// 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 using testing::DoAll; using testing::InSequence; using testing::Return; using testing::StrictMock; using testing::_; ACTION_TEMPLATE(InvokeAsyncCallback, HAS_1_TEMPLATE_PARAMS(int, k), AND_1_VALUE_PARAMS(size)) { brillo::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(std::get(args), size)); return true; } ACTION_TEMPLATE(InvokeAsyncCallback, HAS_1_TEMPLATE_PARAMS(int, k), AND_0_VALUE_PARAMS()) { brillo::MessageLoop::current()->PostTask(FROM_HERE, std::get(args)); return true; } ACTION_TEMPLATE(InvokeAsyncErrorCallback, HAS_1_TEMPLATE_PARAMS(int, k), AND_1_VALUE_PARAMS(code)) { brillo::ErrorPtr error; brillo::Error::AddTo(&error, FROM_HERE, "test", code, "message"); brillo::MessageLoop::current()->PostTask( FROM_HERE, base::Bind(std::get(args), base::Owned(error.release()))); return true; } namespace brillo { TEST(StreamUtils, ErrorStreamClosed) { ErrorPtr error; EXPECT_FALSE(stream_utils::ErrorStreamClosed(FROM_HERE, &error)); EXPECT_EQ(errors::stream::kDomain, error->GetDomain()); EXPECT_EQ(errors::stream::kStreamClosed, error->GetCode()); EXPECT_EQ("Stream is closed", error->GetMessage()); } TEST(StreamUtils, ErrorOperationNotSupported) { ErrorPtr error; EXPECT_FALSE(stream_utils::ErrorOperationNotSupported(FROM_HERE, &error)); EXPECT_EQ(errors::stream::kDomain, error->GetDomain()); EXPECT_EQ(errors::stream::kOperationNotSupported, error->GetCode()); EXPECT_EQ("Stream operation not supported", error->GetMessage()); } TEST(StreamUtils, ErrorReadPastEndOfStream) { ErrorPtr error; EXPECT_FALSE(stream_utils::ErrorReadPastEndOfStream(FROM_HERE, &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(StreamUtils, CheckInt64Overflow) { const int64_t max_int64 = std::numeric_limits::max(); const uint64_t max_uint64 = std::numeric_limits::max(); EXPECT_TRUE(stream_utils::CheckInt64Overflow(FROM_HERE, 0, 0, nullptr)); EXPECT_TRUE(stream_utils::CheckInt64Overflow( FROM_HERE, 0, max_int64, nullptr)); EXPECT_TRUE(stream_utils::CheckInt64Overflow( FROM_HERE, max_int64, 0, nullptr)); EXPECT_TRUE(stream_utils::CheckInt64Overflow(FROM_HERE, 100, -90, nullptr)); EXPECT_TRUE(stream_utils::CheckInt64Overflow( FROM_HERE, 1000, -1000, nullptr)); ErrorPtr error; EXPECT_FALSE(stream_utils::CheckInt64Overflow(FROM_HERE, 100, -101, &error)); 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()); EXPECT_FALSE(stream_utils::CheckInt64Overflow( FROM_HERE, max_int64, 1, nullptr)); EXPECT_FALSE(stream_utils::CheckInt64Overflow( FROM_HERE, max_uint64, 0, nullptr)); EXPECT_FALSE(stream_utils::CheckInt64Overflow( FROM_HERE, max_uint64, max_int64, nullptr)); } TEST(StreamUtils, CalculateStreamPosition) { using Whence = Stream::Whence; const uint64_t current_pos = 1234; const uint64_t end_pos = 2000; uint64_t pos = 0; EXPECT_TRUE(stream_utils::CalculateStreamPosition( FROM_HERE, 0, Whence::FROM_BEGIN, current_pos, end_pos, &pos, nullptr)); EXPECT_EQ(0u, pos); EXPECT_TRUE(stream_utils::CalculateStreamPosition( FROM_HERE, 0, Whence::FROM_CURRENT, current_pos, end_pos, &pos, nullptr)); EXPECT_EQ(current_pos, pos); EXPECT_TRUE(stream_utils::CalculateStreamPosition( FROM_HERE, 0, Whence::FROM_END, current_pos, end_pos, &pos, nullptr)); EXPECT_EQ(end_pos, pos); EXPECT_TRUE(stream_utils::CalculateStreamPosition( FROM_HERE, 10, Whence::FROM_BEGIN, current_pos, end_pos, &pos, nullptr)); EXPECT_EQ(10u, pos); EXPECT_TRUE(stream_utils::CalculateStreamPosition( FROM_HERE, 10, Whence::FROM_CURRENT, current_pos, end_pos, &pos, nullptr)); EXPECT_EQ(current_pos + 10, pos); EXPECT_TRUE(stream_utils::CalculateStreamPosition( FROM_HERE, 10, Whence::FROM_END, current_pos, end_pos, &pos, nullptr)); EXPECT_EQ(end_pos + 10, pos); EXPECT_TRUE(stream_utils::CalculateStreamPosition( FROM_HERE, -10, Whence::FROM_CURRENT, current_pos, end_pos, &pos, nullptr)); EXPECT_EQ(current_pos - 10, pos); EXPECT_TRUE(stream_utils::CalculateStreamPosition( FROM_HERE, -10, Whence::FROM_END, current_pos, end_pos, &pos, nullptr)); EXPECT_EQ(end_pos - 10, pos); ErrorPtr error; EXPECT_FALSE(stream_utils::CalculateStreamPosition( FROM_HERE, -1, Whence::FROM_BEGIN, current_pos, end_pos, &pos, &error)); EXPECT_EQ(errors::stream::kInvalidParameter, error->GetCode()); EXPECT_EQ("The stream offset value is out of range", error->GetMessage()); EXPECT_FALSE(stream_utils::CalculateStreamPosition( FROM_HERE, -1001, Whence::FROM_CURRENT, 1000, end_pos, &pos, nullptr)); const uint64_t max_int64 = std::numeric_limits::max(); EXPECT_FALSE(stream_utils::CalculateStreamPosition( FROM_HERE, 1, Whence::FROM_CURRENT, max_int64, end_pos, &pos, nullptr)); } class CopyStreamDataTest : public testing::Test { public: void SetUp() override { fake_loop_.SetAsCurrent(); in_stream_.reset(new StrictMock{}); out_stream_.reset(new StrictMock{}); } FakeMessageLoop fake_loop_{nullptr}; std::unique_ptr> in_stream_; std::unique_ptr> out_stream_; bool succeeded_{false}; bool failed_{false}; void OnSuccess(uint64_t expected, StreamPtr /* in_stream */, StreamPtr /* out_stream */, uint64_t copied) { EXPECT_EQ(expected, copied); succeeded_ = true; } void OnError(const std::string& expected_error, StreamPtr /* in_stream */, StreamPtr /* out_stream */, const Error* error) { EXPECT_EQ(expected_error, error->GetCode()); failed_ = true; } void ExpectSuccess() { EXPECT_TRUE(succeeded_); EXPECT_FALSE(failed_); } void ExpectFailure() { EXPECT_FALSE(succeeded_); EXPECT_TRUE(failed_); } }; TEST_F(CopyStreamDataTest, CopyAllAtOnce) { { InSequence seq; EXPECT_CALL(*in_stream_, ReadAsync(_, 100, _, _, _)) .WillOnce(InvokeAsyncCallback<2>(100)); EXPECT_CALL(*out_stream_, WriteAllAsync(_, 100, _, _, _)) .WillOnce(InvokeAsyncCallback<2>()); } stream_utils::CopyData( std::move(in_stream_), std::move(out_stream_), 100, 4096, base::Bind(&CopyStreamDataTest::OnSuccess, base::Unretained(this), 100), base::Bind(&CopyStreamDataTest::OnError, base::Unretained(this), "")); fake_loop_.Run(); ExpectSuccess(); } TEST_F(CopyStreamDataTest, CopyInBlocks) { { InSequence seq; EXPECT_CALL(*in_stream_, ReadAsync(_, 100, _, _, _)) .WillOnce(InvokeAsyncCallback<2>(60)); EXPECT_CALL(*out_stream_, WriteAllAsync(_, 60, _, _, _)) .WillOnce(InvokeAsyncCallback<2>()); EXPECT_CALL(*in_stream_, ReadAsync(_, 40, _, _, _)) .WillOnce(InvokeAsyncCallback<2>(40)); EXPECT_CALL(*out_stream_, WriteAllAsync(_, 40, _, _, _)) .WillOnce(InvokeAsyncCallback<2>()); } stream_utils::CopyData( std::move(in_stream_), std::move(out_stream_), 100, 4096, base::Bind(&CopyStreamDataTest::OnSuccess, base::Unretained(this), 100), base::Bind(&CopyStreamDataTest::OnError, base::Unretained(this), "")); fake_loop_.Run(); ExpectSuccess(); } TEST_F(CopyStreamDataTest, CopyTillEndOfStream) { { InSequence seq; EXPECT_CALL(*in_stream_, ReadAsync(_, 100, _, _, _)) .WillOnce(InvokeAsyncCallback<2>(60)); EXPECT_CALL(*out_stream_, WriteAllAsync(_, 60, _, _, _)) .WillOnce(InvokeAsyncCallback<2>()); EXPECT_CALL(*in_stream_, ReadAsync(_, 40, _, _, _)) .WillOnce(InvokeAsyncCallback<2>(0)); } stream_utils::CopyData( std::move(in_stream_), std::move(out_stream_), 100, 4096, base::Bind(&CopyStreamDataTest::OnSuccess, base::Unretained(this), 60), base::Bind(&CopyStreamDataTest::OnError, base::Unretained(this), "")); fake_loop_.Run(); ExpectSuccess(); } TEST_F(CopyStreamDataTest, CopyInSmallBlocks) { { InSequence seq; EXPECT_CALL(*in_stream_, ReadAsync(_, 60, _, _, _)) .WillOnce(InvokeAsyncCallback<2>(60)); EXPECT_CALL(*out_stream_, WriteAllAsync(_, 60, _, _, _)) .WillOnce(InvokeAsyncCallback<2>()); EXPECT_CALL(*in_stream_, ReadAsync(_, 40, _, _, _)) .WillOnce(InvokeAsyncCallback<2>(40)); EXPECT_CALL(*out_stream_, WriteAllAsync(_, 40, _, _, _)) .WillOnce(InvokeAsyncCallback<2>()); } stream_utils::CopyData( std::move(in_stream_), std::move(out_stream_), 100, 60, base::Bind(&CopyStreamDataTest::OnSuccess, base::Unretained(this), 100), base::Bind(&CopyStreamDataTest::OnError, base::Unretained(this), "")); fake_loop_.Run(); ExpectSuccess(); } TEST_F(CopyStreamDataTest, ErrorRead) { { InSequence seq; EXPECT_CALL(*in_stream_, ReadAsync(_, 60, _, _, _)) .WillOnce(InvokeAsyncErrorCallback<3>("read")); } stream_utils::CopyData( std::move(in_stream_), std::move(out_stream_), 100, 60, base::Bind(&CopyStreamDataTest::OnSuccess, base::Unretained(this), 0), base::Bind(&CopyStreamDataTest::OnError, base::Unretained(this), "read")); fake_loop_.Run(); ExpectFailure(); } TEST_F(CopyStreamDataTest, ErrorWrite) { { InSequence seq; EXPECT_CALL(*in_stream_, ReadAsync(_, 60, _, _, _)) .WillOnce(InvokeAsyncCallback<2>(60)); EXPECT_CALL(*out_stream_, WriteAllAsync(_, 60, _, _, _)) .WillOnce(InvokeAsyncErrorCallback<3>("write")); } stream_utils::CopyData( std::move(in_stream_), std::move(out_stream_), 100, 60, base::Bind(&CopyStreamDataTest::OnSuccess, base::Unretained(this), 0), base::Bind(&CopyStreamDataTest::OnError, base::Unretained(this), "write")); fake_loop_.Run(); ExpectFailure(); } } // namespace brillo