// Copyright 2012 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "media/base/decoder_buffer.h" #include #include #include #include "base/memory/read_only_shared_memory_region.h" #include "base/memory/unsafe_shared_memory_region.h" #include "base/strings/string_util.h" #include "build/build_config.h" #include "testing/gtest/include/gtest/gtest.h" namespace media { TEST(DecoderBufferTest, Constructors) { scoped_refptr buffer(new DecoderBuffer(0)); EXPECT_TRUE(buffer->data()); EXPECT_EQ(0u, buffer->data_size()); EXPECT_FALSE(buffer->end_of_stream()); EXPECT_FALSE(buffer->is_key_frame()); const size_t kTestSize = 10; scoped_refptr buffer3(new DecoderBuffer(kTestSize)); ASSERT_TRUE(buffer3.get()); EXPECT_EQ(kTestSize, buffer3->data_size()); } TEST(DecoderBufferTest, CreateEOSBuffer) { scoped_refptr buffer(DecoderBuffer::CreateEOSBuffer()); EXPECT_TRUE(buffer->end_of_stream()); } TEST(DecoderBufferTest, CopyFrom) { const uint8_t kData[] = "hello"; const size_t kDataSize = std::size(kData); scoped_refptr buffer2(DecoderBuffer::CopyFrom( reinterpret_cast(&kData), kDataSize)); ASSERT_TRUE(buffer2.get()); EXPECT_NE(kData, buffer2->data()); EXPECT_EQ(buffer2->data_size(), kDataSize); EXPECT_EQ(0, memcmp(buffer2->data(), kData, kDataSize)); EXPECT_FALSE(buffer2->end_of_stream()); EXPECT_FALSE(buffer2->is_key_frame()); scoped_refptr buffer3(DecoderBuffer::CopyFrom( reinterpret_cast(&kData), kDataSize, reinterpret_cast(&kData), kDataSize)); ASSERT_TRUE(buffer3.get()); EXPECT_NE(kData, buffer3->data()); EXPECT_EQ(buffer3->data_size(), kDataSize); EXPECT_EQ(0, memcmp(buffer3->data(), kData, kDataSize)); EXPECT_NE(kData, buffer3->side_data()); EXPECT_EQ(buffer3->side_data_size(), kDataSize); EXPECT_EQ(0, memcmp(buffer3->side_data(), kData, kDataSize)); EXPECT_FALSE(buffer3->end_of_stream()); EXPECT_FALSE(buffer3->is_key_frame()); } TEST(DecoderBufferTest, FromArray) { const uint8_t kData[] = "hello"; const size_t kDataSize = std::size(kData); auto ptr = std::make_unique(kDataSize); memcpy(ptr.get(), kData, kDataSize); scoped_refptr buffer( DecoderBuffer::FromArray(std::move(ptr), kDataSize)); ASSERT_TRUE(buffer.get()); EXPECT_EQ(buffer->data_size(), kDataSize); EXPECT_EQ(0, memcmp(buffer->data(), kData, kDataSize)); EXPECT_FALSE(buffer->end_of_stream()); EXPECT_FALSE(buffer->is_key_frame()); } TEST(DecoderBufferTest, FromPlatformSharedMemoryRegion) { const uint8_t kData[] = "hello"; const size_t kDataSize = std::size(kData); auto region = base::UnsafeSharedMemoryRegion::Create(kDataSize); auto mapping = region.Map(); ASSERT_TRUE(mapping.IsValid()); memcpy(mapping.GetMemoryAs(), kData, kDataSize); scoped_refptr buffer( DecoderBuffer::FromSharedMemoryRegion(std::move(region), 0, kDataSize)); ASSERT_TRUE(buffer.get()); EXPECT_EQ(buffer->data_size(), kDataSize); EXPECT_EQ(0, memcmp(buffer->data(), kData, kDataSize)); EXPECT_FALSE(buffer->end_of_stream()); EXPECT_FALSE(buffer->is_key_frame()); } TEST(DecoderBufferTest, FromPlatformSharedMemoryRegion_Unaligned) { const uint8_t kData[] = "XXXhello"; const size_t kDataSize = std::size(kData); const off_t kDataOffset = 3; auto region = base::UnsafeSharedMemoryRegion::Create(kDataSize); auto mapping = region.Map(); ASSERT_TRUE(mapping.IsValid()); memcpy(mapping.GetMemoryAs(), kData, kDataSize); scoped_refptr buffer(DecoderBuffer::FromSharedMemoryRegion( std::move(region), kDataOffset, kDataSize - kDataOffset)); ASSERT_TRUE(buffer.get()); EXPECT_EQ(buffer->data_size(), kDataSize - kDataOffset); EXPECT_EQ( 0, memcmp(buffer->data(), kData + kDataOffset, kDataSize - kDataOffset)); EXPECT_FALSE(buffer->end_of_stream()); EXPECT_FALSE(buffer->is_key_frame()); } TEST(DecoderBufferTest, FromPlatformSharedMemoryRegion_ZeroSize) { const uint8_t kData[] = "hello"; const size_t kDataSize = std::size(kData); auto region = base::UnsafeSharedMemoryRegion::Create(kDataSize); auto mapping = region.Map(); ASSERT_TRUE(mapping.IsValid()); memcpy(mapping.memory(), kData, kDataSize); scoped_refptr buffer( DecoderBuffer::FromSharedMemoryRegion(std::move(region), 0, 0)); ASSERT_FALSE(buffer.get()); } TEST(DecoderBufferTest, FromSharedMemoryRegion) { const uint8_t kData[] = "hello"; const size_t kDataSize = std::size(kData); auto mapping_region = base::ReadOnlySharedMemoryRegion::Create(kDataSize); ASSERT_TRUE(mapping_region.IsValid()); memcpy(mapping_region.mapping.GetMemoryAs(), kData, kDataSize); scoped_refptr buffer(DecoderBuffer::FromSharedMemoryRegion( std::move(mapping_region.region), 0, kDataSize)); ASSERT_TRUE(buffer.get()); EXPECT_EQ(buffer->data_size(), kDataSize); EXPECT_EQ(0, memcmp(buffer->data(), kData, kDataSize)); EXPECT_FALSE(buffer->end_of_stream()); EXPECT_FALSE(buffer->is_key_frame()); } TEST(DecoderBufferTest, FromSharedMemoryRegion_Unaligned) { const uint8_t kData[] = "XXXhello"; const size_t kDataSize = std::size(kData); const off_t kDataOffset = 3; auto mapping_region = base::ReadOnlySharedMemoryRegion::Create(kDataSize); ASSERT_TRUE(mapping_region.IsValid()); memcpy(mapping_region.mapping.GetMemoryAs(), kData, kDataSize); scoped_refptr buffer(DecoderBuffer::FromSharedMemoryRegion( std::move(mapping_region.region), kDataOffset, kDataSize - kDataOffset)); ASSERT_TRUE(buffer.get()); EXPECT_EQ(buffer->data_size(), kDataSize - kDataOffset); EXPECT_EQ( 0, memcmp(buffer->data(), kData + kDataOffset, kDataSize - kDataOffset)); EXPECT_FALSE(buffer->end_of_stream()); EXPECT_FALSE(buffer->is_key_frame()); } TEST(DecoderBufferTest, FromSharedMemoryRegion_ZeroSize) { const uint8_t kData[] = "hello"; const size_t kDataSize = std::size(kData); auto mapping_region = base::ReadOnlySharedMemoryRegion::Create(kDataSize); memcpy(mapping_region.mapping.GetMemoryAs(), kData, kDataSize); scoped_refptr buffer(DecoderBuffer::FromSharedMemoryRegion( std::move(mapping_region.region), 0, 0)); ASSERT_FALSE(buffer.get()); } TEST(DecoderBufferTest, ReadingWriting) { const char kData[] = "hello"; const size_t kDataSize = std::size(kData); scoped_refptr buffer(new DecoderBuffer(kDataSize)); ASSERT_TRUE(buffer.get()); uint8_t* data = buffer->writable_data(); ASSERT_TRUE(data); ASSERT_EQ(kDataSize, buffer->data_size()); memcpy(data, kData, kDataSize); const uint8_t* read_only_data = buffer->data(); ASSERT_EQ(data, read_only_data); ASSERT_EQ(0, memcmp(read_only_data, kData, kDataSize)); EXPECT_FALSE(buffer->end_of_stream()); } TEST(DecoderBufferTest, DecryptConfig) { scoped_refptr buffer(new DecoderBuffer(0)); EXPECT_FALSE(buffer->decrypt_config()); const char kKeyId[] = "key id"; const char kIv[] = "0123456789abcdef"; std::vector subsamples; subsamples.push_back(SubsampleEntry(10, 5)); subsamples.push_back(SubsampleEntry(15, 7)); std::unique_ptr decrypt_config = DecryptConfig::CreateCencConfig(kKeyId, kIv, subsamples); buffer->set_decrypt_config( DecryptConfig::CreateCencConfig(kKeyId, kIv, subsamples)); EXPECT_TRUE(buffer->decrypt_config()); EXPECT_TRUE(buffer->decrypt_config()->Matches(*decrypt_config)); } TEST(DecoderBufferTest, IsKeyFrame) { scoped_refptr buffer(new DecoderBuffer(0)); EXPECT_FALSE(buffer->is_key_frame()); buffer->set_is_key_frame(false); EXPECT_FALSE(buffer->is_key_frame()); buffer->set_is_key_frame(true); EXPECT_TRUE(buffer->is_key_frame()); } } // namespace media