// Copyright 2014 Google Inc. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd #include "packager/media/base/buffer_writer.h" #include #include #include "packager/base/files/file_util.h" #include "packager/file/file.h" #include "packager/media/base/buffer_reader.h" #include "packager/status_test_util.h" namespace { const int kReservedBufferCapacity = 1000; const uint8_t kuint8 = 10; const uint16_t kuint16 = 1000; const int16_t kint16 = -1000; const uint32_t kuint32 = 1000000; const int32_t kint32 = -1000000; const uint64_t kuint64 = 10000000000ULL; const int64_t kint64 = -10000000000LL; const uint8_t kuint8Array[] = {10, 1, 100, 5, 3, 60}; } // namespace namespace shaka { namespace media { class BufferWriterTest : public testing::Test { public: BufferWriterTest() : writer_(new BufferWriter(kReservedBufferCapacity)) {} void CreateReader() { reader_.reset(new BufferReader(writer_->Buffer(), writer_->Size())); } bool ReadInt(uint8_t* v) { return reader_->Read1(v); } bool ReadInt(uint16_t* v) { return reader_->Read2(v); } bool ReadInt(int16_t* v) { return reader_->Read2s(v); } bool ReadInt(uint32_t* v) { return reader_->Read4(v); } bool ReadInt(int32_t* v) { return reader_->Read4s(v); } bool ReadInt(uint64_t* v) { return reader_->Read8(v); } bool ReadInt(int64_t* v) { return reader_->Read8s(v); } template void ReadAndExpect(T expectation) { T data_read; ASSERT_TRUE(ReadInt(&data_read)); ASSERT_EQ(expectation, data_read); } template void Verify(T val) { T min = std::numeric_limits::min(); T max = std::numeric_limits::max(); writer_->AppendInt(min); writer_->AppendInt(max); writer_->AppendInt(val); ASSERT_EQ(sizeof(min) + sizeof(max) + sizeof(val), writer_->Size()); CreateReader(); ReadAndExpect(min); ReadAndExpect(max); ReadAndExpect(val); } protected: std::unique_ptr writer_; std::unique_ptr reader_; private: DISALLOW_COPY_AND_ASSIGN(BufferWriterTest); }; TEST_F(BufferWriterTest, Append1) { Verify(kuint8); } TEST_F(BufferWriterTest, Append2) { Verify(kuint16); } TEST_F(BufferWriterTest, Append2s) { Verify(kint16); } TEST_F(BufferWriterTest, Append4) { Verify(kuint32); } TEST_F(BufferWriterTest, Append4s) { Verify(kint32); } TEST_F(BufferWriterTest, Append8) { Verify(kuint64); } TEST_F(BufferWriterTest, Append8s) { Verify(kint64); } TEST_F(BufferWriterTest, AppendNBytes) { // Write the least significant four bytes and verify the result. writer_->AppendNBytes(kuint64, sizeof(uint32_t)); ASSERT_EQ(sizeof(uint32_t), writer_->Size()); CreateReader(); ReadAndExpect(static_cast(kuint64 & 0xFFFFFFFF)); } TEST_F(BufferWriterTest, AppendEmptyVector) { std::vector v; writer_->AppendVector(v); ASSERT_EQ(0u, writer_->Size()); } TEST_F(BufferWriterTest, AppendVector) { std::vector v(kuint8Array, kuint8Array + sizeof(kuint8Array)); writer_->AppendVector(v); ASSERT_EQ(sizeof(kuint8Array), writer_->Size()); CreateReader(); std::vector data_read; ASSERT_TRUE(reader_->ReadToVector(&data_read, sizeof(kuint8Array))); ASSERT_EQ(v, data_read); } TEST_F(BufferWriterTest, AppendString) { const char kTestData[] = "test_data"; writer_->AppendString(kTestData); // -1 to remove the null terminating character. ASSERT_EQ(strlen(kTestData), writer_->Size()); CreateReader(); std::string data_read; ASSERT_TRUE(reader_->ReadToString(&data_read, strlen(kTestData))); ASSERT_EQ(kTestData, data_read); } TEST_F(BufferWriterTest, AppendArray) { writer_->AppendArray(kuint8Array, sizeof(kuint8Array)); ASSERT_EQ(sizeof(kuint8Array), writer_->Size()); CreateReader(); std::vector data_read; ASSERT_TRUE(reader_->ReadToVector(&data_read, sizeof(kuint8Array))); for (size_t i = 0; i < sizeof(kuint8Array); ++i) EXPECT_EQ(kuint8Array[i], data_read[i]); } TEST_F(BufferWriterTest, AppendBufferWriter) { BufferWriter local_writer; local_writer.AppendInt(kuint16); local_writer.AppendInt(kint64); local_writer.AppendInt(kuint32); writer_->AppendBuffer(local_writer); ASSERT_EQ(sizeof(kuint16) + sizeof(kint64) + sizeof(kuint32), writer_->Size()); CreateReader(); ASSERT_NO_FATAL_FAILURE(ReadAndExpect(kuint16)); ASSERT_NO_FATAL_FAILURE(ReadAndExpect(kint64)); ASSERT_NO_FATAL_FAILURE(ReadAndExpect(kuint32)); } TEST_F(BufferWriterTest, Swap) { BufferWriter local_writer; local_writer.AppendInt(kuint16); local_writer.AppendInt(kint64); writer_->AppendInt(kuint32); writer_->Swap(&local_writer); ASSERT_EQ(sizeof(kuint16) + sizeof(kint64), writer_->Size()); ASSERT_EQ(sizeof(kuint32), local_writer.Size()); CreateReader(); ASSERT_NO_FATAL_FAILURE(ReadAndExpect(kuint16)); ASSERT_NO_FATAL_FAILURE(ReadAndExpect(kint64)); } TEST_F(BufferWriterTest, Clear) { writer_->AppendInt(kuint32); ASSERT_EQ(sizeof(kuint32), writer_->Size()); writer_->Clear(); ASSERT_EQ(0u, writer_->Size()); } TEST_F(BufferWriterTest, WriteToFile) { base::FilePath path; ASSERT_TRUE(base::CreateTemporaryFile(&path)); LOG(INFO) << "Created temporary file: " << path.value(); // Append an array to buffer and then write to the temporary file. File* const output_file = File::Open(path.AsUTF8Unsafe().c_str(), "w"); writer_->AppendArray(kuint8Array, sizeof(kuint8Array)); ASSERT_EQ(sizeof(kuint8Array), writer_->Size()); ASSERT_OK(writer_->WriteToFile(output_file)); ASSERT_EQ(0u, writer_->Size()); ASSERT_TRUE(output_file->Close()); // Read the file and verify. File* const input_file = File::Open(path.AsUTF8Unsafe().c_str(), "r"); ASSERT_TRUE(input_file != NULL); std::vector data_read(sizeof(kuint8Array), 0); EXPECT_EQ(sizeof(kuint8Array), static_cast(input_file->Read( &data_read[0], data_read.size()))); ASSERT_TRUE(input_file->Close()); for (size_t i = 0; i < sizeof(kuint8Array); ++i) EXPECT_EQ(kuint8Array[i], data_read[i]); } } // namespace media } // namespace shaka