// Copyright 2015 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "content/child/shared_memory_data_consumer_handle.h" #include #include #include #include "base/bind.h" #include "base/callback.h" #include "base/location.h" #include "base/message_loop/message_loop.h" #include "base/run_loop.h" #include "base/task_runner.h" #include "base/threading/thread.h" #include "content/public/child/fixed_received_data.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" namespace content { namespace { using blink::WebDataConsumerHandle; using Result = WebDataConsumerHandle::Result; using Writer = SharedMemoryDataConsumerHandle::Writer; using BackpressureMode = SharedMemoryDataConsumerHandle::BackpressureMode; const BackpressureMode kApplyBackpressure = SharedMemoryDataConsumerHandle::kApplyBackpressure; const BackpressureMode kDoNotApplyBackpressure = SharedMemoryDataConsumerHandle::kDoNotApplyBackpressure; const WebDataConsumerHandle::Flags kNone = WebDataConsumerHandle::FlagNone; const Result kOk = WebDataConsumerHandle::Ok; const Result kDone = WebDataConsumerHandle::Done; const Result kShouldWait = WebDataConsumerHandle::ShouldWait; const Result kUnexpectedError = WebDataConsumerHandle::UnexpectedError; using ::testing::_; using ::testing::InSequence; using ::testing::Invoke; using ::testing::MockFunction; using ::testing::Return; using ::testing::StrictMock; using Checkpoint = StrictMock>; using ReceivedData = RequestPeer::ReceivedData; class Logger final : public base::RefCounted { public: Logger() {} void Add(const std::string& entry) { log_ += entry + "\n"; } const std::string& log() const { return log_; } private: friend class base::RefCounted; ~Logger() {} std::string log_; DISALLOW_COPY_AND_ASSIGN(Logger); }; class LoggingFixedReceivedData final : public RequestPeer::ReceivedData { public: LoggingFixedReceivedData(const char* name, const char* s, scoped_refptr logger) : name_(name), data_(s, s + strlen(s)), logger_(logger) {} ~LoggingFixedReceivedData() override { logger_->Add(name_ + " is destructed."); } const char* payload() const override { return data_.empty() ? nullptr : &data_[0]; } int length() const override { return static_cast(data_.size()); } int encoded_length() const override { return static_cast(data_.size()); } private: const std::string name_; const std::vector data_; scoped_refptr logger_; DISALLOW_COPY_AND_ASSIGN(LoggingFixedReceivedData); }; class DestructionTrackingFunction : public base::RefCountedThreadSafe { public: MOCK_METHOD0(Destruct, void(void)); MOCK_METHOD0(Call, void(void)); protected: friend class base::RefCountedThreadSafe; virtual ~DestructionTrackingFunction() { Destruct(); } }; class MockClient : public WebDataConsumerHandle::Client { public: MOCK_METHOD0(didGetReadable, void()); }; std::string ToString(const void* p, size_t size) { const char* q = static_cast(p); return std::string(q, q + size); } class ThreadedSharedMemoryDataConsumerHandleTest : public ::testing::Test { protected: class ReadDataOperation; class ClientImpl final : public WebDataConsumerHandle::Client { public: explicit ClientImpl(ReadDataOperation* operation) : operation_(operation) {} void didGetReadable() override { operation_->ReadData(); } private: ReadDataOperation* operation_; }; class ReadDataOperation final { public: typedef WebDataConsumerHandle::Result Result; ReadDataOperation(scoped_ptr handle, base::MessageLoop* main_message_loop, const base::Closure& on_done) : handle_(handle.Pass()), main_message_loop_(main_message_loop), on_done_(on_done) {} const std::string& result() const { return result_; } void ReadData() { if (!client_) { client_.reset(new ClientImpl(this)); reader_ = handle_->ObtainReader(client_.get()); } Result rv = kOk; size_t read_size = 0; while (true) { char buffer[16]; rv = reader_->read(&buffer, sizeof(buffer), kNone, &read_size); if (rv != kOk) break; result_.insert(result_.size(), &buffer[0], read_size); } if (rv == kShouldWait) { // Wait a while... return; } if (rv != kDone) { // Something is wrong. result_ = "error"; } // The operation is done. reader_.reset(); main_message_loop_->PostTask(FROM_HERE, on_done_); } private: scoped_ptr handle_; scoped_ptr reader_; scoped_ptr client_; base::MessageLoop* main_message_loop_; base::Closure on_done_; std::string result_; }; void SetUp() override { handle_.reset( new SharedMemoryDataConsumerHandle(kApplyBackpressure, &writer_)); } StrictMock client_; scoped_ptr handle_; scoped_ptr writer_; base::MessageLoop loop_; }; class SharedMemoryDataConsumerHandleTest : public ::testing::TestWithParam { protected: void SetUp() override { handle_.reset(new SharedMemoryDataConsumerHandle(GetParam(), &writer_)); } scoped_ptr NewFixedData(const char* s) { return make_scoped_ptr(new FixedReceivedData(s, strlen(s), strlen(s))); } StrictMock client_; scoped_ptr handle_; scoped_ptr writer_; base::MessageLoop loop_; }; void RunPostedTasks() { base::RunLoop run_loop; base::MessageLoop::current()->task_runner()->PostTask(FROM_HERE, run_loop.QuitClosure()); run_loop.Run(); } TEST_P(SharedMemoryDataConsumerHandleTest, ReadFromEmpty) { char buffer[4]; size_t read = 88; auto reader = handle_->ObtainReader(nullptr); Result result = reader->read(buffer, 4, kNone, &read); EXPECT_EQ(kShouldWait, result); EXPECT_EQ(0u, read); } TEST_P(SharedMemoryDataConsumerHandleTest, AutoClose) { char buffer[4]; size_t read = 88; writer_.reset(); auto reader = handle_->ObtainReader(nullptr); Result result = reader->read(buffer, 4, kNone, &read); EXPECT_EQ(kDone, result); EXPECT_EQ(0u, read); } TEST_P(SharedMemoryDataConsumerHandleTest, ReadSimple) { writer_->AddData(NewFixedData("hello")); char buffer[4] = {}; size_t read = 88; auto reader = handle_->ObtainReader(nullptr); Result result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(3u, read); EXPECT_STREQ("hel", buffer); result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(2u, read); EXPECT_STREQ("lol", buffer); result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kShouldWait, result); EXPECT_EQ(0u, read); writer_->Close(); result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kDone, result); EXPECT_EQ(0u, read); } TEST_P(SharedMemoryDataConsumerHandleTest, ReadAfterHandleIsGone) { writer_->AddData(NewFixedData("hello")); char buffer[8] = {}; size_t read = 88; auto reader = handle_->ObtainReader(nullptr); handle_.reset(); Result result = reader->read(buffer, sizeof(buffer), kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(5u, read); EXPECT_STREQ("hello", buffer); result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kShouldWait, result); EXPECT_EQ(0u, read); writer_->Close(); result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kDone, result); EXPECT_EQ(0u, read); } TEST_P(SharedMemoryDataConsumerHandleTest, ReObtainReader) { writer_->AddData(NewFixedData("hello")); char buffer[4] = {}; size_t read = 88; auto reader = handle_->ObtainReader(nullptr); Result result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(3u, read); EXPECT_STREQ("hel", buffer); reader.reset(); reader = handle_->ObtainReader(nullptr); result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(2u, read); EXPECT_STREQ("lol", buffer); result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kShouldWait, result); EXPECT_EQ(0u, read); writer_->Close(); result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kDone, result); EXPECT_EQ(0u, read); } TEST_P(SharedMemoryDataConsumerHandleTest, CloseBeforeReading) { writer_->AddData(NewFixedData("hello")); writer_->Close(); char buffer[20] = {}; size_t read = 88; auto reader = handle_->ObtainReader(nullptr); Result result = reader->read(buffer, sizeof(buffer), kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(5u, read); EXPECT_STREQ("hello", buffer); result = reader->read(buffer, sizeof(buffer), kNone, &read); EXPECT_EQ(kDone, result); EXPECT_EQ(0u, read); } TEST_P(SharedMemoryDataConsumerHandleTest, AddMultipleData) { writer_->AddData(NewFixedData("Once ")); writer_->AddData(NewFixedData("upon ")); writer_->AddData(NewFixedData("a ")); writer_->AddData(NewFixedData("time ")); writer_->AddData(NewFixedData("there ")); writer_->AddData(NewFixedData("was ")); writer_->AddData(NewFixedData("a ")); writer_->Close(); char buffer[20]; size_t read; Result result; auto reader = handle_->ObtainReader(nullptr); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 6, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(6u, read); EXPECT_STREQ("Once u", buffer); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 2, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(2u, read); EXPECT_STREQ("po", buffer); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 9, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(9u, read); EXPECT_STREQ("n a time ", buffer); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 3, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(3u, read); EXPECT_STREQ("the", buffer); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 20, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(9u, read); EXPECT_STREQ("re was a ", buffer); result = reader->read(buffer, sizeof(buffer), kNone, &read); EXPECT_EQ(kDone, result); EXPECT_EQ(0u, read); } TEST_P(SharedMemoryDataConsumerHandleTest, AddMultipleDataInteractively) { writer_->AddData(NewFixedData("Once ")); writer_->AddData(NewFixedData("upon ")); char buffer[20]; size_t read; Result result; auto reader = handle_->ObtainReader(nullptr); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 6, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(6u, read); EXPECT_STREQ("Once u", buffer); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 2, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(2u, read); EXPECT_STREQ("po", buffer); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 9, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(2u, read); EXPECT_STREQ("n ", buffer); writer_->AddData(NewFixedData("a ")); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 1, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(1u, read); EXPECT_STREQ("a", buffer); writer_->AddData(NewFixedData("time ")); writer_->AddData(NewFixedData("there ")); writer_->AddData(NewFixedData("was ")); writer_->AddData(NewFixedData("a ")); writer_->Close(); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 9, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(9u, read); EXPECT_STREQ(" time the", buffer); std::fill(&buffer[0], &buffer[arraysize(buffer)], 0); result = reader->read(buffer, 20, kNone, &read); EXPECT_EQ(kOk, result); EXPECT_EQ(9u, read); EXPECT_STREQ("re was a ", buffer); result = reader->read(buffer, sizeof(buffer), kNone, &read); EXPECT_EQ(kDone, result); EXPECT_EQ(0u, read); } TEST_P(SharedMemoryDataConsumerHandleTest, RegisterClient) { Checkpoint checkpoint; InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(checkpoint, Call(2)); EXPECT_CALL(checkpoint, Call(3)); EXPECT_CALL(client_, didGetReadable()); EXPECT_CALL(checkpoint, Call(4)); checkpoint.Call(0); auto reader = handle_->ObtainReader(&client_); checkpoint.Call(1); RunPostedTasks(); checkpoint.Call(2); writer_->Close(); checkpoint.Call(3); RunPostedTasks(); checkpoint.Call(4); } TEST_P(SharedMemoryDataConsumerHandleTest, RegisterClientWhenDataExists) { Checkpoint checkpoint; InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(checkpoint, Call(2)); EXPECT_CALL(client_, didGetReadable()); EXPECT_CALL(checkpoint, Call(3)); checkpoint.Call(0); writer_->AddData(NewFixedData("Once ")); checkpoint.Call(1); auto reader = handle_->ObtainReader(&client_); checkpoint.Call(2); RunPostedTasks(); checkpoint.Call(3); } TEST_P(SharedMemoryDataConsumerHandleTest, AddDataWhenClientIsRegistered) { Checkpoint checkpoint; char buffer[20]; Result result; size_t size; InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(client_, didGetReadable()); EXPECT_CALL(checkpoint, Call(2)); EXPECT_CALL(checkpoint, Call(3)); EXPECT_CALL(checkpoint, Call(4)); EXPECT_CALL(client_, didGetReadable()); EXPECT_CALL(checkpoint, Call(5)); checkpoint.Call(0); auto reader = handle_->ObtainReader(&client_); checkpoint.Call(1); writer_->AddData(NewFixedData("Once ")); checkpoint.Call(2); writer_->AddData(NewFixedData("upon ")); checkpoint.Call(3); result = reader->read(buffer, sizeof(buffer), kNone, &size); EXPECT_EQ(kOk, result); EXPECT_EQ(10u, size); checkpoint.Call(4); writer_->AddData(NewFixedData("a ")); checkpoint.Call(5); } TEST_P(SharedMemoryDataConsumerHandleTest, CloseWithClientAndData) { Checkpoint checkpoint; InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(client_, didGetReadable()); EXPECT_CALL(checkpoint, Call(2)); EXPECT_CALL(checkpoint, Call(3)); checkpoint.Call(0); auto reader = handle_->ObtainReader(&client_); checkpoint.Call(1); writer_->AddData(NewFixedData("Once ")); checkpoint.Call(2); writer_->Close(); checkpoint.Call(3); } TEST_P(SharedMemoryDataConsumerHandleTest, ReleaseReader) { Checkpoint checkpoint; InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(checkpoint, Call(2)); checkpoint.Call(0); auto reader = handle_->ObtainReader(&client_); checkpoint.Call(1); reader.reset(); writer_->AddData(NewFixedData("Once ")); checkpoint.Call(2); } TEST_P(SharedMemoryDataConsumerHandleTest, TwoPhaseReadShouldWait) { Result result; const void* buffer = &result; size_t size = 99; auto reader = handle_->ObtainReader(nullptr); result = reader->beginRead(&buffer, kNone, &size); EXPECT_EQ(kShouldWait, result); EXPECT_EQ(nullptr, buffer); EXPECT_EQ(0u, size); } TEST_P(SharedMemoryDataConsumerHandleTest, TwoPhaseReadSimple) { writer_->AddData(NewFixedData("Once ")); Result result; const void* buffer = &result; size_t size = 99; auto reader = handle_->ObtainReader(nullptr); result = reader->beginRead(&buffer, kNone, &size); EXPECT_EQ(kOk, result); EXPECT_EQ(5u, size); EXPECT_EQ("Once ", ToString(buffer, 5)); reader->endRead(1); result = reader->beginRead(&buffer, kNone, &size); EXPECT_EQ(kOk, result); EXPECT_EQ(4u, size); EXPECT_EQ("nce ", ToString(buffer, 4)); reader->endRead(4); result = reader->beginRead(&buffer, kNone, &size); EXPECT_EQ(kShouldWait, result); EXPECT_EQ(0u, size); EXPECT_EQ(nullptr, buffer); writer_->Close(); result = reader->beginRead(&buffer, kNone, &size); EXPECT_EQ(kDone, result); EXPECT_EQ(0u, size); EXPECT_EQ(nullptr, buffer); } TEST_P(SharedMemoryDataConsumerHandleTest, CallOnClearWhenDestructed1) { // Call |on_clear| when the handle is gone and if there is no reader. Checkpoint checkpoint; scoped_refptr on_clear( new StrictMock); InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(*on_clear, Call()); EXPECT_CALL(*on_clear, Destruct()); EXPECT_CALL(checkpoint, Call(2)); checkpoint.Call(0); handle_.reset(new SharedMemoryDataConsumerHandle( kApplyBackpressure, base::Bind(&DestructionTrackingFunction::Call, on_clear), &writer_)); handle_.reset(); on_clear = nullptr; checkpoint.Call(1); RunPostedTasks(); checkpoint.Call(2); } TEST_P(SharedMemoryDataConsumerHandleTest, CallOnClearWhenDestructed2) { // Call |on_clear| when the reader is gone if the handle is alredy gone. Checkpoint checkpoint; scoped_refptr on_clear( new StrictMock); InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(checkpoint, Call(2)); EXPECT_CALL(checkpoint, Call(3)); EXPECT_CALL(*on_clear, Call()); EXPECT_CALL(*on_clear, Destruct()); EXPECT_CALL(checkpoint, Call(4)); checkpoint.Call(0); handle_.reset(new SharedMemoryDataConsumerHandle( kApplyBackpressure, base::Bind(&DestructionTrackingFunction::Call, on_clear), &writer_)); auto reader = handle_->ObtainReader(nullptr); handle_.reset(); on_clear = nullptr; checkpoint.Call(1); RunPostedTasks(); checkpoint.Call(2); reader.reset(); checkpoint.Call(3); RunPostedTasks(); checkpoint.Call(4); } TEST_P(SharedMemoryDataConsumerHandleTest, DoNotCallOnClearWhenDone) { Checkpoint checkpoint; scoped_refptr on_clear( new StrictMock); InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(*on_clear, Destruct()); EXPECT_CALL(checkpoint, Call(2)); EXPECT_CALL(checkpoint, Call(3)); EXPECT_CALL(checkpoint, Call(4)); checkpoint.Call(0); handle_.reset(new SharedMemoryDataConsumerHandle( kApplyBackpressure, base::Bind(&DestructionTrackingFunction::Call, on_clear), &writer_)); on_clear = nullptr; checkpoint.Call(1); writer_->Close(); checkpoint.Call(2); handle_.reset(); checkpoint.Call(3); RunPostedTasks(); checkpoint.Call(4); } TEST_P(SharedMemoryDataConsumerHandleTest, DoNotCallOnClearWhenErrored) { Checkpoint checkpoint; scoped_refptr on_clear( new StrictMock); InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(*on_clear, Destruct()); EXPECT_CALL(checkpoint, Call(2)); EXPECT_CALL(checkpoint, Call(3)); EXPECT_CALL(checkpoint, Call(4)); checkpoint.Call(0); handle_.reset(new SharedMemoryDataConsumerHandle( kApplyBackpressure, base::Bind(&DestructionTrackingFunction::Call, on_clear), &writer_)); on_clear = nullptr; checkpoint.Call(1); writer_->Fail(); checkpoint.Call(2); handle_.reset(); checkpoint.Call(3); RunPostedTasks(); checkpoint.Call(4); } TEST_P(SharedMemoryDataConsumerHandleTest, TwoPhaseReadWithMultipleData) { writer_->AddData(NewFixedData("Once ")); writer_->AddData(NewFixedData("upon ")); Result result; const void* buffer = &result; size_t size = 99; auto reader = handle_->ObtainReader(nullptr); result = reader->beginRead(&buffer, kNone, &size); EXPECT_EQ(kOk, result); EXPECT_EQ(5u, size); EXPECT_EQ("Once ", ToString(buffer, 5)); reader->endRead(1); result = reader->beginRead(&buffer, kNone, &size); EXPECT_EQ(kOk, result); EXPECT_EQ(4u, size); EXPECT_EQ("nce ", ToString(buffer, 4)); reader->endRead(4); result = reader->beginRead(&buffer, kNone, &size); EXPECT_EQ(kOk, result); EXPECT_EQ(5u, size); EXPECT_EQ("upon ", ToString(buffer, 5)); reader->endRead(5); result = reader->beginRead(&buffer, kNone, &size); EXPECT_EQ(kShouldWait, result); EXPECT_EQ(0u, size); EXPECT_EQ(nullptr, buffer); writer_->Close(); result = reader->beginRead(&buffer, kNone, &size); EXPECT_EQ(kDone, result); EXPECT_EQ(0u, size); EXPECT_EQ(nullptr, buffer); } TEST_P(SharedMemoryDataConsumerHandleTest, ErrorRead) { Checkpoint checkpoint; Result result; char buffer[20] = {}; size_t read = 99; auto reader = handle_->ObtainReader(nullptr); writer_->Fail(); result = reader->read(buffer, sizeof(buffer), kNone, &read); EXPECT_EQ(kUnexpectedError, result); EXPECT_EQ(0u, read); } TEST_P(SharedMemoryDataConsumerHandleTest, ErrorTwoPhaseRead) { Result result; const void* pointer = &result; size_t size = 99; auto reader = handle_->ObtainReader(nullptr); writer_->Fail(); result = reader->beginRead(&pointer, kNone, &size); EXPECT_EQ(kUnexpectedError, result); EXPECT_EQ(nullptr, pointer); EXPECT_EQ(0u, size); } TEST_P(SharedMemoryDataConsumerHandleTest, FailWhileTwoPhaseReadIsInProgress) { Result result; const void* pointer = nullptr; size_t size = 0; auto reader = handle_->ObtainReader(nullptr); writer_->AddData(NewFixedData("Once ")); result = reader->beginRead(&pointer, kNone, &size); auto buffer = static_cast(pointer); ASSERT_EQ(kOk, result); ASSERT_NE(nullptr, pointer); ASSERT_EQ(size, 5u); writer_->Fail(); // We can access the buffer after calling |Fail|. I hope ASAN will detect // an error if the region is already freed. EXPECT_EQ('O', buffer[0]); EXPECT_EQ('n', buffer[1]); EXPECT_EQ('c', buffer[2]); EXPECT_EQ('e', buffer[3]); EXPECT_EQ(' ', buffer[4]); EXPECT_EQ(kOk, reader->endRead(size)); EXPECT_EQ(kUnexpectedError, reader->beginRead(&pointer, kNone, &size)); } TEST_P(SharedMemoryDataConsumerHandleTest, FailWithClient) { Checkpoint checkpoint; InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(checkpoint, Call(2)); EXPECT_CALL(client_, didGetReadable()); EXPECT_CALL(checkpoint, Call(3)); checkpoint.Call(0); auto reader = handle_->ObtainReader(&client_); checkpoint.Call(1); writer_->Fail(); checkpoint.Call(2); RunPostedTasks(); checkpoint.Call(3); } TEST_P(SharedMemoryDataConsumerHandleTest, FailWithClientAndData) { Checkpoint checkpoint; InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(client_, didGetReadable()); EXPECT_CALL(checkpoint, Call(2)); EXPECT_CALL(checkpoint, Call(3)); EXPECT_CALL(client_, didGetReadable()); EXPECT_CALL(checkpoint, Call(4)); checkpoint.Call(0); auto reader = handle_->ObtainReader(&client_); checkpoint.Call(1); writer_->AddData(NewFixedData("Once ")); checkpoint.Call(2); writer_->Fail(); checkpoint.Call(3); RunPostedTasks(); checkpoint.Call(4); } TEST_P(SharedMemoryDataConsumerHandleTest, RecursiveErrorNotification) { Checkpoint checkpoint; InSequence s; EXPECT_CALL(checkpoint, Call(0)); EXPECT_CALL(checkpoint, Call(1)); EXPECT_CALL(client_, didGetReadable()) .WillOnce(Invoke(writer_.get(), &Writer::Fail)); EXPECT_CALL(checkpoint, Call(2)); EXPECT_CALL(client_, didGetReadable()); EXPECT_CALL(checkpoint, Call(3)); checkpoint.Call(0); auto reader = handle_->ObtainReader(&client_); checkpoint.Call(1); writer_->AddData(NewFixedData("Once ")); checkpoint.Call(2); RunPostedTasks(); checkpoint.Call(3); } TEST(SharedMemoryDataConsumerHandleBackpressureTest, Read) { base::MessageLoop loop; char buffer[20]; Result result; size_t size; scoped_ptr writer; auto handle = make_scoped_ptr( new SharedMemoryDataConsumerHandle(kApplyBackpressure, &writer)); scoped_refptr logger(new Logger); writer->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data1", "Once ", logger))); writer->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data2", "upon ", logger))); writer->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data3", "a ", logger))); writer->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data4", "time ", logger))); auto reader = handle->ObtainReader(nullptr); logger->Add("1"); result = reader->read(buffer, 2, kNone, &size); EXPECT_EQ(kOk, result); EXPECT_EQ(2u, size); logger->Add("2"); result = reader->read(buffer, 5, kNone, &size); EXPECT_EQ(kOk, result); EXPECT_EQ(5u, size); logger->Add("3"); result = reader->read(buffer, 6, kNone, &size); EXPECT_EQ(kOk, result); EXPECT_EQ(6u, size); logger->Add("4"); EXPECT_EQ( "1\n" "2\n" "data1 is destructed.\n" "3\n" "data2 is destructed.\n" "data3 is destructed.\n" "4\n", logger->log()); } TEST(SharedMemoryDataConsumerHandleBackpressureTest, CloseAndReset) { base::MessageLoop loop; char buffer[20]; Result result; size_t size; scoped_ptr writer; auto handle = make_scoped_ptr( new SharedMemoryDataConsumerHandle(kApplyBackpressure, &writer)); scoped_refptr logger(new Logger); writer->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data1", "Once ", logger))); writer->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data2", "upon ", logger))); writer->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data3", "a ", logger))); auto reader = handle->ObtainReader(nullptr); logger->Add("1"); result = reader->read(buffer, 2, kNone, &size); EXPECT_EQ(kOk, result); EXPECT_EQ(2u, size); logger->Add("2"); writer->Close(); logger->Add("3"); handle.reset(); reader.reset(); logger->Add("4"); EXPECT_EQ( "1\n" "2\n" "3\n" "data1 is destructed.\n" "data2 is destructed.\n" "data3 is destructed.\n" "4\n", logger->log()); } TEST(SharedMemoryDataConsumerHandleWithoutBackpressureTest, AddData) { base::MessageLoop loop; scoped_ptr writer; auto handle = make_scoped_ptr( new SharedMemoryDataConsumerHandle(kDoNotApplyBackpressure, &writer)); scoped_refptr logger(new Logger); logger->Add("1"); writer->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data1", "Once ", logger))); logger->Add("2"); writer->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data2", "upon ", logger))); logger->Add("3"); EXPECT_EQ( "1\n" "data1 is destructed.\n" "2\n" "data2 is destructed.\n" "3\n", logger->log()); } TEST_F(ThreadedSharedMemoryDataConsumerHandleTest, Read) { base::RunLoop run_loop; auto operation = make_scoped_ptr( new ReadDataOperation(handle_.Pass(), &loop_, run_loop.QuitClosure())); scoped_refptr logger(new Logger); base::Thread t("DataConsumerHandle test thread"); ASSERT_TRUE(t.Start()); t.message_loop()->PostTask(FROM_HERE, base::Bind(&ReadDataOperation::ReadData, base::Unretained(operation.get()))); logger->Add("1"); writer_->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data1", "Once ", logger))); writer_->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data2", "upon ", logger))); writer_->AddData(make_scoped_ptr( new LoggingFixedReceivedData("data3", "a time ", logger))); writer_->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data4", "there ", logger))); writer_->AddData( make_scoped_ptr(new LoggingFixedReceivedData("data5", "was ", logger))); writer_->Close(); logger->Add("2"); run_loop.Run(); t.Stop(); EXPECT_EQ("Once upon a time there was ", operation->result()); EXPECT_EQ( "1\n" "2\n" "data1 is destructed.\n" "data2 is destructed.\n" "data3 is destructed.\n" "data4 is destructed.\n" "data5 is destructed.\n", logger->log()); } INSTANTIATE_TEST_CASE_P(SharedMemoryDataConsumerHandleTest, SharedMemoryDataConsumerHandleTest, ::testing::Values(kApplyBackpressure, kDoNotApplyBackpressure)); } // namespace } // namespace content