def test_main(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) # Kill container servers excepting two of the primaries cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] kill_nonprimary_server(cnodes, self.ipport2server, self.pids) kill_server((cnode['ip'], cnode['port']), self.ipport2server, self.pids) # Create container/obj obj = 'object-%s' % uuid4() client.put_object(self.url, self.token, container, obj, '') # Restart other primary server start_server((cnode['ip'], cnode['port']), self.ipport2server, self.pids) # Assert it does not know about container/obj self.assert_(not direct_client.direct_get_container( cnode, cpart, self.account, container)[1]) # Run the object-updaters Manager(['object-updater']).once() # Assert the other primary server now knows about container/obj objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] self.assert_(obj in objs)
def test_main(self): # Create container # Kill container servers excepting two of the primaries # Create container/obj # Restart other primary server # Assert it does not know about container/obj # Run the object-updaters # Assert the other primary server now knows about container/obj container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] kill_nonprimary_server(cnodes, self.port2server, self.pids) kill_server(cnode['port'], self.port2server, self.pids) obj = 'object-%s' % uuid4() client.put_object(self.url, self.token, container, obj, '') start_server(cnode['port'], self.port2server, self.pids) self.assert_(not direct_client.direct_get_container( cnode, cpart, self.account, container)[1]) processes = [] for node in xrange(1, 5): processes.append(Popen(['swift-object-updater', '/etc/swift/object-server/%d.conf' % node, 'once'])) for process in processes: process.wait() objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] self.assert_(obj in objs)
def test_main(self): # Create container container = "container-%s" % uuid4() client.put_container(self.url, self.token, container) # Kill container servers excepting two of the primaries cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] kill_nonprimary_server(cnodes, self.ipport2server) kill_server((cnode["ip"], cnode["port"]), self.ipport2server) # Create container/obj obj = "object-%s" % uuid4() client.put_object(self.url, self.token, container, obj, "") # Restart other primary server start_server((cnode["ip"], cnode["port"]), self.ipport2server) # Assert it does not know about container/obj self.assertFalse(direct_client.direct_get_container(cnode, cpart, self.account, container)[1]) # Run the object-updaters Manager(["object-updater"]).once() # Assert the other primary server now knows about container/obj objs = [o["name"] for o in direct_client.direct_get_container(cnode, cpart, self.account, container)[1]] self.assertIn(obj, objs)
def test_main(self): # Create container # Kill container servers excepting two of the primaries # Create container/obj # Restart other primary server # Assert it does not know about container/obj # Run the object-updaters # Assert the other primary server now knows about container/obj container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] kill_nonprimary_server(cnodes, self.port2server, self.pids) kill_server(cnode['port'], self.port2server, self.pids) obj = 'object-%s' % uuid4() client.put_object(self.url, self.token, container, obj, '') start_server(cnode['port'], self.port2server, self.pids) self.assert_(not direct_client.direct_get_container( cnode, cpart, self.account, container)[1]) Manager(['object-updater']).once() objs = [ o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1] ] self.assert_(obj in objs)
def test_async_updates_after_PUT_and_POST(self): # verify correct update values when PUT update and POST updates are # missed but then async updates are sent cpart, cnodes = self.container_ring.get_nodes(self.account, 'c1') client.put_container(self.url, self.token, 'c1', headers={'X-Storage-Policy': self.policy.name}) # PUT and POST to object while one container server is stopped so that # we force async updates to it kill_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) content = u'stuff' client.put_object(self.url, self.token, 'c1', 'o1', contents=content, content_type='test/ctype') meta = client.head_object(self.url, self.token, 'c1', 'o1') # use internal client for POST so we can force fast-post mode int_client = self.make_internal_client(object_post_as_copy=False) int_client.set_object_metadata(self.account, 'c1', 'o1', {'X-Object-Meta-Fruit': 'Tomato'}) self.assertEqual('Tomato', int_client.get_object_metadata( self.account, 'c1', 'o1')['x-object-meta-fruit']) # sanity # re-start the container server and assert that it does not yet know # about the object start_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) self.assertFalse( direct_client.direct_get_container(cnodes[0], cpart, self.account, 'c1')[1]) # Run the object-updaters to send the async pendings Manager(['object-updater']).once() # check the re-started container server got same update as others. # we cannot assert the actual etag value because it may be encrypted listing_etags = set() for cnode in cnodes: listing = direct_client.direct_get_container( cnode, cpart, self.account, 'c1')[1] self.assertEqual(1, len(listing)) self.assertEqual(len(content), listing[0]['bytes']) self.assertEqual('test/ctype', listing[0]['content_type']) listing_etags.add(listing[0]['hash']) self.assertEqual(1, len(listing_etags)) # check that listing meta returned to client is consistent with object # meta returned to client hdrs, listing = client.get_container(self.url, self.token, 'c1') self.assertEqual(1, len(listing)) self.assertEqual('o1', listing[0]['name']) self.assertEqual(len(content), listing[0]['bytes']) self.assertEqual(meta['etag'], listing[0]['hash']) self.assertEqual('test/ctype', listing[0]['content_type'])
def test_main(self): # Create container # Kill container servers excepting two of the primaries # Create container/obj # Restart other primary server # Assert it does not know about container/obj # Run the object-updaters # Assert the other primary server now knows about container/obj container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] kill_nonprimary_server(cnodes, self.port2server, self.pids) kill_server(cnode['port'], self.port2server, self.pids) obj = 'object-%s' % uuid4() client.put_object(self.url, self.token, container, obj, '') start_server(cnode['port'], self.port2server, self.pids) self.assert_(not direct_client.direct_get_container( cnode, cpart, self.account, container)[1]) processes = [] for node in xrange(1, 5): processes.append( Popen([ 'swift-object-updater', '/etc/swift/object-server/%d.conf' % node, 'once' ])) for process in processes: process.wait() objs = [ o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1] ] self.assert_(obj in objs)
def test_async_update_after_PUT(self): cpart, cnodes = self.container_ring.get_nodes(self.account, 'c1') client.put_container(self.url, self.token, 'c1', headers={'X-Storage-Policy': self.policy.name}) # put an object while one container server is stopped so that we force # an async update to it kill_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) content = u'stuff' client.put_object(self.url, self.token, 'c1', 'o1', contents=content) meta = client.head_object(self.url, self.token, 'c1', 'o1') # re-start the container server and assert that it does not yet know # about the object start_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) self.assertFalse(direct_client.direct_get_container( cnodes[0], cpart, self.account, 'c1')[1]) # Run the object-updaters to be sure updates are done Manager(['object-updater']).once() # check the re-started container server has update with override values obj = direct_client.direct_get_container( cnodes[0], cpart, self.account, 'c1')[1][0] self.assertEqual(meta['etag'], obj['hash']) self.assertEqual(len(content), obj['bytes'])
def test_main(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) # Kill container servers excepting two of the primaries cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] kill_nonprimary_server(cnodes, self.ipport2server) kill_server((cnode['ip'], cnode['port']), self.ipport2server) # Create container/obj obj = 'object-%s' % uuid4() client.put_object(self.url, self.token, container, obj, '') # Restart other primary server start_server((cnode['ip'], cnode['port']), self.ipport2server) # Assert it does not know about container/obj self.assertFalse(direct_client.direct_get_container( cnode, cpart, self.account, container)[1]) # Run the object-updaters Manager(['object-updater']).once() # Assert the other primary server now knows about container/obj objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] self.assertIn(obj, objs)
def test_one_node_fails(self): # Create container1 # Kill container1 servers excepting two of the primaries # Delete container1 # Restart other container1 primary server # Create container1/object1 (allowed because at least server thinks the # container exists) # Get to a final state # Assert all container1 servers indicate container1 is alive and # well with object1 # Assert account level also indicates container1 is alive and # well with object1 container1 = 'container-%s' % uuid4() cpart, cnodes = self.container_ring.get_nodes(self.account, container1) client.put_container(self.url, self.token, container1) kill_nonprimary_server(cnodes, self.port2server, self.pids) kill_server(cnodes[0]['port'], self.port2server, self.pids) client.delete_container(self.url, self.token, container1) start_server(cnodes[0]['port'], self.port2server, self.pids) client.put_object(self.url, self.token, container1, 'object1', '123') get_to_final_state() for cnode in cnodes: self.assertEquals([ o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container1)[1] ], ['object1']) headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '3')
def test_missing_container(self): # In this test, we need to put container at handoff devices, so we # need container devices more than replica count if len(self.container_ring.devs) <= self.container_ring.replica_count: raise SkipTest("Need devices more that replica count") container = 'container-%s' % uuid4() cpart, cnodes = self.container_ring.get_nodes(self.account, container) # Kill all primary container servers for cnode in cnodes: kill_server((cnode['ip'], cnode['port']), self.ipport2server) # Create container, and all of its replicas are placed at handoff # device try: client.put_container(self.url, self.token, container) except ClientException as err: # if the cluster doesn't have enough devices, swift may return # error (ex. When we only have 4 devices in 3-replica cluster). self.assertEqual(err.http_status, 503) # Assert handoff device has a container replica another_cnode = next(self.container_ring.get_more_nodes(cpart)) direct_client.direct_get_container( another_cnode, cpart, self.account, container) # Restart all primary container servers for cnode in cnodes: start_server((cnode['ip'], cnode['port']), self.ipport2server) # Create container/obj obj = 'object-%s' % uuid4() client.put_object(self.url, self.token, container, obj, '') # Run the object-updater Manager(['object-updater']).once() # Run the container-replicator, and now, container replicas # at handoff device get moved to primary servers Manager(['container-replicator']).once() # Assert container replicas in primary servers, just moved by # replicator don't know about the object for cnode in cnodes: self.assertFalse(direct_client.direct_get_container( cnode, cpart, self.account, container)[1]) # since the container is empty - we can delete it! client.delete_container(self.url, self.token, container) # Re-run the object-updaters and now container replicas in primary # container servers should get updated Manager(['object-updater']).once() # Assert all primary container servers know about container/obj for cnode in cnodes: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] self.assertIn(obj, objs)
def test_one_node_fails(self): # Create container1 # Kill container1 servers excepting two of the primaries # Delete container1 # Restart other container1 primary server # Create container1/object1 (allowed because at least server thinks the # container exists) # Get to a final state # Assert all container1 servers indicate container1 is alive and # well with object1 # Assert account level also indicates container1 is alive and # well with object1 container1 = 'container-%s' % uuid4() cpart, cnodes = self.container_ring.get_nodes(self.account, container1) client.put_container(self.url, self.token, container1) kill_nonprimary_server(cnodes, self.port2server, self.pids) kill_server(cnodes[0]['port'], self.port2server, self.pids) client.delete_container(self.url, self.token, container1) start_server(cnodes[0]['port'], self.port2server, self.pids) client.put_object(self.url, self.token, container1, 'object1', '123') get_to_final_state() for cnode in cnodes: self.assertEquals( [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container1)[1]], ['object1']) headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '3')
def test_missing_container(self): # In this test, we need to put container at handoff devices, so we # need container devices more than replica count if len(self.container_ring.devs) <= self.container_ring.replica_count: raise SkipTest("Need devices more that replica count") container = "container-%s" % uuid4() cpart, cnodes = self.container_ring.get_nodes(self.account, container) # Kill all primary container servers for cnode in cnodes: kill_server((cnode["ip"], cnode["port"]), self.ipport2server) # Create container, and all of its replicas are placed at handoff # device try: client.put_container(self.url, self.token, container) except ClientException as err: # if the cluster doesn't have enough devices, swift may return # error (ex. When we only have 4 devices in 3-replica cluster). self.assertEqual(err.http_status, 503) # Assert handoff device has a container replica another_cnode = self.container_ring.get_more_nodes(cpart).next() direct_client.direct_get_container(another_cnode, cpart, self.account, container) # Restart all primary container servers for cnode in cnodes: start_server((cnode["ip"], cnode["port"]), self.ipport2server) # Create container/obj obj = "object-%s" % uuid4() client.put_object(self.url, self.token, container, obj, "") # Run the object-updater Manager(["object-updater"]).once() # Run the container-replicator, and now, container replicas # at handoff device get moved to primary servers Manager(["container-replicator"]).once() # Assert container replicas in primary servers, just moved by # replicator don't know about the object for cnode in cnodes: self.assertFalse(direct_client.direct_get_container(cnode, cpart, self.account, container)[1]) # since the container is empty - we can delete it! client.delete_container(self.url, self.token, container) # Re-run the object-updaters and now container replicas in primary # container servers should get updated Manager(["object-updater"]).once() # Assert all primary container servers know about container/obj for cnode in cnodes: objs = [o["name"] for o in direct_client.direct_get_container(cnode, cpart, self.account, container)[1]] self.assertIn(obj, objs)
def test_missing_primaries(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container, headers={'X-Storage-Policy': self.policy.name}) # Create container/obj (goes to all three primaries) obj = 'object-%s' % uuid4() client.put_object(self.url, self.token, container, obj, b'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != b'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Kill all primaries obj server obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes(self.account, container, obj) for onode in onodes: kill_server((onode['ip'], onode['port']), self.ipport2server) # Indirectly (i.e., through proxy) try to GET object, it should return # a 503, since all primaries will Timeout and handoffs return a 404. try: client.get_object(self.url, self.token, container, obj) except client.ClientException as err: self.assertEqual(err.http_status, 503) else: self.fail("Expected ClientException but didn't get it") # Restart the first container/obj primary server again onode = onodes[0] start_server((onode['ip'], onode['port']), self.ipport2server) # Send a delete that will reach first primary and handoff. # Sure, the DELETE will return a 404 since the handoff doesn't # have a .data file, but object server will still write a # Tombstone in the handoff node! try: client.delete_object(self.url, self.token, container, obj) except client.ClientException as err: self.assertEqual(err.http_status, 404) # kill the first container/obj primary server again kill_server((onode['ip'], onode['port']), self.ipport2server) # a new GET should return a 404, since all primaries will Timeout # and the handoff will return a 404 but this time with a tombstone try: client.get_object(self.url, self.token, container, obj) except client.ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it")
def test_update_during_POST_only(self): # verify correct update values when PUT update is missed but then a # POST update succeeds *before* the PUT async pending update is sent cpart, cnodes = self.container_ring.get_nodes(self.account, "c1") client.put_container(self.url, self.token, "c1", headers={"X-Storage-Policy": self.policy.name}) # put an object while one container server is stopped so that we force # an async update to it kill_server((cnodes[0]["ip"], cnodes[0]["port"]), self.ipport2server) content = u"stuff" client.put_object(self.url, self.token, "c1", "o1", contents=content, content_type="test/ctype") meta = client.head_object(self.url, self.token, "c1", "o1") # re-start the container server and assert that it does not yet know # about the object start_server((cnodes[0]["ip"], cnodes[0]["port"]), self.ipport2server) self.assertFalse(direct_client.direct_get_container(cnodes[0], cpart, self.account, "c1")[1]) # use internal client for POST so we can force fast-post mode int_client = self.make_internal_client(object_post_as_copy=False) int_client.set_object_metadata(self.account, "c1", "o1", {"X-Object-Meta-Fruit": "Tomato"}) self.assertEqual( "Tomato", int_client.get_object_metadata(self.account, "c1", "o1")["x-object-meta-fruit"] ) # sanity # check the re-started container server got same update as others. # we cannot assert the actual etag value because it may be encrypted listing_etags = set() for cnode in cnodes: listing = direct_client.direct_get_container(cnode, cpart, self.account, "c1")[1] self.assertEqual(1, len(listing)) self.assertEqual(len(content), listing[0]["bytes"]) self.assertEqual("test/ctype", listing[0]["content_type"]) listing_etags.add(listing[0]["hash"]) self.assertEqual(1, len(listing_etags)) # check that listing meta returned to client is consistent with object # meta returned to client hdrs, listing = client.get_container(self.url, self.token, "c1") self.assertEqual(1, len(listing)) self.assertEqual("o1", listing[0]["name"]) self.assertEqual(len(content), listing[0]["bytes"]) self.assertEqual(meta["etag"], listing[0]["hash"]) self.assertEqual("test/ctype", listing[0]["content_type"]) # Run the object-updaters to send the async pending from the PUT Manager(["object-updater"]).once() # check container listing metadata is still correct for cnode in cnodes: listing = direct_client.direct_get_container(cnode, cpart, self.account, "c1")[1] self.assertEqual(1, len(listing)) self.assertEqual(len(content), listing[0]["bytes"]) self.assertEqual("test/ctype", listing[0]["content_type"]) listing_etags.add(listing[0]["hash"]) self.assertEqual(1, len(listing_etags))
def test_async_updates_after_PUT_and_POST(self): # verify correct update values when PUT update and POST updates are # missed but then async updates are sent cpart, cnodes = self.container_ring.get_nodes(self.account, 'c1') client.put_container(self.url, self.token, 'c1', headers={'X-Storage-Policy': self.policy.name}) # PUT and POST to object while one container server is stopped so that # we force async updates to it kill_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) content = u'stuff' client.put_object(self.url, self.token, 'c1', 'o1', contents=content, content_type='test/ctype') meta = client.head_object(self.url, self.token, 'c1', 'o1') # use internal client for POST so we can force fast-post mode int_client = self.make_internal_client(object_post_as_copy=False) int_client.set_object_metadata( self.account, 'c1', 'o1', {'X-Object-Meta-Fruit': 'Tomato'}) self.assertEqual( 'Tomato', int_client.get_object_metadata(self.account, 'c1', 'o1') ['x-object-meta-fruit']) # sanity # re-start the container server and assert that it does not yet know # about the object start_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) self.assertFalse(direct_client.direct_get_container( cnodes[0], cpart, self.account, 'c1')[1]) # Run the object-updaters to send the async pendings Manager(['object-updater']).once() # check the re-started container server got same update as others. # we cannot assert the actual etag value because it may be encrypted listing_etags = set() for cnode in cnodes: listing = direct_client.direct_get_container( cnode, cpart, self.account, 'c1')[1] self.assertEqual(1, len(listing)) self.assertEqual(len(content), listing[0]['bytes']) self.assertEqual('test/ctype', listing[0]['content_type']) listing_etags.add(listing[0]['hash']) self.assertEqual(1, len(listing_etags)) # check that listing meta returned to client is consistent with object # meta returned to client hdrs, listing = client.get_container(self.url, self.token, 'c1') self.assertEqual(1, len(listing)) self.assertEqual('o1', listing[0]['name']) self.assertEqual(len(content), listing[0]['bytes']) self.assertEqual(meta['etag'], listing[0]['hash']) self.assertEqual('test/ctype', listing[0]['content_type'])
def test_async_update_after_PUT(self): cpart, cnodes = self.container_ring.get_nodes(self.account, 'c1') client.put_container(self.url, self.token, 'c1', headers={'X-Storage-Policy': self.policy.name}) # put an object while one container server is stopped so that we force # an async update to it kill_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) content = u'stuff' client.put_object(self.url, self.token, 'c1', 'o1', contents=content, content_type='test/ctype') meta = client.head_object(self.url, self.token, 'c1', 'o1') # re-start the container server and assert that it does not yet know # about the object start_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) self.assertFalse( direct_client.direct_get_container(cnodes[0], cpart, self.account, 'c1')[1]) # Run the object-updaters to be sure updates are done Manager(['object-updater']).once() # check the re-started container server got same update as others. # we cannot assert the actual etag value because it may be encrypted listing_etags = set() for cnode in cnodes: listing = direct_client.direct_get_container( cnode, cpart, self.account, 'c1')[1] self.assertEqual(1, len(listing)) self.assertEqual(len(content), listing[0]['bytes']) self.assertEqual('test/ctype', listing[0]['content_type']) listing_etags.add(listing[0]['hash']) self.assertEqual(1, len(listing_etags)) # check that listing meta returned to client is consistent with object # meta returned to client hdrs, listing = client.get_container(self.url, self.token, 'c1') self.assertEqual(1, len(listing)) self.assertEqual('o1', listing[0]['name']) self.assertEqual(len(content), listing[0]['bytes']) self.assertEqual(meta['etag'], listing[0]['hash']) self.assertEqual('test/ctype', listing[0]['content_type'])
def test_update_during_POST_only(self): # verify correct update values when PUT update is missed but then a # POST update succeeds *before* the PUT async pending update is sent cpart, cnodes = self.container_ring.get_nodes(self.account, 'c1') client.put_container(self.url, self.token, 'c1', headers={'X-Storage-Policy': self.policy.name}) # put an object while one container server is stopped so that we force # an async update to it kill_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) content = u'stuff' client.put_object(self.url, self.token, 'c1', 'o1', contents=content) meta = client.head_object(self.url, self.token, 'c1', 'o1') # re-start the container server and assert that it does not yet know # about the object start_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) self.assertFalse( direct_client.direct_get_container(cnodes[0], cpart, self.account, 'c1')[1]) # use internal client for POST so we can force fast-post mode int_client = self.make_internal_client(object_post_as_copy=False) int_client.set_object_metadata(self.account, 'c1', 'o1', {'X-Object-Meta-Fruit': 'Tomato'}) self.assertEqual('Tomato', int_client.get_object_metadata( self.account, 'c1', 'o1')['x-object-meta-fruit']) # sanity # check the re-started container server has update with override values obj = direct_client.direct_get_container(cnodes[0], cpart, self.account, 'c1')[1][0] self.assertEqual(meta['etag'], obj['hash']) self.assertEqual(len(content), obj['bytes']) # Run the object-updaters to send the async pending from the PUT Manager(['object-updater']).once() # check container listing metadata is still correct obj = direct_client.direct_get_container(cnodes[0], cpart, self.account, 'c1')[1][0] self.assertEqual(meta['etag'], obj['hash']) self.assertEqual(len(content), obj['bytes'])
def test_update_during_POST_only(self): # verify correct update values when PUT update is missed but then a # POST update succeeds *before* the PUT async pending update is sent cpart, cnodes = self.container_ring.get_nodes(self.account, 'c1') client.put_container(self.url, self.token, 'c1', headers={'X-Storage-Policy': self.policy.name}) # put an object while one container server is stopped so that we force # an async update to it kill_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) content = u'stuff' client.put_object(self.url, self.token, 'c1', 'o1', contents=content) meta = client.head_object(self.url, self.token, 'c1', 'o1') # re-start the container server and assert that it does not yet know # about the object start_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) self.assertFalse(direct_client.direct_get_container( cnodes[0], cpart, self.account, 'c1')[1]) # use internal client for POST so we can force fast-post mode int_client = self.make_internal_client(object_post_as_copy=False) int_client.set_object_metadata( self.account, 'c1', 'o1', {'X-Object-Meta-Fruit': 'Tomato'}) self.assertEqual( 'Tomato', int_client.get_object_metadata(self.account, 'c1', 'o1') ['x-object-meta-fruit']) # sanity # check the re-started container server has update with override values obj = direct_client.direct_get_container( cnodes[0], cpart, self.account, 'c1')[1][0] self.assertEqual(meta['etag'], obj['hash']) self.assertEqual(len(content), obj['bytes']) # Run the object-updaters to send the async pending from the PUT Manager(['object-updater']).once() # check container listing metadata is still correct obj = direct_client.direct_get_container( cnodes[0], cpart, self.account, 'c1')[1][0] self.assertEqual(meta['etag'], obj['hash']) self.assertEqual(len(content), obj['bytes'])
def test_async_update_after_PUT(self): cpart, cnodes = self.container_ring.get_nodes(self.account, 'c1') client.put_container(self.url, self.token, 'c1', headers={'X-Storage-Policy': self.policy.name}) # put an object while one container server is stopped so that we force # an async update to it kill_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) content = u'stuff' client.put_object(self.url, self.token, 'c1', 'o1', contents=content, content_type='test/ctype') meta = client.head_object(self.url, self.token, 'c1', 'o1') # re-start the container server and assert that it does not yet know # about the object start_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server) self.assertFalse(direct_client.direct_get_container( cnodes[0], cpart, self.account, 'c1')[1]) # Run the object-updaters to be sure updates are done Manager(['object-updater']).once() # check the re-started container server got same update as others. # we cannot assert the actual etag value because it may be encrypted listing_etags = set() for cnode in cnodes: listing = direct_client.direct_get_container( cnode, cpart, self.account, 'c1')[1] self.assertEqual(1, len(listing)) self.assertEqual(len(content), listing[0]['bytes']) self.assertEqual('test/ctype', listing[0]['content_type']) listing_etags.add(listing[0]['hash']) self.assertEqual(1, len(listing_etags)) # check that listing meta returned to client is consistent with object # meta returned to client hdrs, listing = client.get_container(self.url, self.token, 'c1') self.assertEqual(1, len(listing)) self.assertEqual('o1', listing[0]['name']) self.assertEqual(len(content), listing[0]['bytes']) self.assertEqual(meta['etag'], listing[0]['hash']) self.assertEqual('test/ctype', listing[0]['content_type'])
def test_two_nodes_fail(self): # Create container1 # Kill container1 servers excepting one of the primaries # Delete container1 directly to the one primary still up # Restart other container1 servers # Get to a final state # Assert all container1 servers indicate container1 is gone (happens # because the one node that knew about the delete replicated to the # others.) # Assert account level also indicates container1 is gone container1 = 'container-%s' % uuid4() cpart, cnodes = self.container_ring.get_nodes(self.account, container1) client.put_container(self.url, self.token, container1) cnp_port = kill_nonprimary_server(cnodes, self.port2server, self.pids) kill_server(cnodes[0]['port'], self.port2server, self.pids) kill_server(cnodes[1]['port'], self.port2server, self.pids) direct_client.direct_delete_container(cnodes[2], cpart, self.account, container1) start_server(cnodes[0]['port'], self.port2server, self.pids) start_server(cnodes[1]['port'], self.port2server, self.pids) start_server(cnp_port, self.port2server, self.pids) get_to_final_state() for cnode in cnodes: exc = None try: direct_client.direct_get_container(cnode, cpart, self.account, container1) except client.ClientException as err: exc = err self.assertEquals(exc.http_status, 404) headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '0') self.assertEquals(headers['x-account-object-count'], '0') self.assertEquals(headers['x-account-bytes-used'], '0')
def test_async_update_after_PUT(self): cpart, cnodes = self.container_ring.get_nodes(self.account, "c1") client.put_container(self.url, self.token, "c1", headers={"X-Storage-Policy": self.policy.name}) # put an object while one container server is stopped so that we force # an async update to it kill_server((cnodes[0]["ip"], cnodes[0]["port"]), self.ipport2server) content = u"stuff" client.put_object(self.url, self.token, "c1", "o1", contents=content, content_type="test/ctype") meta = client.head_object(self.url, self.token, "c1", "o1") # re-start the container server and assert that it does not yet know # about the object start_server((cnodes[0]["ip"], cnodes[0]["port"]), self.ipport2server) self.assertFalse(direct_client.direct_get_container(cnodes[0], cpart, self.account, "c1")[1]) # Run the object-updaters to be sure updates are done Manager(["object-updater"]).once() # check the re-started container server got same update as others. # we cannot assert the actual etag value because it may be encrypted listing_etags = set() for cnode in cnodes: listing = direct_client.direct_get_container(cnode, cpart, self.account, "c1")[1] self.assertEqual(1, len(listing)) self.assertEqual(len(content), listing[0]["bytes"]) self.assertEqual("test/ctype", listing[0]["content_type"]) listing_etags.add(listing[0]["hash"]) self.assertEqual(1, len(listing_etags)) # check that listing meta returned to client is consistent with object # meta returned to client hdrs, listing = client.get_container(self.url, self.token, "c1") self.assertEqual(1, len(listing)) self.assertEqual("o1", listing[0]["name"]) self.assertEqual(len(content), listing[0]["bytes"]) self.assertEqual(meta["etag"], listing[0]["hash"]) self.assertEqual("test/ctype", listing[0]["content_type"])
def test_one_node_fails(self): # Create container1 container1 = "container-%s" % uuid4() cpart, cnodes = self.container_ring.get_nodes(self.account, container1) client.put_container(self.url, self.token, container1) # Kill container1 servers excepting two of the primaries kill_nonprimary_server(cnodes, self.port2server, self.pids) kill_server(cnodes[0]["port"], self.port2server, self.pids) # Delete container1 client.delete_container(self.url, self.token, container1) # Restart other container1 primary server start_server(cnodes[0]["port"], self.port2server, self.pids) # Create container1/object1 (allowed because at least server thinks the # container exists) client.put_object(self.url, self.token, container1, "object1", "123") # Get to a final state self.get_to_final_state() # Assert all container1 servers indicate container1 is alive and # well with object1 for cnode in cnodes: self.assertEquals( [o["name"] for o in direct_client.direct_get_container(cnode, cpart, self.account, container1)[1]], ["object1"], ) # Assert account level also indicates container1 is alive and # well with object1 headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers["x-account-container-count"], "1") self.assertEquals(headers["x-account-object-count"], "1") self.assertEquals(headers["x-account-bytes-used"], "3")
def test_two_nodes_fail(self): # Create container1 container1 = 'container-%s' % uuid4() cpart, cnodes = self.container_ring.get_nodes(self.account, container1) client.put_container(self.url, self.token, container1) # Kill container1 servers excepting one of the primaries cnp_ipport = kill_nonprimary_server(cnodes, self.ipport2server, self.pids) kill_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server, self.pids) kill_server((cnodes[1]['ip'], cnodes[1]['port']), self.ipport2server, self.pids) # Delete container1 directly to the one primary still up direct_client.direct_delete_container(cnodes[2], cpart, self.account, container1) # Restart other container1 servers start_server((cnodes[0]['ip'], cnodes[0]['port']), self.ipport2server, self.pids) start_server((cnodes[1]['ip'], cnodes[1]['port']), self.ipport2server, self.pids) start_server(cnp_ipport, self.ipport2server, self.pids) # Get to a final state self.get_to_final_state() # Assert all container1 servers indicate container1 is gone (happens # because the one node that knew about the delete replicated to the # others.) for cnode in cnodes: try: direct_client.direct_get_container(cnode, cpart, self.account, container1) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Assert account level also indicates container1 is gone headers, containers = client.get_account(self.url, self.token) self.assertEqual(headers['x-account-container-count'], '0') self.assertEqual(headers['x-account-object-count'], '0') self.assertEqual(headers['x-account-bytes-used'], '0')
def test_main(self): # Create container # Kill one container/obj primary server # Delete the "objects" directory on the primary server # Create container/obj (goes to two primary servers and one handoff) # Kill other two container/obj primary servers # Indirectly through proxy assert we can get container/obj # Restart those other two container/obj primary servers # Directly to handoff server assert we can get container/obj # Assert container listing (via proxy and directly) has container/obj # Bring the first container/obj primary server back up # Assert that it doesn't have container/obj yet # Run object replication for first container/obj primary server # Run object replication for handoff node # Assert the first container/obj primary server now has container/obj # Assert the handoff server no longer has container/obj container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes( self.account, container, obj) onode = onodes[0] kill_server(onode['port'], self.port2server, self.pids) obj_dir = '%s/objects' % self._get_objects_dir(onode) shutil.rmtree(obj_dir, True) self.assertFalse(os.path.exists(obj_dir)) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Kill all primaries to ensure GET handoff works for node in onodes[1:]: kill_server(node['port'], self.port2server, self.pids) odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) for node in onodes[1:]: start_server(node['port'], self.port2server, self.pids) self.assertFalse(os.path.exists(obj_dir)) # We've indirectly verified the handoff node has the object, but # let's directly verify it. another_onode = self.object_ring.get_more_nodes(opart).next() odata = direct_client.direct_get_object( another_onode, opart, self.account, container, obj)[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj not in objs: raise Exception('Container listing did not know about object') for cnode in cnodes: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj not in objs: raise Exception( 'Container server %s:%s did not know about object' % (cnode['ip'], cnode['port'])) start_server(onode['port'], self.port2server, self.pids) self.assertFalse(os.path.exists(obj_dir)) exc = None try: direct_client.direct_get_object(onode, opart, self.account, container, obj) except direct_client.ClientException, err: exc = err
def test_main(self): # Create container1 and container2 # Assert account level sees them # Create container2/object1 # Assert account level doesn't see it yet # Get to final state # Assert account level now sees the container2/object1 # Kill account servers excepting two of the primaries # Delete container1 # Assert account level knows container1 is gone but doesn't know about # container2/object2 yet # Put container2/object2 # Run container updaters # Assert account level now knows about container2/object2 # Restart other primary account server # Assert that server doesn't know about container1's deletion or the # new container2/object2 yet # Get to final state # Assert that server is now up to date container1 = 'container1' client.put_container(self.url, self.token, container1) container2 = 'container2' client.put_container(self.url, self.token, container2) headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '0') self.assertEquals(headers['x-account-bytes-used'], '0') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) self.assert_(found1) self.assert_(found2) client.put_object(self.url, self.token, container2, 'object1', '1234') headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '0') self.assertEquals(headers['x-account-bytes-used'], '0') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) self.assert_(found1) self.assert_(found2) get_to_final_state() headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 1) self.assertEquals(container['bytes'], 4) self.assert_(found1) self.assert_(found2) apart, anodes = self.account_ring.get_nodes(self.account) kill_nonprimary_server(anodes, self.port2server, self.pids) kill_server(anodes[0]['port'], self.port2server, self.pids) client.delete_container(self.url, self.token, container1) client.put_object(self.url, self.token, container2, 'object2', '12345') headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 1) self.assertEquals(container['bytes'], 4) self.assert_(not found1) self.assert_(found2) processes = [] for node in xrange(1, 5): processes.append( Popen([ 'swift-container-updater', '/etc/swift/container-server/%d.conf' % node, 'once' ])) for process in processes: process.wait() headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '2') self.assertEquals(headers['x-account-bytes-used'], '9') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 2) self.assertEquals(container['bytes'], 9) self.assert_(not found1) self.assert_(found2) start_server(anodes[0]['port'], self.port2server, self.pids) headers, containers = \ direct_client.direct_get_account(anodes[0], apart, self.account) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 1) self.assertEquals(container['bytes'], 4) self.assert_(found1) self.assert_(found2) get_to_final_state() headers, containers = \ direct_client.direct_get_account(anodes[0], apart, self.account) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '2') self.assertEquals(headers['x-account-bytes-used'], '9') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 2) self.assertEquals(container['bytes'], 9) self.assert_(not found1) self.assert_(found2)
def test_main(self): # Create container # Kill one container/obj primary server # Delete the "objects" directory on the primary server # Create container/obj (goes to two primary servers and one handoff) # Kill other two container/obj primary servers # Indirectly through proxy assert we can get container/obj # Restart those other two container/obj primary servers # Directly to handoff server assert we can get container/obj # Assert container listing (via proxy and directly) has container/obj # Bring the first container/obj primary server back up # Assert that it doesn't have container/obj yet # Run object replication for first container/obj primary server # Run object replication for handoff node # Assert the first container/obj primary server now has container/obj # Assert the handoff server no longer has container/obj container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes( self.account, container, obj) onode = onodes[0] kill_server(onode['port'], self.port2server, self.pids) obj_dir = '%s/objects' % self._get_objects_dir(onode) shutil.rmtree(obj_dir, True) self.assertFalse(os.path.exists(obj_dir)) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Kill all primaries to ensure GET handoff works for node in onodes[1:]: kill_server(node['port'], self.port2server, self.pids) odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) for node in onodes[1:]: start_server(node['port'], self.port2server, self.pids) self.assertFalse(os.path.exists(obj_dir)) # We've indirectly verified the handoff node has the object, but # let's directly verify it. another_onode = self.object_ring.get_more_nodes(opart).next() odata = direct_client.direct_get_object( another_onode, opart, self.account, container, obj)[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj not in objs: raise Exception('Container listing did not know about object') timeout = time.time() + 5 found_objs_on_cnode = [] while time.time() < timeout: for cnode in [c for c in cnodes if cnodes not in found_objs_on_cnode]: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj in objs: found_objs_on_cnode.append(cnode) if len(found_objs_on_cnode) >= len(cnodes): break time.sleep(0.3) if len(found_objs_on_cnode) < len(cnodes): missing = ['%s:%s' % (cnode['ip'], cnode['port']) for cnode in cnodes if cnode not in found_objs_on_cnode] raise Exception('Container servers %r did not know about object' % missing) start_server(onode['port'], self.port2server, self.pids) self.assertFalse(os.path.exists(obj_dir)) exc = None try: direct_client.direct_get_object(onode, opart, self.account, container, obj) except direct_client.ClientException as err: exc = err self.assertEquals(exc.http_status, 404) self.assertFalse(os.path.exists(obj_dir)) try: port_num = onode['replication_port'] except KeyError: port_num = onode['port'] try: another_port_num = another_onode['replication_port'] except KeyError: another_port_num = another_onode['port'] call(['swift-object-replicator', self.configs['object-replicator'] % ((port_num - 6000) / 10), 'once']) call(['swift-object-replicator', self.configs['object-replicator'] % ((another_port_num - 6000) / 10), 'once']) odata = direct_client.direct_get_object(onode, opart, self.account, container, obj)[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) exc = None try: direct_client.direct_get_object(another_onode, opart, self.account, container, obj) except direct_client.ClientException as err: exc = err self.assertEquals(exc.http_status, 404)
def test_main(self): # Create container1 and container2 # Assert account level sees them # Create container2/object1 # Assert account level doesn't see it yet # Get to final state # Assert account level now sees the container2/object1 # Kill account servers excepting two of the primaries # Delete container1 # Assert account level knows container1 is gone but doesn't know about # container2/object2 yet # Put container2/object2 # Run container updaters # Assert account level now knows about container2/object2 # Restart other primary account server # Assert that server doesn't know about container1's deletion or the # new container2/object2 yet # Get to final state # Assert that server is now up to date container1 = 'container1' client.put_container(self.url, self.token, container1) container2 = 'container2' client.put_container(self.url, self.token, container2) headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '0') self.assertEquals(headers['x-account-bytes-used'], '0') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) self.assert_(found1) self.assert_(found2) client.put_object(self.url, self.token, container2, 'object1', '1234') headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '0') self.assertEquals(headers['x-account-bytes-used'], '0') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) self.assert_(found1) self.assert_(found2) get_to_final_state() headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 1) self.assertEquals(container['bytes'], 4) self.assert_(found1) self.assert_(found2) apart, anodes = self.account_ring.get_nodes(self.account) kill_nonprimary_server(anodes, self.port2server, self.pids) kill_server(anodes[0]['port'], self.port2server, self.pids) client.delete_container(self.url, self.token, container1) client.put_object(self.url, self.token, container2, 'object2', '12345') headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 1) self.assertEquals(container['bytes'], 4) self.assert_(not found1) self.assert_(found2) processes = [] for node in xrange(1, 5): processes.append(Popen([ 'swift-container-updater', self.configs['container'] % node, 'once'])) for process in processes: process.wait() headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '2') self.assertEquals(headers['x-account-bytes-used'], '9') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 2) self.assertEquals(container['bytes'], 9) self.assert_(not found1) self.assert_(found2) start_server(anodes[0]['port'], self.port2server, self.pids) headers, containers = \ direct_client.direct_get_account(anodes[0], apart, self.account) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 1) self.assertEquals(container['bytes'], 4) self.assert_(found1) self.assert_(found2) get_to_final_state() headers, containers = \ direct_client.direct_get_account(anodes[0], apart, self.account) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '2') self.assertEquals(headers['x-account-bytes-used'], '9') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 2) self.assertEquals(container['bytes'], 9) self.assert_(not found1) self.assert_(found2)
def test_main(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container, headers={'X-Storage-Policy': self.policy.name}) # Kill one container/obj primary server cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes( self.account, container, obj) onode = onodes[0] kill_server((onode['ip'], onode['port']), self.ipport2server) # Create container/obj (goes to two primary servers and one handoff) client.put_object(self.url, self.token, container, obj, b'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != b'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Stash the on disk data from a primary for future comparison with the # handoff - this may not equal 'VERIFY' if for example the proxy has # crypto enabled direct_get_data = direct_client.direct_get_object( onodes[1], opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] # Kill other two container/obj primary servers # to ensure GET handoff works for node in onodes[1:]: kill_server((node['ip'], node['port']), self.ipport2server) # Indirectly through proxy assert we can get container/obj odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != b'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Restart those other two container/obj primary servers for node in onodes[1:]: start_server((node['ip'], node['port']), self.ipport2server) # We've indirectly verified the handoff node has the container/object, # but let's directly verify it. another_onode = next(self.object_ring.get_more_nodes(opart)) odata = direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] self.assertEqual(direct_get_data, odata) # drop a tempfile in the handoff's datadir, like it might have # had if there was an rsync failure while it was previously a # primary handoff_device_path = self.device_dir(another_onode) data_filename = None for root, dirs, files in os.walk(handoff_device_path): for filename in files: if filename.endswith('.data'): data_filename = filename temp_filename = '.%s.6MbL6r' % data_filename temp_filepath = os.path.join(root, temp_filename) if not data_filename: self.fail('Did not find any data files on %r' % handoff_device_path) open(temp_filepath, 'w') # Assert container listing (via proxy and directly) has container/obj objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj not in objs: raise Exception('Container listing did not know about object') for cnode in cnodes: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj not in objs: raise Exception( 'Container server %s:%s did not know about object' % (cnode['ip'], cnode['port'])) # Bring the first container/obj primary server back up start_server((onode['ip'], onode['port']), self.ipport2server) # Assert that it doesn't have container/obj yet try: direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Run object replication, ensuring we run the handoff node last so it # will remove its extra handoff partition for node in onodes: try: port_num = node['replication_port'] except KeyError: port_num = node['port'] node_id = (port_num - 6000) // 10 Manager(['object-replicator']).once(number=node_id) try: another_port_num = another_onode['replication_port'] except KeyError: another_port_num = another_onode['port'] another_num = (another_port_num - 6000) // 10 Manager(['object-replicator']).once(number=another_num) # Assert the first container/obj primary server now has container/obj odata = direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] self.assertEqual(direct_get_data, odata) # and that it does *not* have a temporary rsync dropping! found_data_filename = False primary_device_path = self.device_dir(onode) for root, dirs, files in os.walk(primary_device_path): for filename in files: if filename.endswith('.6MbL6r'): self.fail('Found unexpected file %s' % os.path.join(root, filename)) if filename == data_filename: found_data_filename = True self.assertTrue(found_data_filename, 'Did not find data file %r on %r' % ( data_filename, primary_device_path)) # Assert the handoff server no longer has container/obj try: direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Kill the first container/obj primary server again (we have two # primaries and the handoff up now) kill_server((onode['ip'], onode['port']), self.ipport2server) # Delete container/obj try: client.delete_object(self.url, self.token, container, obj) except client.ClientException as err: if self.object_ring.replica_count > 2: raise # Object DELETE returning 503 for (404, 204) # remove this with fix for # https://bugs.launchpad.net/swift/+bug/1318375 self.assertEqual(503, err.http_status) # Assert we can't head container/obj try: client.head_object(self.url, self.token, container, obj) except client.ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Assert container/obj is not in the container listing, both indirectly # and directly objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj in objs: raise Exception('Container listing still knew about object') for cnode in cnodes: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj in objs: raise Exception( 'Container server %s:%s still knew about object' % (cnode['ip'], cnode['port'])) # Restart the first container/obj primary server again start_server((onode['ip'], onode['port']), self.ipport2server) # Assert it still has container/obj direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) # Run object replication, ensuring we run the handoff node last so it # will remove its extra handoff partition for node in onodes: try: port_num = node['replication_port'] except KeyError: port_num = node['port'] node_id = (port_num - 6000) // 10 Manager(['object-replicator']).once(number=node_id) another_node_id = (another_port_num - 6000) // 10 Manager(['object-replicator']).once(number=another_node_id) # Assert primary node no longer has container/obj try: direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it")
def test_main(self): # Create container1 and container2 container1 = 'container1' client.put_container(self.url, self.token, container1) container2 = 'container2' client.put_container(self.url, self.token, container2) # Assert account level sees them headers, containers = client.get_account(self.url, self.token) self.assertEqual(headers['x-account-container-count'], '2') self.assertEqual(headers['x-account-object-count'], '0') self.assertEqual(headers['x-account-bytes-used'], '0') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEqual(container['count'], 0) self.assertEqual(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEqual(container['count'], 0) self.assertEqual(container['bytes'], 0) self.assertTrue(found1) self.assertTrue(found2) # Create container2/object1 client.put_object(self.url, self.token, container2, 'object1', '1234') # Assert account level doesn't see it yet headers, containers = client.get_account(self.url, self.token) self.assertEqual(headers['x-account-container-count'], '2') self.assertEqual(headers['x-account-object-count'], '0') self.assertEqual(headers['x-account-bytes-used'], '0') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEqual(container['count'], 0) self.assertEqual(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEqual(container['count'], 0) self.assertEqual(container['bytes'], 0) self.assertTrue(found1) self.assertTrue(found2) # Get to final state self.get_to_final_state() # Assert account level now sees the container2/object1 headers, containers = client.get_account(self.url, self.token) self.assertEqual(headers['x-account-container-count'], '2') self.assertEqual(headers['x-account-object-count'], '1') self.assertEqual(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEqual(container['count'], 0) self.assertEqual(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEqual(container['count'], 1) self.assertEqual(container['bytes'], 4) self.assertTrue(found1) self.assertTrue(found2) apart, anodes = self.account_ring.get_nodes(self.account) kill_nonprimary_server(anodes, self.ipport2server) kill_server((anodes[0]['ip'], anodes[0]['port']), self.ipport2server) # Kill account servers excepting two of the primaries # Delete container1 client.delete_container(self.url, self.token, container1) # Put container2/object2 client.put_object(self.url, self.token, container2, 'object2', '12345') # Assert account level knows container1 is gone but doesn't know about # container2/object2 yet headers, containers = client.get_account(self.url, self.token) self.assertEqual(headers['x-account-container-count'], '1') self.assertEqual(headers['x-account-object-count'], '1') self.assertEqual(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEqual(container['count'], 1) self.assertEqual(container['bytes'], 4) self.assertFalse(found1) self.assertTrue(found2) # Run container updaters Manager(['container-updater']).once() # Assert account level now knows about container2/object2 headers, containers = client.get_account(self.url, self.token) self.assertEqual(headers['x-account-container-count'], '1') self.assertEqual(headers['x-account-object-count'], '2') self.assertEqual(headers['x-account-bytes-used'], '9') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEqual(container['count'], 2) self.assertEqual(container['bytes'], 9) self.assertFalse(found1) self.assertTrue(found2) # Restart other primary account server start_server((anodes[0]['ip'], anodes[0]['port']), self.ipport2server) # Assert that server doesn't know about container1's deletion or the # new container2/object2 yet headers, containers = \ direct_client.direct_get_account(anodes[0], apart, self.account) self.assertEqual(headers['x-account-container-count'], '2') self.assertEqual(headers['x-account-object-count'], '1') self.assertEqual(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEqual(container['count'], 1) self.assertEqual(container['bytes'], 4) self.assertTrue(found1) self.assertTrue(found2) # Get to final state self.get_to_final_state() # Assert that server is now up to date headers, containers = \ direct_client.direct_get_account(anodes[0], apart, self.account) self.assertEqual(headers['x-account-container-count'], '1') self.assertEqual(headers['x-account-object-count'], '2') self.assertEqual(headers['x-account-bytes-used'], '9') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEqual(container['count'], 2) self.assertEqual(container['bytes'], 9) self.assertEqual(container['bytes'], 9) self.assertFalse(found1) self.assertTrue(found2)
except direct_client.ClientException, err: exc = err self.assertEquals(exc.http_status, 404) objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj in objs: raise Exception('Container listing still knew about object') for cnode in cnodes: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj in objs: raise Exception( 'Container server %s:%s still knew about object' % (cnode['ip'], cnode['port'])) start_server(onode['port'], self.port2server, self.pids) direct_client.direct_get_object(onode, opart, self.account, container, obj) # Run the extra server last so it'll remove its extra partition processes = [] for node in onodes: try: port_num = node['replication_port'] except KeyError: port_num = node['port'] processes.append(Popen(['swift-object-replicator', self.configs['object-replicator'] % ((port_num - 6000) / 10), 'once'])) for process in processes: process.wait()
def test_main(self): # Create container # Kill one container/obj primary server # Create container/obj (goes to two primary servers and one handoff) # Kill other two container/obj primary servers # Indirectly through proxy assert we can get container/obj # Restart those other two container/obj primary servers # Directly to handoff server assert we can get container/obj # Assert container listing (via proxy and directly) has container/obj # Bring the first container/obj primary server back up # Assert that it doesn't have container/obj yet # Run object replication, ensuring we run the handoff node last so it # should remove its extra handoff partition # Assert the first container/obj primary server now has container/obj # Assert the handoff server no longer has container/obj # Kill the first container/obj primary server again (we have two # primaries and the handoff up now) # Delete container/obj # Assert we can't head container/obj # Assert container/obj is not in the container listing, both indirectly # and directly # Restart the first container/obj primary server again # Assert it still has container/obj # Run object replication, ensuring we run the handoff node last so it # should remove its extra handoff partition # Assert primary node no longer has container/obj container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes( self.account, container, obj) onode = onodes[0] kill_server(onode['port'], self.port2server, self.pids) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Kill all primaries to ensure GET handoff works for node in onodes[1:]: kill_server(node['port'], self.port2server, self.pids) odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) for node in onodes[1:]: start_server(node['port'], self.port2server, self.pids) # We've indirectly verified the handoff node has the object, but let's # directly verify it. another_onode = self.object_ring.get_more_nodes(opart).next() odata = direct_client.direct_get_object( another_onode, opart, self.account, container, obj)[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj not in objs: raise Exception('Container listing did not know about object') for cnode in cnodes: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj not in objs: raise Exception( 'Container server %s:%s did not know about object' % (cnode['ip'], cnode['port'])) start_server(onode['port'], self.port2server, self.pids) exc = None try: direct_client.direct_get_object(onode, opart, self.account, container, obj) except direct_client.ClientException, err: exc = err
def test_main(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container, headers={'X-Storage-Policy': self.policy.name}) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes( self.account, container, obj) onode = onodes[0] # Kill one container/obj primary server kill_server((onode['ip'], onode['port']), self.ipport2server) # Delete the default data directory for objects on the primary server obj_dir = '%s/%s' % (self._get_objects_dir(onode), get_data_dir(self.policy)) shutil.rmtree(obj_dir, True) self.assertFalse(os.path.exists(obj_dir)) # Create container/obj (goes to two primary servers and one handoff) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Stash the on disk data from a primary for future comparison with the # handoff - this may not equal 'VERIFY' if for example the proxy has # crypto enabled direct_get_data = direct_client.direct_get_object( onodes[1], opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] # Kill other two container/obj primary servers # to ensure GET handoff works for node in onodes[1:]: kill_server((node['ip'], node['port']), self.ipport2server) # Indirectly through proxy assert we can get container/obj odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Restart those other two container/obj primary servers for node in onodes[1:]: start_server((node['ip'], node['port']), self.ipport2server) self.assertFalse(os.path.exists(obj_dir)) # We've indirectly verified the handoff node has the object, but # let's directly verify it. # Directly to handoff server assert we can get container/obj another_onode = next(self.object_ring.get_more_nodes(opart)) odata = direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] self.assertEqual(direct_get_data, odata) # Assert container listing (via proxy and directly) has container/obj objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj not in objs: raise Exception('Container listing did not know about object') timeout = time.time() + 5 found_objs_on_cnode = [] while time.time() < timeout: for cnode in [c for c in cnodes if cnodes not in found_objs_on_cnode]: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj in objs: found_objs_on_cnode.append(cnode) if len(found_objs_on_cnode) >= len(cnodes): break time.sleep(0.3) if len(found_objs_on_cnode) < len(cnodes): missing = ['%s:%s' % (cnode['ip'], cnode['port']) for cnode in cnodes if cnode not in found_objs_on_cnode] raise Exception('Container servers %r did not know about object' % missing) # Bring the first container/obj primary server back up start_server((onode['ip'], onode['port']), self.ipport2server) # Assert that it doesn't have container/obj yet self.assertFalse(os.path.exists(obj_dir)) try: direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) self.assertFalse(os.path.exists(obj_dir)) else: self.fail("Expected ClientException but didn't get it") # Run object replication for first container/obj primary server _, num = get_server_number( (onode['ip'], onode.get('replication_port', onode['port'])), self.ipport2server) Manager(['object-replicator']).once(number=num) # Run object replication for handoff node _, another_num = get_server_number( (another_onode['ip'], another_onode.get('replication_port', another_onode['port'])), self.ipport2server) Manager(['object-replicator']).once(number=another_num) # Assert the first container/obj primary server now has container/obj odata = direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] self.assertEqual(direct_get_data, odata) # Assert the handoff server no longer has container/obj try: direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it")
def test_main(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container, headers={'X-Storage-Policy': self.policy.name}) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes( self.account, container, obj) onode = onodes[0] # Kill one container/obj primary server kill_server(onode['port'], self.port2server, self.pids) # Delete the default data directory for objects on the primary server obj_dir = '%s/%s' % (self._get_objects_dir(onode), get_data_dir(self.policy)) shutil.rmtree(obj_dir, True) self.assertFalse(os.path.exists(obj_dir)) # Create container/obj (goes to two primary servers and one handoff) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Kill other two container/obj primary servers # to ensure GET handoff works for node in onodes[1:]: kill_server(node['port'], self.port2server, self.pids) # Indirectly through proxy assert we can get container/obj odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Restart those other two container/obj primary servers for node in onodes[1:]: start_server(node['port'], self.port2server, self.pids) self.assertFalse(os.path.exists(obj_dir)) # We've indirectly verified the handoff node has the object, but # let's directly verify it. # Directly to handoff server assert we can get container/obj another_onode = next(self.object_ring.get_more_nodes(opart)) odata = direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) # Assert container listing (via proxy and directly) has container/obj objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj not in objs: raise Exception('Container listing did not know about object') timeout = time.time() + 5 found_objs_on_cnode = [] while time.time() < timeout: for cnode in [c for c in cnodes if cnodes not in found_objs_on_cnode]: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj in objs: found_objs_on_cnode.append(cnode) if len(found_objs_on_cnode) >= len(cnodes): break time.sleep(0.3) if len(found_objs_on_cnode) < len(cnodes): missing = ['%s:%s' % (cnode['ip'], cnode['port']) for cnode in cnodes if cnode not in found_objs_on_cnode] raise Exception('Container servers %r did not know about object' % missing) # Bring the first container/obj primary server back up start_server(onode['port'], self.port2server, self.pids) # Assert that it doesn't have container/obj yet self.assertFalse(os.path.exists(obj_dir)) try: direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEquals(err.http_status, 404) self.assertFalse(os.path.exists(obj_dir)) else: self.fail("Expected ClientException but didn't get it") try: port_num = onode['replication_port'] except KeyError: port_num = onode['port'] try: another_port_num = another_onode['replication_port'] except KeyError: another_port_num = another_onode['port'] # Run object replication for first container/obj primary server num = (port_num - 6000) / 10 Manager(['object-replicator']).once(number=num) # Run object replication for handoff node another_num = (another_port_num - 6000) / 10 Manager(['object-replicator']).once(number=another_num) # Assert the first container/obj primary server now has container/obj odata = direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) # Assert the handoff server no longer has container/obj try: direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEquals(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it")
def test_main(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container, headers={'X-Storage-Policy': self.policy.name}) # Kill one container/obj primary server cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes(self.account, container, obj) onode = onodes[0] kill_server((onode['ip'], onode['port']), self.ipport2server, self.pids) # Create container/obj (goes to two primary servers and one handoff) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Kill other two container/obj primary servers # to ensure GET handoff works for node in onodes[1:]: kill_server((node['ip'], node['port']), self.ipport2server, self.pids) # Indirectly through proxy assert we can get container/obj odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Restart those other two container/obj primary servers for node in onodes[1:]: start_server((node['ip'], node['port']), self.ipport2server, self.pids) # We've indirectly verified the handoff node has the container/object, # but let's directly verify it. another_onode = next(self.object_ring.get_more_nodes(opart)) odata = direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) # Assert container listing (via proxy and directly) has container/obj objs = [ o['name'] for o in client.get_container(self.url, self.token, container)[1] ] if obj not in objs: raise Exception('Container listing did not know about object') for cnode in cnodes: objs = [ o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1] ] if obj not in objs: raise Exception( 'Container server %s:%s did not know about object' % (cnode['ip'], cnode['port'])) # Bring the first container/obj primary server back up start_server((onode['ip'], onode['port']), self.ipport2server, self.pids) # Assert that it doesn't have container/obj yet try: direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Run object replication, ensuring we run the handoff node last so it # will remove its extra handoff partition for node in onodes: try: port_num = node['replication_port'] except KeyError: port_num = node['port'] node_id = (port_num - 6000) / 10 Manager(['object-replicator']).once(number=node_id) try: another_port_num = another_onode['replication_port'] except KeyError: another_port_num = another_onode['port'] another_num = (another_port_num - 6000) / 10 Manager(['object-replicator']).once(number=another_num) # Assert the first container/obj primary server now has container/obj odata = direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) # Assert the handoff server no longer has container/obj try: direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Kill the first container/obj primary server again (we have two # primaries and the handoff up now) kill_server((onode['ip'], onode['port']), self.ipport2server, self.pids) # Delete container/obj try: client.delete_object(self.url, self.token, container, obj) except client.ClientException as err: if self.object_ring.replica_count > 2: raise # Object DELETE returning 503 for (404, 204) # remove this with fix for # https://bugs.launchpad.net/swift/+bug/1318375 self.assertEqual(503, err.http_status) # Assert we can't head container/obj try: client.head_object(self.url, self.token, container, obj) except client.ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Assert container/obj is not in the container listing, both indirectly # and directly objs = [ o['name'] for o in client.get_container(self.url, self.token, container)[1] ] if obj in objs: raise Exception('Container listing still knew about object') for cnode in cnodes: objs = [ o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1] ] if obj in objs: raise Exception( 'Container server %s:%s still knew about object' % (cnode['ip'], cnode['port'])) # Restart the first container/obj primary server again start_server((onode['ip'], onode['port']), self.ipport2server, self.pids) # Assert it still has container/obj direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={'X-Backend-Storage-Policy-Index': self.policy.idx}) # Run object replication, ensuring we run the handoff node last so it # will remove its extra handoff partition for node in onodes: try: port_num = node['replication_port'] except KeyError: port_num = node['port'] node_id = (port_num - 6000) / 10 Manager(['object-replicator']).once(number=node_id) another_node_id = (another_port_num - 6000) / 10 Manager(['object-replicator']).once(number=another_node_id) # Assert primary node no longer has container/obj try: direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it")
def test_main(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container, headers={'X-Storage-Policy': self.policy.name}) # Kill one container/obj primary server cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes( self.account, container, obj) onode = onodes[0] kill_server((onode['ip'], onode['port']), self.ipport2server) # Create container/obj (goes to two primary servers and one handoff) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Kill other two container/obj primary servers # to ensure GET handoff works for node in onodes[1:]: kill_server((node['ip'], node['port']), self.ipport2server) # Indirectly through proxy assert we can get container/obj odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Restart those other two container/obj primary servers for node in onodes[1:]: start_server((node['ip'], node['port']), self.ipport2server) # We've indirectly verified the handoff node has the container/object, # but let's directly verify it. another_onode = next(self.object_ring.get_more_nodes(opart)) odata = direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) # drop a tempfile in the handoff's datadir, like it might have # had if there was an rsync failure while it was previously a # primary handoff_device_path = self.device_dir('object', another_onode) data_filename = None for root, dirs, files in os.walk(handoff_device_path): for filename in files: if filename.endswith('.data'): data_filename = filename temp_filename = '.%s.6MbL6r' % data_filename temp_filepath = os.path.join(root, temp_filename) if not data_filename: self.fail('Did not find any data files on %r' % handoff_device_path) open(temp_filepath, 'w') # Assert container listing (via proxy and directly) has container/obj objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj not in objs: raise Exception('Container listing did not know about object') for cnode in cnodes: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj not in objs: raise Exception( 'Container server %s:%s did not know about object' % (cnode['ip'], cnode['port'])) # Bring the first container/obj primary server back up start_server((onode['ip'], onode['port']), self.ipport2server) # Assert that it doesn't have container/obj yet try: direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Run object replication, ensuring we run the handoff node last so it # will remove its extra handoff partition for node in onodes: try: port_num = node['replication_port'] except KeyError: port_num = node['port'] node_id = (port_num - 6000) / 10 Manager(['object-replicator']).once(number=node_id) try: another_port_num = another_onode['replication_port'] except KeyError: another_port_num = another_onode['port'] another_num = (another_port_num - 6000) / 10 Manager(['object-replicator']).once(number=another_num) # Assert the first container/obj primary server now has container/obj odata = direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) # and that it does *not* have a temporary rsync dropping! found_data_filename = False primary_device_path = self.device_dir('object', onode) for root, dirs, files in os.walk(primary_device_path): for filename in files: if filename.endswith('.6MbL6r'): self.fail('Found unexpected file %s' % os.path.join(root, filename)) if filename == data_filename: found_data_filename = True self.assertTrue(found_data_filename, 'Did not find data file %r on %r' % ( data_filename, primary_device_path)) # Assert the handoff server no longer has container/obj try: direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Kill the first container/obj primary server again (we have two # primaries and the handoff up now) kill_server((onode['ip'], onode['port']), self.ipport2server) # Delete container/obj try: client.delete_object(self.url, self.token, container, obj) except client.ClientException as err: if self.object_ring.replica_count > 2: raise # Object DELETE returning 503 for (404, 204) # remove this with fix for # https://bugs.launchpad.net/swift/+bug/1318375 self.assertEqual(503, err.http_status) # Assert we can't head container/obj try: client.head_object(self.url, self.token, container, obj) except client.ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Assert container/obj is not in the container listing, both indirectly # and directly objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj in objs: raise Exception('Container listing still knew about object') for cnode in cnodes: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj in objs: raise Exception( 'Container server %s:%s still knew about object' % (cnode['ip'], cnode['port'])) # Restart the first container/obj primary server again start_server((onode['ip'], onode['port']), self.ipport2server) # Assert it still has container/obj direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) # Run object replication, ensuring we run the handoff node last so it # will remove its extra handoff partition for node in onodes: try: port_num = node['replication_port'] except KeyError: port_num = node['port'] node_id = (port_num - 6000) / 10 Manager(['object-replicator']).once(number=node_id) another_node_id = (another_port_num - 6000) / 10 Manager(['object-replicator']).once(number=another_node_id) # Assert primary node no longer has container/obj try: direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it")
def test_metadata_sync(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container, headers={ 'X-Storage-Policy': self.policy.name, 'X-Container-Meta-A': '1', 'X-Container-Meta-B': '1', 'X-Container-Meta-C': '1' }) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes.pop() # 2 of 3 container servers are temporarily down for node in cnodes: kill_server((node['ip'], node['port']), self.ipport2server) # Put some meta on the lone server, to make sure it's merged properly # This will 503 (since we don't have a quorum), but we don't care (!) try: client.post_container(self.url, self.token, container, headers={ 'X-Container-Meta-A': '2', 'X-Container-Meta-B': '2', 'X-Container-Meta-D': '2' }) except ClientException: pass # object updates come to only one container server for _ in range(self.object_puts): obj = 'object-%s' % uuid4() client.put_object(self.url, self.token, container, obj, 'VERIFY') # 2 container servers make comeback for node in cnodes: start_server((node['ip'], node['port']), self.ipport2server) # But, container-server which got object updates is down kill_server((cnode['ip'], cnode['port']), self.ipport2server) # Metadata update will be applied to 2 container servers # (equal to quorum) client.post_container(self.url, self.token, container, headers={ 'X-Container-Meta-B': '3', 'X-Container-Meta-E': '3' }) # container-server which got object updates makes comeback start_server((cnode['ip'], cnode['port']), self.ipport2server) # other nodes have no objects for node in cnodes: resp_headers = direct_client.direct_head_container( node, cpart, self.account, container) self.assertIn(resp_headers.get('x-container-object-count'), (None, '0', 0)) # If container-replicator on the node which got the object updates # runs in first, db file may be replicated by rsync to other # containers. In that case, the db file does not information about # metadata, so metadata should be synced before replication Manager(['container-replicator' ]).once(number=self.config_number(cnode)) expected_meta = { 'x-container-meta-a': '2', 'x-container-meta-b': '2', 'x-container-meta-c': '1', 'x-container-meta-d': '2', } # node that got the object updates still doesn't have the meta resp_headers = direct_client.direct_head_container( cnode, cpart, self.account, container) for header, value in expected_meta.items(): self.assertIn(header, resp_headers) self.assertEqual(value, resp_headers[header]) self.assertNotIn(resp_headers.get('x-container-object-count'), (None, '0', 0)) expected_meta = { 'x-container-meta-a': '2', 'x-container-meta-b': '3', 'x-container-meta-c': '1', 'x-container-meta-d': '2', 'x-container-meta-e': '3', } # other nodes still have the meta, as well as objects for node in cnodes: resp_headers = direct_client.direct_head_container( node, cpart, self.account, container) for header, value in expected_meta.items(): self.assertIn(header, resp_headers) self.assertEqual(value, resp_headers[header]) self.assertNotIn(resp_headers.get('x-container-object-count'), (None, '0', 0)) # and after full pass on remaining nodes for node in cnodes: Manager(['container-replicator' ]).once(number=self.config_number(node)) # ... all is right for node in cnodes + [cnode]: resp_headers = direct_client.direct_head_container( node, cpart, self.account, container) for header, value in expected_meta.items(): self.assertIn(header, resp_headers) self.assertEqual(value, resp_headers[header]) self.assertNotIn(resp_headers.get('x-container-object-count'), (None, '0', 0))
def test_metadata_sync(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container, headers={'X-Storage-Policy': self.policy.name, 'X-Container-Meta-A': '1', 'X-Container-Meta-B': '1', 'X-Container-Meta-C': '1'}) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes.pop() # 2 of 3 container servers are temporarily down for node in cnodes: kill_server((node['ip'], node['port']), self.ipport2server) # Put some meta on the lone server, to make sure it's merged properly # This will 503 (since we don't have a quorum), but we don't care (!) try: client.post_container(self.url, self.token, container, headers={'X-Container-Meta-A': '2', 'X-Container-Meta-B': '2', 'X-Container-Meta-D': '2'}) except ClientException: pass # object updates come to only one container server for _ in range(self.object_puts): obj = 'object-%s' % uuid4() client.put_object(self.url, self.token, container, obj, 'VERIFY') # 2 container servers make comeback for node in cnodes: start_server((node['ip'], node['port']), self.ipport2server) # But, container-server which got object updates is down kill_server((cnode['ip'], cnode['port']), self.ipport2server) # Metadata update will be applied to 2 container servers # (equal to quorum) client.post_container(self.url, self.token, container, headers={'X-Container-Meta-B': '3', 'X-Container-Meta-E': '3'}) # container-server which got object updates makes comeback start_server((cnode['ip'], cnode['port']), self.ipport2server) # other nodes have no objects for node in cnodes: resp_headers = direct_client.direct_head_container( node, cpart, self.account, container) self.assertIn(resp_headers.get('x-container-object-count'), (None, '0', 0)) # If container-replicator on the node which got the object updates # runs in first, db file may be replicated by rsync to other # containers. In that case, the db file does not information about # metadata, so metadata should be synced before replication Manager(['container-replicator']).once( number=self.config_number(cnode)) expected_meta = { 'x-container-meta-a': '2', 'x-container-meta-b': '3', 'x-container-meta-c': '1', 'x-container-meta-d': '2', 'x-container-meta-e': '3', } # node that got the object updates now has the meta resp_headers = direct_client.direct_head_container( cnode, cpart, self.account, container) for header, value in expected_meta.items(): self.assertIn(header, resp_headers) self.assertEqual(value, resp_headers[header]) self.assertNotIn(resp_headers.get('x-container-object-count'), (None, '0', 0)) # other nodes still have the meta, as well as objects for node in cnodes: resp_headers = direct_client.direct_head_container( node, cpart, self.account, container) for header, value in expected_meta.items(): self.assertIn(header, resp_headers) self.assertEqual(value, resp_headers[header]) self.assertNotIn(resp_headers.get('x-container-object-count'), (None, '0', 0)) # and after full pass on remaining nodes for node in cnodes: Manager(['container-replicator']).once( number=self.config_number(node)) # ... all is right for node in cnodes + [cnode]: resp_headers = direct_client.direct_head_container( node, cpart, self.account, container) for header, value in expected_meta.items(): self.assertIn(header, resp_headers) self.assertEqual(value, resp_headers[header]) self.assertNotIn(resp_headers.get('x-container-object-count'), (None, '0', 0))
def test_stale_reads(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container, headers={'X-Storage-Policy': self.policy.name}) # Kill one primary obj server obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes( self.account, container, obj) onode = onodes[0] kill_server((onode['ip'], onode['port']), self.ipport2server) # Create container/obj (goes to two primaries and one handoff) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Stash the on disk data from a primary for future comparison with the # handoff - this may not equal 'VERIFY' if for example the proxy has # crypto enabled direct_get_data = direct_client.direct_get_object( onodes[1], opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] # Restart the first container/obj primary server again start_server((onode['ip'], onode['port']), self.ipport2server) # send a delete request to primaries client.delete_object(self.url, self.token, container, obj) # there should be .ts files in all primaries now for node in onodes: try: direct_client.direct_get_object( node, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # verify that handoff still has the data, DELETEs should have gone # only to primaries another_onode = next(self.object_ring.get_more_nodes(opart)) handoff_data = direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] self.assertEqual(handoff_data, direct_get_data) # Indirectly (i.e., through proxy) try to GET object, it should return # a 404, before bug #1560574, the proxy would return the stale object # from the handoff try: client.get_object(self.url, self.token, container, obj) except client.ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it")
def test_stale_reads(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container, headers={'X-Storage-Policy': self.policy.name}) # Kill one primary obj server obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes( self.account, container, obj) onode = onodes[0] kill_server((onode['ip'], onode['port']), self.ipport2server) # Create container/obj (goes to two primaries and one handoff) client.put_object(self.url, self.token, container, obj, b'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != b'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Stash the on disk data from a primary for future comparison with the # handoff - this may not equal 'VERIFY' if for example the proxy has # crypto enabled direct_get_data = direct_client.direct_get_object( onodes[1], opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] # Restart the first container/obj primary server again start_server((onode['ip'], onode['port']), self.ipport2server) # send a delete request to primaries client.delete_object(self.url, self.token, container, obj) # there should be .ts files in all primaries now for node in onodes: try: direct_client.direct_get_object( node, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # verify that handoff still has the data, DELETEs should have gone # only to primaries another_onode = next(self.object_ring.get_more_nodes(opart)) handoff_data = direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] self.assertEqual(handoff_data, direct_get_data) # Indirectly (i.e., through proxy) try to GET object, it should return # a 404, before bug #1560574, the proxy would return the stale object # from the handoff try: client.get_object(self.url, self.token, container, obj) except client.ClientException as err: self.assertEqual(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it")
def test_main(self): # Create container # Kill one container/obj primary server # Create container/obj (goes to two primary servers and one handoff) # Kill other two container/obj primary servers # Indirectly through proxy assert we can get container/obj # Restart those other two container/obj primary servers # Directly to handoff server assert we can get container/obj # Assert container listing (via proxy and directly) has container/obj # Bring the first container/obj primary server back up # Assert that it doesn't have container/obj yet # Run object replication, ensuring we run the handoff node last so it # should remove its extra handoff partition # Assert the first container/obj primary server now has container/obj # Assert the handoff server no longer has container/obj # Kill the first container/obj primary server again (we have two # primaries and the handoff up now) # Delete container/obj # Assert we can't head container/obj # Assert container/obj is not in the container listing, both indirectly # and directly # Restart the first container/obj primary server again # Assert it still has container/obj # Run object replication, ensuring we run the handoff node last so it # should remove its extra handoff partition # Assert primary node no longer has container/obj container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes(self.account, container, obj) onode = onodes[0] kill_server(onode['port'], self.port2server, self.pids) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Kill all primaries to ensure GET handoff works for node in onodes[1:]: kill_server(node['port'], self.port2server, self.pids) odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) for node in onodes[1:]: start_server(node['port'], self.port2server, self.pids) # We've indirectly verified the handoff node has the object, but let's # directly verify it. another_onode = self.object_ring.get_more_nodes(opart).next() odata = direct_client.direct_get_object(another_onode, opart, self.account, container, obj)[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) objs = [ o['name'] for o in client.get_container(self.url, self.token, container)[1] ] if obj not in objs: raise Exception('Container listing did not know about object') for cnode in cnodes: objs = [ o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1] ] if obj not in objs: raise Exception( 'Container server %s:%s did not know about object' % (cnode['ip'], cnode['port'])) start_server(onode['port'], self.port2server, self.pids) exc = None try: direct_client.direct_get_object(onode, opart, self.account, container, obj) except direct_client.ClientException, err: exc = err
objs = [ o['name'] for o in client.get_container(self.url, self.token, container)[1] ] if obj in objs: raise Exception('Container listing still knew about object') for cnode in cnodes: objs = [ o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1] ] if obj in objs: raise Exception( 'Container server %s:%s still knew about object' % (cnode['ip'], cnode['port'])) start_server(onode['port'], self.port2server, self.pids) direct_client.direct_get_object(onode, opart, self.account, container, obj) # Run the extra server last so it'll remove its extra partition processes = [] for node in onodes: processes.append( Popen([ 'swift-object-replicator', '/etc/swift/object-server/%d.conf' % ((node['port'] - 6000) / 10), 'once' ])) for process in processes: process.wait() call([ 'swift-object-replicator',
def test_main(self): # Create container container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) # Kill one container/obj primary server cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes( self.account, container, obj) onode = onodes[0] kill_server(onode['port'], self.port2server, self.pids) # Create container/obj (goes to two primary servers and one handoff) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Kill other two container/obj primary servers # to ensure GET handoff works for node in onodes[1:]: kill_server(node['port'], self.port2server, self.pids) # Indirectly through proxy assert we can get container/obj odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Restart those other two container/obj primary servers for node in onodes[1:]: start_server(node['port'], self.port2server, self.pids) # We've indirectly verified the handoff node has the container/object, # but let's directly verify it. another_onode = self.object_ring.get_more_nodes(opart).next() odata = direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) # Assert container listing (via proxy and directly) has container/obj objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj not in objs: raise Exception('Container listing did not know about object') for cnode in cnodes: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj not in objs: raise Exception( 'Container server %s:%s did not know about object' % (cnode['ip'], cnode['port'])) # Bring the first container/obj primary server back up start_server(onode['port'], self.port2server, self.pids) # Assert that it doesn't have container/obj yet try: direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEquals(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Run object replication, ensuring we run the handoff node last so it # will remove its extra handoff partition for node in onodes: try: port_num = node['replication_port'] except KeyError: port_num = node['port'] node_id = (port_num - 6000) / 10 Manager(['object-replicator']).once(number=node_id) try: another_port_num = another_onode['replication_port'] except KeyError: another_port_num = another_onode['port'] another_num = (another_port_num - 6000) / 10 Manager(['object-replicator']).once(number=another_num) # Assert the first container/obj primary server now has container/obj odata = direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx})[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) # Assert the handoff server no longer has container/obj try: direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEquals(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Kill the first container/obj primary server again (we have two # primaries and the handoff up now) kill_server(onode['port'], self.port2server, self.pids) # Delete container/obj try: client.delete_object(self.url, self.token, container, obj) except client.ClientException as err: if self.object_ring.replica_count > 2: raise # Object DELETE returning 503 for (404, 204) # remove this with fix for # https://bugs.launchpad.net/swift/+bug/1318375 self.assertEqual(503, err.http_status) # Assert we can't head container/obj try: client.head_object(self.url, self.token, container, obj) except client.ClientException as err: self.assertEquals(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it") # Assert container/obj is not in the container listing, both indirectly # and directly objs = [o['name'] for o in client.get_container(self.url, self.token, container)[1]] if obj in objs: raise Exception('Container listing still knew about object') for cnode in cnodes: objs = [o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1]] if obj in objs: raise Exception( 'Container server %s:%s still knew about object' % (cnode['ip'], cnode['port'])) # Restart the first container/obj primary server again start_server(onode['port'], self.port2server, self.pids) # Assert it still has container/obj direct_client.direct_get_object( onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) # Run object replication, ensuring we run the handoff node last so it # will remove its extra handoff partition for node in onodes: try: port_num = node['replication_port'] except KeyError: port_num = node['port'] node_id = (port_num - 6000) / 10 Manager(['object-replicator']).once(number=node_id) another_node_id = (another_port_num - 6000) / 10 Manager(['object-replicator']).once(number=another_node_id) # Assert primary node no longer has container/obj try: direct_client.direct_get_object( another_onode, opart, self.account, container, obj, headers={ 'X-Backend-Storage-Policy-Index': self.policy.idx}) except ClientException as err: self.assertEquals(err.http_status, 404) else: self.fail("Expected ClientException but didn't get it")
def test_main(self): # Create container # Kill one container/obj primary server # Delete the "objects" directory on the primary server # Create container/obj (goes to two primary servers and one handoff) # Kill other two container/obj primary servers # Indirectly through proxy assert we can get container/obj # Restart those other two container/obj primary servers # Directly to handoff server assert we can get container/obj # Assert container listing (via proxy and directly) has container/obj # Bring the first container/obj primary server back up # Assert that it doesn't have container/obj yet # Run object replication for first container/obj primary server # Run object replication for handoff node # Assert the first container/obj primary server now has container/obj # Assert the handoff server no longer has container/obj container = 'container-%s' % uuid4() client.put_container(self.url, self.token, container) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = 'object-%s' % uuid4() opart, onodes = self.object_ring.get_nodes(self.account, container, obj) onode = onodes[0] kill_server(onode['port'], self.port2server, self.pids) obj_dir = '%s/objects' % self._get_objects_dir(onode) shutil.rmtree(obj_dir, True) self.assertFalse(os.path.exists(obj_dir)) client.put_object(self.url, self.token, container, obj, 'VERIFY') odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) # Kill all primaries to ensure GET handoff works for node in onodes[1:]: kill_server(node['port'], self.port2server, self.pids) odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != 'VERIFY': raise Exception('Object GET did not return VERIFY, instead it ' 'returned: %s' % repr(odata)) for node in onodes[1:]: start_server(node['port'], self.port2server, self.pids) self.assertFalse(os.path.exists(obj_dir)) # We've indirectly verified the handoff node has the object, but # let's directly verify it. another_onode = self.object_ring.get_more_nodes(opart).next() odata = direct_client.direct_get_object(another_onode, opart, self.account, container, obj)[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) objs = [ o['name'] for o in client.get_container(self.url, self.token, container)[1] ] if obj not in objs: raise Exception('Container listing did not know about object') timeout = time.time() + 5 found_objs_on_cnode = [] while time.time() < timeout: for cnode in [ c for c in cnodes if cnodes not in found_objs_on_cnode ]: objs = [ o['name'] for o in direct_client.direct_get_container( cnode, cpart, self.account, container)[1] ] if obj in objs: found_objs_on_cnode.append(cnode) if len(found_objs_on_cnode) >= len(cnodes): break time.sleep(0.3) if len(found_objs_on_cnode) < len(cnodes): missing = [ '%s:%s' % (cnode['ip'], cnode['port']) for cnode in cnodes if cnode not in found_objs_on_cnode ] raise Exception('Container servers %r did not know about object' % missing) start_server(onode['port'], self.port2server, self.pids) self.assertFalse(os.path.exists(obj_dir)) exc = None try: direct_client.direct_get_object(onode, opart, self.account, container, obj) except ClientException as err: exc = err self.assertEquals(exc.http_status, 404) self.assertFalse(os.path.exists(obj_dir)) try: port_num = onode['replication_port'] except KeyError: port_num = onode['port'] try: another_port_num = another_onode['replication_port'] except KeyError: another_port_num = another_onode['port'] call([ 'swift-object-replicator', self.configs['object-replicator'] % ((port_num - 6000) / 10), 'once' ]) call([ 'swift-object-replicator', self.configs['object-replicator'] % ((another_port_num - 6000) / 10), 'once' ]) odata = direct_client.direct_get_object(onode, opart, self.account, container, obj)[-1] if odata != 'VERIFY': raise Exception('Direct object GET did not return VERIFY, instead ' 'it returned: %s' % repr(odata)) exc = None try: direct_client.direct_get_object(another_onode, opart, self.account, container, obj) except ClientException as err: exc = err self.assertEquals(exc.http_status, 404)
def test_main(self): # Create container # Kill one container/obj primary server # Create container/obj (goes to two primary servers and one handoff) # Kill other two container/obj primary servers # Indirectly through proxy assert we can get container/obj # Restart those other two container/obj primary servers # Directly to handoff server assert we can get container/obj # Assert container listing (via proxy and directly) has container/obj # Bring the first container/obj primary server back up # Assert that it doesn't have container/obj yet # Run object replication, ensuring we run the handoff node last so it # should remove its extra handoff partition # Assert the first container/obj primary server now has container/obj # Assert the handoff server no longer has container/obj # Kill the first container/obj primary server again (we have two # primaries and the handoff up now) # Delete container/obj # Assert we can't head container/obj # Assert container/obj is not in the container listing, both indirectly # and directly # Restart the first container/obj primary server again # Assert it still has container/obj # Run object replication, ensuring we run the handoff node last so it # should remove its extra handoff partition # Assert primary node no longer has container/obj container = "container-%s" % uuid4() client.put_container(self.url, self.token, container) cpart, cnodes = self.container_ring.get_nodes(self.account, container) cnode = cnodes[0] obj = "object-%s" % uuid4() opart, onodes = self.object_ring.get_nodes(self.account, container, obj) onode = onodes[0] kill_server(onode["port"], self.port2server, self.pids) client.put_object(self.url, self.token, container, obj, "VERIFY") odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != "VERIFY": raise Exception("Object GET did not return VERIFY, instead it " "returned: %s" % repr(odata)) # Kill all primaries to ensure GET handoff works for node in onodes[1:]: kill_server(node["port"], self.port2server, self.pids) odata = client.get_object(self.url, self.token, container, obj)[-1] if odata != "VERIFY": raise Exception("Object GET did not return VERIFY, instead it " "returned: %s" % repr(odata)) for node in onodes[1:]: start_server(node["port"], self.port2server, self.pids) # We've indirectly verified the handoff node has the object, but let's # directly verify it. another_onode = self.object_ring.get_more_nodes(opart).next() odata = direct_client.direct_get_object(another_onode, opart, self.account, container, obj)[-1] if odata != "VERIFY": raise Exception("Direct object GET did not return VERIFY, instead " "it returned: %s" % repr(odata)) objs = [o["name"] for o in client.get_container(self.url, self.token, container)[1]] if obj not in objs: raise Exception("Container listing did not know about object") for cnode in cnodes: objs = [o["name"] for o in direct_client.direct_get_container(cnode, cpart, self.account, container)[1]] if obj not in objs: raise Exception("Container server %s:%s did not know about object" % (cnode["ip"], cnode["port"])) start_server(onode["port"], self.port2server, self.pids) exc = None try: direct_client.direct_get_object(onode, opart, self.account, container, obj) except ClientException as err: exc = err self.assertEquals(exc.http_status, 404) # Run the extra server last so it'll remove its extra partition processes = [] for node in onodes: try: port_num = node["replication_port"] except KeyError: port_num = node["port"] processes.append( Popen(["swift-object-replicator", self.configs["object-replicator"] % ((port_num - 6000) / 10), "once"]) ) for process in processes: process.wait() try: another_port_num = another_onode["replication_port"] except KeyError: another_port_num = another_onode["port"] call(["swift-object-replicator", self.configs["object-replicator"] % ((another_port_num - 6000) / 10), "once"]) odata = direct_client.direct_get_object(onode, opart, self.account, container, obj)[-1] if odata != "VERIFY": raise Exception("Direct object GET did not return VERIFY, instead " "it returned: %s" % repr(odata)) exc = None try: direct_client.direct_get_object(another_onode, opart, self.account, container, obj) except ClientException as err: exc = err self.assertEquals(exc.http_status, 404) kill_server(onode["port"], self.port2server, self.pids) client.delete_object(self.url, self.token, container, obj) exc = None try: client.head_object(self.url, self.token, container, obj) except client.ClientException as err: exc = err self.assertEquals(exc.http_status, 404) objs = [o["name"] for o in client.get_container(self.url, self.token, container)[1]] if obj in objs: raise Exception("Container listing still knew about object") for cnode in cnodes: objs = [o["name"] for o in direct_client.direct_get_container(cnode, cpart, self.account, container)[1]] if obj in objs: raise Exception("Container server %s:%s still knew about object" % (cnode["ip"], cnode["port"])) start_server(onode["port"], self.port2server, self.pids) direct_client.direct_get_object(onode, opart, self.account, container, obj) # Run the extra server last so it'll remove its extra partition processes = [] for node in onodes: try: port_num = node["replication_port"] except KeyError: port_num = node["port"] processes.append( Popen(["swift-object-replicator", self.configs["object-replicator"] % ((port_num - 6000) / 10), "once"]) ) for process in processes: process.wait() call(["swift-object-replicator", self.configs["object-replicator"] % ((another_port_num - 6000) / 10), "once"]) exc = None try: direct_client.direct_get_object(another_onode, opart, self.account, container, obj) except ClientException as err: exc = err self.assertEquals(exc.http_status, 404)
def test_main(self): # Create container1 and container2 container1 = 'container1' client.put_container(self.url, self.token, container1) container2 = 'container2' client.put_container(self.url, self.token, container2) # Assert account level sees them headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '0') self.assertEquals(headers['x-account-bytes-used'], '0') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) self.assertTrue(found1) self.assertTrue(found2) # Create container2/object1 client.put_object(self.url, self.token, container2, 'object1', '1234') # Assert account level doesn't see it yet headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '0') self.assertEquals(headers['x-account-bytes-used'], '0') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) self.assertTrue(found1) self.assertTrue(found2) # Get to final state self.get_to_final_state() # Assert account level now sees the container2/object1 headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True self.assertEquals(container['count'], 0) self.assertEquals(container['bytes'], 0) elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 1) self.assertEquals(container['bytes'], 4) self.assertTrue(found1) self.assertTrue(found2) apart, anodes = self.account_ring.get_nodes(self.account) kill_nonprimary_server(anodes, self.ipport2server, self.pids) kill_server((anodes[0]['ip'], anodes[0]['port']), self.ipport2server, self.pids) # Kill account servers excepting two of the primaries # Delete container1 client.delete_container(self.url, self.token, container1) # Put container2/object2 client.put_object(self.url, self.token, container2, 'object2', '12345') # Assert account level knows container1 is gone but doesn't know about # container2/object2 yet headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 1) self.assertEquals(container['bytes'], 4) self.assertTrue(not found1) self.assertTrue(found2) # Run container updaters Manager(['container-updater']).once() # Assert account level now knows about container2/object2 headers, containers = client.get_account(self.url, self.token) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '2') self.assertEquals(headers['x-account-bytes-used'], '9') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 2) self.assertEquals(container['bytes'], 9) self.assertTrue(not found1) self.assertTrue(found2) # Restart other primary account server start_server((anodes[0]['ip'], anodes[0]['port']), self.ipport2server, self.pids) # Assert that server doesn't know about container1's deletion or the # new container2/object2 yet headers, containers = \ direct_client.direct_get_account(anodes[0], apart, self.account) self.assertEquals(headers['x-account-container-count'], '2') self.assertEquals(headers['x-account-object-count'], '1') self.assertEquals(headers['x-account-bytes-used'], '4') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 1) self.assertEquals(container['bytes'], 4) self.assertTrue(found1) self.assertTrue(found2) # Get to final state self.get_to_final_state() # Assert that server is now up to date headers, containers = \ direct_client.direct_get_account(anodes[0], apart, self.account) self.assertEquals(headers['x-account-container-count'], '1') self.assertEquals(headers['x-account-object-count'], '2') self.assertEquals(headers['x-account-bytes-used'], '9') found1 = False found2 = False for container in containers: if container['name'] == container1: found1 = True elif container['name'] == container2: found2 = True self.assertEquals(container['count'], 2) self.assertEquals(container['bytes'], 9) self.assertTrue(not found1) self.assertTrue(found2)
def test_update_pending(self): # Create container container = 'contx' client.put_container(self.url, self.token, container) part, nodes = self.account_ring.get_nodes(self.account) anode = nodes[0] # Stop a quorum of account servers # This allows the put to continue later. kill_nonprimary_server(nodes, self.ipport2server) kill_server((anode['ip'], anode['port']), self.ipport2server) # Put object # This creates an outstanding update. client.put_object(self.url, self.token, container, 'object1', b'123') cont_db_files = self.get_container_db_files(container) self.assertEqual(len(cont_db_files), 3) # Collect the observable state from containers outstanding_files = [] for cfile in cont_db_files: broker = ContainerBroker(cfile) try: info = broker.get_info() except LockTimeout: self.fail('LockTimeout at %s' % (cfile, )) if Timestamp(info['put_timestamp']) <= 0: self.fail('No put_timestamp at %s' % (cfile, )) # Correct even if reported_put_timestamp is zero. if info['put_timestamp'] > info['reported_put_timestamp']: outstanding_files.append(cfile) self.assertGreater(len(outstanding_files), 0) # At this point the users shut everything down and screw up the # hash in swift.conf. But we destroy the account DB instead. files = self.get_account_db_files(self.account) for afile in files: os.unlink(afile) # Restart the stopped primary server start_server((anode['ip'], anode['port']), self.ipport2server) # Make sure updaters run Manager(['container-updater']).once() # Collect the observable state from containers again and examine it outstanding_files_new = [] for cfile in cont_db_files: # We aren't catching DatabaseConnectionError, because # we only want to approve of DBs that were quarantined, # and not otherwise damaged. So if the code below throws # an exception for other reason, we want the test to fail. if not os.path.exists(cfile): continue broker = ContainerBroker(cfile) try: info = broker.get_info() except LockTimeout: self.fail('LockTimeout at %s' % (cfile, )) if Timestamp(info['put_timestamp']) <= 0: self.fail('No put_timestamp at %s' % (cfile, )) # Correct even if reported_put_timestamp is zero. if info['put_timestamp'] > info['reported_put_timestamp']: outstanding_files_new.append(cfile) self.assertLengthEqual(outstanding_files_new, 0) self.get_to_final_state()