# Copyright (c) 2013 OpenStack Foundation # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or # implied. # See the License for the specific language governing permissions and # limitations under the License. import io import os import time import unittest import eventlet import mock import six from swift.common import exceptions, utils from swift.common.storage_policy import POLICIES from swift.common.utils import Timestamp from swift.obj import ssync_sender, diskfile, ssync_receiver from swift.obj.replicator import ObjectReplicator from test.unit.obj.common import BaseTest from test.unit import patch_policies, make_timestamp_iter, skip_if_no_xattrs, \ debug_logger class NullBufferedHTTPConnection(object): def __init__(*args, **kwargs): pass def putrequest(*args, **kwargs): pass def putheader(*args, **kwargs): pass def endheaders(*args, **kwargs): pass def getresponse(*args, **kwargs): pass def close(*args, **kwargs): pass class FakeResponse(ssync_sender.SsyncBufferedHTTPResponse): def __init__(self, chunk_body=''): self.status = 200 self.close_called = False if not six.PY2: chunk_body = chunk_body.encode('ascii') if chunk_body: self.fp = io.BytesIO( b'%x\r\n%s\r\n0\r\n\r\n' % (len(chunk_body), chunk_body)) self.ssync_response_buffer = b'' self.ssync_response_chunk_left = 0 def read(self, *args, **kwargs): return b'' def close(self): self.close_called = True class FakeConnection(object): def __init__(self): self.sent = [] self.closed = False def send(self, data): self.sent.append(data) def close(self): self.closed = True @patch_policies() class TestSender(BaseTest): def setUp(self): skip_if_no_xattrs() super(TestSender, self).setUp() self.daemon_logger = debug_logger('test-ssync-sender') self.daemon = ObjectReplicator(self.daemon_conf, self.daemon_logger) job = {'policy': POLICIES.legacy} # sufficient for Sender.__init__ self.sender = ssync_sender.Sender(self.daemon, None, job, None) def test_call_catches_MessageTimeout(self): def connect(self): exc = exceptions.MessageTimeout(1, 'test connect') # Cancels Eventlet's raising of this since we're about to do it. exc.cancel() raise exc with mock.patch.object(ssync_sender.Sender, 'connect', connect): node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1') job = dict(partition='9', policy=POLICIES.legacy) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] success, candidates = self.sender() self.assertFalse(success) self.assertEqual(candidates, {}) error_lines = self.daemon_logger.get_lines_for_level('error') self.assertEqual(1, len(error_lines)) self.assertEqual('1.2.3.4:5678/sda1/9 1 second: test connect', error_lines[0]) def test_call_catches_ReplicationException(self): def connect(self): raise exceptions.ReplicationException('test connect') with mock.patch.object(ssync_sender.Sender, 'connect', connect): node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1') job = dict(partition='9', policy=POLICIES.legacy) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] success, candidates = self.sender() self.assertFalse(success) self.assertEqual(candidates, {}) error_lines = self.daemon_logger.get_lines_for_level('error') self.assertEqual(1, len(error_lines)) self.assertEqual('1.2.3.4:5678/sda1/9 test connect', error_lines[0]) def test_call_catches_other_exceptions(self): node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1') job = dict(partition='9', policy=POLICIES.legacy) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] self.sender.connect = 'cause exception' success, candidates = self.sender() self.assertFalse(success) self.assertEqual(candidates, {}) error_lines = self.daemon_logger.get_lines_for_level('error') for line in error_lines: self.assertTrue(line.startswith( '1.2.3.4:5678/sda1/9 EXCEPTION in ssync.Sender: ')) def test_call_catches_exception_handling_exception(self): self.sender.node = None # Will cause inside exception handler to fail self.sender.suffixes = ['abc'] self.sender.connect = 'cause exception' success, candidates = self.sender() self.assertFalse(success) self.assertEqual(candidates, {}) error_lines = self.daemon_logger.get_lines_for_level('error') for line in error_lines: self.assertTrue(line.startswith( 'EXCEPTION in ssync.Sender')) def test_call_calls_others(self): connection = FakeConnection() response = FakeResponse() self.sender.suffixes = ['abc'] self.sender.connect = mock.MagicMock(return_value=(connection, response)) self.sender.missing_check = mock.MagicMock(return_value=({}, {})) self.sender.updates = mock.MagicMock() self.sender.disconnect = mock.MagicMock() success, candidates = self.sender() self.assertTrue(success) self.assertEqual(candidates, {}) self.sender.connect.assert_called_once_with() self.sender.missing_check.assert_called_once_with(connection, response) self.sender.updates.assert_called_once_with(connection, response, {}) self.sender.disconnect.assert_called_once_with(connection) def test_connect(self): node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1', backend_index=0) job = dict(partition='9', policy=POLICIES[1]) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] with mock.patch( 'swift.obj.ssync_sender.SsyncBufferedHTTPConnection' ) as mock_conn_class: mock_conn = mock_conn_class.return_value mock_resp = mock.MagicMock() mock_resp.status = 200 mock_conn.getresponse.return_value = mock_resp self.sender.connect() mock_conn_class.assert_called_once_with('1.2.3.4:5678') expectations = { 'putrequest': [ mock.call('SSYNC', '/sda1/9'), ], 'putheader': [ mock.call('Transfer-Encoding', 'chunked'), mock.call('X-Backend-Storage-Policy-Index', 1), mock.call('X-Backend-Ssync-Frag-Index', 0), mock.call('X-Backend-Ssync-Node-Index', 0), ], 'endheaders': [mock.call()], } for method_name, expected_calls in expectations.items(): mock_method = getattr(mock_conn, method_name) self.assertEqual(expected_calls, mock_method.mock_calls, 'connection method "%s" got %r not %r' % ( method_name, mock_method.mock_calls, expected_calls)) def test_connect_handoff(self): node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1') job = dict(partition='9', policy=POLICIES[1], frag_index=9) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] with mock.patch( 'swift.obj.ssync_sender.SsyncBufferedHTTPConnection' ) as mock_conn_class: mock_conn = mock_conn_class.return_value mock_resp = mock.MagicMock() mock_resp.status = 200 mock_conn.getresponse.return_value = mock_resp self.sender.connect() mock_conn_class.assert_called_once_with('1.2.3.4:5678') expectations = { 'putrequest': [ mock.call('SSYNC', '/sda1/9'), ], 'putheader': [ mock.call('Transfer-Encoding', 'chunked'), mock.call('X-Backend-Storage-Policy-Index', 1), ], 'endheaders': [mock.call()], } for method_name, expected_calls in expectations.items(): mock_method = getattr(mock_conn, method_name) self.assertEqual(expected_calls, mock_method.mock_calls, 'connection method "%s" got %r not %r' % ( method_name, mock_method.mock_calls, expected_calls)) def test_connect_handoff_no_frag(self): node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1') job = dict(partition='9', policy=POLICIES[0]) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] with mock.patch( 'swift.obj.ssync_sender.SsyncBufferedHTTPConnection' ) as mock_conn_class: mock_conn = mock_conn_class.return_value mock_resp = mock.MagicMock() mock_resp.status = 200 mock_conn.getresponse.return_value = mock_resp self.sender.connect() mock_conn_class.assert_called_once_with('1.2.3.4:5678') expectations = { 'putrequest': [ mock.call('SSYNC', '/sda1/9'), ], 'putheader': [ mock.call('Transfer-Encoding', 'chunked'), mock.call('X-Backend-Storage-Policy-Index', 0), ], 'endheaders': [mock.call()], } for method_name, expected_calls in expectations.items(): mock_method = getattr(mock_conn, method_name) self.assertEqual(expected_calls, mock_method.mock_calls, 'connection method "%s" got %r not %r' % ( method_name, mock_method.mock_calls, expected_calls)) def test_connect_handoff_none_frag(self): node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1') job = dict(partition='9', policy=POLICIES[1], frag_index=None) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] with mock.patch( 'swift.obj.ssync_sender.SsyncBufferedHTTPConnection' ) as mock_conn_class: mock_conn = mock_conn_class.return_value mock_resp = mock.MagicMock() mock_resp.status = 200 mock_conn.getresponse.return_value = mock_resp self.sender.connect() mock_conn_class.assert_called_once_with('1.2.3.4:5678') expectations = { 'putrequest': [ mock.call('SSYNC', '/sda1/9'), ], 'putheader': [ mock.call('Transfer-Encoding', 'chunked'), mock.call('X-Backend-Storage-Policy-Index', 1), ], 'endheaders': [mock.call()], } for method_name, expected_calls in expectations.items(): mock_method = getattr(mock_conn, method_name) self.assertEqual(expected_calls, mock_method.mock_calls, 'connection method "%s" got %r not %r' % ( method_name, mock_method.mock_calls, expected_calls)) def test_connect_handoff_none_frag_to_primary(self): node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1', backend_index=42) job = dict(partition='9', policy=POLICIES[1], frag_index=None) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] with mock.patch( 'swift.obj.ssync_sender.SsyncBufferedHTTPConnection' ) as mock_conn_class: mock_conn = mock_conn_class.return_value mock_resp = mock.MagicMock() mock_resp.status = 200 mock_conn.getresponse.return_value = mock_resp self.sender.connect() mock_conn_class.assert_called_once_with('1.2.3.4:5678') expectations = { 'putrequest': [ mock.call('SSYNC', '/sda1/9'), ], 'putheader': [ mock.call('Transfer-Encoding', 'chunked'), mock.call('X-Backend-Storage-Policy-Index', 1), mock.call('X-Backend-Ssync-Frag-Index', 42), mock.call('X-Backend-Ssync-Node-Index', 42), ], 'endheaders': [mock.call()], } for method_name, expected_calls in expectations.items(): mock_method = getattr(mock_conn, method_name) self.assertEqual(expected_calls, mock_method.mock_calls, 'connection method "%s" got %r not %r' % ( method_name, mock_method.mock_calls, expected_calls)) def test_connect_handoff_replicated(self): node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1') # no frag_index in rsync job job = dict(partition='9', policy=POLICIES[1]) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] with mock.patch( 'swift.obj.ssync_sender.SsyncBufferedHTTPConnection' ) as mock_conn_class: mock_conn = mock_conn_class.return_value mock_resp = mock.MagicMock() mock_resp.status = 200 mock_conn.getresponse.return_value = mock_resp self.sender.connect() mock_conn_class.assert_called_once_with('1.2.3.4:5678') expectations = { 'putrequest': [ mock.call('SSYNC', '/sda1/9'), ], 'putheader': [ mock.call('Transfer-Encoding', 'chunked'), mock.call('X-Backend-Storage-Policy-Index', 1), ], 'endheaders': [mock.call()], } for method_name, expected_calls in expectations.items(): mock_method = getattr(mock_conn, method_name) self.assertEqual(expected_calls, mock_method.mock_calls, 'connection method "%s" got %r not %r' % ( method_name, mock_method.mock_calls, expected_calls)) def test_call(self): def patch_sender(sender, available_map, send_map): connection = FakeConnection() response = FakeResponse() sender.connect = mock.MagicMock(return_value=(connection, response)) sender.missing_check = mock.MagicMock() sender.missing_check = mock.MagicMock(return_value=(available_map, send_map)) sender.updates = mock.MagicMock() sender.disconnect = mock.MagicMock() node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1') job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, 'frag_index': 0, } available_map = dict([('9d41d8cd98f00b204e9800998ecf0abc', '1380144470.00000'), ('9d41d8cd98f00b204e9800998ecf0def', '1380144472.22222'), ('9d41d8cd98f00b204e9800998ecf1def', '1380144474.44444')]) # no suffixes -> no work done sender = ssync_sender.Sender( self.daemon, node, job, [], remote_check_objs=None) patch_sender(sender, available_map, {}) success, candidates = sender() self.assertTrue(success) self.assertEqual({}, candidates) # all objs in sync sender = ssync_sender.Sender( self.daemon, node, job, ['ignored'], remote_check_objs=None) patch_sender(sender, available_map, {}) success, candidates = sender() self.assertTrue(success) self.assertEqual(available_map, candidates) # one obj not in sync, sync'ing faked, all objs should be in return set wanted = '9d41d8cd98f00b204e9800998ecf0def' sender = ssync_sender.Sender( self.daemon, node, job, ['ignored'], remote_check_objs=None) patch_sender(sender, available_map, {wanted: []}) success, candidates = sender() self.assertTrue(success) self.assertEqual(available_map, candidates) # one obj not in sync, remote check only so that obj is not sync'd # and should not be in the return set wanted = '9d41d8cd98f00b204e9800998ecf0def' remote_check_objs = set(available_map.keys()) sender = ssync_sender.Sender( self.daemon, node, job, ['ignored'], remote_check_objs=remote_check_objs) patch_sender(sender, available_map, {wanted: []}) success, candidates = sender() self.assertTrue(success) expected_map = dict([('9d41d8cd98f00b204e9800998ecf0abc', '1380144470.00000'), ('9d41d8cd98f00b204e9800998ecf1def', '1380144474.44444')]) self.assertEqual(expected_map, candidates) def test_call_and_missing_check_metadata_legacy_response(self): def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if device == 'dev' and partition == '9' and suffixes == ['abc'] \ and policy == POLICIES.legacy: yield ( '9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000), 'ts_meta': Timestamp(1380155570.00005)}) else: raise Exception( 'No match for %r %r %r' % (device, partition, suffixes)) connection = FakeConnection() self.sender.node = {} self.sender.job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, 'frag_index': 0, } self.sender.suffixes = ['abc'] response = FakeResponse( chunk_body=( ':MISSING_CHECK: START\r\n' '9d41d8cd98f00b204e9800998ecf0abc\r\n' ':MISSING_CHECK: END\r\n' ':UPDATES: START\r\n' ':UPDATES: END\r\n' )) self.sender.df_mgr.yield_hashes = yield_hashes self.sender.connect = mock.MagicMock(return_value=(connection, response)) df = mock.MagicMock() df.content_length = 0 self.sender.df_mgr.get_diskfile_from_hash = mock.MagicMock( return_value=df) self.sender.disconnect = mock.MagicMock() success, candidates = self.sender() self.assertTrue(success) found_post = found_put = False for chunk in connection.sent: if b'POST' in chunk: found_post = True if b'PUT' in chunk: found_put = True self.assertFalse(found_post) self.assertTrue(found_put) def test_call_and_missing_check(self): def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if device == 'dev' and partition == '9' and suffixes == ['abc'] \ and policy == POLICIES.legacy: yield ( '9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)}) else: raise Exception( 'No match for %r %r %r' % (device, partition, suffixes)) connection = FakeConnection() self.sender.node = {} self.sender.job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, 'frag_index': 0, } self.sender.suffixes = ['abc'] response = FakeResponse( chunk_body=( ':MISSING_CHECK: START\r\n' '9d41d8cd98f00b204e9800998ecf0abc d\r\n' ':MISSING_CHECK: END\r\n')) self.sender.df_mgr.yield_hashes = yield_hashes self.sender.connect = mock.MagicMock(return_value=(connection, response)) self.sender.updates = mock.MagicMock() self.sender.disconnect = mock.MagicMock() success, candidates = self.sender() self.assertTrue(success) self.assertEqual(candidates, dict([('9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)})])) def test_call_and_missing_check_with_obj_list(self): def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if device == 'dev' and partition == '9' and suffixes == ['abc'] \ and policy == POLICIES.legacy: yield ( '9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)}) else: raise Exception( 'No match for %r %r %r' % (device, partition, suffixes)) job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, 'frag_index': 0, } self.sender = ssync_sender.Sender(self.daemon, None, job, ['abc'], ['9d41d8cd98f00b204e9800998ecf0abc']) connection = FakeConnection() response = FakeResponse( chunk_body=( ':MISSING_CHECK: START\r\n' ':MISSING_CHECK: END\r\n')) self.sender.df_mgr.yield_hashes = yield_hashes self.sender.connect = mock.MagicMock(return_value=(connection, response)) self.sender.updates = mock.MagicMock() self.sender.disconnect = mock.MagicMock() success, candidates = self.sender() self.assertTrue(success) self.assertEqual(candidates, dict([('9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)})])) def test_call_and_missing_check_with_obj_list_but_required(self): def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if device == 'dev' and partition == '9' and suffixes == ['abc'] \ and policy == POLICIES.legacy: yield ( '9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)}) else: raise Exception( 'No match for %r %r %r' % (device, partition, suffixes)) job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, 'frag_index': 0, } self.sender = ssync_sender.Sender(self.daemon, {}, job, ['abc'], ['9d41d8cd98f00b204e9800998ecf0abc']) connection = FakeConnection() response = FakeResponse( chunk_body=( ':MISSING_CHECK: START\r\n' '9d41d8cd98f00b204e9800998ecf0abc d\r\n' ':MISSING_CHECK: END\r\n')) self.sender.df_mgr.yield_hashes = yield_hashes self.sender.connect = mock.MagicMock(return_value=(connection, response)) self.sender.updates = mock.MagicMock() self.sender.disconnect = mock.MagicMock() success, candidates = self.sender() self.assertTrue(success) self.assertEqual(candidates, {}) def test_connect_send_timeout(self): self.daemon.node_timeout = 0.01 # make disconnect fail fast self.daemon.conn_timeout = 0.01 node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1') job = dict(partition='9', policy=POLICIES.legacy) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] def putrequest(*args, **kwargs): eventlet.sleep(0.1) with mock.patch.object( ssync_sender.bufferedhttp.BufferedHTTPConnection, 'putrequest', putrequest): success, candidates = self.sender() self.assertFalse(success) self.assertEqual(candidates, {}) error_lines = self.daemon_logger.get_lines_for_level('error') for line in error_lines: self.assertTrue(line.startswith( '1.2.3.4:5678/sda1/9 0.01 seconds: connect send')) def test_connect_receive_timeout(self): self.daemon.node_timeout = 0.02 node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1', index=0) job = dict(partition='9', policy=POLICIES.legacy) self.sender = ssync_sender.Sender(self.daemon, node, job, None) self.sender.suffixes = ['abc'] class FakeBufferedHTTPConnection(NullBufferedHTTPConnection): def getresponse(*args, **kwargs): eventlet.sleep(0.1) with mock.patch.object( ssync_sender, 'SsyncBufferedHTTPConnection', FakeBufferedHTTPConnection): success, candidates = self.sender() self.assertFalse(success) self.assertEqual(candidates, {}) error_lines = self.daemon_logger.get_lines_for_level('error') for line in error_lines: self.assertTrue(line.startswith( '1.2.3.4:5678/sda1/9 0.02 seconds: connect receive')) def test_connect_bad_status(self): self.daemon.node_timeout = 0.02 node = dict(replication_ip='1.2.3.4', replication_port=5678, device='sda1', index=0) job = dict(partition='9', policy=POLICIES.legacy) class FakeBufferedHTTPConnection(NullBufferedHTTPConnection): def getresponse(*args, **kwargs): response = FakeResponse() response.status = 503 response.read = lambda: 'an error message' return response missing_check_fn = 'swift.obj.ssync_sender.Sender.missing_check' with mock.patch(missing_check_fn) as mock_missing_check: with mock.patch.object( ssync_sender, 'SsyncBufferedHTTPConnection', FakeBufferedHTTPConnection): self.sender = ssync_sender.Sender( self.daemon, node, job, ['abc']) success, candidates = self.sender() self.assertFalse(success) self.assertEqual(candidates, {}) error_lines = self.daemon_logger.get_lines_for_level('error') for line in error_lines: self.assertTrue(line.startswith( '1.2.3.4:5678/sda1/9 Expected status 200; got 503')) self.assertIn('an error message', line) # sanity check that Sender did not proceed to missing_check exchange self.assertFalse(mock_missing_check.called) def test_readline_newline_in_buffer(self): response = FakeResponse() response.ssync_response_buffer = b'Has a newline already.\r\nOkay.' self.assertEqual(response.readline(), b'Has a newline already.\r\n') self.assertEqual(response.ssync_response_buffer, b'Okay.') def test_readline_buffer_exceeds_network_chunk_size_somehow(self): response = FakeResponse() response.ssync_response_buffer = b'1234567890' self.assertEqual(response.readline(size=2), b'1234567890') self.assertEqual(response.ssync_response_buffer, b'') def test_readline_at_start_of_chunk(self): response = FakeResponse() response.fp = io.BytesIO(b'2\r\nx\n\r\n') self.assertEqual(response.readline(), b'x\n') def test_readline_chunk_with_extension(self): response = FakeResponse() response.fp = io.BytesIO( b'2 ; chunk=extension\r\nx\n\r\n') self.assertEqual(response.readline(), b'x\n') def test_readline_broken_chunk(self): response = FakeResponse() response.fp = io.BytesIO(b'q\r\nx\n\r\n') self.assertRaises( exceptions.ReplicationException, response.readline) self.assertTrue(response.close_called) def test_readline_terminated_chunk(self): response = FakeResponse() response.fp = io.BytesIO(b'b\r\nnot enough') self.assertRaises( exceptions.ReplicationException, response.readline) self.assertTrue(response.close_called) def test_readline_all(self): response = FakeResponse() response.fp = io.BytesIO(b'2\r\nx\n\r\n0\r\n\r\n') self.assertEqual(response.readline(), b'x\n') self.assertEqual(response.readline(), b'') self.assertEqual(response.readline(), b'') def test_readline_all_trailing_not_newline_termed(self): response = FakeResponse() response.fp = io.BytesIO( b'2\r\nx\n\r\n3\r\n123\r\n0\r\n\r\n') self.assertEqual(response.readline(), b'x\n') self.assertEqual(response.readline(), b'123') self.assertEqual(response.readline(), b'') self.assertEqual(response.readline(), b'') def test_missing_check_timeout(self): connection = FakeConnection() connection.send = lambda d: eventlet.sleep(1) response = FakeResponse() self.sender.daemon.node_timeout = 0.01 self.assertRaises(exceptions.MessageTimeout, self.sender.missing_check, connection, response) def test_missing_check_has_empty_suffixes(self): def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if (device != 'dev' or partition != '9' or policy != POLICIES.legacy or suffixes != ['abc', 'def']): yield # Just here to make this a generator raise Exception( 'No match for %r %r %r %r' % (device, partition, policy, suffixes)) connection = FakeConnection() self.sender.job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, } self.sender.suffixes = ['abc', 'def'] response = FakeResponse( chunk_body=( ':MISSING_CHECK: START\r\n' ':MISSING_CHECK: END\r\n')) self.sender.df_mgr.yield_hashes = yield_hashes available_map, send_map = self.sender.missing_check(connection, response) self.assertEqual( b''.join(connection.sent), b'17\r\n:MISSING_CHECK: START\r\n\r\n' b'15\r\n:MISSING_CHECK: END\r\n\r\n') self.assertEqual(send_map, {}) self.assertEqual(available_map, {}) def test_missing_check_has_suffixes(self): def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if (device == 'dev' and partition == '9' and policy == POLICIES.legacy and suffixes == ['abc', 'def']): yield ( '9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)}) yield ( '9d41d8cd98f00b204e9800998ecf0def', {'ts_data': Timestamp(1380144472.22222), 'ts_meta': Timestamp(1380144473.22222)}) yield ( '9d41d8cd98f00b204e9800998ecf1def', {'ts_data': Timestamp(1380144474.44444), 'ts_ctype': Timestamp(1380144474.44448), 'ts_meta': Timestamp(1380144475.44444)}) else: raise Exception( 'No match for %r %r %r %r' % (device, partition, policy, suffixes)) connection = FakeConnection() self.sender.job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, } self.sender.suffixes = ['abc', 'def'] response = FakeResponse( chunk_body=( ':MISSING_CHECK: START\r\n' ':MISSING_CHECK: END\r\n')) self.sender.df_mgr.yield_hashes = yield_hashes available_map, send_map = self.sender.missing_check(connection, response) self.assertEqual( b''.join(connection.sent), b'17\r\n:MISSING_CHECK: START\r\n\r\n' b'33\r\n9d41d8cd98f00b204e9800998ecf0abc 1380144470.00000\r\n\r\n' b'3b\r\n9d41d8cd98f00b204e9800998ecf0def 1380144472.22222 ' b'm:186a0\r\n\r\n' b'3f\r\n9d41d8cd98f00b204e9800998ecf1def 1380144474.44444 ' b'm:186a0,t:4\r\n\r\n' b'15\r\n:MISSING_CHECK: END\r\n\r\n') self.assertEqual(send_map, {}) candidates = [('9d41d8cd98f00b204e9800998ecf0abc', dict(ts_data=Timestamp(1380144470.00000))), ('9d41d8cd98f00b204e9800998ecf0def', dict(ts_data=Timestamp(1380144472.22222), ts_meta=Timestamp(1380144473.22222))), ('9d41d8cd98f00b204e9800998ecf1def', dict(ts_data=Timestamp(1380144474.44444), ts_meta=Timestamp(1380144475.44444), ts_ctype=Timestamp(1380144474.44448)))] self.assertEqual(available_map, dict(candidates)) def test_missing_check_far_end_disconnect(self): def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if (device == 'dev' and partition == '9' and policy == POLICIES.legacy and suffixes == ['abc']): yield ( '9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)}) else: raise Exception( 'No match for %r %r %r %r' % (device, partition, policy, suffixes)) connection = FakeConnection() self.sender.job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, } self.sender.suffixes = ['abc'] self.sender.df_mgr.yield_hashes = yield_hashes response = FakeResponse(chunk_body='\r\n') exc = None try: self.sender.missing_check(connection, response) except exceptions.ReplicationException as err: exc = err self.assertEqual(str(exc), 'Early disconnect') self.assertEqual( b''.join(connection.sent), b'17\r\n:MISSING_CHECK: START\r\n\r\n' b'33\r\n9d41d8cd98f00b204e9800998ecf0abc 1380144470.00000\r\n\r\n' b'15\r\n:MISSING_CHECK: END\r\n\r\n') def test_missing_check_far_end_disconnect2(self): def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if (device == 'dev' and partition == '9' and policy == POLICIES.legacy and suffixes == ['abc']): yield ( '9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)}) else: raise Exception( 'No match for %r %r %r %r' % (device, partition, policy, suffixes)) connection = FakeConnection() self.sender.job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, } self.sender.suffixes = ['abc'] self.sender.df_mgr.yield_hashes = yield_hashes response = FakeResponse( chunk_body=':MISSING_CHECK: START\r\n') exc = None try: self.sender.missing_check(connection, response) except exceptions.ReplicationException as err: exc = err self.assertEqual(str(exc), 'Early disconnect') self.assertEqual( b''.join(connection.sent), b'17\r\n:MISSING_CHECK: START\r\n\r\n' b'33\r\n9d41d8cd98f00b204e9800998ecf0abc 1380144470.00000\r\n\r\n' b'15\r\n:MISSING_CHECK: END\r\n\r\n') def test_missing_check_far_end_unexpected(self): def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if (device == 'dev' and partition == '9' and policy == POLICIES.legacy and suffixes == ['abc']): yield ( '9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)}) else: raise Exception( 'No match for %r %r %r %r' % (device, partition, policy, suffixes)) connection = FakeConnection() self.sender.job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, } self.sender.suffixes = ['abc'] self.sender.df_mgr.yield_hashes = yield_hashes response = FakeResponse(chunk_body='OH HAI\r\n') exc = None try: self.sender.missing_check(connection, response) except exceptions.ReplicationException as err: exc = err self.assertEqual(str(exc), "Unexpected response: 'OH HAI'") self.assertEqual( b''.join(connection.sent), b'17\r\n:MISSING_CHECK: START\r\n\r\n' b'33\r\n9d41d8cd98f00b204e9800998ecf0abc 1380144470.00000\r\n\r\n' b'15\r\n:MISSING_CHECK: END\r\n\r\n') def test_missing_check_send_map(self): def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if (device == 'dev' and partition == '9' and policy == POLICIES.legacy and suffixes == ['abc']): yield ( '9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)}) else: raise Exception( 'No match for %r %r %r %r' % (device, partition, policy, suffixes)) connection = FakeConnection() self.sender.job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, } self.sender.suffixes = ['abc'] response = FakeResponse( chunk_body=( ':MISSING_CHECK: START\r\n' '0123abc dm\r\n' ':MISSING_CHECK: END\r\n')) self.sender.df_mgr.yield_hashes = yield_hashes available_map, send_map = self.sender.missing_check(connection, response) self.assertEqual( b''.join(connection.sent), b'17\r\n:MISSING_CHECK: START\r\n\r\n' b'33\r\n9d41d8cd98f00b204e9800998ecf0abc 1380144470.00000\r\n\r\n' b'15\r\n:MISSING_CHECK: END\r\n\r\n') self.assertEqual(send_map, {'0123abc': {'data': True, 'meta': True}}) self.assertEqual(available_map, dict([('9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)})])) def test_missing_check_extra_line_parts(self): # check that sender tolerates extra parts in missing check # line responses to allow for protocol upgrades def yield_hashes(device, partition, policy, suffixes=None, **kwargs): if (device == 'dev' and partition == '9' and policy == POLICIES.legacy and suffixes == ['abc']): yield ( '9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)}) else: raise Exception( 'No match for %r %r %r %r' % (device, partition, policy, suffixes)) connection = FakeConnection() self.sender.job = { 'device': 'dev', 'partition': '9', 'policy': POLICIES.legacy, } self.sender.suffixes = ['abc'] response = FakeResponse( chunk_body=( ':MISSING_CHECK: START\r\n' '0123abc d extra response parts\r\n' ':MISSING_CHECK: END\r\n')) self.sender.df_mgr.yield_hashes = yield_hashes available_map, send_map = self.sender.missing_check(connection, response) self.assertEqual(send_map, {'0123abc': {'data': True}}) self.assertEqual(available_map, dict([('9d41d8cd98f00b204e9800998ecf0abc', {'ts_data': Timestamp(1380144470.00000)})])) def test_updates_timeout(self): connection = FakeConnection() connection.send = lambda d: eventlet.sleep(1) response = FakeResponse() self.sender.daemon.node_timeout = 0.01 self.assertRaises(exceptions.MessageTimeout, self.sender.updates, connection, response, {}) def test_updates_empty_send_map(self): connection = FakeConnection() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' ':UPDATES: END\r\n')) self.sender.updates(connection, response, {}) self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_updates_unexpected_response_lines1(self): connection = FakeConnection() response = FakeResponse( chunk_body=( 'abc\r\n' ':UPDATES: START\r\n' ':UPDATES: END\r\n')) exc = None try: self.sender.updates(connection, response, {}) except exceptions.ReplicationException as err: exc = err self.assertEqual(str(exc), "Unexpected response: 'abc'") self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_updates_unexpected_response_lines2(self): connection = FakeConnection() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' 'abc\r\n' ':UPDATES: END\r\n')) exc = None try: self.sender.updates(connection, response, {}) except exceptions.ReplicationException as err: exc = err self.assertEqual(str(exc), "Unexpected response: 'abc'") self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_updates_is_deleted(self): device = 'dev' part = '9' object_parts = ('a', 'c', 'o') df = self._make_open_diskfile(device, part, *object_parts) object_hash = utils.hash_path(*object_parts) delete_timestamp = utils.normalize_timestamp(time.time()) df.delete(delete_timestamp) connection = FakeConnection() self.sender.job = { 'device': device, 'partition': part, 'policy': POLICIES.legacy, 'frag_index': 0, } self.sender.node = {} send_map = {object_hash: {'data': True}} self.sender.send_delete = mock.MagicMock() self.sender.send_put = mock.MagicMock() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' ':UPDATES: END\r\n')) self.sender.updates(connection, response, send_map) self.sender.send_delete.assert_called_once_with( connection, '/a/c/o', delete_timestamp) self.assertEqual(self.sender.send_put.mock_calls, []) # note that the delete line isn't actually sent since we mock # send_delete; send_delete is tested separately. self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_update_send_delete(self): device = 'dev' part = '9' object_parts = ('a', 'c', 'o') df = self._make_open_diskfile(device, part, *object_parts) object_hash = utils.hash_path(*object_parts) delete_timestamp = utils.normalize_timestamp(time.time()) df.delete(delete_timestamp) connection = FakeConnection() self.sender.job = { 'device': device, 'partition': part, 'policy': POLICIES.legacy, 'frag_index': 0, } self.sender.node = {} send_map = {object_hash: {'data': True}} response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' ':UPDATES: END\r\n')) self.sender.updates(connection, response, send_map) self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'30\r\n' b'DELETE /a/c/o\r\n' b'X-Timestamp: %s\r\n\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n' % delete_timestamp.encode('ascii') ) def test_updates_put(self): # sender has data file and meta file ts_iter = make_timestamp_iter() device = 'dev' part = '9' object_parts = ('a', 'c', 'o') t1 = next(ts_iter) df = self._make_open_diskfile( device, part, *object_parts, timestamp=t1) t2 = next(ts_iter) metadata = {'X-Timestamp': t2.internal, 'X-Object-Meta-Fruit': 'kiwi'} df.write_metadata(metadata) object_hash = utils.hash_path(*object_parts) df.open() expected = df.get_metadata() connection = FakeConnection() self.sender.job = { 'device': device, 'partition': part, 'policy': POLICIES.legacy, 'frag_index': 0, } self.sender.node = {} # receiver requested data only send_map = {object_hash: {'data': True}} self.sender.send_delete = mock.MagicMock() self.sender.send_put = mock.MagicMock() self.sender.send_post = mock.MagicMock() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' ':UPDATES: END\r\n')) self.sender.updates(connection, response, send_map) self.assertEqual(self.sender.send_delete.mock_calls, []) self.assertEqual(self.sender.send_post.mock_calls, []) self.assertEqual(1, len(self.sender.send_put.mock_calls)) args, _kwargs = self.sender.send_put.call_args connection, path, df = args self.assertEqual(path, '/a/c/o') self.assertTrue(isinstance(df, diskfile.DiskFile)) self.assertEqual(expected, df.get_metadata()) # note that the put line isn't actually sent since we mock send_put; # send_put is tested separately. self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_updates_post(self): ts_iter = make_timestamp_iter() device = 'dev' part = '9' object_parts = ('a', 'c', 'o') t1 = next(ts_iter) df = self._make_open_diskfile( device, part, *object_parts, timestamp=t1) t2 = next(ts_iter) metadata = {'X-Timestamp': t2.internal, 'X-Object-Meta-Fruit': 'kiwi'} df.write_metadata(metadata) object_hash = utils.hash_path(*object_parts) df.open() expected = df.get_metadata() connection = FakeConnection() self.sender.job = { 'device': device, 'partition': part, 'policy': POLICIES.legacy, 'frag_index': 0, } self.sender.node = {} # receiver requested only meta send_map = {object_hash: {'meta': True}} self.sender.send_delete = mock.MagicMock() self.sender.send_put = mock.MagicMock() self.sender.send_post = mock.MagicMock() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' ':UPDATES: END\r\n')) self.sender.updates(connection, response, send_map) self.assertEqual(self.sender.send_delete.mock_calls, []) self.assertEqual(self.sender.send_put.mock_calls, []) self.assertEqual(1, len(self.sender.send_post.mock_calls)) args, _kwargs = self.sender.send_post.call_args connection, path, df = args self.assertEqual(path, '/a/c/o') self.assertIsInstance(df, diskfile.DiskFile) self.assertEqual(expected, df.get_metadata()) # note that the post line isn't actually sent since we mock send_post; # send_post is tested separately. self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_updates_put_and_post(self): ts_iter = make_timestamp_iter() device = 'dev' part = '9' object_parts = ('a', 'c', 'o') t1 = next(ts_iter) df = self._make_open_diskfile( device, part, *object_parts, timestamp=t1) t2 = next(ts_iter) metadata = {'X-Timestamp': t2.internal, 'X-Object-Meta-Fruit': 'kiwi'} df.write_metadata(metadata) object_hash = utils.hash_path(*object_parts) df.open() expected = df.get_metadata() connection = FakeConnection() self.sender.job = { 'device': device, 'partition': part, 'policy': POLICIES.legacy, 'frag_index': 0, } self.sender.node = {} # receiver requested data and meta send_map = {object_hash: {'meta': True, 'data': True}} self.sender.send_delete = mock.MagicMock() self.sender.send_put = mock.MagicMock() self.sender.send_post = mock.MagicMock() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' ':UPDATES: END\r\n')) self.sender.updates(connection, response, send_map) self.assertEqual(self.sender.send_delete.mock_calls, []) self.assertEqual(1, len(self.sender.send_put.mock_calls)) self.assertEqual(1, len(self.sender.send_post.mock_calls)) args, _kwargs = self.sender.send_put.call_args connection, path, df = args self.assertEqual(path, '/a/c/o') self.assertIsInstance(df, diskfile.DiskFile) self.assertEqual(expected, df.get_metadata()) args, _kwargs = self.sender.send_post.call_args connection, path, df = args self.assertEqual(path, '/a/c/o') self.assertIsInstance(df, diskfile.DiskFile) self.assertEqual(expected, df.get_metadata()) self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_updates_storage_policy_index(self): device = 'dev' part = '9' object_parts = ('a', 'c', 'o') df = self._make_open_diskfile(device, part, *object_parts, policy=POLICIES[0]) object_hash = utils.hash_path(*object_parts) expected = df.get_metadata() connection = FakeConnection() self.sender.job = { 'device': device, 'partition': part, 'policy': POLICIES[0], 'frag_index': 0} self.sender.node = {} send_map = {object_hash: {'data': True}} self.sender.send_delete = mock.MagicMock() self.sender.send_put = mock.MagicMock() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' ':UPDATES: END\r\n')) self.sender.updates(connection, response, send_map) args, _kwargs = self.sender.send_put.call_args connection, path, df = args self.assertEqual(path, '/a/c/o') self.assertTrue(isinstance(df, diskfile.DiskFile)) self.assertEqual(expected, df.get_metadata()) self.assertEqual(os.path.join(self.tx_testdir, 'dev/objects/9/', object_hash[-3:], object_hash), df._datadir) def test_updates_read_response_timeout_start(self): connection = FakeConnection() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' ':UPDATES: END\r\n')) orig_readline = response.readline def delayed_readline(*args, **kwargs): eventlet.sleep(1) return orig_readline(*args, **kwargs) response.readline = delayed_readline self.sender.daemon.http_timeout = 0.01 self.assertRaises(exceptions.MessageTimeout, self.sender.updates, connection, response, {}) def test_updates_read_response_disconnect_start(self): connection = FakeConnection() response = FakeResponse(chunk_body='\r\n') exc = None try: self.sender.updates(connection, response, {}) except exceptions.ReplicationException as err: exc = err self.assertEqual(str(exc), 'Early disconnect') self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_updates_read_response_unexp_start(self): connection = FakeConnection() response = FakeResponse( chunk_body=( 'anything else\r\n' ':UPDATES: START\r\n' ':UPDATES: END\r\n')) exc = None try: self.sender.updates(connection, response, {}) except exceptions.ReplicationException as err: exc = err self.assertEqual(str(exc), "Unexpected response: 'anything else'") self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_updates_read_response_timeout_end(self): connection = FakeConnection() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' ':UPDATES: END\r\n')) orig_readline = response.readline def delayed_readline(*args, **kwargs): rv = orig_readline(*args, **kwargs) if rv == b':UPDATES: END\r\n': eventlet.sleep(1) return rv response.readline = delayed_readline self.sender.daemon.http_timeout = 0.01 self.assertRaises(exceptions.MessageTimeout, self.sender.updates, connection, response, {}) def test_updates_read_response_disconnect_end(self): connection = FakeConnection() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' '\r\n')) exc = None try: self.sender.updates(connection, response, {}) except exceptions.ReplicationException as err: exc = err self.assertEqual(str(exc), 'Early disconnect') self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_updates_read_response_unexp_end(self): connection = FakeConnection() response = FakeResponse( chunk_body=( ':UPDATES: START\r\n' 'anything else\r\n' ':UPDATES: END\r\n')) exc = None try: self.sender.updates(connection, response, {}) except exceptions.ReplicationException as err: exc = err self.assertEqual(str(exc), "Unexpected response: 'anything else'") self.assertEqual( b''.join(connection.sent), b'11\r\n:UPDATES: START\r\n\r\n' b'f\r\n:UPDATES: END\r\n\r\n') def test_send_delete_timeout(self): connection = FakeConnection() connection.send = lambda d: eventlet.sleep(1) self.sender.daemon.node_timeout = 0.01 exc = None try: self.sender.send_delete(connection, '/a/c/o', utils.Timestamp('1381679759.90941')) except exceptions.MessageTimeout as err: exc = err self.assertEqual(str(exc), '0.01 seconds: send_delete') def test_send_delete(self): connection = FakeConnection() self.sender.send_delete(connection, '/a/c/o', utils.Timestamp('1381679759.90941')) self.assertEqual( b''.join(connection.sent), b'30\r\n' b'DELETE /a/c/o\r\n' b'X-Timestamp: 1381679759.90941\r\n' b'\r\n\r\n') def test_send_put_initial_timeout(self): df = self._make_open_diskfile() df._disk_chunk_size = 2 connection = FakeConnection() connection.send = lambda d: eventlet.sleep(1) self.sender.daemon.node_timeout = 0.01 exc = None try: self.sender.send_put(connection, '/a/c/o', df) except exceptions.MessageTimeout as err: exc = err self.assertEqual(str(exc), '0.01 seconds: send_put') def test_send_put_chunk_timeout(self): df = self._make_open_diskfile() connection = FakeConnection() self.sender.daemon.node_timeout = 0.01 one_shot = [None] def mock_send(data): try: one_shot.pop() except IndexError: eventlet.sleep(1) connection.send = mock_send exc = None try: self.sender.send_put(connection, '/a/c/o', df) except exceptions.MessageTimeout as err: exc = err self.assertEqual(str(exc), '0.01 seconds: send_put chunk') def _check_send_put(self, obj_name, meta_value): ts_iter = make_timestamp_iter() t1 = next(ts_iter) body = b'test' extra_metadata = {'Some-Other-Header': 'value', u'Unicode-Meta-Name': meta_value} df = self._make_open_diskfile(obj=obj_name, body=body, timestamp=t1, extra_metadata=extra_metadata) expected = dict(df.get_metadata()) expected['body'] = body if six.PY2 else body.decode('ascii') expected['chunk_size'] = len(body) expected['meta'] = meta_value wire_meta = meta_value if six.PY2 else meta_value.encode('utf8') path = six.moves.urllib.parse.quote(expected['name']) expected['path'] = path expected['length'] = format(145 + len(path) + len(wire_meta), 'x') # .meta file metadata is not included in expected for data only PUT t2 = next(ts_iter) metadata = {'X-Timestamp': t2.internal, 'X-Object-Meta-Fruit': 'kiwi'} df.write_metadata(metadata) df.open() connection = FakeConnection() self.sender.send_put(connection, path, df) expected = ( '%(length)s\r\n' 'PUT %(path)s\r\n' 'Content-Length: %(Content-Length)s\r\n' 'ETag: %(ETag)s\r\n' 'Some-Other-Header: value\r\n' 'Unicode-Meta-Name: %(meta)s\r\n' 'X-Timestamp: %(X-Timestamp)s\r\n' '\r\n' '\r\n' '%(chunk_size)s\r\n' '%(body)s\r\n' % expected) if not six.PY2: expected = expected.encode('utf8') self.assertEqual(b''.join(connection.sent), expected) def test_send_put(self): self._check_send_put('o', 'meta') def test_send_put_unicode(self): if six.PY2: self._check_send_put( 'o_with_caract\xc3\xa8res_like_in_french', 'm\xc3\xa8ta') else: self._check_send_put( 'o_with_caract\u00e8res_like_in_french', 'm\u00e8ta') def _check_send_post(self, obj_name, meta_value): ts_iter = make_timestamp_iter() # create .data file extra_metadata = {'X-Object-Meta-Foo': 'old_value', 'X-Object-Sysmeta-Test': 'test_sysmeta', 'Content-Type': 'test_content_type'} ts_0 = next(ts_iter) df = self._make_open_diskfile(obj=obj_name, extra_metadata=extra_metadata, timestamp=ts_0) # create .meta file ts_1 = next(ts_iter) newer_metadata = {u'X-Object-Meta-Foo': meta_value, 'X-Timestamp': ts_1.internal} df.write_metadata(newer_metadata) path = six.moves.urllib.parse.quote(df.read_metadata()['name']) wire_meta = meta_value if six.PY2 else meta_value.encode('utf8') length = format(61 + len(path) + len(wire_meta), 'x') connection = FakeConnection() with df.open(): self.sender.send_post(connection, path, df) self.assertEqual( b''.join(connection.sent), b'%s\r\n' b'POST %s\r\n' b'X-Object-Meta-Foo: %s\r\n' b'X-Timestamp: %s\r\n' b'\r\n' b'\r\n' % (length.encode('ascii'), path.encode('ascii'), wire_meta, ts_1.internal.encode('ascii'))) def test_send_post(self): self._check_send_post('o', 'meta') def test_send_post_unicode(self): if six.PY2: self._check_send_post( 'o_with_caract\xc3\xa8res_like_in_french', 'm\xc3\xa8ta') else: self._check_send_post( 'o_with_caract\u00e8res_like_in_french', 'm\u00e8ta') def test_disconnect_timeout(self): connection = FakeConnection() connection.send = lambda d: eventlet.sleep(1) self.sender.daemon.node_timeout = 0.01 self.sender.disconnect(connection) self.assertEqual(b''.join(connection.sent), b'') self.assertTrue(connection.closed) def test_disconnect(self): connection = FakeConnection() self.sender.disconnect(connection) self.assertEqual(b''.join(connection.sent), b'0\r\n\r\n') self.assertTrue(connection.closed) class TestModuleMethods(unittest.TestCase): def test_encode_missing(self): object_hash = '9d41d8cd98f00b204e9800998ecf0abc' ts_iter = make_timestamp_iter() t_data = next(ts_iter) t_type = next(ts_iter) t_meta = next(ts_iter) d_meta_data = t_meta.raw - t_data.raw d_type_data = t_type.raw - t_data.raw # equal data and meta timestamps -> legacy single timestamp string expected = '%s %s' % (object_hash, t_data.internal) self.assertEqual( expected.encode('ascii'), ssync_sender.encode_missing(object_hash, t_data, ts_meta=t_data)) # newer meta timestamp -> hex data delta encoded as extra message part expected = '%s %s m:%x' % (object_hash, t_data.internal, d_meta_data) self.assertEqual( expected.encode('ascii'), ssync_sender.encode_missing(object_hash, t_data, ts_meta=t_meta)) # newer meta timestamp -> hex data delta encoded as extra message part # content type timestamp equals data timestamp -> no delta expected = '%s %s m:%x' % (object_hash, t_data.internal, d_meta_data) self.assertEqual( expected.encode('ascii'), ssync_sender.encode_missing(object_hash, t_data, t_meta, t_data)) # content type timestamp newer data timestamp -> delta encoded expected = ('%s %s m:%x,t:%x' % (object_hash, t_data.internal, d_meta_data, d_type_data)) self.assertEqual( expected.encode('ascii'), ssync_sender.encode_missing(object_hash, t_data, t_meta, t_type)) # content type timestamp equal to meta timestamp -> delta encoded expected = ('%s %s m:%x,t:%x' % (object_hash, t_data.internal, d_meta_data, d_type_data)) self.assertEqual( expected.encode('ascii'), ssync_sender.encode_missing(object_hash, t_data, t_meta, t_type)) # test encode and decode functions invert expected = {'object_hash': object_hash, 'ts_meta': t_meta, 'ts_data': t_data, 'ts_ctype': t_type} msg = ssync_sender.encode_missing(**expected) actual = ssync_receiver.decode_missing(msg) self.assertEqual(expected, actual) expected = {'object_hash': object_hash, 'ts_meta': t_meta, 'ts_data': t_meta, 'ts_ctype': t_meta} msg = ssync_sender.encode_missing(**expected) actual = ssync_receiver.decode_missing(msg) self.assertEqual(expected, actual) def test_decode_wanted(self): parts = ['d'] expected = {'data': True} self.assertEqual(ssync_sender.decode_wanted(parts), expected) parts = ['m'] expected = {'meta': True} self.assertEqual(ssync_sender.decode_wanted(parts), expected) parts = ['dm'] expected = {'data': True, 'meta': True} self.assertEqual(ssync_sender.decode_wanted(parts), expected) # you don't really expect these next few... parts = ['md'] expected = {'data': True, 'meta': True} self.assertEqual(ssync_sender.decode_wanted(parts), expected) parts = ['xcy', 'funny', {'business': True}] expected = {'data': True} self.assertEqual(ssync_sender.decode_wanted(parts), expected) if __name__ == '__main__': unittest.main()