/* * 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/iSACTest.h" #include #include #include #if _WIN32 #include #elif WEBRTC_LINUX #include #else #include #include #endif #include "webrtc/modules/audio_coding/main/acm2/acm_common_defs.h" #include "webrtc/modules/audio_coding/main/test/utility.h" #include "webrtc/system_wrappers/interface/event_wrapper.h" #include "webrtc/system_wrappers/interface/tick_util.h" #include "webrtc/system_wrappers/interface/trace.h" #include "webrtc/test/testsupport/fileutils.h" namespace webrtc { void SetISACConfigDefault(ACMTestISACConfig& isacConfig) { isacConfig.currentRateBitPerSec = 0; isacConfig.currentFrameSizeMsec = 0; isacConfig.maxRateBitPerSec = 0; isacConfig.maxPayloadSizeByte = 0; isacConfig.encodingMode = -1; isacConfig.initRateBitPerSec = 0; isacConfig.initFrameSizeInMsec = 0; isacConfig.enforceFrameSize = false; return; } int16_t SetISAConfig(ACMTestISACConfig& isacConfig, AudioCodingModule* acm, int testMode) { if ((isacConfig.currentRateBitPerSec != 0) || (isacConfig.currentFrameSizeMsec != 0)) { CodecInst sendCodec; EXPECT_EQ(0, acm->SendCodec(&sendCodec)); if (isacConfig.currentRateBitPerSec < 0) { // Register iSAC in adaptive (channel-dependent) mode. sendCodec.rate = -1; EXPECT_EQ(0, acm->RegisterSendCodec(sendCodec)); } else { if (isacConfig.currentRateBitPerSec != 0) { sendCodec.rate = isacConfig.currentRateBitPerSec; } if (isacConfig.currentFrameSizeMsec != 0) { sendCodec.pacsize = isacConfig.currentFrameSizeMsec * (sendCodec.plfreq / 1000); } EXPECT_EQ(0, acm->RegisterSendCodec(sendCodec)); } } if (isacConfig.maxRateBitPerSec > 0) { // Set max rate. EXPECT_EQ(0, acm->SetISACMaxRate(isacConfig.maxRateBitPerSec)); } if (isacConfig.maxPayloadSizeByte > 0) { // Set max payload size. EXPECT_EQ(0, acm->SetISACMaxPayloadSize(isacConfig.maxPayloadSizeByte)); } if ((isacConfig.initFrameSizeInMsec != 0) || (isacConfig.initRateBitPerSec != 0)) { EXPECT_EQ(0, acm->ConfigISACBandwidthEstimator( static_cast(isacConfig.initFrameSizeInMsec), static_cast(isacConfig.initRateBitPerSec), isacConfig.enforceFrameSize)); } return 0; } ISACTest::ISACTest(int testMode) : _acmA(AudioCodingModule::Create(1)), _acmB(AudioCodingModule::Create(2)), _testMode(testMode) {} ISACTest::~ISACTest() {} void ISACTest::Setup() { int codecCntr; CodecInst codecParam; for (codecCntr = 0; codecCntr < AudioCodingModule::NumberOfCodecs(); codecCntr++) { EXPECT_EQ(0, AudioCodingModule::Codec(codecCntr, &codecParam)); if (!STR_CASE_CMP(codecParam.plname, "ISAC") && codecParam.plfreq == 16000) { memcpy(&_paramISAC16kHz, &codecParam, sizeof(CodecInst)); _idISAC16kHz = codecCntr; } if (!STR_CASE_CMP(codecParam.plname, "ISAC") && codecParam.plfreq == 32000) { memcpy(&_paramISAC32kHz, &codecParam, sizeof(CodecInst)); _idISAC32kHz = codecCntr; } } // Register both iSAC-wb & iSAC-swb in both sides as receiver codecs. EXPECT_EQ(0, _acmA->RegisterReceiveCodec(_paramISAC16kHz)); EXPECT_EQ(0, _acmA->RegisterReceiveCodec(_paramISAC32kHz)); EXPECT_EQ(0, _acmB->RegisterReceiveCodec(_paramISAC16kHz)); EXPECT_EQ(0, _acmB->RegisterReceiveCodec(_paramISAC32kHz)); //--- Set A-to-B channel _channel_A2B.reset(new Channel); EXPECT_EQ(0, _acmA->RegisterTransportCallback(_channel_A2B.get())); _channel_A2B->RegisterReceiverACM(_acmB.get()); //--- Set B-to-A channel _channel_B2A.reset(new Channel); EXPECT_EQ(0, _acmB->RegisterTransportCallback(_channel_B2A.get())); _channel_B2A->RegisterReceiverACM(_acmA.get()); file_name_swb_ = webrtc::test::ResourcePath("audio_coding/testfile32kHz", "pcm"); EXPECT_EQ(0, _acmB->RegisterSendCodec(_paramISAC16kHz)); EXPECT_EQ(0, _acmA->RegisterSendCodec(_paramISAC32kHz)); _inFileA.Open(file_name_swb_, 32000, "rb"); std::string fileNameA = webrtc::test::OutputPath() + "testisac_a.pcm"; std::string fileNameB = webrtc::test::OutputPath() + "testisac_b.pcm"; _outFileA.Open(fileNameA, 32000, "wb"); _outFileB.Open(fileNameB, 32000, "wb"); while (!_inFileA.EndOfFile()) { Run10ms(); } CodecInst receiveCodec; EXPECT_EQ(0, _acmA->ReceiveCodec(&receiveCodec)); EXPECT_EQ(0, _acmB->ReceiveCodec(&receiveCodec)); _inFileA.Close(); _outFileA.Close(); _outFileB.Close(); } void ISACTest::Perform() { Setup(); int16_t testNr = 0; ACMTestISACConfig wbISACConfig; ACMTestISACConfig swbISACConfig; SetISACConfigDefault(wbISACConfig); SetISACConfigDefault(swbISACConfig); wbISACConfig.currentRateBitPerSec = -1; swbISACConfig.currentRateBitPerSec = -1; testNr++; EncodeDecode(testNr, wbISACConfig, swbISACConfig); if (_testMode != 0) { SetISACConfigDefault(wbISACConfig); SetISACConfigDefault(swbISACConfig); wbISACConfig.currentRateBitPerSec = -1; swbISACConfig.currentRateBitPerSec = -1; wbISACConfig.initRateBitPerSec = 13000; wbISACConfig.initFrameSizeInMsec = 60; swbISACConfig.initRateBitPerSec = 20000; swbISACConfig.initFrameSizeInMsec = 30; testNr++; EncodeDecode(testNr, wbISACConfig, swbISACConfig); SetISACConfigDefault(wbISACConfig); SetISACConfigDefault(swbISACConfig); wbISACConfig.currentRateBitPerSec = 20000; swbISACConfig.currentRateBitPerSec = 48000; testNr++; EncodeDecode(testNr, wbISACConfig, swbISACConfig); wbISACConfig.currentRateBitPerSec = 16000; swbISACConfig.currentRateBitPerSec = 30000; wbISACConfig.currentFrameSizeMsec = 60; testNr++; EncodeDecode(testNr, wbISACConfig, swbISACConfig); } SetISACConfigDefault(wbISACConfig); SetISACConfigDefault(swbISACConfig); testNr++; EncodeDecode(testNr, wbISACConfig, swbISACConfig); int user_input; if ((_testMode == 0) || (_testMode == 1)) { swbISACConfig.maxPayloadSizeByte = static_cast(200); wbISACConfig.maxPayloadSizeByte = static_cast(200); } else { printf("Enter the max payload-size for side A: "); CHECK_ERROR(scanf("%d", &user_input)); swbISACConfig.maxPayloadSizeByte = (uint16_t) user_input; printf("Enter the max payload-size for side B: "); CHECK_ERROR(scanf("%d", &user_input)); wbISACConfig.maxPayloadSizeByte = (uint16_t) user_input; } testNr++; EncodeDecode(testNr, wbISACConfig, swbISACConfig); _acmA->ResetEncoder(); _acmB->ResetEncoder(); SetISACConfigDefault(wbISACConfig); SetISACConfigDefault(swbISACConfig); if ((_testMode == 0) || (_testMode == 1)) { swbISACConfig.maxRateBitPerSec = static_cast(48000); wbISACConfig.maxRateBitPerSec = static_cast(48000); } else { printf("Enter the max rate for side A: "); CHECK_ERROR(scanf("%d", &user_input)); swbISACConfig.maxRateBitPerSec = (uint32_t) user_input; printf("Enter the max rate for side B: "); CHECK_ERROR(scanf("%d", &user_input)); wbISACConfig.maxRateBitPerSec = (uint32_t) user_input; } testNr++; EncodeDecode(testNr, wbISACConfig, swbISACConfig); testNr++; if (_testMode == 0) { SwitchingSamplingRate(testNr, 4); } else { SwitchingSamplingRate(testNr, 80); } } void ISACTest::Run10ms() { AudioFrame audioFrame; EXPECT_GT(_inFileA.Read10MsData(audioFrame), 0); EXPECT_EQ(0, _acmA->Add10MsData(audioFrame)); EXPECT_EQ(0, _acmB->Add10MsData(audioFrame)); EXPECT_GT(_acmA->Process(), -1); EXPECT_GT(_acmB->Process(), -1); EXPECT_EQ(0, _acmA->PlayoutData10Ms(32000, &audioFrame)); _outFileA.Write10MsData(audioFrame); EXPECT_EQ(0, _acmB->PlayoutData10Ms(32000, &audioFrame)); _outFileB.Write10MsData(audioFrame); } void ISACTest::EncodeDecode(int testNr, ACMTestISACConfig& wbISACConfig, ACMTestISACConfig& swbISACConfig) { // Files in Side A and B _inFileA.Open(file_name_swb_, 32000, "rb", true); _inFileB.Open(file_name_swb_, 32000, "rb", true); std::string file_name_out; std::stringstream file_stream_a; std::stringstream file_stream_b; file_stream_a << webrtc::test::OutputPath(); file_stream_b << webrtc::test::OutputPath(); file_stream_a << "out_iSACTest_A_" << testNr << ".pcm"; file_stream_b << "out_iSACTest_B_" << testNr << ".pcm"; file_name_out = file_stream_a.str(); _outFileA.Open(file_name_out, 32000, "wb"); file_name_out = file_stream_b.str(); _outFileB.Open(file_name_out, 32000, "wb"); EXPECT_EQ(0, _acmA->RegisterSendCodec(_paramISAC16kHz)); EXPECT_EQ(0, _acmA->RegisterSendCodec(_paramISAC32kHz)); EXPECT_EQ(0, _acmB->RegisterSendCodec(_paramISAC32kHz)); EXPECT_EQ(0, _acmB->RegisterSendCodec(_paramISAC16kHz)); // Side A is sending super-wideband, and side B is sending wideband. SetISAConfig(swbISACConfig, _acmA.get(), _testMode); SetISAConfig(wbISACConfig, _acmB.get(), _testMode); bool adaptiveMode = false; if ((swbISACConfig.currentRateBitPerSec == -1) || (wbISACConfig.currentRateBitPerSec == -1)) { adaptiveMode = true; } _myTimer.Reset(); _channel_A2B->ResetStats(); _channel_B2A->ResetStats(); char currentTime[500]; CodecInst sendCodec; EventWrapper* myEvent = EventWrapper::Create(); EXPECT_TRUE(myEvent->StartTimer(true, 10)); while (!(_inFileA.EndOfFile() || _inFileA.Rewinded())) { Run10ms(); _myTimer.Tick10ms(); _myTimer.CurrentTimeHMS(currentTime); if ((adaptiveMode) && (_testMode != 0)) { myEvent->Wait(5000); EXPECT_EQ(0, _acmA->SendCodec(&sendCodec)); EXPECT_EQ(0, _acmB->SendCodec(&sendCodec)); } } if (_testMode != 0) { printf("\n\nSide A statistics\n\n"); _channel_A2B->PrintStats(_paramISAC32kHz); printf("\n\nSide B statistics\n\n"); _channel_B2A->PrintStats(_paramISAC16kHz); } _channel_A2B->ResetStats(); _channel_B2A->ResetStats(); _outFileA.Close(); _outFileB.Close(); _inFileA.Close(); _inFileB.Close(); } void ISACTest::SwitchingSamplingRate(int testNr, int maxSampRateChange) { // Files in Side A _inFileA.Open(file_name_swb_, 32000, "rb"); _inFileB.Open(file_name_swb_, 32000, "rb"); std::string file_name_out; std::stringstream file_stream_a; std::stringstream file_stream_b; file_stream_a << webrtc::test::OutputPath(); file_stream_b << webrtc::test::OutputPath(); file_stream_a << "out_iSACTest_A_" << testNr << ".pcm"; file_stream_b << "out_iSACTest_B_" << testNr << ".pcm"; file_name_out = file_stream_a.str(); _outFileA.Open(file_name_out, 32000, "wb"); file_name_out = file_stream_b.str(); _outFileB.Open(file_name_out, 32000, "wb"); // Start with side A sending super-wideband and side B seding wideband. // Toggle sending wideband/super-wideband in this test. EXPECT_EQ(0, _acmA->RegisterSendCodec(_paramISAC32kHz)); EXPECT_EQ(0, _acmB->RegisterSendCodec(_paramISAC16kHz)); int numSendCodecChanged = 0; _myTimer.Reset(); char currentTime[50]; while (numSendCodecChanged < (maxSampRateChange << 1)) { Run10ms(); _myTimer.Tick10ms(); _myTimer.CurrentTimeHMS(currentTime); if (_testMode == 2) printf("\r%s", currentTime); if (_inFileA.EndOfFile()) { if (_inFileA.SamplingFrequency() == 16000) { // Switch side A to send super-wideband. _inFileA.Close(); _inFileA.Open(file_name_swb_, 32000, "rb"); EXPECT_EQ(0, _acmA->RegisterSendCodec(_paramISAC32kHz)); } else { // Switch side A to send wideband. _inFileA.Close(); _inFileA.Open(file_name_swb_, 32000, "rb"); EXPECT_EQ(0, _acmA->RegisterSendCodec(_paramISAC16kHz)); } numSendCodecChanged++; } if (_inFileB.EndOfFile()) { if (_inFileB.SamplingFrequency() == 16000) { // Switch side B to send super-wideband. _inFileB.Close(); _inFileB.Open(file_name_swb_, 32000, "rb"); EXPECT_EQ(0, _acmB->RegisterSendCodec(_paramISAC32kHz)); } else { // Switch side B to send wideband. _inFileB.Close(); _inFileB.Open(file_name_swb_, 32000, "rb"); EXPECT_EQ(0, _acmB->RegisterSendCodec(_paramISAC16kHz)); } numSendCodecChanged++; } } _outFileA.Close(); _outFileB.Close(); _inFileA.Close(); _inFileB.Close(); } } // namespace webrtc