// Copyright (c) 2012 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 "net/base/elements_upload_data_stream.h" #include #include #include "base/basictypes.h" #include "base/bind.h" #include "base/files/file_path.h" #include "base/files/file_util.h" #include "base/files/scoped_temp_dir.h" #include "base/memory/scoped_ptr.h" #include "base/message_loop/message_loop.h" #include "base/run_loop.h" #include "base/time/time.h" #include "net/base/io_buffer.h" #include "net/base/net_errors.h" #include "net/base/test_completion_callback.h" #include "net/base/upload_bytes_element_reader.h" #include "net/base/upload_data_stream.h" #include "net/base/upload_file_element_reader.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" #include "testing/platform_test.h" using ::testing::DoAll; using ::testing::Invoke; using ::testing::Return; using ::testing::_; namespace net { namespace { const char kTestData[] = "0123456789"; const size_t kTestDataSize = arraysize(kTestData) - 1; const size_t kTestBufferSize = 1 << 14; // 16KB. // Reads data from the upload data stream, and returns the data as string. std::string ReadFromUploadDataStream(UploadDataStream* stream) { std::string data_read; scoped_refptr buf = new IOBuffer(kTestBufferSize); while (!stream->IsEOF()) { TestCompletionCallback callback; const int result = stream->Read(buf.get(), kTestBufferSize, callback.callback()); const int bytes_read = result != ERR_IO_PENDING ? result : callback.WaitForResult(); data_read.append(buf->data(), bytes_read); } return data_read; } // A mock class of UploadElementReader. class MockUploadElementReader : public UploadElementReader { public: MockUploadElementReader(int content_length, bool is_in_memory) : content_length_(content_length), bytes_remaining_(content_length), is_in_memory_(is_in_memory), init_result_(OK), read_result_(OK) {} virtual ~MockUploadElementReader() {} // UploadElementReader overrides. MOCK_METHOD1(Init, int(const CompletionCallback& callback)); virtual uint64 GetContentLength() const override { return content_length_; } virtual uint64 BytesRemaining() const override { return bytes_remaining_; } virtual bool IsInMemory() const override { return is_in_memory_; } MOCK_METHOD3(Read, int(IOBuffer* buf, int buf_length, const CompletionCallback& callback)); // Sets expectation to return the specified result from Init() asynchronously. void SetAsyncInitExpectation(int result) { init_result_ = result; EXPECT_CALL(*this, Init(_)) .WillOnce(DoAll(Invoke(this, &MockUploadElementReader::OnInit), Return(ERR_IO_PENDING))); } // Sets expectation to return the specified result from Read(). void SetReadExpectation(int result) { read_result_ = result; EXPECT_CALL(*this, Read(_, _, _)) .WillOnce(Invoke(this, &MockUploadElementReader::OnRead)); } private: void OnInit(const CompletionCallback& callback) { base::MessageLoop::current()->PostTask(FROM_HERE, base::Bind(callback, init_result_)); } int OnRead(IOBuffer* buf, int buf_length, const CompletionCallback& callback) { if (read_result_ > 0) bytes_remaining_ = std::max(0, bytes_remaining_ - read_result_); if (IsInMemory()) { return read_result_; } else { base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(callback, read_result_)); return ERR_IO_PENDING; } } int content_length_; int bytes_remaining_; bool is_in_memory_; // Result value returned from Init(). int init_result_; // Result value returned from Read(). int read_result_; }; } // namespace class ElementsUploadDataStreamTest : public PlatformTest { public: void SetUp() override { PlatformTest::SetUp(); ASSERT_TRUE(temp_dir_.CreateUniqueTempDir()); } ~ElementsUploadDataStreamTest() override { element_readers_.clear(); base::RunLoop().RunUntilIdle(); } void FileChangedHelper(const base::FilePath& file_path, const base::Time& time, bool error_expected); base::ScopedTempDir temp_dir_; ScopedVector element_readers_; }; TEST_F(ElementsUploadDataStreamTest, EmptyUploadData) { scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); ASSERT_EQ(OK, stream->Init(CompletionCallback())); EXPECT_TRUE(stream->IsInMemory()); EXPECT_EQ(0U, stream->size()); EXPECT_EQ(0U, stream->position()); EXPECT_TRUE(stream->IsEOF()); } TEST_F(ElementsUploadDataStreamTest, ConsumeAllBytes) { element_readers_.push_back(new UploadBytesElementReader( kTestData, kTestDataSize)); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); ASSERT_EQ(OK, stream->Init(CompletionCallback())); EXPECT_TRUE(stream->IsInMemory()); EXPECT_EQ(kTestDataSize, stream->size()); EXPECT_EQ(0U, stream->position()); EXPECT_FALSE(stream->IsEOF()); scoped_refptr buf = new IOBuffer(kTestBufferSize); while (!stream->IsEOF()) { int bytes_read = stream->Read(buf.get(), kTestBufferSize, CompletionCallback()); ASSERT_LE(0, bytes_read); // Not an error. } EXPECT_EQ(kTestDataSize, stream->position()); ASSERT_TRUE(stream->IsEOF()); } TEST_F(ElementsUploadDataStreamTest, File) { base::FilePath temp_file_path; ASSERT_TRUE(base::CreateTemporaryFileInDir(temp_dir_.path(), &temp_file_path)); ASSERT_EQ(static_cast(kTestDataSize), base::WriteFile(temp_file_path, kTestData, kTestDataSize)); element_readers_.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), temp_file_path, 0, kuint64max, base::Time())); TestCompletionCallback init_callback; scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); ASSERT_EQ(ERR_IO_PENDING, stream->Init(init_callback.callback())); ASSERT_EQ(OK, init_callback.WaitForResult()); EXPECT_FALSE(stream->IsInMemory()); EXPECT_EQ(kTestDataSize, stream->size()); EXPECT_EQ(0U, stream->position()); EXPECT_FALSE(stream->IsEOF()); scoped_refptr buf = new IOBuffer(kTestBufferSize); while (!stream->IsEOF()) { TestCompletionCallback read_callback; ASSERT_EQ( ERR_IO_PENDING, stream->Read(buf.get(), kTestBufferSize, read_callback.callback())); ASSERT_LE(0, read_callback.WaitForResult()); // Not an error. } EXPECT_EQ(kTestDataSize, stream->position()); ASSERT_TRUE(stream->IsEOF()); } TEST_F(ElementsUploadDataStreamTest, FileSmallerThanLength) { base::FilePath temp_file_path; ASSERT_TRUE(base::CreateTemporaryFileInDir(temp_dir_.path(), &temp_file_path)); ASSERT_EQ(static_cast(kTestDataSize), base::WriteFile(temp_file_path, kTestData, kTestDataSize)); const uint64 kFakeSize = kTestDataSize*2; UploadFileElementReader::ScopedOverridingContentLengthForTests overriding_content_length(kFakeSize); element_readers_.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), temp_file_path, 0, kuint64max, base::Time())); TestCompletionCallback init_callback; scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); ASSERT_EQ(ERR_IO_PENDING, stream->Init(init_callback.callback())); ASSERT_EQ(OK, init_callback.WaitForResult()); EXPECT_FALSE(stream->IsInMemory()); EXPECT_EQ(kFakeSize, stream->size()); EXPECT_EQ(0U, stream->position()); EXPECT_FALSE(stream->IsEOF()); uint64 read_counter = 0; scoped_refptr buf = new IOBuffer(kTestBufferSize); while (!stream->IsEOF()) { TestCompletionCallback read_callback; ASSERT_EQ( ERR_IO_PENDING, stream->Read(buf.get(), kTestBufferSize, read_callback.callback())); int bytes_read = read_callback.WaitForResult(); ASSERT_LE(0, bytes_read); // Not an error. read_counter += bytes_read; EXPECT_EQ(read_counter, stream->position()); } // UpdateDataStream will pad out the file with 0 bytes so that the HTTP // transaction doesn't hang. Therefore we expected the full size. EXPECT_EQ(kFakeSize, read_counter); EXPECT_EQ(read_counter, stream->position()); } TEST_F(ElementsUploadDataStreamTest, ReadErrorSync) { // This element cannot be read. MockUploadElementReader* reader = new MockUploadElementReader(kTestDataSize, true); EXPECT_CALL(*reader, Init(_)).WillOnce(Return(OK)); reader->SetReadExpectation(ERR_FAILED); element_readers_.push_back(reader); // This element is ignored because of the error from the previous reader. element_readers_.push_back(new UploadBytesElementReader( kTestData, kTestDataSize)); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); // Run Init(). ASSERT_EQ(OK, stream->Init(CompletionCallback())); EXPECT_EQ(kTestDataSize*2, stream->size()); EXPECT_EQ(0U, stream->position()); EXPECT_FALSE(stream->IsEOF()); // Prepare a buffer filled with non-zero data. scoped_refptr buf = new IOBuffer(kTestBufferSize); std::fill_n(buf->data(), kTestBufferSize, -1); // Read() results in success even when the reader returns error. EXPECT_EQ(static_cast(kTestDataSize * 2), stream->Read(buf.get(), kTestBufferSize, CompletionCallback())); EXPECT_EQ(kTestDataSize * 2, stream->position()); EXPECT_TRUE(stream->IsEOF()); // The buffer is filled with zero. EXPECT_EQ(static_cast(kTestDataSize*2), std::count(buf->data(), buf->data() + kTestBufferSize, 0)); } TEST_F(ElementsUploadDataStreamTest, ReadErrorAsync) { // This element cannot be read. MockUploadElementReader* reader = new MockUploadElementReader(kTestDataSize, false); reader->SetAsyncInitExpectation(OK); reader->SetReadExpectation(ERR_FAILED); element_readers_.push_back(reader); // This element is ignored because of the error from the previous reader. element_readers_.push_back(new UploadBytesElementReader( kTestData, kTestDataSize)); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); // Run Init(). TestCompletionCallback init_callback; ASSERT_EQ(ERR_IO_PENDING, stream->Init(init_callback.callback())); EXPECT_EQ(OK, init_callback.WaitForResult()); EXPECT_EQ(kTestDataSize*2, stream->size()); EXPECT_EQ(0U, stream->position()); EXPECT_FALSE(stream->IsEOF()); // Prepare a buffer filled with non-zero data. scoped_refptr buf = new IOBuffer(kTestBufferSize); std::fill_n(buf->data(), kTestBufferSize, -1); // Read() results in success even when the reader returns error. TestCompletionCallback read_callback; ASSERT_EQ(ERR_IO_PENDING, stream->Read(buf.get(), kTestBufferSize, read_callback.callback())); EXPECT_EQ(static_cast(kTestDataSize * 2), read_callback.WaitForResult()); EXPECT_EQ(kTestDataSize*2, stream->position()); EXPECT_TRUE(stream->IsEOF()); // The buffer is filled with zero. EXPECT_EQ(static_cast(kTestDataSize*2), std::count(buf->data(), buf->data() + kTestBufferSize, 0)); } TEST_F(ElementsUploadDataStreamTest, FileAndBytes) { base::FilePath temp_file_path; ASSERT_TRUE(base::CreateTemporaryFileInDir(temp_dir_.path(), &temp_file_path)); ASSERT_EQ(static_cast(kTestDataSize), base::WriteFile(temp_file_path, kTestData, kTestDataSize)); const uint64 kFileRangeOffset = 1; const uint64 kFileRangeLength = 4; element_readers_.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), temp_file_path, kFileRangeOffset, kFileRangeLength, base::Time())); element_readers_.push_back(new UploadBytesElementReader( kTestData, kTestDataSize)); const uint64 kStreamSize = kTestDataSize + kFileRangeLength; TestCompletionCallback init_callback; scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); ASSERT_EQ(ERR_IO_PENDING, stream->Init(init_callback.callback())); ASSERT_EQ(OK, init_callback.WaitForResult()); EXPECT_FALSE(stream->IsInMemory()); EXPECT_EQ(kStreamSize, stream->size()); EXPECT_EQ(0U, stream->position()); EXPECT_FALSE(stream->IsEOF()); scoped_refptr buf = new IOBuffer(kTestBufferSize); while (!stream->IsEOF()) { TestCompletionCallback read_callback; const int result = stream->Read(buf.get(), kTestBufferSize, read_callback.callback()); const int bytes_read = result != ERR_IO_PENDING ? result : read_callback.WaitForResult(); ASSERT_LE(0, bytes_read); // Not an error. } EXPECT_EQ(kStreamSize, stream->position()); ASSERT_TRUE(stream->IsEOF()); } // Init() with on-memory and not-on-memory readers. TEST_F(ElementsUploadDataStreamTest, InitAsync) { // Create UploadDataStream with mock readers. MockUploadElementReader* reader = NULL; reader = new MockUploadElementReader(kTestDataSize, true); EXPECT_CALL(*reader, Init(_)).WillOnce(Return(OK)); element_readers_.push_back(reader); reader = new MockUploadElementReader(kTestDataSize, true); EXPECT_CALL(*reader, Init(_)).WillOnce(Return(OK)); element_readers_.push_back(reader); reader = new MockUploadElementReader(kTestDataSize, false); reader->SetAsyncInitExpectation(OK); element_readers_.push_back(reader); reader = new MockUploadElementReader(kTestDataSize, false); reader->SetAsyncInitExpectation(OK); element_readers_.push_back(reader); reader = new MockUploadElementReader(kTestDataSize, true); EXPECT_CALL(*reader, Init(_)).WillOnce(Return(OK)); element_readers_.push_back(reader); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); // Run Init(). TestCompletionCallback callback; ASSERT_EQ(ERR_IO_PENDING, stream->Init(callback.callback())); EXPECT_EQ(OK, callback.WaitForResult()); } // Init() of a reader fails asynchronously. TEST_F(ElementsUploadDataStreamTest, InitAsyncFailureAsync) { // Create UploadDataStream with a mock reader. MockUploadElementReader* reader = NULL; reader = new MockUploadElementReader(kTestDataSize, false); reader->SetAsyncInitExpectation(ERR_FAILED); element_readers_.push_back(reader); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); // Run Init(). TestCompletionCallback callback; ASSERT_EQ(ERR_IO_PENDING, stream->Init(callback.callback())); EXPECT_EQ(ERR_FAILED, callback.WaitForResult()); } // Init() of a reader fails synchronously. TEST_F(ElementsUploadDataStreamTest, InitAsyncFailureSync) { // Create UploadDataStream with mock readers. MockUploadElementReader* reader = NULL; reader = new MockUploadElementReader(kTestDataSize, false); reader->SetAsyncInitExpectation(OK); element_readers_.push_back(reader); reader = new MockUploadElementReader(kTestDataSize, true); EXPECT_CALL(*reader, Init(_)).WillOnce(Return(ERR_FAILED)); element_readers_.push_back(reader); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); // Run Init(). TestCompletionCallback callback; ASSERT_EQ(ERR_IO_PENDING, stream->Init(callback.callback())); EXPECT_EQ(ERR_FAILED, callback.WaitForResult()); } // Read with a buffer whose size is same as the data. TEST_F(ElementsUploadDataStreamTest, ReadAsyncWithExactSizeBuffer) { element_readers_.push_back(new UploadBytesElementReader( kTestData, kTestDataSize)); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); ASSERT_EQ(OK, stream->Init(CompletionCallback())); EXPECT_TRUE(stream->IsInMemory()); EXPECT_EQ(kTestDataSize, stream->size()); EXPECT_EQ(0U, stream->position()); EXPECT_FALSE(stream->IsEOF()); scoped_refptr buf = new IOBuffer(kTestDataSize); int bytes_read = stream->Read(buf.get(), kTestDataSize, CompletionCallback()); ASSERT_EQ(static_cast(kTestDataSize), bytes_read); // Not an error. EXPECT_EQ(kTestDataSize, stream->position()); ASSERT_TRUE(stream->IsEOF()); } // Async Read() with on-memory and not-on-memory readers. TEST_F(ElementsUploadDataStreamTest, ReadAsync) { // Create UploadDataStream with mock readers. MockUploadElementReader* reader = NULL; reader = new MockUploadElementReader(kTestDataSize, true); EXPECT_CALL(*reader, Init(_)).WillOnce(Return(OK)); reader->SetReadExpectation(kTestDataSize); element_readers_.push_back(reader); reader = new MockUploadElementReader(kTestDataSize, false); reader->SetAsyncInitExpectation(OK); reader->SetReadExpectation(kTestDataSize); element_readers_.push_back(reader); reader = new MockUploadElementReader(kTestDataSize, true); EXPECT_CALL(*reader, Init(_)).WillOnce(Return(OK)); reader->SetReadExpectation(kTestDataSize); element_readers_.push_back(reader); reader = new MockUploadElementReader(kTestDataSize, false); reader->SetAsyncInitExpectation(OK); reader->SetReadExpectation(kTestDataSize); element_readers_.push_back(reader); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); // Run Init(). TestCompletionCallback init_callback; EXPECT_EQ(ERR_IO_PENDING, stream->Init(init_callback.callback())); EXPECT_EQ(OK, init_callback.WaitForResult()); scoped_refptr buf = new IOBuffer(kTestBufferSize); // Consume the first element. TestCompletionCallback read_callback1; EXPECT_EQ(static_cast(kTestDataSize), stream->Read(buf.get(), kTestDataSize, read_callback1.callback())); base::MessageLoop::current()->RunUntilIdle(); EXPECT_FALSE(read_callback1.have_result()); // Consume the second element. TestCompletionCallback read_callback2; ASSERT_EQ(ERR_IO_PENDING, stream->Read(buf.get(), kTestDataSize, read_callback2.callback())); EXPECT_EQ(static_cast(kTestDataSize), read_callback2.WaitForResult()); // Consume the third and the fourth elements. TestCompletionCallback read_callback3; ASSERT_EQ( ERR_IO_PENDING, stream->Read(buf.get(), kTestDataSize * 2, read_callback3.callback())); EXPECT_EQ(static_cast(kTestDataSize * 2), read_callback3.WaitForResult()); } void ElementsUploadDataStreamTest::FileChangedHelper( const base::FilePath& file_path, const base::Time& time, bool error_expected) { // Don't use element_readers_ here, as this function is called twice, and // reusing element_readers_ is wrong. ScopedVector element_readers; element_readers.push_back(new UploadFileElementReader( base::MessageLoopProxy::current().get(), file_path, 1, 2, time)); TestCompletionCallback init_callback; scoped_ptr stream( new ElementsUploadDataStream(element_readers.Pass(), 0)); ASSERT_EQ(ERR_IO_PENDING, stream->Init(init_callback.callback())); int error_code = init_callback.WaitForResult(); if (error_expected) ASSERT_EQ(ERR_UPLOAD_FILE_CHANGED, error_code); else ASSERT_EQ(OK, error_code); } TEST_F(ElementsUploadDataStreamTest, FileChanged) { base::FilePath temp_file_path; ASSERT_TRUE(base::CreateTemporaryFileInDir(temp_dir_.path(), &temp_file_path)); ASSERT_EQ(static_cast(kTestDataSize), base::WriteFile(temp_file_path, kTestData, kTestDataSize)); base::File::Info file_info; ASSERT_TRUE(base::GetFileInfo(temp_file_path, &file_info)); // Test file not changed. FileChangedHelper(temp_file_path, file_info.last_modified, false); // Test file changed. FileChangedHelper(temp_file_path, file_info.last_modified - base::TimeDelta::FromSeconds(1), true); } TEST_F(ElementsUploadDataStreamTest, MultipleInit) { base::FilePath temp_file_path; ASSERT_TRUE(base::CreateTemporaryFileInDir(temp_dir_.path(), &temp_file_path)); ASSERT_EQ(static_cast(kTestDataSize), base::WriteFile(temp_file_path, kTestData, kTestDataSize)); // Prepare data. element_readers_.push_back(new UploadBytesElementReader( kTestData, kTestDataSize)); element_readers_.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), temp_file_path, 0, kuint64max, base::Time())); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); std::string expected_data(kTestData, kTestData + kTestDataSize); expected_data += expected_data; // Call Init(). TestCompletionCallback init_callback1; ASSERT_EQ(ERR_IO_PENDING, stream->Init(init_callback1.callback())); ASSERT_EQ(OK, init_callback1.WaitForResult()); EXPECT_FALSE(stream->IsEOF()); EXPECT_EQ(kTestDataSize*2, stream->size()); // Read. EXPECT_EQ(expected_data, ReadFromUploadDataStream(stream.get())); EXPECT_TRUE(stream->IsEOF()); // Call Init() again to reset. TestCompletionCallback init_callback2; ASSERT_EQ(ERR_IO_PENDING, stream->Init(init_callback2.callback())); ASSERT_EQ(OK, init_callback2.WaitForResult()); EXPECT_FALSE(stream->IsEOF()); EXPECT_EQ(kTestDataSize*2, stream->size()); // Read again. EXPECT_EQ(expected_data, ReadFromUploadDataStream(stream.get())); EXPECT_TRUE(stream->IsEOF()); } TEST_F(ElementsUploadDataStreamTest, MultipleInitAsync) { base::FilePath temp_file_path; ASSERT_TRUE(base::CreateTemporaryFileInDir(temp_dir_.path(), &temp_file_path)); ASSERT_EQ(static_cast(kTestDataSize), base::WriteFile(temp_file_path, kTestData, kTestDataSize)); TestCompletionCallback test_callback; // Prepare data. element_readers_.push_back(new UploadBytesElementReader( kTestData, kTestDataSize)); element_readers_.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), temp_file_path, 0, kuint64max, base::Time())); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); std::string expected_data(kTestData, kTestData + kTestDataSize); expected_data += expected_data; // Call Init(). ASSERT_EQ(ERR_IO_PENDING, stream->Init(test_callback.callback())); EXPECT_EQ(OK, test_callback.WaitForResult()); EXPECT_FALSE(stream->IsEOF()); EXPECT_EQ(kTestDataSize*2, stream->size()); // Read. EXPECT_EQ(expected_data, ReadFromUploadDataStream(stream.get())); EXPECT_TRUE(stream->IsEOF()); // Call Init() again to reset. ASSERT_EQ(ERR_IO_PENDING, stream->Init(test_callback.callback())); EXPECT_EQ(OK, test_callback.WaitForResult()); EXPECT_FALSE(stream->IsEOF()); EXPECT_EQ(kTestDataSize*2, stream->size()); // Read again. EXPECT_EQ(expected_data, ReadFromUploadDataStream(stream.get())); EXPECT_TRUE(stream->IsEOF()); } TEST_F(ElementsUploadDataStreamTest, InitToReset) { base::FilePath temp_file_path; ASSERT_TRUE(base::CreateTemporaryFileInDir(temp_dir_.path(), &temp_file_path)); ASSERT_EQ(static_cast(kTestDataSize), base::WriteFile(temp_file_path, kTestData, kTestDataSize)); // Prepare data. element_readers_.push_back(new UploadBytesElementReader( kTestData, kTestDataSize)); element_readers_.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), temp_file_path, 0, kuint64max, base::Time())); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); std::vector expected_data(kTestData, kTestData + kTestDataSize); expected_data.insert(expected_data.end(), kTestData, kTestData + kTestDataSize); // Call Init(). TestCompletionCallback init_callback1; ASSERT_EQ(ERR_IO_PENDING, stream->Init(init_callback1.callback())); EXPECT_EQ(OK, init_callback1.WaitForResult()); EXPECT_FALSE(stream->IsEOF()); EXPECT_EQ(kTestDataSize*2, stream->size()); // Read some. TestCompletionCallback read_callback1; std::vector buf(kTestDataSize + kTestDataSize/2); scoped_refptr wrapped_buffer = new WrappedIOBuffer(&buf[0]); EXPECT_EQ( ERR_IO_PENDING, stream->Read(wrapped_buffer.get(), buf.size(), read_callback1.callback())); EXPECT_EQ(static_cast(buf.size()), read_callback1.WaitForResult()); EXPECT_EQ(buf.size(), stream->position()); // Call Init to reset the state. TestCompletionCallback init_callback2; ASSERT_EQ(ERR_IO_PENDING, stream->Init(init_callback2.callback())); EXPECT_EQ(OK, init_callback2.WaitForResult()); EXPECT_FALSE(stream->IsEOF()); EXPECT_EQ(kTestDataSize*2, stream->size()); // Read. TestCompletionCallback read_callback2; std::vector buf2(kTestDataSize*2); scoped_refptr wrapped_buffer2 = new WrappedIOBuffer(&buf2[0]); EXPECT_EQ(ERR_IO_PENDING, stream->Read( wrapped_buffer2.get(), buf2.size(), read_callback2.callback())); EXPECT_EQ(static_cast(buf2.size()), read_callback2.WaitForResult()); EXPECT_EQ(expected_data, buf2); } TEST_F(ElementsUploadDataStreamTest, InitDuringAsyncInit) { base::FilePath temp_file_path; ASSERT_TRUE(base::CreateTemporaryFileInDir(temp_dir_.path(), &temp_file_path)); ASSERT_EQ(static_cast(kTestDataSize), base::WriteFile(temp_file_path, kTestData, kTestDataSize)); // Prepare data. element_readers_.push_back(new UploadBytesElementReader( kTestData, kTestDataSize)); element_readers_.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), temp_file_path, 0, kuint64max, base::Time())); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); std::vector expected_data(kTestData, kTestData + kTestDataSize); expected_data.insert(expected_data.end(), kTestData, kTestData + kTestDataSize); // Start Init. TestCompletionCallback init_callback1; EXPECT_EQ(ERR_IO_PENDING, stream->Init(init_callback1.callback())); // Call Init again to cancel the previous init. TestCompletionCallback init_callback2; EXPECT_EQ(ERR_IO_PENDING, stream->Init(init_callback2.callback())); EXPECT_EQ(OK, init_callback2.WaitForResult()); EXPECT_FALSE(stream->IsEOF()); EXPECT_EQ(kTestDataSize*2, stream->size()); // Read. TestCompletionCallback read_callback2; std::vector buf2(kTestDataSize*2); scoped_refptr wrapped_buffer2 = new WrappedIOBuffer(&buf2[0]); EXPECT_EQ(ERR_IO_PENDING, stream->Read( wrapped_buffer2.get(), buf2.size(), read_callback2.callback())); EXPECT_EQ(static_cast(buf2.size()), read_callback2.WaitForResult()); EXPECT_EQ(expected_data, buf2); EXPECT_TRUE(stream->IsEOF()); // Make sure callbacks are not called for cancelled operations. EXPECT_FALSE(init_callback1.have_result()); } TEST_F(ElementsUploadDataStreamTest, InitDuringAsyncRead) { base::FilePath temp_file_path; ASSERT_TRUE(base::CreateTemporaryFileInDir(temp_dir_.path(), &temp_file_path)); ASSERT_EQ(static_cast(kTestDataSize), base::WriteFile(temp_file_path, kTestData, kTestDataSize)); // Prepare data. element_readers_.push_back(new UploadBytesElementReader( kTestData, kTestDataSize)); element_readers_.push_back( new UploadFileElementReader(base::MessageLoopProxy::current().get(), temp_file_path, 0, kuint64max, base::Time())); scoped_ptr stream( new ElementsUploadDataStream(element_readers_.Pass(), 0)); std::vector expected_data(kTestData, kTestData + kTestDataSize); expected_data.insert(expected_data.end(), kTestData, kTestData + kTestDataSize); // Call Init(). TestCompletionCallback init_callback1; ASSERT_EQ(ERR_IO_PENDING, stream->Init(init_callback1.callback())); EXPECT_EQ(OK, init_callback1.WaitForResult()); EXPECT_FALSE(stream->IsEOF()); EXPECT_EQ(kTestDataSize*2, stream->size()); // Start reading. TestCompletionCallback read_callback1; std::vector buf(kTestDataSize*2); scoped_refptr wrapped_buffer = new WrappedIOBuffer(&buf[0]); EXPECT_EQ( ERR_IO_PENDING, stream->Read(wrapped_buffer.get(), buf.size(), read_callback1.callback())); // Call Init to cancel the previous read. TestCompletionCallback init_callback2; EXPECT_EQ(ERR_IO_PENDING, stream->Init(init_callback2.callback())); EXPECT_EQ(OK, init_callback2.WaitForResult()); EXPECT_FALSE(stream->IsEOF()); EXPECT_EQ(kTestDataSize*2, stream->size()); // Read. TestCompletionCallback read_callback2; std::vector buf2(kTestDataSize*2); scoped_refptr wrapped_buffer2 = new WrappedIOBuffer(&buf2[0]); EXPECT_EQ(ERR_IO_PENDING, stream->Read( wrapped_buffer2.get(), buf2.size(), read_callback2.callback())); EXPECT_EQ(static_cast(buf2.size()), read_callback2.WaitForResult()); EXPECT_EQ(expected_data, buf2); EXPECT_TRUE(stream->IsEOF()); // Make sure callbacks are not called for cancelled operations. EXPECT_FALSE(read_callback1.have_result()); } } // namespace net