. Mauris eget luctus nisl. Sed ut el" "it iaculis, faucibus lacus eget, sodales magna. Nunc sed commodo arcu. In hac habitasse platea dic" "tumst. Integer luctus aliquam justo, at vestibulum dolor iaculis ac. Etiam laoreet est eget odio r" "utrum, vel malesuada lorem rhoncus. Cras finibus in neque eu euismod. Nulla facilisi. Nunc nec ali" "quam quam, quis ullamcorper leo. Nunc egestas lectus eget est porttitor, in iaculis felis sceleris" "que. In sem elit, fringilla id viverra commodo, sagittis varius purus. Pellentesque rutrum loborti" "s neque a facilisis. Mauris id tortor placerat, aliquam dolor ac, venenatis arcu." )
def setUp(self) -> None: """Pre-test actions.""" self.unit_test_dir = cd_unit_test() self.master_key = MasterKey() self.settings = Settings() self.time = STATIC_TIMESTAMP self.contact_list = ContactList(self.master_key, self.settings) self.group_list = GroupList(groups=['test_group']) self.file_name = f'{DIR_USER_DATA}{self.settings.software_operation}_logs' self.tmp_file_name = self.file_name + "_temp" self.tfc_log_database = MessageLog(self.file_name, self.master_key.master_key) self.args = self.contact_list, self.group_list, self.settings, self.master_key self.msg = ( "Lorem ipsum dolor sit amet, consectetur adipiscing elit. Aenean condimentum consectetur purus quis" " dapibus. Fusce venenatis lacus ut rhoncus faucibus. Cras sollicitudin commodo sapien, sed bibendu" "m velit maximus in. Aliquam ac metus risus. Sed cursus ornare luctus. Integer aliquet lectus id ma" "ssa blandit imperdiet. Ut sed massa eget quam facilisis rutrum. Mauris eget luctus nisl. Sed ut el" "it iaculis, faucibus lacus eget, sodales magna. Nunc sed commodo arcu. In hac habitasse platea dic" "tumst. Integer luctus aliquam justo, at vestibulum dolor iaculis ac. Etiam laoreet est eget odio r" "utrum, vel malesuada lorem rhoncus. Cras finibus in neque eu euismod. Nulla facilisi. Nunc nec ali" "quam quam, quis ullamcorper leo. Nunc egestas lectus eget est porttitor, in iaculis felis sceleris" "que. In sem elit, fringilla id viverra commodo, sagittis varius purus. Pellentesque rutrum loborti" "s neque a facilisis. Mauris id tortor placerat, aliquam dolor ac, venenatis arcu." )
def setUp(self): self.masterkey = MasterKey() self.settings = Settings() self.window = RxWindow(type=WIN_TYPE_CONTACT, uid='*****@*****.**', name='Alice') self.contact_list = ContactList(self.masterkey, self.settings) self.contact_list.contacts = list(map(create_contact, ['Alice', 'Charlie'])) self.time = datetime.fromtimestamp(struct.unpack('<L', binascii.unhexlify('08ceae02'))[0]).strftime('%H:%M') self.group_list = GroupList(groups=['test_group']) group = self.group_list.get_group('test_group') group.members = self.contact_list.contacts self.o_struct = struct.pack struct.pack = lambda *_: binascii.unhexlify('08ceae02') self.msg = ("Lorem ipsum dolor sit amet, consectetur adipiscing elit. Aenean condimentum consectetur purus quis" " dapibus. Fusce venenatis lacus ut rhoncus faucibus. Cras sollicitudin commodo sapien, sed bibendu" "m velit maximus in. Aliquam ac metus risus. Sed cursus ornare luctus. Integer aliquet lectus id ma" "ssa blandit imperdiet. Ut sed massa eget quam facilisis rutrum. Mauris eget luctus nisl. Sed ut el" "it iaculis, faucibus lacus eget, sodales magna. Nunc sed commodo arcu. In hac habitasse platea dic" "tumst. Integer luctus aliquam justo, at vestibulum dolor iaculis ac. Etiam laoreet est eget odio r" "utrum, vel malesuada lorem rhoncus. Cras finibus in neque eu euismod. Nulla facilisi. Nunc nec ali" "quam quam, quis ullamcorper leo. Nunc egestas lectus eget est porttitor, in iaculis felis sceleris" "que. In sem elit, fringilla id viverra commodo, sagittis varius purus. Pellentesque rutrum loborti" "s neque a facilisis. Mauris id tortor placerat, aliquam dolor ac, venenatis arcu.").encode()
def test_get_contact(self): # Setup contact1 = Contact('*****@*****.**', '*****@*****.**', 'Alice', 32 * b'\x01', 32 * b'\x02', True, True, True) contact2 = Contact('*****@*****.**', '*****@*****.**', 'Charlie', 32 * b'\x01', 32 * b'\x02', True, True, True) settings = Settings() master_k = MasterKey() contact_l = ContactList(master_k, settings) contact_l.contacts = [contact1, contact2] # Test co1 = contact_l.get_contact('*****@*****.**') self.assertIsInstance(co1, Contact) self.assertEqual(co1.rx_account, '*****@*****.**') co2 = contact_l.get_contact('Alice') self.assertIsInstance(co2, Contact) self.assertEqual(co2.rx_account, '*****@*****.**')
def setUp(self): self.master_key = MasterKey() self.settings = Settings() self.contact_list = ContactList(self.master_key, self.settings) self.group_list = GroupList(self.master_key, self.settings, self.contact_list) members = [create_contact(n) for n in ['Alice', 'Bob', 'Charlie', 'David', 'Eric', 'Fido', 'Guido', 'Heidi', 'Ivan', 'Joana', 'Karol']] self.contact_list.contacts = members groups = [Group(n, False, False, members, self.settings, self.group_list.store_groups) for n in ['testgroup_1', 'testgroup_2', 'testgroup_3', 'testgroup_4', 'testgroup_5', 'testgroup_6', 'testgroup_7', 'testgroup_8', 'testgroup_9', 'testgroup_10', 'testgroup_11']] self.group_list.groups = groups self.group_list.store_groups() self.single_member_data = (PADDED_UTF32_STR_LEN + (2 * BOOLEAN_SETTING_LEN) + (self.settings.max_number_of_group_members * PADDED_UTF32_STR_LEN))
def test_database_encryption_with_another_key(self): # Setup window = RxWindow(type=WIN_TYPE_CONTACT, uid='*****@*****.**', name='Alice') contact_list = ContactList(self.old_key, self.settings) contact_list.contacts = [create_contact()] group_list = GroupList() # Create temp file that must be removed with open("user_data/ut_logs_temp", 'wb+') as f: f.write(os.urandom(LOG_ENTRY_LENGTH)) for p in assembly_packet_creator(MESSAGE, b'This is a short message'): write_log_entry(p, '*****@*****.**', self.settings, self.old_key, origin=ORIGIN_CONTACT_HEADER) for p in assembly_packet_creator(MESSAGE, b'This is a short message'): write_log_entry(p, '*****@*****.**', self.settings, self.old_key) # Test self.assertPrints((CLEAR_ENTIRE_SCREEN + CURSOR_LEFT_UP_CORNER + f"""\ Logfile of messages to/from Alice ════════════════════════════════════════════════════════════════════════════════ {self.time} Alice: This is a short message {self.time} Me: This is a short message <End of logfile> """), access_logs, window, contact_list, group_list, self.settings, self.old_key) self.assertIsNone(re_encrypt(self.old_key.master_key, self.new_key.master_key, self.settings)) # Test that decryption works with new key self.assertPrints((CLEAR_ENTIRE_SCREEN + CURSOR_LEFT_UP_CORNER + f"""\ Logfile of messages to/from Alice ════════════════════════════════════════════════════════════════════════════════ {self.time} Alice: This is a short message {self.time} Me: This is a short message <End of logfile> """), access_logs, window, contact_list, group_list, self.settings, self.new_key) # Test that temp file is removed self.assertFalse(os.path.isfile("user_data/ut_logs_temp"))
def test_storing_and_loading_of_contacts(self) -> None: # Test store self.contact_list.store_contacts() self.assertEqual(os.path.getsize(self.file_name), XCHACHA20_NONCE_LENGTH + (self.settings.max_number_of_contacts + 1) * CONTACT_LENGTH + POLY1305_TAG_LENGTH) # Test load contact_list2 = ContactList(self.master_key, self.settings) self.assertEqual(len(contact_list2), len(self.real_contact_list)) self.assertEqual(len(contact_list2.contacts), len(self.full_contact_list)) for c in contact_list2: self.assertIsInstance(c, Contact)
def test_invalid_content_raises_critical_error(self) -> None: # Setup invalid_data = b'a' pt_bytes = b''.join([c.serialize_c() for c in self.contact_list.contacts + self.contact_list._dummy_contacts()]) ct_bytes = encrypt_and_sign(pt_bytes + invalid_data, self.master_key.master_key) ensure_dir(DIR_USER_DATA) with open(self.file_name, 'wb+') as f: f.write(ct_bytes) # Test with self.assertRaises(SystemExit): ContactList(self.master_key, self.settings)
def test_storing_and_loading_of_contacts(self): # Test store self.contact_list.store_contacts() self.assertTrue(os.path.isfile(f'{DIR_USER_DATA}ut_contacts')) self.assertEqual( os.path.getsize(f'{DIR_USER_DATA}ut_contacts'), XSALSA20_NONCE_LEN + self.settings.max_number_of_contacts * CONTACT_LENGTH + POLY1305_TAG_LEN) # Test load contact_list2 = ContactList(self.master_key, self.settings) self.assertEqual(len(contact_list2), 5) for c in contact_list2: self.assertIsInstance(c, Contact)
def test_local_contact(self): # Setup contact1 = Contact('*****@*****.**', '*****@*****.**', 'Alice', 32 * b'\x01', 32 * b'\x02', True, True, True) contact_l = ContactList(MasterKey(), Settings()) contact_l.contacts = [contact1] o_get_tty_w = src.common.misc.get_tty_w src.common.misc.get_tty_w = lambda x: 1 # Test self.assertFalse(contact_l.has_local_contact()) contact_l.add_contact('local', 'local', 'local', 32 * b'\x03', 32 * b'\x04', True, True, True) self.assertTrue(contact_l.has_local_contact()) self.assertIsNone(contact_l.print_contacts()) self.assertIsNone(contact_l.print_contacts(spacing=True)) # Teardown src.common.misc.get_tty_w = o_get_tty_w
def test_getters(self): # Setup contact1 = Contact('*****@*****.**', '*****@*****.**', 'Alice', 32 * b'\x01', 32 * b'\x02', True, True, True) contact2 = Contact('*****@*****.**', '*****@*****.**', 'Charlie', 32 * b'\x01', 32 * b'\x02', True, True, True) settings = Settings() master_k = MasterKey() contact_l = ContactList(master_k, settings) contact_l.contacts = [contact1, contact2] # Test self.assertEqual( contact_l.contact_selectors(), ['*****@*****.**', '*****@*****.**', 'Alice', 'Charlie']) self.assertEqual(contact_l.get_list_of_accounts(), ['*****@*****.**', '*****@*****.**']) self.assertEqual(contact_l.get_list_of_nicks(), ['Alice', 'Charlie']) self.assertEqual(contact_l.get_list_of_users_accounts(), ['*****@*****.**'])
def test_store_and_load_contacts(self): # Setup contact = Contact('*****@*****.**', '*****@*****.**', 'Alice', 32 * b'\x01', 32 * b'\x02', True, True, True) settings = Settings() master_k = MasterKey() contact_l = ContactList(master_k, settings) contact_l.contacts = 5 * [contact] contact_l.store_contacts() # Test contact_l2 = ContactList(master_k, settings) self.assertEqual(len(contact_l2), 5) for c in contact_l2: self.assertIsInstance(c, Contact) self.assertTrue(os.path.isfile(f'{DIR_USER_DATA}/ut_contacts')) self.assertEqual( os.path.getsize(f'{DIR_USER_DATA}/ut_contacts'), 24 + 20 * (1024 + 1024 + 1024 + 32 + 32 + 1 + 1 + 1) + 16) os.remove(f'{DIR_USER_DATA}/ut_contacts')
class TestContactList(TFCTestCase): def setUp(self): """Pre-test actions.""" self.unit_test_dir = cd_unit_test() self.master_key = MasterKey() self.settings = Settings() self.file_name = f'{DIR_USER_DATA}{self.settings.software_operation}_contacts' self.contact_list = ContactList(self.master_key, self.settings) self.full_contact_list = [ 'Alice', 'Bob', 'Charlie', 'David', 'Eric', LOCAL_ID ] self.contact_list.contacts = list( map(create_contact, self.full_contact_list)) self.real_contact_list = self.full_contact_list[:] self.real_contact_list.remove(LOCAL_ID) def tearDown(self): """Post-test actions.""" cleanup(self.unit_test_dir) def test_contact_list_iterates_over_contact_objects(self): for c in self.contact_list: self.assertIsInstance(c, Contact) def test_len_returns_the_number_of_contacts_and_excludes_the_local_key( self): self.assertEqual(len(self.contact_list), len(self.real_contact_list)) def test_storing_and_loading_of_contacts(self): # Test store self.contact_list.store_contacts() self.assertEqual( os.path.getsize(self.file_name), XCHACHA20_NONCE_LENGTH + (self.settings.max_number_of_contacts + 1) * CONTACT_LENGTH + POLY1305_TAG_LENGTH) # Test load contact_list2 = ContactList(self.master_key, self.settings) self.assertEqual(len(contact_list2), len(self.real_contact_list)) self.assertEqual(len(contact_list2.contacts), len(self.full_contact_list)) for c in contact_list2: self.assertIsInstance(c, Contact) def test_invalid_content_raises_critical_error(self): # Setup invalid_data = b'a' pt_bytes = b''.join([ c.serialize_c() for c in self.contact_list.contacts + self.contact_list._dummy_contacts() ]) ct_bytes = encrypt_and_sign(pt_bytes + invalid_data, self.master_key.master_key) ensure_dir(DIR_USER_DATA) with open(self.file_name, 'wb+') as f: f.write(ct_bytes) # Test with self.assertRaises(SystemExit): ContactList(self.master_key, self.settings) def test_load_of_modified_database_raises_critical_error(self): self.contact_list.store_contacts() # Test reading works normally self.assertIsInstance(ContactList(self.master_key, self.settings), ContactList) # Test loading of tampered database raises CriticalError tamper_file(self.file_name, tamper_size=1) with self.assertRaises(SystemExit): ContactList(self.master_key, self.settings) def test_generate_dummy_contact(self): dummy_contact = ContactList.generate_dummy_contact() self.assertIsInstance(dummy_contact, Contact) self.assertEqual(len(dummy_contact.serialize_c()), CONTACT_LENGTH) def test_dummy_contacts(self): dummies = self.contact_list._dummy_contacts() self.assertEqual( len(dummies), self.settings.max_number_of_contacts - len(self.real_contact_list)) for c in dummies: self.assertIsInstance(c, Contact) def test_add_contact(self): tx_fingerprint = FINGERPRINT_LENGTH * b'\x03' rx_fingerprint = FINGERPRINT_LENGTH * b'\x04' self.assertIsNone( self.contact_list.add_contact( nick_to_pub_key('Faye'), 'Faye', tx_fingerprint, rx_fingerprint, KEX_STATUS_UNVERIFIED, self.settings.log_messages_by_default, self.settings.accept_files_by_default, self.settings.show_notifications_by_default)) # Test new contact was stored by loading # the database from file to another object contact_list2 = ContactList(MasterKey(), Settings()) faye = contact_list2.get_contact_by_pub_key(nick_to_pub_key('Faye')) self.assertEqual(len(self.contact_list), len(self.real_contact_list) + 1) self.assertIsInstance(faye, Contact) self.assertEqual(faye.tx_fingerprint, tx_fingerprint) self.assertEqual(faye.rx_fingerprint, rx_fingerprint) self.assertEqual(faye.kex_status, KEX_STATUS_UNVERIFIED) self.assertEqual(faye.log_messages, self.settings.log_messages_by_default) self.assertEqual(faye.file_reception, self.settings.accept_files_by_default) self.assertEqual(faye.notifications, self.settings.show_notifications_by_default) def test_add_contact_that_replaces_an_existing_contact(self): alice = self.contact_list.get_contact_by_pub_key( nick_to_pub_key('Alice')) new_nick = 'Alice2' new_tx_fingerprint = FINGERPRINT_LENGTH * b'\x03' new_rx_fingerprint = FINGERPRINT_LENGTH * b'\x04' # Verify that existing nick, kex status and fingerprints are # different from those that will replace the existing data self.assertNotEqual(alice.nick, new_nick) self.assertNotEqual(alice.tx_fingerprint, new_tx_fingerprint) self.assertNotEqual(alice.rx_fingerprint, new_rx_fingerprint) self.assertNotEqual(alice.kex_status, KEX_STATUS_UNVERIFIED) # Make sure each contact setting is opposite from default value alice.log_messages = not self.settings.log_messages_by_default alice.file_reception = not self.settings.accept_files_by_default alice.notifications = not self.settings.show_notifications_by_default # Replace the existing contact self.assertIsNone( self.contact_list.add_contact( nick_to_pub_key('Alice'), new_nick, new_tx_fingerprint, new_rx_fingerprint, KEX_STATUS_UNVERIFIED, self.settings.log_messages_by_default, self.settings.accept_files_by_default, self.settings.show_notifications_by_default)) # Load database to another object from # file to verify new contact was stored contact_list2 = ContactList(MasterKey(), Settings()) alice = contact_list2.get_contact_by_pub_key(nick_to_pub_key('Alice')) # Verify the content of loaded data self.assertEqual(len(contact_list2), len(self.real_contact_list)) self.assertIsInstance(alice, Contact) # Test replaced contact replaced nick, fingerprints and kex status self.assertEqual(alice.nick, new_nick) self.assertEqual(alice.tx_fingerprint, new_tx_fingerprint) self.assertEqual(alice.rx_fingerprint, new_rx_fingerprint) self.assertEqual(alice.kex_status, KEX_STATUS_UNVERIFIED) # Test replaced contact kept settings set # to be opposite from default settings self.assertNotEqual(alice.log_messages, self.settings.log_messages_by_default) self.assertNotEqual(alice.file_reception, self.settings.accept_files_by_default) self.assertNotEqual(alice.notifications, self.settings.show_notifications_by_default) def test_remove_contact_by_pub_key(self): # Verify both contacts exist self.assertTrue(self.contact_list.has_pub_key(nick_to_pub_key('Bob'))) self.assertTrue( self.contact_list.has_pub_key(nick_to_pub_key('Charlie'))) self.assertIsNone( self.contact_list.remove_contact_by_pub_key( nick_to_pub_key('Bob'))) self.assertFalse(self.contact_list.has_pub_key(nick_to_pub_key('Bob'))) self.assertTrue( self.contact_list.has_pub_key(nick_to_pub_key('Charlie'))) def test_remove_contact_by_address_or_nick(self): # Verify both contacts exist self.assertTrue(self.contact_list.has_pub_key(nick_to_pub_key('Bob'))) self.assertTrue( self.contact_list.has_pub_key(nick_to_pub_key('Charlie'))) # Test removal with address self.assertIsNone( self.contact_list.remove_contact_by_address_or_nick( nick_to_onion_address('Bob'))) self.assertFalse(self.contact_list.has_pub_key(nick_to_pub_key('Bob'))) self.assertTrue( self.contact_list.has_pub_key(nick_to_pub_key('Charlie'))) # Test removal with nick self.assertIsNone( self.contact_list.remove_contact_by_address_or_nick('Charlie')) self.assertFalse(self.contact_list.has_pub_key(nick_to_pub_key('Bob'))) self.assertFalse( self.contact_list.has_pub_key(nick_to_pub_key('Charlie'))) def test_get_contact_by_pub_key(self): self.assertIs( self.contact_list.get_contact_by_pub_key(nick_to_pub_key('Bob')), self.contact_list.get_contact_by_address_or_nick('Bob')) def test_get_contact_by_address_or_nick_returns_the_same_contact_object_with_address_and_nick( self): for selector in [nick_to_onion_address('Bob'), 'Bob']: self.assertIsInstance( self.contact_list.get_contact_by_address_or_nick(selector), Contact) self.assertIs( self.contact_list.get_contact_by_address_or_nick('Bob'), self.contact_list.get_contact_by_address_or_nick( nick_to_onion_address('Bob'))) def test_get_list_of_contacts(self): self.assertEqual(len(self.contact_list.get_list_of_contacts()), len(self.real_contact_list)) for c in self.contact_list.get_list_of_contacts(): self.assertIsInstance(c, Contact) def test_get_list_of_addresses(self): self.assertEqual(self.contact_list.get_list_of_addresses(), [ nick_to_onion_address('Alice'), nick_to_onion_address('Bob'), nick_to_onion_address('Charlie'), nick_to_onion_address('David'), nick_to_onion_address('Eric') ]) def test_get_list_of_nicks(self): self.assertEqual(self.contact_list.get_list_of_nicks(), ['Alice', 'Bob', 'Charlie', 'David', 'Eric']) def test_get_list_of_pub_keys(self): self.assertEqual(self.contact_list.get_list_of_pub_keys(), [ nick_to_pub_key('Alice'), nick_to_pub_key('Bob'), nick_to_pub_key('Charlie'), nick_to_pub_key('David'), nick_to_pub_key('Eric') ]) def test_get_list_of_pending_pub_keys(self): # Set key exchange statuses to pending for nick in ['Alice', 'Bob']: contact = self.contact_list.get_contact_by_address_or_nick(nick) contact.kex_status = KEX_STATUS_PENDING # Test pending contacts are returned self.assertEqual(self.contact_list.get_list_of_pending_pub_keys(), [nick_to_pub_key('Alice'), nick_to_pub_key('Bob')]) def test_get_list_of_existing_pub_keys(self): self.contact_list.get_contact_by_address_or_nick( 'Alice').kex_status = KEX_STATUS_UNVERIFIED self.contact_list.get_contact_by_address_or_nick( 'Bob').kex_status = KEX_STATUS_VERIFIED self.contact_list.get_contact_by_address_or_nick( 'Charlie').kex_status = KEX_STATUS_HAS_RX_PSK self.contact_list.get_contact_by_address_or_nick( 'David').kex_status = KEX_STATUS_NO_RX_PSK self.contact_list.get_contact_by_address_or_nick( 'Eric').kex_status = KEX_STATUS_PENDING self.assertEqual(self.contact_list.get_list_of_existing_pub_keys(), [ nick_to_pub_key('Alice'), nick_to_pub_key('Bob'), nick_to_pub_key('Charlie'), nick_to_pub_key('David') ]) def test_contact_selectors(self): self.assertEqual(self.contact_list.contact_selectors(), [ nick_to_onion_address('Alice'), nick_to_onion_address('Bob'), nick_to_onion_address('Charlie'), nick_to_onion_address('David'), nick_to_onion_address('Eric'), 'Alice', 'Bob', 'Charlie', 'David', 'Eric' ]) def test_has_contacts(self): self.assertTrue(self.contact_list.has_contacts()) self.contact_list.contacts = [] self.assertFalse(self.contact_list.has_contacts()) def test_has_only_pending_contacts(self): # Change all to pending for contact in self.contact_list.get_list_of_contacts(): contact.kex_status = KEX_STATUS_PENDING self.assertTrue(self.contact_list.has_only_pending_contacts()) # Change one from pending alice = self.contact_list.get_contact_by_address_or_nick('Alice') alice.kex_status = KEX_STATUS_UNVERIFIED self.assertFalse(self.contact_list.has_only_pending_contacts()) def test_has_pub_key(self): self.contact_list.contacts = [] self.assertFalse(self.contact_list.has_pub_key(nick_to_pub_key('Bob'))) self.assertFalse(self.contact_list.has_pub_key(nick_to_pub_key('Bob'))) self.contact_list.contacts = list( map(create_contact, ['Bob', 'Charlie'])) self.assertTrue(self.contact_list.has_pub_key(nick_to_pub_key('Bob'))) self.assertTrue( self.contact_list.has_pub_key(nick_to_pub_key('Charlie'))) def test_has_local_contact(self): self.contact_list.contacts = [] self.assertFalse(self.contact_list.has_local_contact()) self.contact_list.contacts = [create_contact(LOCAL_ID)] self.assertTrue(self.contact_list.has_local_contact()) def test_print_contacts(self): self.contact_list.contacts.append(create_contact(LOCAL_ID)) self.contact_list.get_contact_by_pub_key( nick_to_pub_key('Alice')).log_messages = False self.contact_list.get_contact_by_pub_key( nick_to_pub_key('Alice')).kex_status = KEX_STATUS_PENDING self.contact_list.get_contact_by_pub_key( nick_to_pub_key('Bob')).notifications = False self.contact_list.get_contact_by_pub_key( nick_to_pub_key('Charlie')).kex_status = KEX_STATUS_UNVERIFIED self.contact_list.get_contact_by_pub_key( nick_to_pub_key('Bob')).file_reception = False self.contact_list.get_contact_by_pub_key( nick_to_pub_key('Bob')).kex_status = KEX_STATUS_VERIFIED self.contact_list.get_contact_by_pub_key(nick_to_pub_key( 'David')).rx_fingerprint = bytes(FINGERPRINT_LENGTH) self.contact_list.get_contact_by_pub_key( nick_to_pub_key('David')).kex_status = bytes(KEX_STATUS_NO_RX_PSK) self.assert_prints( CLEAR_ENTIRE_SCREEN + CURSOR_LEFT_UP_CORNER + f"""\ Contact Account Logging Notify Files Key Ex ──────────────────────────────────────────────────────────────────────────────── Alice hpcra No Yes Accept {ECDHE} (Pending) Bob zwp3d Yes No Reject {ECDHE} (Verified) Charlie n2a3c Yes Yes Accept {ECDHE} (Unverified) David u22uy Yes Yes Accept {PSK} (No contact key) Eric jszzy Yes Yes Accept {ECDHE} (Verified) """, self.contact_list.print_contacts)
def test_generate_dummy_contact(self): dummy_contact = ContactList.generate_dummy_contact() self.assertIsInstance(dummy_contact, Contact) self.assertEqual(len(dummy_contact.serialize_c()), CONTACT_LENGTH)
class TestGroupList(TFCTestCase): def setUp(self): self.unittest_dir = cd_unittest() self.master_key = MasterKey() self.settings = Settings() self.file_name = f'{DIR_USER_DATA}{self.settings.software_operation}_groups' self.contact_list = ContactList(self.master_key, self.settings) self.group_list = GroupList(self.master_key, self.settings, self.contact_list) self.nicks = [ 'Alice', 'Bob', 'Charlie', 'David', 'Eric', 'Fido', 'Guido', 'Heidi', 'Ivan', 'Joana', 'Karol' ] self.group_names = [ 'test_group_1', 'test_group_2', 'test_group_3', 'test_group_4', 'test_group_5', 'test_group_6', 'test_group_7', 'test_group_8', 'test_group_9', 'test_group_10', 'test_group_11' ] members = list(map(create_contact, self.nicks)) self.contact_list.contacts = members self.group_list.groups = \ [Group(name =name, group_id =group_name_to_group_id(name), log_messages =False, notifications=False, members =members, settings =self.settings, store_groups =self.group_list.store_groups) for name in self.group_names] self.single_member_data_len = ( GROUP_STATIC_LENGTH + self.settings.max_number_of_group_members * ONION_SERVICE_PUBLIC_KEY_LENGTH) def tearDown(self): cleanup(self.unittest_dir) def test_group_list_iterates_over_group_objects(self): for g in self.group_list: self.assertIsInstance(g, Group) def test_len_returns_the_number_of_groups(self): self.assertEqual(len(self.group_list), len(self.group_names)) def test_storing_and_loading_of_groups(self): self.group_list.store_groups() self.assertTrue(os.path.isfile(self.file_name)) self.assertEqual( os.path.getsize(self.file_name), XCHACHA20_NONCE_LENGTH + GROUP_DB_HEADER_LENGTH + self.settings.max_number_of_groups * self.single_member_data_len + POLY1305_TAG_LENGTH) # Reduce setting values from 20 to 10 self.settings.max_number_of_groups = 10 self.settings.max_number_of_group_members = 10 group_list2 = GroupList(self.master_key, self.settings, self.contact_list) self.assertEqual(len(group_list2), 11) # Check that `_load_groups()` increased setting values back to 20 so it fits the 11 groups self.assertEqual(self.settings.max_number_of_groups, 20) self.assertEqual(self.settings.max_number_of_group_members, 20) # Check that removed contact from contact list updates group self.contact_list.remove_contact_by_address_or_nick('Alice') group_list3 = GroupList(self.master_key, self.settings, self.contact_list) self.assertEqual(len(group_list3.get_group('test_group_1').members), 10) def test_invalid_content_raises_critical_error(self): # Setup invalid_data = b'a' pt_bytes = self.group_list._generate_group_db_header() pt_bytes += b''.join([ g.serialize_g() for g in (self.group_list.groups + self.group_list._dummy_groups()) ]) ct_bytes = encrypt_and_sign(pt_bytes + invalid_data, self.master_key.master_key) ensure_dir(DIR_USER_DATA) with open(self.file_name, 'wb+') as f: f.write(ct_bytes) # Test with self.assertRaises(SystemExit): GroupList(self.master_key, self.settings, self.contact_list) def test_load_of_modified_database_raises_critical_error(self): self.group_list.store_groups() # Test reading works normally self.assertIsInstance( GroupList(self.master_key, self.settings, self.contact_list), GroupList) # Test loading of the tampered database raises CriticalError tamper_file(self.file_name, tamper_size=1) with self.assertRaises(SystemExit): GroupList(self.master_key, self.settings, self.contact_list) def test_check_db_settings(self): self.assertFalse( self.group_list._check_db_settings( number_of_actual_groups=self.settings.max_number_of_groups, members_in_largest_group=self.settings. max_number_of_group_members)) self.assertTrue( self.group_list._check_db_settings( number_of_actual_groups=self.settings.max_number_of_groups + 1, members_in_largest_group=self.settings. max_number_of_group_members)) self.assertTrue( self.group_list._check_db_settings( number_of_actual_groups=self.settings.max_number_of_groups, members_in_largest_group=self.settings. max_number_of_group_members + 1)) def test_generate_group_db_header(self): header = self.group_list._generate_group_db_header() self.assertEqual(len(header), GROUP_DB_HEADER_LENGTH) self.assertIsInstance(header, bytes) def test_generate_dummy_group(self): dummy_group = self.group_list._generate_dummy_group() self.assertIsInstance(dummy_group, Group) self.assertEqual(len(dummy_group.serialize_g()), self.single_member_data_len) def test_dummy_groups(self): dummies = self.group_list._dummy_groups() self.assertEqual( len(dummies), self.settings.max_number_of_contacts - len(self.nicks)) for g in dummies: self.assertIsInstance(g, Group) def test_add_group(self): members = [create_contact('Laura')] self.group_list.add_group('test_group_12', bytes(GROUP_ID_LENGTH), False, False, members) self.group_list.add_group('test_group_12', bytes(GROUP_ID_LENGTH), False, True, members) self.assertTrue( self.group_list.get_group('test_group_12').notifications) self.assertEqual(len(self.group_list), len(self.group_names) + 1) def test_remove_group_by_name(self): self.assertEqual(len(self.group_list), len(self.group_names)) # Remove non-existing group self.assertIsNone( self.group_list.remove_group_by_name('test_group_12')) self.assertEqual(len(self.group_list), len(self.group_names)) # Remove existing group self.assertIsNone( self.group_list.remove_group_by_name('test_group_11')) self.assertEqual(len(self.group_list), len(self.group_names) - 1) def test_remove_group_by_id(self): self.assertEqual(len(self.group_list), len(self.group_names)) # Remove non-existing group self.assertIsNone( self.group_list.remove_group_by_id( group_name_to_group_id('test_group_12'))) self.assertEqual(len(self.group_list), len(self.group_names)) # Remove existing group self.assertIsNone( self.group_list.remove_group_by_id( group_name_to_group_id('test_group_11'))) self.assertEqual(len(self.group_list), len(self.group_names) - 1) def test_get_group(self): self.assertEqual( self.group_list.get_group('test_group_3').name, 'test_group_3') def test_get_group_by_id(self): members = [create_contact('Laura')] group_id = os.urandom(GROUP_ID_LENGTH) self.group_list.add_group('test_group_12', group_id, False, False, members) self.assertEqual( self.group_list.get_group_by_id(group_id).name, 'test_group_12') def test_get_list_of_group_names(self): self.assertEqual(self.group_list.get_list_of_group_names(), self.group_names) def test_get_list_of_group_ids(self): self.assertEqual(self.group_list.get_list_of_group_ids(), list(map(group_name_to_group_id, self.group_names))) def test_get_list_of_hr_group_ids(self): self.assertEqual(self.group_list.get_list_of_hr_group_ids(), [ b58encode(gid) for gid in list(map(group_name_to_group_id, self.group_names)) ]) def test_get_group_members(self): members = self.group_list.get_group_members( group_name_to_group_id('test_group_1')) for c in members: self.assertIsInstance(c, Contact) def test_has_group(self): self.assertTrue(self.group_list.has_group('test_group_11')) self.assertFalse(self.group_list.has_group('test_group_12')) def test_has_group_id(self): members = [create_contact('Laura')] group_id = os.urandom(GROUP_ID_LENGTH) self.assertFalse(self.group_list.has_group_id(group_id)) self.group_list.add_group('test_group_12', group_id, False, False, members) self.assertTrue(self.group_list.has_group_id(group_id)) def test_largest_group(self): self.assertEqual(self.group_list.largest_group(), len(self.nicks)) def test_print_group(self): self.group_list.get_group("test_group_1").name = "group" self.group_list.get_group("test_group_2").log_messages = True self.group_list.get_group("test_group_3").notifications = True self.group_list.get_group("test_group_4").log_messages = True self.group_list.get_group("test_group_4").notifications = True self.group_list.get_group("test_group_5").members = [] self.group_list.get_group("test_group_6").members = list( map(create_contact, ['Alice', 'Bob', 'Charlie', 'David', 'Eric', 'Fido'])) self.assert_prints( """\ Group Group ID Logging Notify Members ──────────────────────────────────────────────────────────────────────────────── group 2drs4c4VcDdrP No No Alice, Bob, Charlie, David, Eric, Fido, Guido, Heidi, Ivan, Joana, Karol test_group_2 2dnGTyhkThmPi Yes No Alice, Bob, Charlie, David, Eric, Fido, Guido, Heidi, Ivan, Joana, Karol test_group_3 2df7s3LZhwLDw No Yes Alice, Bob, Charlie, David, Eric, Fido, Guido, Heidi, Ivan, Joana, Karol test_group_4 2djy3XwUQVR8q Yes Yes Alice, Bob, Charlie, David, Eric, Fido, Guido, Heidi, Ivan, Joana, Karol test_group_5 2dvbcgnjiLLMo No No <Empty group> test_group_6 2dwBRWAqWKHWv No No Alice, Bob, Charlie, David, Eric, Fido test_group_7 2eDPg5BAM6qF4 No No Alice, Bob, Charlie, David, Eric, Fido, Guido, Heidi, Ivan, Joana, Karol test_group_8 2dqdayy5TJKcf No No Alice, Bob, Charlie, David, Eric, Fido, Guido, Heidi, Ivan, Joana, Karol test_group_9 2e45bLYvSX3C8 No No Alice, Bob, Charlie, David, Eric, Fido, Guido, Heidi, Ivan, Joana, Karol test_group_10 2dgkncX9xRibh No No Alice, Bob, Charlie, David, Eric, Fido, Guido, Heidi, Ivan, Joana, Karol test_group_11 2e6vAGmHmSEEJ No No Alice, Bob, Charlie, David, Eric, Fido, Guido, Heidi, Ivan, Joana, Karol """, self.group_list.print_groups)
def test_class(self): # Setup master_key = MasterKey() settings = Settings() contact_list = ContactList(master_key, settings) group_list = GroupList(master_key, settings, contact_list) members = [ create_contact(n) for n in [ 'Alice', 'Bob', 'Charlie', 'David', 'Eric', 'Fido', 'Gunter', 'Heidi', 'Ivan', 'Joana', 'Karol' ] ] contact_list.contacts = members groups = [ Group(n, False, False, members, settings, group_list.store_groups()) for n in [ 'testgroup_1', 'testgroup_2', 'testgroup3', 'testgroup_4', 'testgroup_5', 'testgroup_6', 'testgroup_7', 'testgroup8', 'testgroup_9', 'testgroup_10', 'testgroup_11' ] ] group_list.groups = groups group_list.store_groups() # Test for g in group_list: self.assertIsInstance(g, Group) self.assertEqual(len(group_list), 11) self.assertTrue(os.path.isfile(f'{DIR_USER_DATA}/ut_groups')) self.assertEqual(os.path.getsize(f'{DIR_USER_DATA}/ut_groups'), 24 + 32 + 20 * (1024 + 2 + (20 * 1024)) + 16) settings.m_number_of_groups = 10 settings.m_members_in_group = 10 group_list2 = GroupList(master_key, settings, contact_list) self.assertEqual(len(group_list2), 11) self.assertEqual(settings.m_number_of_groups, 20) self.assertEqual(settings.m_members_in_group, 20) bytestring = group_list2.generate_header() self.assertEqual(len(bytestring), 32) self.assertIsInstance(bytestring, bytes) dg_bytestring = group_list2.generate_dummy_group() self.assertEqual(len(dg_bytestring), (1024 + 2 + (20 * 1024))) self.assertIsInstance(dg_bytestring, bytes) members.append(create_contact('Laura')) group_list2.add_group('testgroup_12', False, False, members) group_list2.add_group('testgroup_12', False, True, members) self.assertTrue(group_list2.get_group('testgroup_12').notifications) self.assertEqual(len(group_list2), 12) self.assertEqual(group_list2.largest_group(), 12) g_names = [ 'testgroup_1', 'testgroup_2', 'testgroup3', 'testgroup_4', 'testgroup_5', 'testgroup_6', 'testgroup_7', 'testgroup8', 'testgroup_9', 'testgroup_10', 'testgroup_11', 'testgroup_12' ] self.assertEqual(group_list2.get_list_of_group_names(), g_names) g_o = group_list2.get_group('testgroup_1') self.assertIsInstance(g_o, Group) self.assertEqual(g_o.name, 'testgroup_1') self.assertTrue(group_list2.has_group('testgroup_12')) self.assertFalse(group_list2.has_group('testgroup_13')) self.assertTrue(group_list2.has_groups(), True) members = group_list2.get_group_members('testgroup_1') for c in members: self.assertIsInstance(c, Contact) self.assertEqual(len(group_list2), 12) group_list2.remove_group('testgroup_13') self.assertEqual(len(group_list2), 12) group_list2.remove_group('testgroup_12') self.assertEqual(len(group_list2), 11) self.assertIsNone(group_list2.print_groups()) # Teardown cleanup()
def main() -> None: """Load persistent data and launch the Transmitter/Receiver Program. This function decrypts user data from databases and launches processes for Transmitter or Receiver Program. It then monitors the EXIT_QUEUE for EXIT/WIPE signals and each process in case one of them dies. If you're reading this code to get the big picture on how TFC works, start by looking at the loop functions below, defined as the target for each process, from top to bottom: From `input_loop` process, you can see how the Transmitter Program processes a message or command from the user, creates assembly packets for a message/file/command, and how those are eventually pushed into a multiprocessing queue, from where they are loaded by the `sender_loop`. The `sender_loop` process encrypts outgoing assembly packets, and outputs the encrypted datagrams to the Networked Computer. The process also sends assembly packets to the `log_writer_loop`. The `log_writer_loop` process filters out non-message assembly packets and if logging for contact is enabled, stores the message assembly packet into an encrypted log database. The `noise_loop` processes are used to provide the `sender_loop` an interface identical to that of the `input_loop`. The `sender_loop` uses the interface to load noise packets/commands when traffic masking is enabled. Refer to the file `relay.py` to see how the Relay Program on Networked Computer manages datagrams between the network and Source/Destination Computer. In Receiver Program (also launched by this file), the `gateway_loop` process acts as a buffer for incoming datagrams. This buffer is consumed by the `receiver_loop` process that organizes datagrams loaded from the buffer into a set of queues depending on datagram type. Finally, the `output_loop` process loads and processes datagrams from the queues in the order of priority. """ working_dir = f'{os.getenv("HOME")}/{DIR_TFC}' ensure_dir(working_dir) os.chdir(working_dir) operation, local_test, data_diode_sockets = process_arguments() check_kernel_version() check_kernel_entropy() print_title(operation) master_key = MasterKey( operation, local_test) gateway = Gateway( operation, local_test, data_diode_sockets) settings = Settings( master_key, operation, local_test) contact_list = ContactList(master_key, settings) key_list = KeyList( master_key, settings) group_list = GroupList( master_key, settings, contact_list) if settings.software_operation == TX: onion_service = OnionService(master_key) queues = {MESSAGE_PACKET_QUEUE: Queue(), # Standard messages COMMAND_PACKET_QUEUE: Queue(), # Standard commands TM_MESSAGE_PACKET_QUEUE: Queue(), # Traffic masking messages TM_FILE_PACKET_QUEUE: Queue(), # Traffic masking files TM_COMMAND_PACKET_QUEUE: Queue(), # Traffic masking commands TM_NOISE_PACKET_QUEUE: Queue(), # Traffic masking noise packets TM_NOISE_COMMAND_QUEUE: Queue(), # Traffic masking noise commands RELAY_PACKET_QUEUE: Queue(), # Unencrypted datagrams to Networked Computer LOG_PACKET_QUEUE: Queue(), # `log_writer_loop` assembly packets to be logged LOG_SETTING_QUEUE: Queue(), # `log_writer_loop` logging state management between noise packets TRAFFIC_MASKING_QUEUE: Queue(), # `log_writer_loop` traffic masking setting management commands LOGFILE_MASKING_QUEUE: Queue(), # `log_writer_loop` logfile masking setting management commands KEY_MANAGEMENT_QUEUE: Queue(), # `sender_loop` key database management commands SENDER_MODE_QUEUE: Queue(), # `sender_loop` default/traffic masking mode switch commands WINDOW_SELECT_QUEUE: Queue(), # `sender_loop` window selection commands during traffic masking EXIT_QUEUE: Queue() # EXIT/WIPE signal from `input_loop` to `main` } # type: Dict[bytes, Queue] process_list = [Process(target=input_loop, args=(queues, settings, gateway, contact_list, group_list, master_key, onion_service, sys.stdin.fileno())), Process(target=sender_loop, args=(queues, settings, gateway, key_list)), Process(target=log_writer_loop, args=(queues, settings)), Process(target=noise_loop, args=(queues, contact_list)), Process(target=noise_loop, args=(queues,))] else: queues = {GATEWAY_QUEUE: Queue(), # Buffer for incoming datagrams LOCAL_KEY_DATAGRAM_HEADER: Queue(), # Local key datagrams MESSAGE_DATAGRAM_HEADER: Queue(), # Message datagrams FILE_DATAGRAM_HEADER: Queue(), # File datagrams COMMAND_DATAGRAM_HEADER: Queue(), # Command datagrams EXIT_QUEUE: Queue() # EXIT/WIPE signal from `output_loop` to `main` } process_list = [Process(target=gateway_loop, args=(queues, gateway)), Process(target=receiver_loop, args=(queues, gateway)), Process(target=output_loop, args=(queues, gateway, settings, contact_list, key_list, group_list, master_key, sys.stdin.fileno()))] for p in process_list: p.start() monitor_processes(process_list, settings.software_operation, queues)
def main() -> None: """Derive master key, decrypt databases and initialize processes.""" os.chdir(sys.path[0]) init_entropy() operation, local_test, dd_sockets = process_arguments() clear_screen() c_print("TFC", head=1, tail=1) master_key = MasterKey(operation, local_test) settings = Settings(master_key, operation, local_test, dd_sockets) contact_list = ContactList(master_key, settings) key_list = KeyList(master_key, settings) group_list = GroupList(master_key, settings, contact_list) gateway = Gateway(settings) process_list = [] if settings.software_operation == 'tx': queues = { MESSAGE_PACKET_QUEUE: Queue(), FILE_PACKET_QUEUE: Queue(), COMMAND_PACKET_QUEUE: Queue(), LOG_PACKET_QUEUE: Queue(), NOISE_PACKET_QUEUE: Queue(), NOISE_COMMAND_QUEUE: Queue(), KEY_MANAGEMENT_QUEUE: Queue(), WINDOW_SELECT_QUEUE: Queue() } if settings.session_trickle: np_filler = Process(target=noise_process, args=(P_N_HEADER, queues[NOISE_PACKET_QUEUE], contact_list)) nc_filler = Process(target=noise_process, args=(C_N_HEADER, queues[NOISE_COMMAND_QUEUE])) process_list.extend([np_filler, nc_filler]) for p in [np_filler, nc_filler]: p.start() while any([ q.qsize() < 1000 for q in [queues[NOISE_PACKET_QUEUE], queues[NOISE_COMMAND_QUEUE]] ]): time.sleep(0.1) sender_process = Process(target=sender_loop, args=(settings, queues, gateway, key_list)) input_process = Process(target=tx_loop, args=(settings, queues, gateway, contact_list, group_list, master_key, sys.stdin.fileno())) log_process = Process(target=log_writer, args=(queues[LOG_PACKET_QUEUE], )) process_list.extend([sender_process, input_process, log_process]) for p in [sender_process, input_process, log_process]: p.start() elif settings.software_operation == 'rx': queues = { LOCAL_KEY_PACKET_HEADER: Queue(), PUBLIC_KEY_PACKET_HEADER: Queue(), MESSAGE_PACKET_HEADER: Queue(), COMMAND_PACKET_HEADER: Queue(), IMPORTED_FILE_CT_HEADER: Queue(), GATEWAY_QUEUE: Queue() } gateway_process = Process(target=gw_incoming, args=(gateway, queues[GATEWAY_QUEUE])) receiver_process = Process(target=receiver_loop, args=(settings, queues)) output_process = Process(target=rx_loop, args=(settings, queues, contact_list, key_list, group_list, master_key, sys.stdin.fileno())) process_list.extend( [gateway_process, receiver_process, output_process]) for p in [gateway_process, receiver_process, output_process]: p.start() while True: try: time.sleep(0.1) if not all([p.is_alive() for p in process_list]): for p in process_list: p.terminate() exit() except (EOFError, KeyboardInterrupt): pass