// Copyright 2015 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 #include #include #include "packager/base/bind.h" #include "packager/base/bind_helpers.h" #include "packager/base/threading/platform_thread.h" #include "packager/media/base/closure_thread.h" #include "packager/media/file/io_cache.h" namespace { const uint64_t kBlockSize = 256; const uint64_t kCacheSize = 16 * kBlockSize; } namespace shaka { namespace media { class IoCacheTest : public testing::Test { public: void WriteToCache(const std::vector& test_buffer, uint64_t num_writes, int sleep_between_writes, bool close_when_done) { for (uint64_t write_idx = 0; write_idx < num_writes; ++write_idx) { uint64_t write_result = cache_->Write(test_buffer.data(), test_buffer.size()); if (!write_result) { // Cache was closed. cache_closed_ = true; break; } EXPECT_EQ(test_buffer.size(), write_result); if (sleep_between_writes) { base::PlatformThread::Sleep( base::TimeDelta::FromMilliseconds(sleep_between_writes)); } } if (close_when_done) cache_->Close(); } protected: void SetUp() override { for (unsigned int idx = 0; idx < kBlockSize; ++idx) reference_block_[idx] = idx; cache_.reset(new IoCache(kCacheSize)); cache_closed_ = false; } void TearDown() override { WaitForWriterThread(); } void GenerateTestBuffer(uint64_t size, std::vector* test_buffer) { test_buffer->resize(size); uint8_t* w_ptr(test_buffer->data()); while (size) { uint64_t copy_size(std::min(size, kBlockSize)); memcpy(w_ptr, reference_block_, copy_size); w_ptr += copy_size; size -= copy_size; } } void WriteToCacheThreaded(const std::vector& test_buffer, uint64_t num_writes, int sleep_between_writes, bool close_when_done) { writer_thread_.reset(new ClosureThread("WriterThread", base::Bind( &IoCacheTest::WriteToCache, base::Unretained(this), test_buffer, num_writes, sleep_between_writes, close_when_done))); writer_thread_->Start(); } void WaitForWriterThread() { if (writer_thread_) { writer_thread_->Join(); writer_thread_.reset(); } } scoped_ptr cache_; scoped_ptr writer_thread_; uint8_t reference_block_[kBlockSize]; bool cache_closed_; }; TEST_F(IoCacheTest, VerySmallWrite) { const uint64_t kTestBytes(5); std::vector write_buffer; GenerateTestBuffer(kTestBytes, &write_buffer); WriteToCacheThreaded(write_buffer, 1, 0, false); std::vector read_buffer(kTestBytes); EXPECT_EQ(kTestBytes, cache_->Read(read_buffer.data(), kTestBytes)); EXPECT_EQ(write_buffer, read_buffer); } TEST_F(IoCacheTest, LotsOfAlignedBlocks) { const uint64_t kNumWrites(kCacheSize * 1000 / kBlockSize); std::vector write_buffer; GenerateTestBuffer(kBlockSize, &write_buffer); WriteToCacheThreaded(write_buffer, kNumWrites, 0, false); for (uint64_t num_reads = 0; num_reads < kNumWrites; ++num_reads) { std::vector read_buffer(kBlockSize); EXPECT_EQ(kBlockSize, cache_->Read(read_buffer.data(), kBlockSize)); EXPECT_EQ(write_buffer, read_buffer); } } TEST_F(IoCacheTest, LotsOfUnalignedBlocks) { const uint64_t kNumWrites(kCacheSize * 1000 / kBlockSize); const uint64_t kUnalignBlockSize(55); std::vector write_buffer1; GenerateTestBuffer(kUnalignBlockSize, &write_buffer1); WriteToCacheThreaded(write_buffer1, 1, 0, false); WaitForWriterThread(); std::vector write_buffer2; GenerateTestBuffer(kBlockSize, &write_buffer2); WriteToCacheThreaded(write_buffer2, kNumWrites, 0, false); std::vector read_buffer1(kUnalignBlockSize); EXPECT_EQ(kUnalignBlockSize, cache_->Read(read_buffer1.data(), kUnalignBlockSize)); EXPECT_EQ(write_buffer1, read_buffer1); std::vector verify_buffer; for (uint64_t idx = 0; idx < kNumWrites; ++idx) verify_buffer.insert(verify_buffer.end(), write_buffer2.begin(), write_buffer2.end()); uint64_t verify_index(0); while (verify_index < verify_buffer.size()) { std::vector read_buffer2(kBlockSize); uint64_t bytes_read = cache_->Read(read_buffer2.data(), kBlockSize); EXPECT_NE(0U, bytes_read); EXPECT_FALSE( memcmp(&verify_buffer[verify_index], read_buffer2.data(), bytes_read)); verify_index += bytes_read; } } TEST_F(IoCacheTest, SlowWrite) { const int kWriteDelayMs(50); const uint64_t kNumWrites(kCacheSize * 5 / kBlockSize); std::vector write_buffer; GenerateTestBuffer(kBlockSize, &write_buffer); WriteToCacheThreaded(write_buffer, kNumWrites, kWriteDelayMs, false); for (uint64_t num_reads = 0; num_reads < kNumWrites; ++num_reads) { std::vector read_buffer(kBlockSize); EXPECT_EQ(kBlockSize, cache_->Read(read_buffer.data(), kBlockSize)); EXPECT_EQ(write_buffer, read_buffer); } } TEST_F(IoCacheTest, SlowRead) { const int kReadDelayMs(50); const uint64_t kNumWrites(kCacheSize * 5 / kBlockSize); std::vector write_buffer; GenerateTestBuffer(kBlockSize, &write_buffer); WriteToCacheThreaded(write_buffer, kNumWrites, 0, false); for (uint64_t num_reads = 0; num_reads < kNumWrites; ++num_reads) { std::vector read_buffer(kBlockSize); EXPECT_EQ(kBlockSize, cache_->Read(read_buffer.data(), kBlockSize)); EXPECT_EQ(write_buffer, read_buffer); base::PlatformThread::Sleep( base::TimeDelta::FromMilliseconds(kReadDelayMs)); } } TEST_F(IoCacheTest, CloseByReader) { const uint64_t kNumWrites(kCacheSize * 1000 / kBlockSize); std::vector write_buffer; GenerateTestBuffer(kBlockSize, &write_buffer); WriteToCacheThreaded(write_buffer, kNumWrites, 0, false); while (cache_->BytesCached() < kCacheSize) { base::PlatformThread::Sleep( base::TimeDelta::FromMilliseconds(10)); } cache_->Close(); WaitForWriterThread(); EXPECT_TRUE(cache_closed_); } TEST_F(IoCacheTest, CloseByWriter) { uint8_t test_buffer[kBlockSize]; std::vector write_buffer; WriteToCacheThreaded(write_buffer, 0, 0, true); EXPECT_EQ(0U, cache_->Read(test_buffer, kBlockSize)); WaitForWriterThread(); } TEST_F(IoCacheTest, Reopen) { const uint64_t kTestBytes1(5); const uint64_t kTestBytes2(10); std::vector write_buffer; GenerateTestBuffer(kTestBytes1, &write_buffer); WriteToCacheThreaded(write_buffer, 1, 0, true); std::vector read_buffer(kTestBytes1); EXPECT_EQ(kTestBytes1, cache_->Read(read_buffer.data(), kTestBytes1)); EXPECT_EQ(write_buffer, read_buffer); WaitForWriterThread(); ASSERT_TRUE(cache_->closed()); cache_->Reopen(); ASSERT_FALSE(cache_->closed()); GenerateTestBuffer(kTestBytes2, &write_buffer); WriteToCacheThreaded(write_buffer, 1, 0, false); read_buffer.resize(kTestBytes2); EXPECT_EQ(kTestBytes2, cache_->Read(read_buffer.data(), kTestBytes2)); EXPECT_EQ(write_buffer, read_buffer); } TEST_F(IoCacheTest, SingleLargeWrite) { const uint64_t kTestBytes(kCacheSize * 10); std::vector write_buffer; GenerateTestBuffer(kTestBytes, &write_buffer); WriteToCacheThreaded(write_buffer, 1, 0, false); uint64_t bytes_read(0); std::vector read_buffer(kTestBytes); while (bytes_read < kTestBytes) { EXPECT_EQ(kBlockSize, cache_->Read(&read_buffer[bytes_read], kBlockSize)); bytes_read += kBlockSize; } EXPECT_EQ(write_buffer, read_buffer); } TEST_F(IoCacheTest, LargeRead) { const uint64_t kNumWrites(kCacheSize * 10 / kBlockSize); std::vector write_buffer; GenerateTestBuffer(kBlockSize, &write_buffer); WriteToCacheThreaded(write_buffer, kNumWrites, 0, false); std::vector verify_buffer; while (verify_buffer.size() < kCacheSize) { verify_buffer.insert(verify_buffer.end(), write_buffer.begin(), write_buffer.end()); } while (cache_->BytesCached() < kCacheSize) { base::PlatformThread::Sleep( base::TimeDelta::FromMilliseconds(10)); } std::vector read_buffer(kCacheSize); EXPECT_EQ(kCacheSize, cache_->Read(read_buffer.data(), kCacheSize)); EXPECT_EQ(verify_buffer, read_buffer); cache_->Close(); } } // namespace media } // namespace shaka