modules/audio_coding/test/TwoWayCommunication.cc - src - Git at Google

 /*
  *  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 "TwoWayCommunication.h"

 #include <stdio.h>
 #include <string.h>

 #include <memory>

 #include "api/audio_codecs/builtin_audio_decoder_factory.h"
 #include "api/audio_codecs/builtin_audio_encoder_factory.h"
 #include "modules/audio_coding/test/PCMFile.h"
 #include "test/gtest.h"
 #include "test/testsupport/file_utils.h"

 namespace webrtc {

 #define MAX_FILE_NAME_LENGTH_BYTE 500

 TwoWayCommunication::TwoWayCommunication()
     : _acmA(AudioCodingModule::Create(
           AudioCodingModule::Config(CreateBuiltinAudioDecoderFactory()))),
       _acmRefA(AudioCodingModule::Create(
           AudioCodingModule::Config(CreateBuiltinAudioDecoderFactory()))) {
   AudioCodingModule::Config config;
   // The clicks will be more obvious if time-stretching is not allowed.
   // TODO(henrik.lundin) Really?
   config.neteq_config.for_test_no_time_stretching = true;
   config.decoder_factory = CreateBuiltinAudioDecoderFactory();
   _acmB.reset(AudioCodingModule::Create(config));
   _acmRefB.reset(AudioCodingModule::Create(config));
 }

 TwoWayCommunication::~TwoWayCommunication() {
   delete _channel_A2B;
   delete _channel_B2A;
   delete _channelRef_A2B;
   delete _channelRef_B2A;
   _inFileA.Close();
   _inFileB.Close();
   _outFileA.Close();
   _outFileB.Close();
   _outFileRefA.Close();
   _outFileRefB.Close();
 }

 void TwoWayCommunication::SetUpAutotest(
     AudioEncoderFactory* const encoder_factory,
     const SdpAudioFormat& format1,
     const int payload_type1,
     const SdpAudioFormat& format2,
     const int payload_type2) {
   //--- Set A codecs
   _acmA->SetEncoder(
       encoder_factory->MakeAudioEncoder(payload_type1, format1, absl::nullopt));
   _acmA->SetReceiveCodecs({{payload_type2, format2}});

   //--- Set ref-A codecs
   _acmRefA->SetEncoder(
       encoder_factory->MakeAudioEncoder(payload_type1, format1, absl::nullopt));
   _acmRefA->SetReceiveCodecs({{payload_type2, format2}});

   //--- Set B codecs
   _acmB->SetEncoder(
       encoder_factory->MakeAudioEncoder(payload_type2, format2, absl::nullopt));
   _acmB->SetReceiveCodecs({{payload_type1, format1}});

   //--- Set ref-B codecs
   _acmRefB->SetEncoder(
       encoder_factory->MakeAudioEncoder(payload_type2, format2, absl::nullopt));
   _acmRefB->SetReceiveCodecs({{payload_type1, format1}});

   uint16_t frequencyHz;

   //--- Input A and B
   std::string in_file_name =
       webrtc::test::ResourcePath("audio_coding/testfile32kHz", "pcm");
   frequencyHz = 16000;
   _inFileA.Open(in_file_name, frequencyHz, "rb");
   _inFileB.Open(in_file_name, frequencyHz, "rb");

   //--- Output A
   std::string output_file_a = webrtc::test::OutputPath() + "outAutotestA.pcm";
   frequencyHz = 16000;
   _outFileA.Open(output_file_a, frequencyHz, "wb");
   std::string output_ref_file_a =
       webrtc::test::OutputPath() + "ref_outAutotestA.pcm";
   _outFileRefA.Open(output_ref_file_a, frequencyHz, "wb");

   //--- Output B
   std::string output_file_b = webrtc::test::OutputPath() + "outAutotestB.pcm";
   frequencyHz = 16000;
   _outFileB.Open(output_file_b, frequencyHz, "wb");
   std::string output_ref_file_b =
       webrtc::test::OutputPath() + "ref_outAutotestB.pcm";
   _outFileRefB.Open(output_ref_file_b, frequencyHz, "wb");

   //--- Set A-to-B channel
   _channel_A2B = new Channel;
   _acmA->RegisterTransportCallback(_channel_A2B);
   _channel_A2B->RegisterReceiverACM(_acmB.get());
   //--- Do the same for the reference
   _channelRef_A2B = new Channel;
   _acmRefA->RegisterTransportCallback(_channelRef_A2B);
   _channelRef_A2B->RegisterReceiverACM(_acmRefB.get());

   //--- Set B-to-A channel
   _channel_B2A = new Channel;
   _acmB->RegisterTransportCallback(_channel_B2A);
   _channel_B2A->RegisterReceiverACM(_acmA.get());
   //--- Do the same for reference
   _channelRef_B2A = new Channel;
   _acmRefB->RegisterTransportCallback(_channelRef_B2A);
   _channelRef_B2A->RegisterReceiverACM(_acmRefA.get());
 }

 void TwoWayCommunication::Perform() {
   const SdpAudioFormat format1("ISAC", 16000, 1);
   const SdpAudioFormat format2("L16", 8000, 1);
   constexpr int payload_type1 = 17, payload_type2 = 18;

   auto encoder_factory = CreateBuiltinAudioEncoderFactory();

   SetUpAutotest(encoder_factory.get(), format1, payload_type1, format2,
                 payload_type2);

   unsigned int msecPassed = 0;
   unsigned int secPassed = 0;

   int32_t outFreqHzA = _outFileA.SamplingFrequency();
   int32_t outFreqHzB = _outFileB.SamplingFrequency();

   AudioFrame audioFrame;

   // In the following loop we tests that the code can handle misuse of the APIs.
   // In the middle of a session with data flowing between two sides, called A
   // and B, APIs will be called, and the code should continue to run, and be
   // able to recover.
   while (!_inFileA.EndOfFile() && !_inFileB.EndOfFile()) {
     msecPassed += 10;
     EXPECT_GT(_inFileA.Read10MsData(audioFrame), 0);
     EXPECT_GE(_acmA->Add10MsData(audioFrame), 0);
     EXPECT_GE(_acmRefA->Add10MsData(audioFrame), 0);

     EXPECT_GT(_inFileB.Read10MsData(audioFrame), 0);

     EXPECT_GE(_acmB->Add10MsData(audioFrame), 0);
     EXPECT_GE(_acmRefB->Add10MsData(audioFrame), 0);
     bool muted;
     EXPECT_EQ(0, _acmA->PlayoutData10Ms(outFreqHzA, &audioFrame, &muted));
     ASSERT_FALSE(muted);
     _outFileA.Write10MsData(audioFrame);
     EXPECT_EQ(0, _acmRefA->PlayoutData10Ms(outFreqHzA, &audioFrame, &muted));
     ASSERT_FALSE(muted);
     _outFileRefA.Write10MsData(audioFrame);
     EXPECT_EQ(0, _acmB->PlayoutData10Ms(outFreqHzB, &audioFrame, &muted));
     ASSERT_FALSE(muted);
     _outFileB.Write10MsData(audioFrame);
     EXPECT_EQ(0, _acmRefB->PlayoutData10Ms(outFreqHzB, &audioFrame, &muted));
     ASSERT_FALSE(muted);
     _outFileRefB.Write10MsData(audioFrame);

     // Update time counters each time a second of data has passed.
     if (msecPassed >= 1000) {
       msecPassed = 0;
       secPassed++;
     }
     // Re-register send codec on side B.
     if (((secPassed % 5) == 4) && (msecPassed >= 990)) {
       _acmB->SetEncoder(encoder_factory->MakeAudioEncoder(
           payload_type2, format2, absl::nullopt));
     }
     // Initialize receiver on side A.
     if (((secPassed % 7) == 6) && (msecPassed == 0))
       EXPECT_EQ(0, _acmA->InitializeReceiver());
     // Re-register codec on side A.
     if (((secPassed % 7) == 6) && (msecPassed >= 990)) {
       _acmA->SetReceiveCodecs({{payload_type2, format2}});
     }
   }
 }

 }  // namespace webrtc
	/*
	* 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 "TwoWayCommunication.h"

	#include <stdio.h>
	#include <string.h>

	#include <memory>

	#include "api/audio_codecs/builtin_audio_decoder_factory.h"
	#include "api/audio_codecs/builtin_audio_encoder_factory.h"
	#include "modules/audio_coding/test/PCMFile.h"
	#include "test/gtest.h"
	#include "test/testsupport/file_utils.h"

	namespace webrtc {

	#define MAX_FILE_NAME_LENGTH_BYTE 500

	TwoWayCommunication::TwoWayCommunication()
	: _acmA(AudioCodingModule::Create(
	AudioCodingModule::Config(CreateBuiltinAudioDecoderFactory()))),
	_acmRefA(AudioCodingModule::Create(
	AudioCodingModule::Config(CreateBuiltinAudioDecoderFactory()))) {
	AudioCodingModule::Config config;
	// The clicks will be more obvious if time-stretching is not allowed.
	// TODO(henrik.lundin) Really?
	config.neteq_config.for_test_no_time_stretching = true;
	config.decoder_factory = CreateBuiltinAudioDecoderFactory();
	_acmB.reset(AudioCodingModule::Create(config));
	_acmRefB.reset(AudioCodingModule::Create(config));
	}

	TwoWayCommunication::~TwoWayCommunication() {
	delete _channel_A2B;
	delete _channel_B2A;
	delete _channelRef_A2B;
	delete _channelRef_B2A;
	_inFileA.Close();
	_inFileB.Close();
	_outFileA.Close();
	_outFileB.Close();
	_outFileRefA.Close();
	_outFileRefB.Close();
	}

	void TwoWayCommunication::SetUpAutotest(
	AudioEncoderFactory* const encoder_factory,
	const SdpAudioFormat& format1,
	const int payload_type1,
	const SdpAudioFormat& format2,
	const int payload_type2) {
	//--- Set A codecs
	_acmA->SetEncoder(
	encoder_factory->MakeAudioEncoder(payload_type1, format1, absl::nullopt));
	_acmA->SetReceiveCodecs({{payload_type2, format2}});

	//--- Set ref-A codecs
	_acmRefA->SetEncoder(
	encoder_factory->MakeAudioEncoder(payload_type1, format1, absl::nullopt));
	_acmRefA->SetReceiveCodecs({{payload_type2, format2}});

	//--- Set B codecs
	_acmB->SetEncoder(
	encoder_factory->MakeAudioEncoder(payload_type2, format2, absl::nullopt));
	_acmB->SetReceiveCodecs({{payload_type1, format1}});

	//--- Set ref-B codecs
	_acmRefB->SetEncoder(
	encoder_factory->MakeAudioEncoder(payload_type2, format2, absl::nullopt));
	_acmRefB->SetReceiveCodecs({{payload_type1, format1}});

	uint16_t frequencyHz;

	//--- Input A and B
	std::string in_file_name =
	webrtc::test::ResourcePath("audio_coding/testfile32kHz", "pcm");
	frequencyHz = 16000;
	_inFileA.Open(in_file_name, frequencyHz, "rb");
	_inFileB.Open(in_file_name, frequencyHz, "rb");

	//--- Output A
	std::string output_file_a = webrtc::test::OutputPath() + "outAutotestA.pcm";
	frequencyHz = 16000;
	_outFileA.Open(output_file_a, frequencyHz, "wb");
	std::string output_ref_file_a =
	webrtc::test::OutputPath() + "ref_outAutotestA.pcm";
	_outFileRefA.Open(output_ref_file_a, frequencyHz, "wb");

	//--- Output B
	std::string output_file_b = webrtc::test::OutputPath() + "outAutotestB.pcm";
	frequencyHz = 16000;
	_outFileB.Open(output_file_b, frequencyHz, "wb");
	std::string output_ref_file_b =
	webrtc::test::OutputPath() + "ref_outAutotestB.pcm";
	_outFileRefB.Open(output_ref_file_b, frequencyHz, "wb");

	//--- Set A-to-B channel
	_channel_A2B = new Channel;
	_acmA->RegisterTransportCallback(_channel_A2B);
	_channel_A2B->RegisterReceiverACM(_acmB.get());
	//--- Do the same for the reference
	_channelRef_A2B = new Channel;
	_acmRefA->RegisterTransportCallback(_channelRef_A2B);
	_channelRef_A2B->RegisterReceiverACM(_acmRefB.get());

	//--- Set B-to-A channel
	_channel_B2A = new Channel;
	_acmB->RegisterTransportCallback(_channel_B2A);
	_channel_B2A->RegisterReceiverACM(_acmA.get());
	//--- Do the same for reference
	_channelRef_B2A = new Channel;
	_acmRefB->RegisterTransportCallback(_channelRef_B2A);
	_channelRef_B2A->RegisterReceiverACM(_acmRefA.get());
	}

	void TwoWayCommunication::Perform() {
	const SdpAudioFormat format1("ISAC", 16000, 1);
	const SdpAudioFormat format2("L16", 8000, 1);
	constexpr int payload_type1 = 17, payload_type2 = 18;

	auto encoder_factory = CreateBuiltinAudioEncoderFactory();

	SetUpAutotest(encoder_factory.get(), format1, payload_type1, format2,
	payload_type2);

	unsigned int msecPassed = 0;
	unsigned int secPassed = 0;

	int32_t outFreqHzA = _outFileA.SamplingFrequency();
	int32_t outFreqHzB = _outFileB.SamplingFrequency();

	AudioFrame audioFrame;

	// In the following loop we tests that the code can handle misuse of the APIs.
	// In the middle of a session with data flowing between two sides, called A
	// and B, APIs will be called, and the code should continue to run, and be
	// able to recover.
	while (!_inFileA.EndOfFile() && !_inFileB.EndOfFile()) {
	msecPassed += 10;
	EXPECT_GT(_inFileA.Read10MsData(audioFrame), 0);
	EXPECT_GE(_acmA->Add10MsData(audioFrame), 0);
	EXPECT_GE(_acmRefA->Add10MsData(audioFrame), 0);

	EXPECT_GT(_inFileB.Read10MsData(audioFrame), 0);

	EXPECT_GE(_acmB->Add10MsData(audioFrame), 0);
	EXPECT_GE(_acmRefB->Add10MsData(audioFrame), 0);
	bool muted;
	EXPECT_EQ(0, _acmA->PlayoutData10Ms(outFreqHzA, &audioFrame, &muted));
	ASSERT_FALSE(muted);
	_outFileA.Write10MsData(audioFrame);
	EXPECT_EQ(0, _acmRefA->PlayoutData10Ms(outFreqHzA, &audioFrame, &muted));
	ASSERT_FALSE(muted);
	_outFileRefA.Write10MsData(audioFrame);
	EXPECT_EQ(0, _acmB->PlayoutData10Ms(outFreqHzB, &audioFrame, &muted));
	ASSERT_FALSE(muted);
	_outFileB.Write10MsData(audioFrame);
	EXPECT_EQ(0, _acmRefB->PlayoutData10Ms(outFreqHzB, &audioFrame, &muted));
	ASSERT_FALSE(muted);
	_outFileRefB.Write10MsData(audioFrame);

	// Update time counters each time a second of data has passed.
	if (msecPassed >= 1000) {
	msecPassed = 0;
	secPassed++;
	}
	// Re-register send codec on side B.
	if (((secPassed % 5) == 4) && (msecPassed >= 990)) {
	_acmB->SetEncoder(encoder_factory->MakeAudioEncoder(
	payload_type2, format2, absl::nullopt));
	}
	// Initialize receiver on side A.
	if (((secPassed % 7) == 6) && (msecPassed == 0))
	EXPECT_EQ(0, _acmA->InitializeReceiver());
	// Re-register codec on side A.
	if (((secPassed % 7) == 6) && (msecPassed >= 990)) {
	_acmA->SetReceiveCodecs({{payload_type2, format2}});
	}
	}
	}

	} // namespace webrtc