// Copyright 2015 The Chromium OS 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using testing::InSequence; using testing::Return; using testing::ReturnArg; using testing::SaveArg; using testing::SetErrnoAndReturn; using testing::_; namespace brillo { namespace { // gmock action that would return a blocking situation from a read() or write(). ACTION(ReturnWouldBlock) { errno = EWOULDBLOCK; return -1; } // Helper function to read one byte from the stream. inline int ReadByte(Stream* stream) { uint8_t byte = 0; return stream->ReadAllBlocking(&byte, sizeof(byte), nullptr) ? byte : -1; } // Helper function to write one byte from the stream. inline bool WriteByte(Stream* stream, uint8_t byte) { return stream->WriteAllBlocking(&byte, sizeof(byte), nullptr); } // Helper function to test file stream workflow on newly created file. void TestCreateFile(Stream* stream) { ASSERT_TRUE(stream->IsOpen()); // Set up a sample data buffer. std::vector in_buffer(256); std::iota(in_buffer.begin(), in_buffer.end(), 0); // Initial assumptions about empty file stream. EXPECT_TRUE(stream->CanRead()); EXPECT_TRUE(stream->CanWrite()); EXPECT_TRUE(stream->CanSeek()); EXPECT_TRUE(stream->CanGetSize()); EXPECT_EQ(0, stream->GetPosition()); EXPECT_EQ(0, stream->GetSize()); // Write sample data. EXPECT_TRUE(stream->WriteAllBlocking(in_buffer.data(), in_buffer.size(), nullptr)); EXPECT_EQ(in_buffer.size(), stream->GetPosition()); EXPECT_EQ(in_buffer.size(), stream->GetSize()); // Rewind the stream to the beginning. uint64_t pos = 0; EXPECT_TRUE(stream->Seek(0, Stream::Whence::FROM_BEGIN, &pos, nullptr)); EXPECT_EQ(0, pos); EXPECT_EQ(0, stream->GetPosition()); EXPECT_EQ(in_buffer.size(), stream->GetSize()); // Read the file contents back. std::vector out_buffer(256); EXPECT_TRUE(stream->ReadAllBlocking(out_buffer.data(), out_buffer.size(), nullptr)); EXPECT_EQ(out_buffer.size(), stream->GetPosition()); EXPECT_EQ(out_buffer.size(), stream->GetSize()); // Make sure the data read matches those written. EXPECT_EQ(in_buffer, out_buffer); // Random read/write EXPECT_TRUE(stream->Seek(10, Stream::Whence::FROM_BEGIN, &pos, nullptr)); EXPECT_EQ(10, pos); // Since our data buffer contained values from 0 to 255, the byte at position // 10 will contain the value of 10. EXPECT_EQ(10, ReadByte(stream)); EXPECT_EQ(11, ReadByte(stream)); EXPECT_EQ(12, ReadByte(stream)); EXPECT_TRUE(stream->Seek(7, Stream::Whence::FROM_CURRENT, nullptr, nullptr)); EXPECT_EQ(20, ReadByte(stream)); EXPECT_EQ(21, stream->GetPosition()); EXPECT_TRUE(stream->Seek(-2, Stream::Whence::FROM_CURRENT, &pos, nullptr)); EXPECT_EQ(19, pos); EXPECT_TRUE(WriteByte(stream, 100)); EXPECT_EQ(20, ReadByte(stream)); EXPECT_TRUE(stream->Seek(-2, Stream::Whence::FROM_CURRENT, nullptr, nullptr)); EXPECT_EQ(100, ReadByte(stream)); EXPECT_EQ(20, ReadByte(stream)); EXPECT_TRUE(stream->Seek(-1, Stream::Whence::FROM_END, &pos, nullptr)); EXPECT_EQ(255, pos); EXPECT_EQ(255, ReadByte(stream)); EXPECT_EQ(-1, ReadByte(stream)); } } // anonymous namespace // A mock file descriptor wrapper to test low-level file API used by FileStream. class MockFileDescriptor : public FileStream::FileDescriptorInterface { public: MOCK_CONST_METHOD0(IsOpen, bool()); MOCK_METHOD2(Read, ssize_t(void*, size_t)); MOCK_METHOD2(Write, ssize_t(const void*, size_t)); MOCK_METHOD2(Seek, off64_t(off64_t, int)); MOCK_CONST_METHOD0(GetFileMode, mode_t()); MOCK_CONST_METHOD0(GetSize, uint64_t()); MOCK_CONST_METHOD1(Truncate, int(off64_t)); MOCK_METHOD0(Flush, int()); MOCK_METHOD0(Close, int()); MOCK_METHOD3(WaitForData, bool(Stream::AccessMode, const DataCallback&, ErrorPtr*)); MOCK_METHOD3(WaitForDataBlocking, int(Stream::AccessMode, base::TimeDelta, Stream::AccessMode*)); MOCK_METHOD0(CancelPendingAsyncOperations, void()); }; class FileStreamTest : public testing::Test { public: void SetUp() override { CreateStream(S_IFREG, Stream::AccessMode::READ_WRITE); } MockFileDescriptor& fd_mock() { return *static_cast(stream_->fd_interface_.get()); } void CreateStream(mode_t file_mode, Stream::AccessMode access_mode) { std::unique_ptr fd{new MockFileDescriptor{}}; EXPECT_CALL(*fd, GetFileMode()).WillOnce(Return(file_mode)); stream_.reset(new FileStream(std::move(fd), access_mode)); EXPECT_CALL(fd_mock(), IsOpen()).WillRepeatedly(Return(true)); } void ExpectStreamClosed(const ErrorPtr& error) const { EXPECT_EQ(errors::stream::kDomain, error->GetDomain()); EXPECT_EQ(errors::stream::kStreamClosed, error->GetCode()); EXPECT_EQ("Stream is closed", error->GetMessage()); } void ExpectStreamOffsetTooLarge(const ErrorPtr& error) const { EXPECT_EQ(errors::stream::kDomain, error->GetDomain()); EXPECT_EQ(errors::stream::kInvalidParameter, error->GetCode()); EXPECT_EQ("The stream offset value is out of range", error->GetMessage()); } inline static char* IntToPtr(int addr) { return reinterpret_cast(addr); } inline static const char* IntToConstPtr(int addr) { return reinterpret_cast(addr); } bool CallWaitForData(Stream::AccessMode mode, ErrorPtr* error) { return stream_->WaitForData(mode, {}, error); } std::unique_ptr stream_; const uint64_t kMaxSize = std::numeric_limits::max(); const uint64_t kTooLargeSize = std::numeric_limits::max(); // Dummy buffer pointer values to make sure that input pointer values // are delegated to the file interface without a change. char* const test_read_buffer_ = IntToPtr(12345); const char* const test_write_buffer_ = IntToConstPtr(67890); }; TEST_F(FileStreamTest, IsOpen) { EXPECT_TRUE(stream_->IsOpen()); EXPECT_CALL(fd_mock(), IsOpen()).WillOnce(Return(false)); EXPECT_FALSE(stream_->IsOpen()); } TEST_F(FileStreamTest, CanRead) { CreateStream(S_IFREG, Stream::AccessMode::READ_WRITE); EXPECT_TRUE(stream_->CanRead()); EXPECT_CALL(fd_mock(), IsOpen()).WillRepeatedly(Return(false)); EXPECT_FALSE(stream_->CanRead()); CreateStream(S_IFREG, Stream::AccessMode::READ); EXPECT_TRUE(stream_->CanRead()); CreateStream(S_IFREG, Stream::AccessMode::WRITE); EXPECT_FALSE(stream_->CanRead()); } TEST_F(FileStreamTest, CanWrite) { CreateStream(S_IFREG, Stream::AccessMode::READ_WRITE); EXPECT_TRUE(stream_->CanWrite()); EXPECT_CALL(fd_mock(), IsOpen()).WillRepeatedly(Return(false)); EXPECT_FALSE(stream_->CanWrite()); CreateStream(S_IFREG, Stream::AccessMode::READ); EXPECT_FALSE(stream_->CanWrite()); CreateStream(S_IFREG, Stream::AccessMode::WRITE); EXPECT_TRUE(stream_->CanWrite()); } TEST_F(FileStreamTest, CanSeek) { CreateStream(S_IFBLK, Stream::AccessMode::READ_WRITE); EXPECT_TRUE(stream_->CanSeek()); CreateStream(S_IFDIR, Stream::AccessMode::READ_WRITE); EXPECT_TRUE(stream_->CanSeek()); CreateStream(S_IFREG, Stream::AccessMode::READ_WRITE); EXPECT_TRUE(stream_->CanSeek()); CreateStream(S_IFLNK, Stream::AccessMode::READ_WRITE); EXPECT_TRUE(stream_->CanSeek()); CreateStream(S_IFCHR, Stream::AccessMode::READ_WRITE); EXPECT_FALSE(stream_->CanSeek()); CreateStream(S_IFSOCK, Stream::AccessMode::READ_WRITE); EXPECT_FALSE(stream_->CanSeek()); CreateStream(S_IFIFO, Stream::AccessMode::READ_WRITE); EXPECT_FALSE(stream_->CanSeek()); CreateStream(S_IFREG, Stream::AccessMode::READ); EXPECT_TRUE(stream_->CanSeek()); CreateStream(S_IFREG, Stream::AccessMode::WRITE); EXPECT_TRUE(stream_->CanSeek()); } TEST_F(FileStreamTest, CanGetSize) { CreateStream(S_IFBLK, Stream::AccessMode::READ_WRITE); EXPECT_TRUE(stream_->CanGetSize()); CreateStream(S_IFDIR, Stream::AccessMode::READ_WRITE); EXPECT_TRUE(stream_->CanGetSize()); CreateStream(S_IFREG, Stream::AccessMode::READ_WRITE); EXPECT_TRUE(stream_->CanGetSize()); CreateStream(S_IFLNK, Stream::AccessMode::READ_WRITE); EXPECT_TRUE(stream_->CanGetSize()); CreateStream(S_IFCHR, Stream::AccessMode::READ_WRITE); EXPECT_FALSE(stream_->CanGetSize()); CreateStream(S_IFSOCK, Stream::AccessMode::READ_WRITE); EXPECT_FALSE(stream_->CanGetSize()); CreateStream(S_IFIFO, Stream::AccessMode::READ_WRITE); EXPECT_FALSE(stream_->CanGetSize()); CreateStream(S_IFREG, Stream::AccessMode::READ); EXPECT_TRUE(stream_->CanGetSize()); CreateStream(S_IFREG, Stream::AccessMode::WRITE); EXPECT_TRUE(stream_->CanGetSize()); } TEST_F(FileStreamTest, GetSize) { EXPECT_CALL(fd_mock(), GetSize()).WillRepeatedly(Return(12345)); EXPECT_EQ(12345u, stream_->GetSize()); EXPECT_CALL(fd_mock(), IsOpen()).WillOnce(Return(false)); EXPECT_EQ(0u, stream_->GetSize()); } TEST_F(FileStreamTest, SetSizeBlocking) { EXPECT_CALL(fd_mock(), Truncate(0)).WillOnce(Return(0)); EXPECT_TRUE(stream_->SetSizeBlocking(0, nullptr)); EXPECT_CALL(fd_mock(), Truncate(123)).WillOnce(Return(0)); EXPECT_TRUE(stream_->SetSizeBlocking(123, nullptr)); EXPECT_CALL(fd_mock(), Truncate(kMaxSize)).WillOnce(Return(0)); EXPECT_TRUE(stream_->SetSizeBlocking(kMaxSize, nullptr)); } TEST_F(FileStreamTest, SetSizeBlocking_Fail) { brillo::ErrorPtr error; EXPECT_CALL(fd_mock(), Truncate(1235)).WillOnce(SetErrnoAndReturn(EIO, -1)); EXPECT_FALSE(stream_->SetSizeBlocking(1235, &error)); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("EIO", error->GetCode()); error.reset(); EXPECT_FALSE(stream_->SetSizeBlocking(kTooLargeSize, &error)); ExpectStreamOffsetTooLarge(error); error.reset(); EXPECT_CALL(fd_mock(), IsOpen()).WillOnce(Return(false)); EXPECT_FALSE(stream_->SetSizeBlocking(1235, &error)); ExpectStreamClosed(error); } TEST_F(FileStreamTest, GetRemainingSize) { EXPECT_CALL(fd_mock(), Seek(0, SEEK_CUR)).WillOnce(Return(234)); EXPECT_CALL(fd_mock(), GetSize()).WillOnce(Return(1234)); EXPECT_EQ(1000u, stream_->GetRemainingSize()); EXPECT_CALL(fd_mock(), Seek(0, SEEK_CUR)).WillOnce(Return(1234)); EXPECT_CALL(fd_mock(), GetSize()).WillOnce(Return(1000)); EXPECT_EQ(0u, stream_->GetRemainingSize()); } TEST_F(FileStreamTest, Seek_Set) { uint64_t pos = 0; EXPECT_CALL(fd_mock(), Seek(0, SEEK_SET)).WillOnce(Return(0)); EXPECT_TRUE(stream_->Seek(0, Stream::Whence::FROM_BEGIN, &pos, nullptr)); EXPECT_EQ(0u, pos); EXPECT_CALL(fd_mock(), Seek(123456, SEEK_SET)).WillOnce(Return(123456)); EXPECT_TRUE(stream_->Seek(123456, Stream::Whence::FROM_BEGIN, &pos, nullptr)); EXPECT_EQ(123456u, pos); EXPECT_CALL(fd_mock(), Seek(kMaxSize, SEEK_SET)) .WillRepeatedly(Return(kMaxSize)); EXPECT_TRUE(stream_->Seek(kMaxSize, Stream::Whence::FROM_BEGIN, &pos, nullptr)); EXPECT_EQ(kMaxSize, pos); EXPECT_TRUE(stream_->Seek(kMaxSize, Stream::Whence::FROM_BEGIN, nullptr, nullptr)); } TEST_F(FileStreamTest, Seek_Cur) { uint64_t pos = 0; EXPECT_CALL(fd_mock(), Seek(0, SEEK_CUR)).WillOnce(Return(100)); EXPECT_TRUE(stream_->Seek(0, Stream::Whence::FROM_CURRENT, &pos, nullptr)); EXPECT_EQ(100u, pos); EXPECT_CALL(fd_mock(), Seek(234, SEEK_CUR)).WillOnce(Return(1234)); EXPECT_TRUE(stream_->Seek(234, Stream::Whence::FROM_CURRENT, &pos, nullptr)); EXPECT_EQ(1234u, pos); EXPECT_CALL(fd_mock(), Seek(-100, SEEK_CUR)).WillOnce(Return(900)); EXPECT_TRUE(stream_->Seek(-100, Stream::Whence::FROM_CURRENT, &pos, nullptr)); EXPECT_EQ(900u, pos); } TEST_F(FileStreamTest, Seek_End) { uint64_t pos = 0; EXPECT_CALL(fd_mock(), Seek(0, SEEK_END)).WillOnce(Return(1000)); EXPECT_TRUE(stream_->Seek(0, Stream::Whence::FROM_END, &pos, nullptr)); EXPECT_EQ(1000u, pos); EXPECT_CALL(fd_mock(), Seek(234, SEEK_END)).WillOnce(Return(10234)); EXPECT_TRUE(stream_->Seek(234, Stream::Whence::FROM_END, &pos, nullptr)); EXPECT_EQ(10234u, pos); EXPECT_CALL(fd_mock(), Seek(-100, SEEK_END)).WillOnce(Return(9900)); EXPECT_TRUE(stream_->Seek(-100, Stream::Whence::FROM_END, &pos, nullptr)); EXPECT_EQ(9900u, pos); } TEST_F(FileStreamTest, Seek_Fail) { brillo::ErrorPtr error; EXPECT_CALL(fd_mock(), Seek(0, SEEK_SET)) .WillOnce(SetErrnoAndReturn(EPIPE, -1)); EXPECT_FALSE(stream_->Seek(0, Stream::Whence::FROM_BEGIN, nullptr, &error)); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("EPIPE", error->GetCode()); } TEST_F(FileStreamTest, ReadAsync) { size_t read_size = 0; bool failed = false; auto success_callback = [&read_size](size_t size) { read_size = size; }; auto error_callback = [&failed](const Error* /* error */) { failed = true; }; FileStream::FileDescriptorInterface::DataCallback data_callback; EXPECT_CALL(fd_mock(), Read(test_read_buffer_, 100)) .WillOnce(ReturnWouldBlock()); EXPECT_CALL(fd_mock(), WaitForData(Stream::AccessMode::READ, _, _)) .WillOnce(DoAll(SaveArg<1>(&data_callback), Return(true))); EXPECT_TRUE(stream_->ReadAsync(test_read_buffer_, 100, base::Bind(success_callback), base::Bind(error_callback), nullptr)); EXPECT_EQ(0u, read_size); EXPECT_FALSE(failed); EXPECT_CALL(fd_mock(), Read(test_read_buffer_, 100)).WillOnce(Return(83)); data_callback.Run(Stream::AccessMode::READ); EXPECT_EQ(83u, read_size); EXPECT_FALSE(failed); } TEST_F(FileStreamTest, ReadNonBlocking) { size_t size = 0; bool eos = false; EXPECT_CALL(fd_mock(), Read(test_read_buffer_, _)) .WillRepeatedly(ReturnArg<1>()); EXPECT_TRUE(stream_->ReadNonBlocking(test_read_buffer_, 100, &size, &eos, nullptr)); EXPECT_EQ(100u, size); EXPECT_FALSE(eos); EXPECT_TRUE(stream_->ReadNonBlocking(test_read_buffer_, 0, &size, &eos, nullptr)); EXPECT_EQ(0u, size); EXPECT_FALSE(eos); EXPECT_CALL(fd_mock(), Read(test_read_buffer_, _)).WillOnce(Return(0)); EXPECT_TRUE(stream_->ReadNonBlocking(test_read_buffer_, 100, &size, &eos, nullptr)); EXPECT_EQ(0u, size); EXPECT_TRUE(eos); EXPECT_CALL(fd_mock(), Read(test_read_buffer_, _)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_TRUE(stream_->ReadNonBlocking(test_read_buffer_, 100, &size, &eos, nullptr)); EXPECT_EQ(0u, size); EXPECT_FALSE(eos); } TEST_F(FileStreamTest, ReadNonBlocking_Fail) { size_t size = 0; brillo::ErrorPtr error; EXPECT_CALL(fd_mock(), Read(test_read_buffer_, _)) .WillOnce(SetErrnoAndReturn(EACCES, -1)); EXPECT_FALSE(stream_->ReadNonBlocking(test_read_buffer_, 100, &size, nullptr, &error)); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("EACCES", error->GetCode()); } TEST_F(FileStreamTest, ReadBlocking) { size_t size = 0; EXPECT_CALL(fd_mock(), Read(test_read_buffer_, 100)).WillOnce(Return(20)); EXPECT_TRUE(stream_->ReadBlocking(test_read_buffer_, 100, &size, nullptr)); EXPECT_EQ(20u, size); { InSequence seq; EXPECT_CALL(fd_mock(), Read(test_read_buffer_, 80)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::READ, _, _)) .WillOnce(Return(1)); EXPECT_CALL(fd_mock(), Read(test_read_buffer_, 80)).WillOnce(Return(45)); } EXPECT_TRUE(stream_->ReadBlocking(test_read_buffer_, 80, &size, nullptr)); EXPECT_EQ(45u, size); EXPECT_CALL(fd_mock(), Read(test_read_buffer_, 50)).WillOnce(Return(0)); EXPECT_TRUE(stream_->ReadBlocking(test_read_buffer_, 50, &size, nullptr)); EXPECT_EQ(0u, size); } TEST_F(FileStreamTest, ReadBlocking_Fail) { { InSequence seq; EXPECT_CALL(fd_mock(), Read(test_read_buffer_, 80)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::READ, _, _)) .WillOnce(SetErrnoAndReturn(EBADF, -1)); } brillo::ErrorPtr error; size_t size = 0; EXPECT_FALSE(stream_->ReadBlocking(test_read_buffer_, 80, &size, &error)); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("EBADF", error->GetCode()); } TEST_F(FileStreamTest, ReadAllBlocking) { { InSequence seq; EXPECT_CALL(fd_mock(), Read(test_read_buffer_, 100)).WillOnce(Return(20)); EXPECT_CALL(fd_mock(), Read(test_read_buffer_ + 20, 80)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::READ, _, _)) .WillOnce(Return(1)); EXPECT_CALL(fd_mock(), Read(test_read_buffer_ + 20, 80)) .WillOnce(Return(45)); EXPECT_CALL(fd_mock(), Read(test_read_buffer_ + 65, 35)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::READ, _, _)) .WillOnce(Return(1)); EXPECT_CALL(fd_mock(), Read(test_read_buffer_ + 65, 35)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::READ, _, _)) .WillOnce(Return(1)); EXPECT_CALL(fd_mock(), Read(test_read_buffer_ + 65, 35)) .WillOnce(Return(35)); } EXPECT_TRUE(stream_->ReadAllBlocking(test_read_buffer_, 100, nullptr)); } TEST_F(FileStreamTest, ReadAllBlocking_Fail) { { InSequence seq; EXPECT_CALL(fd_mock(), Read(test_read_buffer_, 100)).WillOnce(Return(20)); EXPECT_CALL(fd_mock(), Read(test_read_buffer_ + 20, 80)) .WillOnce(Return(0)); } brillo::ErrorPtr error; EXPECT_FALSE(stream_->ReadAllBlocking(test_read_buffer_, 100, &error)); EXPECT_EQ(errors::stream::kDomain, error->GetDomain()); EXPECT_EQ(errors::stream::kPartialData, error->GetCode()); EXPECT_EQ("Reading past the end of stream", error->GetMessage()); } TEST_F(FileStreamTest, WriteAsync) { size_t write_size = 0; bool failed = false; auto success_callback = [&write_size](size_t size) { write_size = size; }; auto error_callback = [&failed](const Error* /* error */) { failed = true; }; FileStream::FileDescriptorInterface::DataCallback data_callback; EXPECT_CALL(fd_mock(), Write(test_write_buffer_, 100)) .WillOnce(ReturnWouldBlock()); EXPECT_CALL(fd_mock(), WaitForData(Stream::AccessMode::WRITE, _, _)) .WillOnce(DoAll(SaveArg<1>(&data_callback), Return(true))); EXPECT_TRUE(stream_->WriteAsync(test_write_buffer_, 100, base::Bind(success_callback), base::Bind(error_callback), nullptr)); EXPECT_EQ(0u, write_size); EXPECT_FALSE(failed); EXPECT_CALL(fd_mock(), Write(test_write_buffer_, 100)).WillOnce(Return(87)); data_callback.Run(Stream::AccessMode::WRITE); EXPECT_EQ(87u, write_size); EXPECT_FALSE(failed); } TEST_F(FileStreamTest, WriteNonBlocking) { size_t size = 0; EXPECT_CALL(fd_mock(), Write(test_write_buffer_, _)) .WillRepeatedly(ReturnArg<1>()); EXPECT_TRUE(stream_->WriteNonBlocking(test_write_buffer_, 100, &size, nullptr)); EXPECT_EQ(100u, size); EXPECT_TRUE(stream_->WriteNonBlocking(test_write_buffer_, 0, &size, nullptr)); EXPECT_EQ(0u, size); EXPECT_CALL(fd_mock(), Write(test_write_buffer_, _)).WillOnce(Return(0)); EXPECT_TRUE(stream_->WriteNonBlocking(test_write_buffer_, 100, &size, nullptr)); EXPECT_EQ(0u, size); EXPECT_CALL(fd_mock(), Write(test_write_buffer_, _)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_TRUE(stream_->WriteNonBlocking(test_write_buffer_, 100, &size, nullptr)); EXPECT_EQ(0u, size); } TEST_F(FileStreamTest, WriteNonBlocking_Fail) { size_t size = 0; brillo::ErrorPtr error; EXPECT_CALL(fd_mock(), Write(test_write_buffer_, _)) .WillOnce(SetErrnoAndReturn(EACCES, -1)); EXPECT_FALSE(stream_->WriteNonBlocking(test_write_buffer_, 100, &size, &error)); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("EACCES", error->GetCode()); } TEST_F(FileStreamTest, WriteBlocking) { size_t size = 0; EXPECT_CALL(fd_mock(), Write(test_write_buffer_, 100)).WillOnce(Return(20)); EXPECT_TRUE(stream_->WriteBlocking(test_write_buffer_, 100, &size, nullptr)); EXPECT_EQ(20u, size); { InSequence seq; EXPECT_CALL(fd_mock(), Write(test_write_buffer_, 80)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::WRITE, _, _)) .WillOnce(Return(1)); EXPECT_CALL(fd_mock(), Write(test_write_buffer_, 80)).WillOnce(Return(45)); } EXPECT_TRUE(stream_->WriteBlocking(test_write_buffer_, 80, &size, nullptr)); EXPECT_EQ(45u, size); { InSequence seq; EXPECT_CALL(fd_mock(), Write(test_write_buffer_, 50)).WillOnce(Return(0)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::WRITE, _, _)) .WillOnce(Return(1)); EXPECT_CALL(fd_mock(), Write(test_write_buffer_, 50)).WillOnce(Return(1)); } EXPECT_TRUE(stream_->WriteBlocking(test_write_buffer_, 50, &size, nullptr)); EXPECT_EQ(1u, size); } TEST_F(FileStreamTest, WriteBlocking_Fail) { { InSequence seq; EXPECT_CALL(fd_mock(), Write(test_write_buffer_, 80)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::WRITE, _, _)) .WillOnce(SetErrnoAndReturn(EBADF, -1)); } brillo::ErrorPtr error; size_t size = 0; EXPECT_FALSE(stream_->WriteBlocking(test_write_buffer_, 80, &size, &error)); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("EBADF", error->GetCode()); } TEST_F(FileStreamTest, WriteAllBlocking) { { InSequence seq; EXPECT_CALL(fd_mock(), Write(test_write_buffer_, 100)).WillOnce(Return(20)); EXPECT_CALL(fd_mock(), Write(test_write_buffer_ + 20, 80)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::WRITE, _, _)) .WillOnce(Return(1)); EXPECT_CALL(fd_mock(), Write(test_write_buffer_ + 20, 80)) .WillOnce(Return(45)); EXPECT_CALL(fd_mock(), Write(test_write_buffer_ + 65, 35)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::WRITE, _, _)) .WillOnce(Return(1)); EXPECT_CALL(fd_mock(), Write(test_write_buffer_ + 65, 35)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::WRITE, _, _)) .WillOnce(Return(1)); EXPECT_CALL(fd_mock(), Write(test_write_buffer_ + 65, 35)) .WillOnce(Return(35)); } EXPECT_TRUE(stream_->WriteAllBlocking(test_write_buffer_, 100, nullptr)); } TEST_F(FileStreamTest, WriteAllBlocking_Fail) { { InSequence seq; EXPECT_CALL(fd_mock(), Write(test_write_buffer_, 80)) .WillOnce(SetErrnoAndReturn(EAGAIN, -1)); EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::WRITE, _, _)) .WillOnce(SetErrnoAndReturn(EBADF, -1)); } brillo::ErrorPtr error; EXPECT_FALSE(stream_->WriteAllBlocking(test_write_buffer_, 80, &error)); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("EBADF", error->GetCode()); } TEST_F(FileStreamTest, WaitForDataBlocking_Timeout) { EXPECT_CALL(fd_mock(), WaitForDataBlocking(Stream::AccessMode::WRITE, _, _)) .WillOnce(Return(0)); brillo::ErrorPtr error; EXPECT_FALSE(stream_->WaitForDataBlocking(Stream::AccessMode::WRITE, {}, nullptr, &error)); EXPECT_EQ(errors::stream::kDomain, error->GetDomain()); EXPECT_EQ(errors::stream::kTimeout, error->GetCode()); } TEST_F(FileStreamTest, FlushBlocking) { EXPECT_TRUE(stream_->FlushBlocking(nullptr)); } TEST_F(FileStreamTest, CloseBlocking) { EXPECT_CALL(fd_mock(), Close()).WillOnce(Return(0)); EXPECT_TRUE(stream_->CloseBlocking(nullptr)); EXPECT_CALL(fd_mock(), IsOpen()).WillOnce(Return(false)); EXPECT_TRUE(stream_->CloseBlocking(nullptr)); } TEST_F(FileStreamTest, CloseBlocking_Fail) { brillo::ErrorPtr error; EXPECT_CALL(fd_mock(), Close()).WillOnce(SetErrnoAndReturn(EFBIG, -1)); EXPECT_FALSE(stream_->CloseBlocking(&error)); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("EFBIG", error->GetCode()); } TEST_F(FileStreamTest, WaitForData) { EXPECT_CALL(fd_mock(), WaitForData(Stream::AccessMode::READ, _, _)) .WillOnce(Return(true)); EXPECT_TRUE(CallWaitForData(Stream::AccessMode::READ, nullptr)); EXPECT_CALL(fd_mock(), WaitForData(Stream::AccessMode::WRITE, _, _)) .WillOnce(Return(true)); EXPECT_TRUE(CallWaitForData(Stream::AccessMode::WRITE, nullptr)); EXPECT_CALL(fd_mock(), WaitForData(Stream::AccessMode::READ_WRITE, _, _)) .WillOnce(Return(true)); EXPECT_TRUE(CallWaitForData(Stream::AccessMode::READ_WRITE, nullptr)); EXPECT_CALL(fd_mock(), WaitForData(Stream::AccessMode::READ_WRITE, _, _)) .WillOnce(Return(false)); EXPECT_FALSE(CallWaitForData(Stream::AccessMode::READ_WRITE, nullptr)); } TEST_F(FileStreamTest, CreateTemporary) { StreamPtr stream = FileStream::CreateTemporary(nullptr); ASSERT_NE(nullptr, stream.get()); TestCreateFile(stream.get()); } TEST_F(FileStreamTest, OpenRead) { base::ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); base::FilePath path = temp_dir.path().Append(base::FilePath{"test.dat"}); std::vector buffer(1024 * 1024); base::RandBytes(buffer.data(), buffer.size()); int file_size = buffer.size(); // Stupid base::WriteFile taking "int" size. ASSERT_EQ(file_size, base::WriteFile(path, buffer.data(), file_size)); StreamPtr stream = FileStream::Open(path, Stream::AccessMode::READ, FileStream::Disposition::OPEN_EXISTING, nullptr); ASSERT_NE(nullptr, stream.get()); ASSERT_TRUE(stream->IsOpen()); EXPECT_TRUE(stream->CanRead()); EXPECT_FALSE(stream->CanWrite()); EXPECT_TRUE(stream->CanSeek()); EXPECT_TRUE(stream->CanGetSize()); EXPECT_EQ(0u, stream->GetPosition()); EXPECT_EQ(buffer.size(), stream->GetSize()); std::vector buffer2(buffer.size()); EXPECT_TRUE(stream->ReadAllBlocking(buffer2.data(), buffer2.size(), nullptr)); EXPECT_EQ(buffer2, buffer); EXPECT_TRUE(stream->CloseBlocking(nullptr)); } TEST_F(FileStreamTest, OpenWrite) { base::ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); base::FilePath path = temp_dir.path().Append(base::FilePath{"test.dat"}); std::vector buffer(1024 * 1024); base::RandBytes(buffer.data(), buffer.size()); StreamPtr stream = FileStream::Open(path, Stream::AccessMode::WRITE, FileStream::Disposition::CREATE_ALWAYS, nullptr); ASSERT_NE(nullptr, stream.get()); ASSERT_TRUE(stream->IsOpen()); EXPECT_FALSE(stream->CanRead()); EXPECT_TRUE(stream->CanWrite()); EXPECT_TRUE(stream->CanSeek()); EXPECT_TRUE(stream->CanGetSize()); EXPECT_EQ(0u, stream->GetPosition()); EXPECT_EQ(0u, stream->GetSize()); EXPECT_TRUE(stream->WriteAllBlocking(buffer.data(), buffer.size(), nullptr)); EXPECT_TRUE(stream->CloseBlocking(nullptr)); std::vector buffer2(buffer.size()); int file_size = buffer2.size(); // Stupid base::ReadFile taking "int" size. ASSERT_EQ(file_size, base::ReadFile(path, buffer2.data(), file_size)); EXPECT_EQ(buffer2, buffer); } TEST_F(FileStreamTest, Open_OpenExisting) { base::ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); base::FilePath path = temp_dir.path().Append(base::FilePath{"test.dat"}); std::string data{"Lorem ipsum dolor sit amet ..."}; int data_size = data.size(); // I hate ints for data size... ASSERT_EQ(data_size, base::WriteFile(path, data.data(), data_size)); StreamPtr stream = FileStream::Open(path, Stream::AccessMode::READ_WRITE, FileStream::Disposition::OPEN_EXISTING, nullptr); ASSERT_NE(nullptr, stream.get()); EXPECT_TRUE(stream->CanRead()); EXPECT_TRUE(stream->CanWrite()); EXPECT_TRUE(stream->CanSeek()); EXPECT_TRUE(stream->CanGetSize()); EXPECT_EQ(0u, stream->GetPosition()); EXPECT_EQ(data.size(), stream->GetSize()); EXPECT_TRUE(stream->CloseBlocking(nullptr)); } TEST_F(FileStreamTest, Open_OpenExisting_Fail) { base::ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); base::FilePath path = temp_dir.path().Append(base::FilePath{"test.dat"}); ErrorPtr error; StreamPtr stream = FileStream::Open(path, Stream::AccessMode::READ_WRITE, FileStream::Disposition::OPEN_EXISTING, &error); ASSERT_EQ(nullptr, stream.get()); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("ENOENT", error->GetCode()); } TEST_F(FileStreamTest, Open_CreateAlways_New) { base::ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); base::FilePath path = temp_dir.path().Append(base::FilePath{"test.dat"}); StreamPtr stream = FileStream::Open(path, Stream::AccessMode::READ_WRITE, FileStream::Disposition::CREATE_ALWAYS, nullptr); ASSERT_NE(nullptr, stream.get()); EXPECT_TRUE(stream->CanRead()); EXPECT_TRUE(stream->CanWrite()); EXPECT_TRUE(stream->CanSeek()); EXPECT_TRUE(stream->CanGetSize()); EXPECT_EQ(0u, stream->GetPosition()); EXPECT_EQ(0u, stream->GetSize()); EXPECT_TRUE(stream->CloseBlocking(nullptr)); } TEST_F(FileStreamTest, Open_CreateAlways_Existing) { base::ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); base::FilePath path = temp_dir.path().Append(base::FilePath{"test.dat"}); std::string data{"Lorem ipsum dolor sit amet ..."}; int data_size = data.size(); // I hate ints for data size... ASSERT_EQ(data_size, base::WriteFile(path, data.data(), data_size)); StreamPtr stream = FileStream::Open(path, Stream::AccessMode::READ_WRITE, FileStream::Disposition::CREATE_ALWAYS, nullptr); ASSERT_NE(nullptr, stream.get()); EXPECT_TRUE(stream->CanRead()); EXPECT_TRUE(stream->CanWrite()); EXPECT_TRUE(stream->CanSeek()); EXPECT_TRUE(stream->CanGetSize()); EXPECT_EQ(0u, stream->GetPosition()); EXPECT_EQ(0u, stream->GetSize()); EXPECT_TRUE(stream->CloseBlocking(nullptr)); } TEST_F(FileStreamTest, Open_CreateNewOnly_New) { base::ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); base::FilePath path = temp_dir.path().Append(base::FilePath{"test.dat"}); StreamPtr stream = FileStream::Open(path, Stream::AccessMode::READ_WRITE, FileStream::Disposition::CREATE_NEW_ONLY, nullptr); ASSERT_NE(nullptr, stream.get()); EXPECT_TRUE(stream->CanRead()); EXPECT_TRUE(stream->CanWrite()); EXPECT_TRUE(stream->CanSeek()); EXPECT_TRUE(stream->CanGetSize()); EXPECT_EQ(0u, stream->GetPosition()); EXPECT_EQ(0u, stream->GetSize()); EXPECT_TRUE(stream->CloseBlocking(nullptr)); } TEST_F(FileStreamTest, Open_CreateNewOnly_Existing) { base::ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); base::FilePath path = temp_dir.path().Append(base::FilePath{"test.dat"}); std::string data{"Lorem ipsum dolor sit amet ..."}; int data_size = data.size(); // I hate ints for data size... ASSERT_EQ(data_size, base::WriteFile(path, data.data(), data_size)); ErrorPtr error; StreamPtr stream = FileStream::Open(path, Stream::AccessMode::READ_WRITE, FileStream::Disposition::CREATE_NEW_ONLY, &error); ASSERT_EQ(nullptr, stream.get()); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("EEXIST", error->GetCode()); } TEST_F(FileStreamTest, Open_TruncateExisting_New) { base::ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); base::FilePath path = temp_dir.path().Append(base::FilePath{"test.dat"}); ErrorPtr error; StreamPtr stream = FileStream::Open( path, Stream::AccessMode::READ_WRITE, FileStream::Disposition::TRUNCATE_EXISTING, &error); ASSERT_EQ(nullptr, stream.get()); EXPECT_EQ(errors::system::kDomain, error->GetDomain()); EXPECT_EQ("ENOENT", error->GetCode()); } TEST_F(FileStreamTest, Open_TruncateExisting_Existing) { base::ScopedTempDir temp_dir; ASSERT_TRUE(temp_dir.CreateUniqueTempDir()); base::FilePath path = temp_dir.path().Append(base::FilePath{"test.dat"}); std::string data{"Lorem ipsum dolor sit amet ..."}; int data_size = data.size(); // I hate ints for data size... ASSERT_EQ(data_size, base::WriteFile(path, data.data(), data_size)); StreamPtr stream = FileStream::Open( path, Stream::AccessMode::READ_WRITE, FileStream::Disposition::TRUNCATE_EXISTING, nullptr); ASSERT_NE(nullptr, stream.get()); EXPECT_TRUE(stream->CanRead()); EXPECT_TRUE(stream->CanWrite()); EXPECT_TRUE(stream->CanSeek()); EXPECT_TRUE(stream->CanGetSize()); EXPECT_EQ(0u, stream->GetPosition()); EXPECT_EQ(0u, stream->GetSize()); EXPECT_TRUE(stream->CloseBlocking(nullptr)); } TEST_F(FileStreamTest, FromFileDescriptor_StdIn) { StreamPtr stream = FileStream::FromFileDescriptor(STDIN_FILENO, false, nullptr); ASSERT_NE(nullptr, stream.get()); EXPECT_TRUE(stream->IsOpen()); EXPECT_TRUE(stream->CanRead()); EXPECT_FALSE(stream->CanSeek()); EXPECT_FALSE(stream->CanGetSize()); } TEST_F(FileStreamTest, FromFileDescriptor_StdOut) { StreamPtr stream = FileStream::FromFileDescriptor(STDOUT_FILENO, false, nullptr); ASSERT_NE(nullptr, stream.get()); EXPECT_TRUE(stream->IsOpen()); EXPECT_TRUE(stream->CanWrite()); EXPECT_FALSE(stream->CanSeek()); EXPECT_FALSE(stream->CanGetSize()); } TEST_F(FileStreamTest, FromFileDescriptor_StdErr) { StreamPtr stream = FileStream::FromFileDescriptor(STDERR_FILENO, false, nullptr); ASSERT_NE(nullptr, stream.get()); EXPECT_TRUE(stream->IsOpen()); EXPECT_TRUE(stream->CanWrite()); EXPECT_FALSE(stream->CanSeek()); EXPECT_FALSE(stream->CanGetSize()); } TEST_F(FileStreamTest, FromFileDescriptor_ReadNonBlocking) { int fds[2] = {-1, -1}; ASSERT_EQ(0, pipe(fds)); StreamPtr stream = FileStream::FromFileDescriptor(fds[0], true, nullptr); ASSERT_NE(nullptr, stream.get()); EXPECT_TRUE(stream->IsOpen()); EXPECT_TRUE(stream->CanRead()); EXPECT_FALSE(stream->CanWrite()); EXPECT_FALSE(stream->CanSeek()); EXPECT_FALSE(stream->CanGetSize()); char buf[10]; size_t read = 0; bool eos = true; EXPECT_TRUE(stream->ReadNonBlocking(buf, sizeof(buf), &read, &eos, nullptr)); EXPECT_EQ(0, read); EXPECT_FALSE(eos); std::string data{"foo_bar"}; EXPECT_TRUE(base::WriteFileDescriptor(fds[1], data.data(), data.size())); EXPECT_TRUE(stream->ReadNonBlocking(buf, sizeof(buf), &read, &eos, nullptr)); EXPECT_EQ(data.size(), read); EXPECT_FALSE(eos); EXPECT_EQ(data, (std::string{buf, read})); EXPECT_TRUE(stream->ReadNonBlocking(buf, sizeof(buf), &read, &eos, nullptr)); EXPECT_EQ(0, read); EXPECT_FALSE(eos); close(fds[1]); EXPECT_TRUE(stream->ReadNonBlocking(buf, sizeof(buf), &read, &eos, nullptr)); EXPECT_EQ(0, read); EXPECT_TRUE(eos); EXPECT_TRUE(stream->CloseBlocking(nullptr)); } TEST_F(FileStreamTest, FromFileDescriptor_WriteNonBlocking) { int fds[2] = {-1, -1}; ASSERT_EQ(0, pipe(fds)); StreamPtr stream = FileStream::FromFileDescriptor(fds[1], true, nullptr); ASSERT_NE(nullptr, stream.get()); EXPECT_TRUE(stream->IsOpen()); EXPECT_FALSE(stream->CanRead()); EXPECT_TRUE(stream->CanWrite()); EXPECT_FALSE(stream->CanSeek()); EXPECT_FALSE(stream->CanGetSize()); // Pipe buffer is generally 64K, so 128K should be more than enough. std::vector buffer(128 * 1024); base::RandBytes(buffer.data(), buffer.size()); size_t written = 0; size_t total_size = 0; // Fill the output buffer of the pipe until we can no longer write any data // to it. do { ASSERT_TRUE(stream->WriteNonBlocking(buffer.data(), buffer.size(), &written, nullptr)); total_size += written; } while (written == buffer.size()); EXPECT_TRUE(stream->WriteNonBlocking(buffer.data(), buffer.size(), &written, nullptr)); EXPECT_EQ(0, written); std::vector out_buffer(total_size); EXPECT_TRUE(base::ReadFromFD(fds[0], out_buffer.data(), out_buffer.size())); EXPECT_TRUE(stream->WriteNonBlocking(buffer.data(), buffer.size(), &written, nullptr)); EXPECT_GT(written, 0); out_buffer.resize(written); EXPECT_TRUE(base::ReadFromFD(fds[0], out_buffer.data(), out_buffer.size())); EXPECT_TRUE(std::equal(out_buffer.begin(), out_buffer.end(), buffer.begin())); close(fds[0]); EXPECT_TRUE(stream->CloseBlocking(nullptr)); } TEST_F(FileStreamTest, FromFileDescriptor_ReadAsync) { int fds[2] = {-1, -1}; bool succeeded = false; bool failed = false; char buffer[100]; base::MessageLoopForIO base_loop; BaseMessageLoop brillo_loop{&base_loop}; brillo_loop.SetAsCurrent(); auto success_callback = [&succeeded, &buffer](size_t size) { std::string data{buffer, buffer + size}; ASSERT_EQ("abracadabra", data); succeeded = true; }; auto error_callback = [&failed](const Error* /* error */) { failed = true; }; auto write_data_callback = [](int write_fd) { std::string data{"abracadabra"}; EXPECT_TRUE(base::WriteFileDescriptor(write_fd, data.data(), data.size())); }; ASSERT_EQ(0, pipe(fds)); StreamPtr stream = FileStream::FromFileDescriptor(fds[0], true, nullptr); // Write to the pipe with a bit of delay. brillo_loop.PostDelayedTask( FROM_HERE, base::Bind(write_data_callback, fds[1]), base::TimeDelta::FromMilliseconds(10)); EXPECT_TRUE(stream->ReadAsync(buffer, 100, base::Bind(success_callback), base::Bind(error_callback), nullptr)); auto end_condition = [&failed, &succeeded] { return failed || succeeded; }; MessageLoopRunUntil(&brillo_loop, base::TimeDelta::FromSeconds(1), base::Bind(end_condition)); EXPECT_TRUE(succeeded); EXPECT_FALSE(failed); close(fds[1]); EXPECT_TRUE(stream->CloseBlocking(nullptr)); } TEST_F(FileStreamTest, FromFileDescriptor_WriteAsync) { int fds[2] = {-1, -1}; bool succeeded = false; bool failed = false; const std::string data{"abracadabra"}; base::MessageLoopForIO base_loop; BaseMessageLoop brillo_loop{&base_loop}; brillo_loop.SetAsCurrent(); ASSERT_EQ(0, pipe(fds)); auto success_callback = [&succeeded, &data](int read_fd, size_t /* size */) { char buffer[100]; EXPECT_TRUE(base::ReadFromFD(read_fd, buffer, data.size())); EXPECT_EQ(data, (std::string{buffer, buffer + data.size()})); succeeded = true; }; auto error_callback = [&failed](const Error* /* error */) { failed = true; }; StreamPtr stream = FileStream::FromFileDescriptor(fds[1], true, nullptr); EXPECT_TRUE(stream->WriteAsync(data.data(), data.size(), base::Bind(success_callback, fds[0]), base::Bind(error_callback), nullptr)); auto end_condition = [&failed, &succeeded] { return failed || succeeded; }; MessageLoopRunUntil(&brillo_loop, base::TimeDelta::FromSeconds(1), base::Bind(end_condition)); EXPECT_TRUE(succeeded); EXPECT_FALSE(failed); close(fds[0]); EXPECT_TRUE(stream->CloseBlocking(nullptr)); } } // namespace brillo