/* * Copyright (c) 2012 The WebRTC 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 "webrtc/modules/audio_coding/main/test/TestStereo.h" #include #include #include "gtest/gtest.h" #include "webrtc/common_types.h" #include "webrtc/engine_configurations.h" #include "webrtc/modules/audio_coding/main/interface/audio_coding_module_typedefs.h" #include "webrtc/modules/audio_coding/main/test/utility.h" #include "webrtc/system_wrappers/interface/trace.h" #include "webrtc/test/testsupport/fileutils.h" namespace webrtc { // Class for simulating packet handling TestPackStereo::TestPackStereo() : receiver_acm_(NULL), seq_no_(0), timestamp_diff_(0), last_in_timestamp_(0), total_bytes_(0), payload_size_(0), codec_mode_(kNotSet), lost_packet_(false) { } TestPackStereo::~TestPackStereo() { } void TestPackStereo::RegisterReceiverACM(AudioCodingModule* acm) { receiver_acm_ = acm; return; } int32_t TestPackStereo::SendData(const FrameType frame_type, const uint8_t payload_type, const uint32_t timestamp, const uint8_t* payload_data, const uint16_t payload_size, const RTPFragmentationHeader* fragmentation) { WebRtcRTPHeader rtp_info; int32_t status = 0; rtp_info.header.markerBit = false; rtp_info.header.ssrc = 0; rtp_info.header.sequenceNumber = seq_no_++; rtp_info.header.payloadType = payload_type; rtp_info.header.timestamp = timestamp; if (frame_type == kFrameEmpty) { // Skip this frame return 0; } if (lost_packet_ == false) { if (frame_type != kAudioFrameCN) { rtp_info.type.Audio.isCNG = false; rtp_info.type.Audio.channel = static_cast(codec_mode_); } else { rtp_info.type.Audio.isCNG = true; rtp_info.type.Audio.channel = static_cast(kMono); } status = receiver_acm_->IncomingPacket(payload_data, payload_size, rtp_info); if (frame_type != kAudioFrameCN) { payload_size_ = static_cast(payload_size); } else { payload_size_ = -1; } timestamp_diff_ = timestamp - last_in_timestamp_; last_in_timestamp_ = timestamp; total_bytes_ += payload_size; } return status; } uint16_t TestPackStereo::payload_size() { return static_cast(payload_size_); } uint32_t TestPackStereo::timestamp_diff() { return timestamp_diff_; } void TestPackStereo::reset_payload_size() { payload_size_ = 0; } void TestPackStereo::set_codec_mode(enum StereoMonoMode mode) { codec_mode_ = mode; } void TestPackStereo::set_lost_packet(bool lost) { lost_packet_ = lost; } TestStereo::TestStereo(int test_mode) : acm_a_(AudioCodingModule::Create(0)), acm_b_(AudioCodingModule::Create(1)), channel_a2b_(NULL), test_cntr_(0), pack_size_samp_(0), pack_size_bytes_(0), counter_(0), g722_pltype_(0), l16_8khz_pltype_(-1), l16_16khz_pltype_(-1), l16_32khz_pltype_(-1), pcma_pltype_(-1), pcmu_pltype_(-1), celt_pltype_(-1), opus_pltype_(-1), cn_8khz_pltype_(-1), cn_16khz_pltype_(-1), cn_32khz_pltype_(-1) { // test_mode = 0 for silent test (auto test) test_mode_ = test_mode; } TestStereo::~TestStereo() { if (channel_a2b_ != NULL) { delete channel_a2b_; channel_a2b_ = NULL; } } void TestStereo::Perform() { uint16_t frequency_hz; int audio_channels; int codec_channels; bool dtx; bool vad; ACMVADMode vad_mode; // Open both mono and stereo test files in 32 kHz. const std::string file_name_stereo = webrtc::test::ResourcePath( "audio_coding/teststereo32kHz", "pcm"); const std::string file_name_mono = webrtc::test::ResourcePath( "audio_coding/testfile32kHz", "pcm"); frequency_hz = 32000; in_file_stereo_ = new PCMFile(); in_file_mono_ = new PCMFile(); in_file_stereo_->Open(file_name_stereo, frequency_hz, "rb"); in_file_stereo_->ReadStereo(true); in_file_mono_->Open(file_name_mono, frequency_hz, "rb"); in_file_mono_->ReadStereo(false); // Create and initialize two ACMs, one for each side of a one-to-one call. ASSERT_TRUE((acm_a_.get() != NULL) && (acm_b_.get() != NULL)); EXPECT_EQ(0, acm_a_->InitializeReceiver()); EXPECT_EQ(0, acm_b_->InitializeReceiver()); // Register all available codes as receiving codecs. uint8_t num_encoders = acm_a_->NumberOfCodecs(); CodecInst my_codec_param; for (uint8_t n = 0; n < num_encoders; n++) { EXPECT_EQ(0, acm_b_->Codec(n, &my_codec_param)); EXPECT_EQ(0, acm_b_->RegisterReceiveCodec(my_codec_param)); } // Test that unregister all receive codecs works. for (uint8_t n = 0; n < num_encoders; n++) { EXPECT_EQ(0, acm_b_->Codec(n, &my_codec_param)); EXPECT_EQ(0, acm_b_->UnregisterReceiveCodec(my_codec_param.pltype)); } // Register all available codes as receiving codecs once more. for (uint8_t n = 0; n < num_encoders; n++) { EXPECT_EQ(0, acm_b_->Codec(n, &my_codec_param)); EXPECT_EQ(0, acm_b_->RegisterReceiveCodec(my_codec_param)); } // Create and connect the channel. channel_a2b_ = new TestPackStereo; EXPECT_EQ(0, acm_a_->RegisterTransportCallback(channel_a2b_)); channel_a2b_->RegisterReceiverACM(acm_b_.get()); // Start with setting VAD/DTX, before we know we will send stereo. // Continue with setting a stereo codec as send codec and verify that // VAD/DTX gets turned off. EXPECT_EQ(0, acm_a_->SetVAD(true, true, VADNormal)); EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode)); EXPECT_TRUE(dtx); EXPECT_TRUE(vad); char codec_pcma_temp[] = "PCMA"; RegisterSendCodec('A', codec_pcma_temp, 8000, 64000, 80, 2, pcma_pltype_); EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode)); EXPECT_FALSE(dtx); EXPECT_FALSE(vad); if (test_mode_ != 0) { printf("\n"); } // // Test Stereo-To-Stereo for all codecs. // audio_channels = 2; codec_channels = 2; // All codecs are tested for all allowed sampling frequencies, rates and // packet sizes. #ifdef WEBRTC_CODEC_G722 if (test_mode_ != 0) { printf("===========================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-stereo\n"); } channel_a2b_->set_codec_mode(kStereo); test_cntr_++; OpenOutFile(test_cntr_); char codec_g722[] = "G722"; RegisterSendCodec('A', codec_g722, 16000, 64000, 160, codec_channels, g722_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_g722, 16000, 64000, 320, codec_channels, g722_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_g722, 16000, 64000, 480, codec_channels, g722_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_g722, 16000, 64000, 640, codec_channels, g722_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_g722, 16000, 64000, 800, codec_channels, g722_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_g722, 16000, 64000, 960, codec_channels, g722_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef WEBRTC_CODEC_PCM16 if (test_mode_ != 0) { printf("===========================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-stereo\n"); } channel_a2b_->set_codec_mode(kStereo); test_cntr_++; OpenOutFile(test_cntr_); char codec_l16[] = "L16"; RegisterSendCodec('A', codec_l16, 8000, 128000, 80, codec_channels, l16_8khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_l16, 8000, 128000, 160, codec_channels, l16_8khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_l16, 8000, 128000, 240, codec_channels, l16_8khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_l16, 8000, 128000, 320, codec_channels, l16_8khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); if (test_mode_ != 0) { printf("===========================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-stereo\n"); } test_cntr_++; OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_l16, 16000, 256000, 160, codec_channels, l16_16khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_l16, 16000, 256000, 320, codec_channels, l16_16khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_l16, 16000, 256000, 480, codec_channels, l16_16khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_l16, 16000, 256000, 640, codec_channels, l16_16khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); if (test_mode_ != 0) { printf("===========================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-stereo\n"); } test_cntr_++; OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_l16, 32000, 512000, 320, codec_channels, l16_32khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_l16, 32000, 512000, 640, codec_channels, l16_32khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #define PCMA_AND_PCMU #ifdef PCMA_AND_PCMU if (test_mode_ != 0) { printf("===========================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-stereo\n"); } channel_a2b_->set_codec_mode(kStereo); audio_channels = 2; codec_channels = 2; test_cntr_++; OpenOutFile(test_cntr_); char codec_pcma[] = "PCMA"; RegisterSendCodec('A', codec_pcma, 8000, 64000, 80, codec_channels, pcma_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcma, 8000, 64000, 160, codec_channels, pcma_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcma, 8000, 64000, 240, codec_channels, pcma_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcma, 8000, 64000, 320, codec_channels, pcma_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcma, 8000, 64000, 400, codec_channels, pcma_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcma, 8000, 64000, 480, codec_channels, pcma_pltype_); Run(channel_a2b_, audio_channels, codec_channels); // Test that VAD/DTX cannot be turned on while sending stereo. EXPECT_EQ(-1, acm_a_->SetVAD(true, true, VADNormal)); EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode)); EXPECT_FALSE(dtx); EXPECT_FALSE(vad); EXPECT_EQ(-1, acm_a_->SetVAD(true, false, VADNormal)); EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode)); EXPECT_FALSE(dtx); EXPECT_FALSE(vad); EXPECT_EQ(-1, acm_a_->SetVAD(false, true, VADNormal)); EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode)); EXPECT_FALSE(dtx); EXPECT_FALSE(vad); EXPECT_EQ(0, acm_a_->SetVAD(false, false, VADNormal)); EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode)); EXPECT_FALSE(dtx); EXPECT_FALSE(vad); out_file_.Close(); if (test_mode_ != 0) { printf("===========================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-stereo\n"); } test_cntr_++; OpenOutFile(test_cntr_); char codec_pcmu[] = "PCMU"; RegisterSendCodec('A', codec_pcmu, 8000, 64000, 80, codec_channels, pcmu_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcmu, 8000, 64000, 160, codec_channels, pcmu_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcmu, 8000, 64000, 240, codec_channels, pcmu_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcmu, 8000, 64000, 320, codec_channels, pcmu_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcmu, 8000, 64000, 400, codec_channels, pcmu_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcmu, 8000, 64000, 480, codec_channels, pcmu_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef WEBRTC_CODEC_CELT if (test_mode_ != 0) { printf("===========================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-stereo\n"); } channel_a2b_->set_codec_mode(kStereo); audio_channels = 2; codec_channels = 2; test_cntr_++; OpenOutFile(test_cntr_); char codec_celt[] = "CELT"; RegisterSendCodec('A', codec_celt, 32000, 48000, 640, codec_channels, celt_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_celt, 32000, 64000, 640, codec_channels, celt_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_celt, 32000, 128000, 640, codec_channels, celt_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef WEBRTC_CODEC_OPUS if (test_mode_ != 0) { printf("===========================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-stereo\n"); } channel_a2b_->set_codec_mode(kStereo); audio_channels = 2; codec_channels = 2; test_cntr_++; OpenOutFile(test_cntr_); char codec_opus[] = "opus"; // Run Opus with 10 ms frame size. RegisterSendCodec('A', codec_opus, 48000, 64000, 480, codec_channels, opus_pltype_); Run(channel_a2b_, audio_channels, codec_channels); // Run Opus with 20 ms frame size. RegisterSendCodec('A', codec_opus, 48000, 64000, 480*2, codec_channels, opus_pltype_); Run(channel_a2b_, audio_channels, codec_channels); // Run Opus with 40 ms frame size. RegisterSendCodec('A', codec_opus, 48000, 64000, 480*4, codec_channels, opus_pltype_); Run(channel_a2b_, audio_channels, codec_channels); // Run Opus with 60 ms frame size. RegisterSendCodec('A', codec_opus, 48000, 64000, 480*6, codec_channels, opus_pltype_); Run(channel_a2b_, audio_channels, codec_channels); // Run Opus with 20 ms frame size and different bitrates. RegisterSendCodec('A', codec_opus, 48000, 40000, 960, codec_channels, opus_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_opus, 48000, 510000, 960, codec_channels, opus_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif // // Test Mono-To-Stereo for all codecs. // audio_channels = 1; codec_channels = 2; #ifdef WEBRTC_CODEC_G722 if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Mono-to-stereo\n"); } test_cntr_++; channel_a2b_->set_codec_mode(kStereo); OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_g722, 16000, 64000, 160, codec_channels, g722_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef WEBRTC_CODEC_PCM16 if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Mono-to-stereo\n"); } test_cntr_++; channel_a2b_->set_codec_mode(kStereo); OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_l16, 8000, 128000, 80, codec_channels, l16_8khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Mono-to-stereo\n"); } test_cntr_++; OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_l16, 16000, 256000, 160, codec_channels, l16_16khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Mono-to-stereo\n"); } test_cntr_++; OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_l16, 32000, 512000, 320, codec_channels, l16_32khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef PCMA_AND_PCMU if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Mono-to-stereo\n"); } test_cntr_++; channel_a2b_->set_codec_mode(kStereo); OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_pcmu, 8000, 64000, 80, codec_channels, pcmu_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcma, 8000, 64000, 80, codec_channels, pcma_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef WEBRTC_CODEC_CELT if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Mono-to-stereo\n"); } test_cntr_++; channel_a2b_->set_codec_mode(kStereo); OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_celt, 32000, 64000, 640, codec_channels, celt_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef WEBRTC_CODEC_OPUS if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Mono-to-stereo\n"); } // Keep encode and decode in stereo. test_cntr_++; channel_a2b_->set_codec_mode(kStereo); OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_opus, 48000, 64000, 960, codec_channels, opus_pltype_); Run(channel_a2b_, audio_channels, codec_channels); // Encode in mono, decode in stereo mode. RegisterSendCodec('A', codec_opus, 48000, 64000, 960, 1, opus_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif // // Test Stereo-To-Mono for all codecs. // audio_channels = 2; codec_channels = 1; channel_a2b_->set_codec_mode(kMono); #ifdef WEBRTC_CODEC_G722 // Run stereo audio and mono codec. if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-mono\n"); } test_cntr_++; OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_g722, 16000, 64000, 160, codec_channels, g722_pltype_); // Make sure it is possible to set VAD/CNG, now that we are sending mono // again. EXPECT_EQ(0, acm_a_->SetVAD(true, true, VADNormal)); EXPECT_EQ(0, acm_a_->VAD(&dtx, &vad, &vad_mode)); EXPECT_TRUE(dtx); EXPECT_TRUE(vad); EXPECT_EQ(0, acm_a_->SetVAD(false, false, VADNormal)); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef WEBRTC_CODEC_PCM16 if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-mono\n"); } test_cntr_++; OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_l16, 8000, 128000, 80, codec_channels, l16_8khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-mono\n"); } test_cntr_++; OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_l16, 16000, 256000, 160, codec_channels, l16_16khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); if (test_mode_ != 0) { printf("==============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-mono\n"); } test_cntr_++; OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_l16, 32000, 512000, 320, codec_channels, l16_32khz_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef PCMA_AND_PCMU if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-mono\n"); } test_cntr_++; OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_pcmu, 8000, 64000, 80, codec_channels, pcmu_pltype_); Run(channel_a2b_, audio_channels, codec_channels); RegisterSendCodec('A', codec_pcma, 8000, 64000, 80, codec_channels, pcma_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef WEBRTC_CODEC_CELT if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-mono\n"); } test_cntr_++; OpenOutFile(test_cntr_); RegisterSendCodec('A', codec_celt, 32000, 64000, 640, codec_channels, celt_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif #ifdef WEBRTC_CODEC_OPUS if (test_mode_ != 0) { printf("===============================================================\n"); printf("Test number: %d\n", test_cntr_ + 1); printf("Test type: Stereo-to-mono\n"); } test_cntr_++; OpenOutFile(test_cntr_); // Encode and decode in mono. RegisterSendCodec('A', codec_opus, 48000, 32000, 960, codec_channels, opus_pltype_); CodecInst opus_codec_param; for (uint8_t n = 0; n < num_encoders; n++) { EXPECT_EQ(0, acm_b_->Codec(n, &opus_codec_param)); if (!strcmp(opus_codec_param.plname, "opus")) { opus_codec_param.channels = 1; EXPECT_EQ(0, acm_b_->RegisterReceiveCodec(opus_codec_param)); break; } } Run(channel_a2b_, audio_channels, codec_channels); // Encode in stereo, decode in mono. RegisterSendCodec('A', codec_opus, 48000, 32000, 960, 2, opus_pltype_); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); // Test switching between decoding mono and stereo for Opus. // Decode in mono. test_cntr_++; OpenOutFile(test_cntr_); if (test_mode_ != 0) { // Print out codec and settings printf("Test number: %d\nCodec: Opus Freq: 48000 Rate :32000 PackSize: 960" " Decode: mono\n", test_cntr_); } Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); // Decode in stereo. test_cntr_++; OpenOutFile(test_cntr_); if (test_mode_ != 0) { // Print out codec and settings printf("Test number: %d\nCodec: Opus Freq: 48000 Rate :32000 PackSize: 960" " Decode: stereo\n", test_cntr_); } opus_codec_param.channels = 2; EXPECT_EQ(0, acm_b_->RegisterReceiveCodec(opus_codec_param)); Run(channel_a2b_, audio_channels, 2); out_file_.Close(); // Decode in mono. test_cntr_++; OpenOutFile(test_cntr_); if (test_mode_ != 0) { // Print out codec and settings printf("Test number: %d\nCodec: Opus Freq: 48000 Rate :32000 PackSize: 960" " Decode: mono\n", test_cntr_); } opus_codec_param.channels = 1; EXPECT_EQ(0, acm_b_->RegisterReceiveCodec(opus_codec_param)); Run(channel_a2b_, audio_channels, codec_channels); out_file_.Close(); #endif // Print out which codecs were tested, and which were not, in the run. if (test_mode_ != 0) { printf("\nThe following codecs was INCLUDED in the test:\n"); #ifdef WEBRTC_CODEC_G722 printf(" G.722\n"); #endif #ifdef WEBRTC_CODEC_PCM16 printf(" PCM16\n"); #endif printf(" G.711\n"); #ifdef WEBRTC_CODEC_CELT printf(" CELT\n"); #endif #ifdef WEBRTC_CODEC_OPUS printf(" Opus\n"); #endif printf("\nTo complete the test, listen to the %d number of output " "files.\n", test_cntr_); } // Delete the file pointers. delete in_file_stereo_; delete in_file_mono_; } // Register Codec to use in the test // // Input: side - which ACM to use, 'A' or 'B' // codec_name - name to use when register the codec // sampling_freq_hz - sampling frequency in Herz // rate - bitrate in bytes // pack_size - packet size in samples // channels - number of channels; 1 for mono, 2 for stereo // payload_type - payload type for the codec void TestStereo::RegisterSendCodec(char side, char* codec_name, int32_t sampling_freq_hz, int rate, int pack_size, int channels, int payload_type) { if (test_mode_ != 0) { // Print out codec and settings printf("Codec: %s Freq: %d Rate: %d PackSize: %d\n", codec_name, sampling_freq_hz, rate, pack_size); } // Store packet size in samples, used to validate the received packet pack_size_samp_ = pack_size; // Store the expected packet size in bytes, used to validate the received // packet. Add 0.875 to always round up to a whole byte. // For Celt the packet size in bytes is already counting the stereo part. if (!strcmp(codec_name, "CELT")) { pack_size_bytes_ = (uint16_t)( static_cast(pack_size * rate) / static_cast(sampling_freq_hz * 8) + 0.875) / channels; } else { pack_size_bytes_ = (uint16_t)( static_cast(pack_size * rate) / static_cast(sampling_freq_hz * 8) + 0.875); } // Set pointer to the ACM where to register the codec AudioCodingModule* my_acm = NULL; switch (side) { case 'A': { my_acm = acm_a_.get(); break; } case 'B': { my_acm = acm_b_.get(); break; } default: break; } ASSERT_TRUE(my_acm != NULL); CodecInst my_codec_param; // Get all codec parameters before registering EXPECT_GT(AudioCodingModule::Codec(codec_name, &my_codec_param, sampling_freq_hz, channels), -1); my_codec_param.rate = rate; my_codec_param.pacsize = pack_size; EXPECT_EQ(0, my_acm->RegisterSendCodec(my_codec_param)); send_codec_name_ = codec_name; } void TestStereo::Run(TestPackStereo* channel, int in_channels, int out_channels, int percent_loss) { AudioFrame audio_frame; int32_t out_freq_hz_b = out_file_.SamplingFrequency(); uint16_t rec_size; uint32_t time_stamp_diff; channel->reset_payload_size(); int error_count = 0; int variable_bytes = 0; int variable_packets = 0; while (1) { // Simulate packet loss by setting |packet_loss_| to "true" in // |percent_loss| percent of the loops. if (percent_loss > 0) { if (counter_ == floor((100 / percent_loss) + 0.5)) { counter_ = 0; channel->set_lost_packet(true); } else { channel->set_lost_packet(false); } counter_++; } // Add 10 msec to ACM if (in_channels == 1) { if (in_file_mono_->EndOfFile()) { break; } in_file_mono_->Read10MsData(audio_frame); } else { if (in_file_stereo_->EndOfFile()) { break; } in_file_stereo_->Read10MsData(audio_frame); } EXPECT_EQ(0, acm_a_->Add10MsData(audio_frame)); // Run sender side of ACM EXPECT_GT(acm_a_->Process(), -1); // Verify that the received packet size matches the settings. rec_size = channel->payload_size(); if ((0 < rec_size) & (rec_size < 65535)) { if (strcmp(send_codec_name_, "opus") == 0) { // Opus is a variable rate codec, hence calculate the average packet // size, and later make sure the average is in the right range. variable_bytes += rec_size; variable_packets++; } else { // For fixed rate codecs, check that packet size is correct. if ((rec_size != pack_size_bytes_ * out_channels) && (pack_size_bytes_ < 65535)) { error_count++; } } // Verify that the timestamp is updated with expected length time_stamp_diff = channel->timestamp_diff(); if ((counter_ > 10) && (time_stamp_diff != pack_size_samp_)) { error_count++; } } // Run received side of ACM EXPECT_EQ(0, acm_b_->PlayoutData10Ms(out_freq_hz_b, &audio_frame)); // Write output speech to file out_file_.Write10MsData( audio_frame.data_, audio_frame.samples_per_channel_ * audio_frame.num_channels_); } EXPECT_EQ(0, error_count); // Check that packet size is in the right range for variable rate codecs, // such as Opus. if (variable_packets > 0) { variable_bytes /= variable_packets; EXPECT_NEAR(variable_bytes, pack_size_bytes_, 3); } if (in_file_mono_->EndOfFile()) { in_file_mono_->Rewind(); } if (in_file_stereo_->EndOfFile()) { in_file_stereo_->Rewind(); } // Reset in case we ended with a lost packet channel->set_lost_packet(false); } void TestStereo::OpenOutFile(int16_t test_number) { std::string file_name; std::stringstream file_stream; file_stream << webrtc::test::OutputPath() << "teststereo_out_" << test_number << ".pcm"; file_name = file_stream.str(); out_file_.Open(file_name, 32000, "wb"); } void TestStereo::DisplaySendReceiveCodec() { CodecInst my_codec_param; acm_a_->SendCodec(&my_codec_param); if (test_mode_ != 0) { printf("%s -> ", my_codec_param.plname); } acm_b_->ReceiveCodec(&my_codec_param); if (test_mode_ != 0) { printf("%s\n", my_codec_param.plname); } } } // namespace webrtc