ref: 320fb4c34a6d6bed560fbe564e7e1eae328be100
dir: /test/vp9_thread_test.cc/
/* * Copyright (c) 2013 The WebM project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include <string> #include "third_party/googletest/src/include/gtest/gtest.h" #include "./vpx_config.h" #include "test/codec_factory.h" #include "test/decode_test_driver.h" #include "test/md5_helper.h" #if CONFIG_WEBM_IO #include "test/webm_video_source.h" #endif #include "vpx_util/vpx_thread.h" namespace { using std::string; class VPxWorkerThreadTest : public ::testing::TestWithParam<bool> { protected: virtual ~VPxWorkerThreadTest() {} virtual void SetUp() { vpx_get_worker_interface()->init(&worker_); } virtual void TearDown() { vpx_get_worker_interface()->end(&worker_); } void Run(VPxWorker *worker) { const bool synchronous = GetParam(); if (synchronous) { vpx_get_worker_interface()->execute(worker); } else { vpx_get_worker_interface()->launch(worker); } } VPxWorker worker_; }; int ThreadHook(void *data, void *return_value) { int *const hook_data = reinterpret_cast<int *>(data); *hook_data = 5; return *reinterpret_cast<int *>(return_value); } TEST_P(VPxWorkerThreadTest, HookSuccess) { // should be a no-op. EXPECT_NE(vpx_get_worker_interface()->sync(&worker_), 0); for (int i = 0; i < 2; ++i) { EXPECT_NE(vpx_get_worker_interface()->reset(&worker_), 0); int hook_data = 0; int return_value = 1; // return successfully from the hook worker_.hook = ThreadHook; worker_.data1 = &hook_data; worker_.data2 = &return_value; Run(&worker_); EXPECT_NE(vpx_get_worker_interface()->sync(&worker_), 0); EXPECT_FALSE(worker_.had_error); EXPECT_EQ(5, hook_data); // should be a no-op. EXPECT_NE(vpx_get_worker_interface()->sync(&worker_), 0); } } TEST_P(VPxWorkerThreadTest, HookFailure) { EXPECT_NE(vpx_get_worker_interface()->reset(&worker_), 0); int hook_data = 0; int return_value = 0; // return failure from the hook worker_.hook = ThreadHook; worker_.data1 = &hook_data; worker_.data2 = &return_value; Run(&worker_); EXPECT_FALSE(vpx_get_worker_interface()->sync(&worker_)); EXPECT_EQ(1, worker_.had_error); // Ensure _reset() clears the error and _launch() can be called again. return_value = 1; EXPECT_NE(vpx_get_worker_interface()->reset(&worker_), 0); EXPECT_FALSE(worker_.had_error); vpx_get_worker_interface()->launch(&worker_); EXPECT_NE(vpx_get_worker_interface()->sync(&worker_), 0); EXPECT_FALSE(worker_.had_error); } TEST_P(VPxWorkerThreadTest, EndWithoutSync) { // Create a large number of threads to increase the chances of detecting a // race. Doing more work in the hook is no guarantee as any race would occur // post hook execution in the main thread loop driver. static const int kNumWorkers = 64; VPxWorker workers[kNumWorkers]; int hook_data[kNumWorkers]; int return_value[kNumWorkers]; for (int n = 0; n < kNumWorkers; ++n) { vpx_get_worker_interface()->init(&workers[n]); return_value[n] = 1; // return successfully from the hook workers[n].hook = ThreadHook; workers[n].data1 = &hook_data[n]; workers[n].data2 = &return_value[n]; } for (int i = 0; i < 2; ++i) { for (int n = 0; n < kNumWorkers; ++n) { EXPECT_NE(vpx_get_worker_interface()->reset(&workers[n]), 0); hook_data[n] = 0; } for (int n = 0; n < kNumWorkers; ++n) { Run(&workers[n]); } for (int n = kNumWorkers - 1; n >= 0; --n) { vpx_get_worker_interface()->end(&workers[n]); } } } TEST(VPxWorkerThreadTest, TestInterfaceAPI) { EXPECT_EQ(0, vpx_set_worker_interface(NULL)); EXPECT_TRUE(vpx_get_worker_interface() != NULL); for (int i = 0; i < 6; ++i) { VPxWorkerInterface winterface = *vpx_get_worker_interface(); switch (i) { default: case 0: winterface.init = NULL; break; case 1: winterface.reset = NULL; break; case 2: winterface.sync = NULL; break; case 3: winterface.launch = NULL; break; case 4: winterface.execute = NULL; break; case 5: winterface.end = NULL; break; } EXPECT_EQ(0, vpx_set_worker_interface(&winterface)); } } // ----------------------------------------------------------------------------- // Multi-threaded decode tests #if CONFIG_WEBM_IO struct FileList { const char *name; const char *expected_md5; }; // Decodes |filename| with |num_threads|. Returns the md5 of the decoded frames. string DecodeFile(const string &filename, int num_threads) { libvpx_test::WebMVideoSource video(filename); video.Init(); vpx_codec_dec_cfg_t cfg = vpx_codec_dec_cfg_t(); cfg.threads = num_threads; libvpx_test::VP9Decoder decoder(cfg, 0); libvpx_test::MD5 md5; for (video.Begin(); video.cxdata(); video.Next()) { const vpx_codec_err_t res = decoder.DecodeFrame(video.cxdata(), video.frame_size()); if (res != VPX_CODEC_OK) { EXPECT_EQ(VPX_CODEC_OK, res) << decoder.DecodeError(); break; } libvpx_test::DxDataIterator dec_iter = decoder.GetDxData(); const vpx_image_t *img = NULL; // Get decompressed data while ((img = dec_iter.Next())) { md5.Add(img); } } return string(md5.Get()); } void DecodeFiles(const FileList files[]) { for (const FileList *iter = files; iter->name != NULL; ++iter) { SCOPED_TRACE(iter->name); for (int t = 1; t <= 8; ++t) { EXPECT_EQ(iter->expected_md5, DecodeFile(iter->name, t)) << "threads = " << t; } } } // Trivial serialized thread worker interface implementation. // Note any worker that requires synchronization between other workers will // hang. namespace impl { namespace { void Init(VPxWorker *const worker) { memset(worker, 0, sizeof(*worker)); } int Reset(VPxWorker *const /*worker*/) { return 1; } int Sync(VPxWorker *const worker) { return !worker->had_error; } void Execute(VPxWorker *const worker) { worker->had_error |= !worker->hook(worker->data1, worker->data2); } void Launch(VPxWorker *const worker) { Execute(worker); } void End(VPxWorker *const /*worker*/) {} } // namespace } // namespace impl TEST(VPxWorkerThreadTest, TestSerialInterface) { static const VPxWorkerInterface serial_interface = { impl::Init, impl::Reset, impl::Sync, impl::Launch, impl::Execute, impl::End }; // TODO(jzern): Avoid using a file that will use the row-based thread // loopfilter, with the simple serialized implementation it will hang. This is // due to its expectation that rows will be run in parallel as they wait on // progress in the row above before proceeding. static const char expected_md5[] = "b35a1b707b28e82be025d960aba039bc"; static const char filename[] = "vp90-2-03-size-226x226.webm"; VPxWorkerInterface default_interface = *vpx_get_worker_interface(); EXPECT_NE(vpx_set_worker_interface(&serial_interface), 0); EXPECT_EQ(expected_md5, DecodeFile(filename, 2)); // Reset the interface. EXPECT_NE(vpx_set_worker_interface(&default_interface), 0); EXPECT_EQ(expected_md5, DecodeFile(filename, 2)); } TEST(VP9DecodeMultiThreadedTest, NoTilesNonFrameParallel) { // no tiles or frame parallel; this exercises loop filter threading. EXPECT_EQ("b35a1b707b28e82be025d960aba039bc", DecodeFile("vp90-2-03-size-226x226.webm", 2)); } TEST(VP9DecodeMultiThreadedTest, FrameParallel) { static const FileList files[] = { { "vp90-2-08-tile_1x2_frame_parallel.webm", "68ede6abd66bae0a2edf2eb9232241b6" }, { "vp90-2-08-tile_1x4_frame_parallel.webm", "368ebc6ebf3a5e478d85b2c3149b2848" }, { "vp90-2-08-tile_1x8_frame_parallel.webm", "17e439da2388aff3a0f69cb22579c6c1" }, { NULL, NULL } }; DecodeFiles(files); } TEST(VP9DecodeMultiThreadedTest, FrameParallelResize) { static const FileList files[] = { { "vp90-2-14-resize-fp-tiles-1-16.webm", "0cd5e632c326297e975f38949c31ea94" }, { "vp90-2-14-resize-fp-tiles-1-2-4-8-16.webm", "5c78a96a42e7f4a4f6b2edcdb791e44c" }, { "vp90-2-14-resize-fp-tiles-1-2.webm", "e030450ae85c3277be2a418769df98e2" }, { "vp90-2-14-resize-fp-tiles-1-4.webm", "312eed4e2b64eb7a4e7f18916606a430" }, { "vp90-2-14-resize-fp-tiles-16-1.webm", "1755c16d8af16a9cb3fe7338d90abe52" }, { "vp90-2-14-resize-fp-tiles-16-2.webm", "500300592d3fcb6f12fab25e48aaf4df" }, { "vp90-2-14-resize-fp-tiles-16-4.webm", "47c48379fa6331215d91c67648e1af6e" }, { "vp90-2-14-resize-fp-tiles-16-8-4-2-1.webm", "eecf17290739bc708506fa4827665989" }, { "vp90-2-14-resize-fp-tiles-16-8.webm", "29b6bb54e4c26b5ca85d5de5fed94e76" }, { "vp90-2-14-resize-fp-tiles-1-8.webm", "1b6f175e08cd82cf84bb800ac6d1caa3" }, { "vp90-2-14-resize-fp-tiles-2-16.webm", "ca3b03e4197995d8d5444ede7a6c0804" }, { "vp90-2-14-resize-fp-tiles-2-1.webm", "99aec065369d70bbb78ccdff65afed3f" }, { "vp90-2-14-resize-fp-tiles-2-4.webm", "22d0ebdb49b87d2920a85aea32e1afd5" }, { "vp90-2-14-resize-fp-tiles-2-8.webm", "c2115cf051c62e0f7db1d4a783831541" }, { "vp90-2-14-resize-fp-tiles-4-16.webm", "c690d7e1719b31367564cac0af0939cb" }, { "vp90-2-14-resize-fp-tiles-4-1.webm", "a926020b2cc3e15ad4cc271853a0ff26" }, { "vp90-2-14-resize-fp-tiles-4-2.webm", "42699063d9e581f1993d0cf890c2be78" }, { "vp90-2-14-resize-fp-tiles-4-8.webm", "7f76d96036382f45121e3d5aa6f8ec52" }, { "vp90-2-14-resize-fp-tiles-8-16.webm", "76a43fcdd7e658542913ea43216ec55d" }, { "vp90-2-14-resize-fp-tiles-8-1.webm", "8e3fbe89486ca60a59299dea9da91378" }, { "vp90-2-14-resize-fp-tiles-8-2.webm", "ae96f21f21b6370cc0125621b441fc52" }, { "vp90-2-14-resize-fp-tiles-8-4.webm", "3eb4f24f10640d42218f7fd7b9fd30d4" }, { NULL, NULL } }; DecodeFiles(files); } TEST(VP9DecodeMultiThreadedTest, NonFrameParallel) { static const FileList files[] = { { "vp90-2-08-tile_1x2.webm", "570b4a5d5a70d58b5359671668328a16" }, { "vp90-2-08-tile_1x4.webm", "988d86049e884c66909d2d163a09841a" }, { "vp90-2-08-tile_1x8.webm", "0941902a52e9092cb010905eab16364c" }, { "vp90-2-08-tile-4x1.webm", "06505aade6647c583c8e00a2f582266f" }, { "vp90-2-08-tile-4x4.webm", "85c2299892460d76e2c600502d52bfe2" }, { NULL, NULL } }; DecodeFiles(files); } #endif // CONFIG_WEBM_IO INSTANTIATE_TEST_CASE_P(Synchronous, VPxWorkerThreadTest, ::testing::Bool()); } // namespace