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Edit File: test_memcache.py
# Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Test the memcache client protocol. """ from twisted.internet.defer import Deferred, DeferredList, TimeoutError, gatherResults from twisted.internet.error import ConnectionDone from twisted.internet.task import Clock from twisted.protocols.memcache import ( ClientError, MemCacheProtocol, NoSuchCommand, ServerError, ) from twisted.test.proto_helpers import StringTransportWithDisconnection from twisted.trial.unittest import TestCase class CommandMixin: """ Setup and tests for basic invocation of L{MemCacheProtocol} commands. """ def _test(self, d, send, recv, result): """ Helper test method to test the resulting C{Deferred} of a L{MemCacheProtocol} command. """ raise NotImplementedError() def test_get(self): """ L{MemCacheProtocol.get} returns a L{Deferred} which is called back with the value and the flag associated with the given key if the server returns a successful result. """ return self._test( self.proto.get(b"foo"), b"get foo\r\n", b"VALUE foo 0 3\r\nbar\r\nEND\r\n", (0, b"bar"), ) def test_emptyGet(self): """ Test getting a non-available key: it succeeds but return L{None} as value and C{0} as flag. """ return self._test(self.proto.get(b"foo"), b"get foo\r\n", b"END\r\n", (0, None)) def test_getMultiple(self): """ L{MemCacheProtocol.getMultiple} returns a L{Deferred} which is called back with a dictionary of flag, value for each given key. """ return self._test( self.proto.getMultiple([b"foo", b"cow"]), b"get foo cow\r\n", b"VALUE foo 0 3\r\nbar\r\nVALUE cow 0 7\r\nchicken\r\nEND\r\n", {b"cow": (0, b"chicken"), b"foo": (0, b"bar")}, ) def test_getMultipleWithEmpty(self): """ When L{MemCacheProtocol.getMultiple} is called with non-available keys, the corresponding tuples are (0, None). """ return self._test( self.proto.getMultiple([b"foo", b"cow"]), b"get foo cow\r\n", b"VALUE cow 1 3\r\nbar\r\nEND\r\n", {b"cow": (1, b"bar"), b"foo": (0, None)}, ) def test_set(self): """ L{MemCacheProtocol.set} returns a L{Deferred} which is called back with C{True} when the operation succeeds. """ return self._test( self.proto.set(b"foo", b"bar"), b"set foo 0 0 3\r\nbar\r\n", b"STORED\r\n", True, ) def test_add(self): """ L{MemCacheProtocol.add} returns a L{Deferred} which is called back with C{True} when the operation succeeds. """ return self._test( self.proto.add(b"foo", b"bar"), b"add foo 0 0 3\r\nbar\r\n", b"STORED\r\n", True, ) def test_replace(self): """ L{MemCacheProtocol.replace} returns a L{Deferred} which is called back with C{True} when the operation succeeds. """ return self._test( self.proto.replace(b"foo", b"bar"), b"replace foo 0 0 3\r\nbar\r\n", b"STORED\r\n", True, ) def test_errorAdd(self): """ Test an erroneous add: if a L{MemCacheProtocol.add} is called but the key already exists on the server, it returns a B{NOT STORED} answer, which calls back the resulting L{Deferred} with C{False}. """ return self._test( self.proto.add(b"foo", b"bar"), b"add foo 0 0 3\r\nbar\r\n", b"NOT STORED\r\n", False, ) def test_errorReplace(self): """ Test an erroneous replace: if a L{MemCacheProtocol.replace} is called but the key doesn't exist on the server, it returns a B{NOT STORED} answer, which calls back the resulting L{Deferred} with C{False}. """ return self._test( self.proto.replace(b"foo", b"bar"), b"replace foo 0 0 3\r\nbar\r\n", b"NOT STORED\r\n", False, ) def test_delete(self): """ L{MemCacheProtocol.delete} returns a L{Deferred} which is called back with C{True} when the server notifies a success. """ return self._test( self.proto.delete(b"bar"), b"delete bar\r\n", b"DELETED\r\n", True ) def test_errorDelete(self): """ Test an error during a delete: if key doesn't exist on the server, it returns a B{NOT FOUND} answer which calls back the resulting L{Deferred} with C{False}. """ return self._test( self.proto.delete(b"bar"), b"delete bar\r\n", b"NOT FOUND\r\n", False ) def test_increment(self): """ Test incrementing a variable: L{MemCacheProtocol.increment} returns a L{Deferred} which is called back with the incremented value of the given key. """ return self._test(self.proto.increment(b"foo"), b"incr foo 1\r\n", b"4\r\n", 4) def test_decrement(self): """ Test decrementing a variable: L{MemCacheProtocol.decrement} returns a L{Deferred} which is called back with the decremented value of the given key. """ return self._test(self.proto.decrement(b"foo"), b"decr foo 1\r\n", b"5\r\n", 5) def test_incrementVal(self): """ L{MemCacheProtocol.increment} takes an optional argument C{value} which replaces the default value of 1 when specified. """ return self._test( self.proto.increment(b"foo", 8), b"incr foo 8\r\n", b"4\r\n", 4 ) def test_decrementVal(self): """ L{MemCacheProtocol.decrement} takes an optional argument C{value} which replaces the default value of 1 when specified. """ return self._test( self.proto.decrement(b"foo", 3), b"decr foo 3\r\n", b"5\r\n", 5 ) def test_stats(self): """ Test retrieving server statistics via the L{MemCacheProtocol.stats} command: it parses the data sent by the server and calls back the resulting L{Deferred} with a dictionary of the received statistics. """ return self._test( self.proto.stats(), b"stats\r\n", b"STAT foo bar\r\nSTAT egg spam\r\nEND\r\n", {b"foo": b"bar", b"egg": b"spam"}, ) def test_statsWithArgument(self): """ L{MemCacheProtocol.stats} takes an optional C{bytes} argument which, if specified, is sent along with the I{STAT} command. The I{STAT} responses from the server are parsed as key/value pairs and returned as a C{dict} (as in the case where the argument is not specified). """ return self._test( self.proto.stats(b"blah"), b"stats blah\r\n", b"STAT foo bar\r\nSTAT egg spam\r\nEND\r\n", {b"foo": b"bar", b"egg": b"spam"}, ) def test_version(self): """ Test version retrieval via the L{MemCacheProtocol.version} command: it returns a L{Deferred} which is called back with the version sent by the server. """ return self._test( self.proto.version(), b"version\r\n", b"VERSION 1.1\r\n", b"1.1" ) def test_flushAll(self): """ L{MemCacheProtocol.flushAll} returns a L{Deferred} which is called back with C{True} if the server acknowledges success. """ return self._test(self.proto.flushAll(), b"flush_all\r\n", b"OK\r\n", True) class MemCacheTests(CommandMixin, TestCase): """ Test client protocol class L{MemCacheProtocol}. """ def setUp(self): """ Create a memcache client, connect it to a string protocol, and make it use a deterministic clock. """ self.proto = MemCacheProtocol() self.clock = Clock() self.proto.callLater = self.clock.callLater self.transport = StringTransportWithDisconnection() self.transport.protocol = self.proto self.proto.makeConnection(self.transport) def _test(self, d, send, recv, result): """ Implementation of C{_test} which checks that the command sends C{send} data, and that upon reception of C{recv} the result is C{result}. @param d: the resulting deferred from the memcache command. @type d: C{Deferred} @param send: the expected data to be sent. @type send: C{bytes} @param recv: the data to simulate as reception. @type recv: C{bytes} @param result: the expected result. @type result: C{any} """ def cb(res): self.assertEqual(res, result) self.assertEqual(self.transport.value(), send) d.addCallback(cb) self.proto.dataReceived(recv) return d def test_invalidGetResponse(self): """ If the value returned doesn't match the expected key of the current C{get} command, an error is raised in L{MemCacheProtocol.dataReceived}. """ self.proto.get(b"foo") self.assertRaises( RuntimeError, self.proto.dataReceived, b"VALUE bar 0 7\r\nspamegg\r\nEND\r\n", ) def test_invalidMultipleGetResponse(self): """ If the value returned doesn't match one the expected keys of the current multiple C{get} command, an error is raised error in L{MemCacheProtocol.dataReceived}. """ self.proto.getMultiple([b"foo", b"bar"]) self.assertRaises( RuntimeError, self.proto.dataReceived, b"VALUE egg 0 7\r\nspamegg\r\nEND\r\n", ) def test_invalidEndResponse(self): """ If an END is received in response to an operation that isn't C{get}, C{gets}, or C{stats}, an error is raised in L{MemCacheProtocol.dataReceived}. """ self.proto.set(b"key", b"value") self.assertRaises(RuntimeError, self.proto.dataReceived, b"END\r\n") def test_timeOut(self): """ Test the timeout on outgoing requests: when timeout is detected, all current commands fail with a L{TimeoutError}, and the connection is closed. """ d1 = self.proto.get(b"foo") d2 = self.proto.get(b"bar") d3 = Deferred() self.proto.connectionLost = d3.callback self.clock.advance(self.proto.persistentTimeOut) self.assertFailure(d1, TimeoutError) self.assertFailure(d2, TimeoutError) def checkMessage(error): self.assertEqual(str(error), "Connection timeout") d1.addCallback(checkMessage) self.assertFailure(d3, ConnectionDone) return gatherResults([d1, d2, d3]) def test_timeoutRemoved(self): """ When a request gets a response, no pending timeout call remains around. """ d = self.proto.get(b"foo") self.clock.advance(self.proto.persistentTimeOut - 1) self.proto.dataReceived(b"VALUE foo 0 3\r\nbar\r\nEND\r\n") def check(result): self.assertEqual(result, (0, b"bar")) self.assertEqual(len(self.clock.calls), 0) d.addCallback(check) return d def test_timeOutRaw(self): """ Test the timeout when raw mode was started: the timeout is not reset until all the data has been received, so we can have a L{TimeoutError} when waiting for raw data. """ d1 = self.proto.get(b"foo") d2 = Deferred() self.proto.connectionLost = d2.callback self.proto.dataReceived(b"VALUE foo 0 10\r\n12345") self.clock.advance(self.proto.persistentTimeOut) self.assertFailure(d1, TimeoutError) self.assertFailure(d2, ConnectionDone) return gatherResults([d1, d2]) def test_timeOutStat(self): """ Test the timeout when stat command has started: the timeout is not reset until the final B{END} is received. """ d1 = self.proto.stats() d2 = Deferred() self.proto.connectionLost = d2.callback self.proto.dataReceived(b"STAT foo bar\r\n") self.clock.advance(self.proto.persistentTimeOut) self.assertFailure(d1, TimeoutError) self.assertFailure(d2, ConnectionDone) return gatherResults([d1, d2]) def test_timeoutPipelining(self): """ When two requests are sent, a timeout call remains around for the second request, and its timeout time is correct. """ d1 = self.proto.get(b"foo") d2 = self.proto.get(b"bar") d3 = Deferred() self.proto.connectionLost = d3.callback self.clock.advance(self.proto.persistentTimeOut - 1) self.proto.dataReceived(b"VALUE foo 0 3\r\nbar\r\nEND\r\n") def check(result): self.assertEqual(result, (0, b"bar")) self.assertEqual(len(self.clock.calls), 1) for i in range(self.proto.persistentTimeOut): self.clock.advance(1) return self.assertFailure(d2, TimeoutError).addCallback(checkTime) def checkTime(ignored): # Check that the timeout happened C{self.proto.persistentTimeOut} # after the last response self.assertEqual(self.clock.seconds(), 2 * self.proto.persistentTimeOut - 1) d1.addCallback(check) self.assertFailure(d3, ConnectionDone) return d1 def test_timeoutNotReset(self): """ Check that timeout is not resetted for every command, but keep the timeout from the first command without response. """ d1 = self.proto.get(b"foo") d3 = Deferred() self.proto.connectionLost = d3.callback self.clock.advance(self.proto.persistentTimeOut - 1) d2 = self.proto.get(b"bar") self.clock.advance(1) self.assertFailure(d1, TimeoutError) self.assertFailure(d2, TimeoutError) self.assertFailure(d3, ConnectionDone) return gatherResults([d1, d2, d3]) def test_timeoutCleanDeferreds(self): """ C{timeoutConnection} cleans the list of commands that it fires with C{TimeoutError}: C{connectionLost} doesn't try to fire them again, but sets the disconnected state so that future commands fail with a C{RuntimeError}. """ d1 = self.proto.get(b"foo") self.clock.advance(self.proto.persistentTimeOut) self.assertFailure(d1, TimeoutError) d2 = self.proto.get(b"bar") self.assertFailure(d2, RuntimeError) return gatherResults([d1, d2]) def test_connectionLost(self): """ When disconnection occurs while commands are still outstanding, the commands fail. """ d1 = self.proto.get(b"foo") d2 = self.proto.get(b"bar") self.transport.loseConnection() done = DeferredList([d1, d2], consumeErrors=True) def checkFailures(results): for success, result in results: self.assertFalse(success) result.trap(ConnectionDone) return done.addCallback(checkFailures) def test_tooLongKey(self): """ An error is raised when trying to use a too long key: the called command returns a L{Deferred} which fails with a L{ClientError}. """ d1 = self.assertFailure(self.proto.set(b"a" * 500, b"bar"), ClientError) d2 = self.assertFailure(self.proto.increment(b"a" * 500), ClientError) d3 = self.assertFailure(self.proto.get(b"a" * 500), ClientError) d4 = self.assertFailure(self.proto.append(b"a" * 500, b"bar"), ClientError) d5 = self.assertFailure(self.proto.prepend(b"a" * 500, b"bar"), ClientError) d6 = self.assertFailure( self.proto.getMultiple([b"foo", b"a" * 500]), ClientError ) return gatherResults([d1, d2, d3, d4, d5, d6]) def test_invalidCommand(self): """ When an unknown command is sent directly (not through public API), the server answers with an B{ERROR} token, and the command fails with L{NoSuchCommand}. """ d = self.proto._set(b"egg", b"foo", b"bar", 0, 0, b"") self.assertEqual(self.transport.value(), b"egg foo 0 0 3\r\nbar\r\n") self.assertFailure(d, NoSuchCommand) self.proto.dataReceived(b"ERROR\r\n") return d def test_clientError(self): """ Test the L{ClientError} error: when the server sends a B{CLIENT_ERROR} token, the originating command fails with L{ClientError}, and the error contains the text sent by the server. """ a = b"eggspamm" d = self.proto.set(b"foo", a) self.assertEqual(self.transport.value(), b"set foo 0 0 8\r\neggspamm\r\n") self.assertFailure(d, ClientError) def check(err): self.assertEqual(str(err), repr(b"We don't like egg and spam")) d.addCallback(check) self.proto.dataReceived(b"CLIENT_ERROR We don't like egg and spam\r\n") return d def test_serverError(self): """ Test the L{ServerError} error: when the server sends a B{SERVER_ERROR} token, the originating command fails with L{ServerError}, and the error contains the text sent by the server. """ a = b"eggspamm" d = self.proto.set(b"foo", a) self.assertEqual(self.transport.value(), b"set foo 0 0 8\r\neggspamm\r\n") self.assertFailure(d, ServerError) def check(err): self.assertEqual(str(err), repr(b"zomg")) d.addCallback(check) self.proto.dataReceived(b"SERVER_ERROR zomg\r\n") return d def test_unicodeKey(self): """ Using a non-string key as argument to commands raises an error. """ d1 = self.assertFailure(self.proto.set("foo", b"bar"), ClientError) d2 = self.assertFailure(self.proto.increment("egg"), ClientError) d3 = self.assertFailure(self.proto.get(1), ClientError) d4 = self.assertFailure(self.proto.delete("bar"), ClientError) d5 = self.assertFailure(self.proto.append("foo", b"bar"), ClientError) d6 = self.assertFailure(self.proto.prepend("foo", b"bar"), ClientError) d7 = self.assertFailure(self.proto.getMultiple([b"egg", 1]), ClientError) return gatherResults([d1, d2, d3, d4, d5, d6, d7]) def test_unicodeValue(self): """ Using a non-string value raises an error. """ return self.assertFailure(self.proto.set(b"foo", "bar"), ClientError) def test_pipelining(self): """ Multiple requests can be sent subsequently to the server, and the protocol orders the responses correctly and dispatch to the corresponding client command. """ d1 = self.proto.get(b"foo") d1.addCallback(self.assertEqual, (0, b"bar")) d2 = self.proto.set(b"bar", b"spamspamspam") d2.addCallback(self.assertEqual, True) d3 = self.proto.get(b"egg") d3.addCallback(self.assertEqual, (0, b"spam")) self.assertEqual( self.transport.value(), b"get foo\r\nset bar 0 0 12\r\nspamspamspam\r\nget egg\r\n", ) self.proto.dataReceived( b"VALUE foo 0 3\r\nbar\r\nEND\r\n" b"STORED\r\n" b"VALUE egg 0 4\r\nspam\r\nEND\r\n" ) return gatherResults([d1, d2, d3]) def test_getInChunks(self): """ If the value retrieved by a C{get} arrive in chunks, the protocol is able to reconstruct it and to produce the good value. """ d = self.proto.get(b"foo") d.addCallback(self.assertEqual, (0, b"0123456789")) self.assertEqual(self.transport.value(), b"get foo\r\n") self.proto.dataReceived(b"VALUE foo 0 10\r\n0123456") self.proto.dataReceived(b"789") self.proto.dataReceived(b"\r\nEND") self.proto.dataReceived(b"\r\n") return d def test_append(self): """ L{MemCacheProtocol.append} behaves like a L{MemCacheProtocol.set} method: it returns a L{Deferred} which is called back with C{True} when the operation succeeds. """ return self._test( self.proto.append(b"foo", b"bar"), b"append foo 0 0 3\r\nbar\r\n", b"STORED\r\n", True, ) def test_prepend(self): """ L{MemCacheProtocol.prepend} behaves like a L{MemCacheProtocol.set} method: it returns a L{Deferred} which is called back with C{True} when the operation succeeds. """ return self._test( self.proto.prepend(b"foo", b"bar"), b"prepend foo 0 0 3\r\nbar\r\n", b"STORED\r\n", True, ) def test_gets(self): """ L{MemCacheProtocol.get} handles an additional cas result when C{withIdentifier} is C{True} and forward it in the resulting L{Deferred}. """ return self._test( self.proto.get(b"foo", True), b"gets foo\r\n", b"VALUE foo 0 3 1234\r\nbar\r\nEND\r\n", (0, b"1234", b"bar"), ) def test_emptyGets(self): """ Test getting a non-available key with gets: it succeeds but return L{None} as value, C{0} as flag and an empty cas value. """ return self._test( self.proto.get(b"foo", True), b"gets foo\r\n", b"END\r\n", (0, b"", None) ) def test_getsMultiple(self): """ L{MemCacheProtocol.getMultiple} handles an additional cas field in the returned tuples if C{withIdentifier} is C{True}. """ return self._test( self.proto.getMultiple([b"foo", b"bar"], True), b"gets foo bar\r\n", b"VALUE foo 0 3 1234\r\negg\r\n" b"VALUE bar 0 4 2345\r\nspam\r\nEND\r\n", {b"bar": (0, b"2345", b"spam"), b"foo": (0, b"1234", b"egg")}, ) def test_getsMultipleIterableKeys(self): """ L{MemCacheProtocol.getMultiple} accepts any iterable of keys. """ return self._test( self.proto.getMultiple(iter([b"foo", b"bar"]), True), b"gets foo bar\r\n", b"VALUE foo 0 3 1234\r\negg\r\n" b"VALUE bar 0 4 2345\r\nspam\r\nEND\r\n", {b"bar": (0, b"2345", b"spam"), b"foo": (0, b"1234", b"egg")}, ) def test_getsMultipleWithEmpty(self): """ When getting a non-available key with L{MemCacheProtocol.getMultiple} when C{withIdentifier} is C{True}, the other keys are retrieved correctly, and the non-available key gets a tuple of C{0} as flag, L{None} as value, and an empty cas value. """ return self._test( self.proto.getMultiple([b"foo", b"bar"], True), b"gets foo bar\r\n", b"VALUE foo 0 3 1234\r\negg\r\nEND\r\n", {b"bar": (0, b"", None), b"foo": (0, b"1234", b"egg")}, ) def test_checkAndSet(self): """ L{MemCacheProtocol.checkAndSet} passes an additional cas identifier that the server handles to check if the data has to be updated. """ return self._test( self.proto.checkAndSet(b"foo", b"bar", cas=b"1234"), b"cas foo 0 0 3 1234\r\nbar\r\n", b"STORED\r\n", True, ) def test_casUnknowKey(self): """ When L{MemCacheProtocol.checkAndSet} response is C{EXISTS}, the resulting L{Deferred} fires with C{False}. """ return self._test( self.proto.checkAndSet(b"foo", b"bar", cas=b"1234"), b"cas foo 0 0 3 1234\r\nbar\r\n", b"EXISTS\r\n", False, ) class CommandFailureTests(CommandMixin, TestCase): """ Tests for correct failure of commands on a disconnected L{MemCacheProtocol}. """ def setUp(self): """ Create a disconnected memcache client, using a deterministic clock. """ self.proto = MemCacheProtocol() self.clock = Clock() self.proto.callLater = self.clock.callLater self.transport = StringTransportWithDisconnection() self.transport.protocol = self.proto self.proto.makeConnection(self.transport) self.transport.loseConnection() def _test(self, d, send, recv, result): """ Implementation of C{_test} which checks that the command fails with C{RuntimeError} because the transport is disconnected. All the parameters except C{d} are ignored. """ return self.assertFailure(d, RuntimeError)