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/*
* 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/TestVADDTX.h"
#include <iostream>
#include "webrtc/common_types.h"
#include "webrtc/engine_configurations.h"
#include "webrtc/modules/audio_coding/main/acm2/acm_common_defs.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 {
TestVADDTX::TestVADDTX()
: _acmA(AudioCodingModule::Create(0)),
_acmB(AudioCodingModule::Create(1)),
_channelA2B(NULL) {}
TestVADDTX::~TestVADDTX() {
if (_channelA2B != NULL) {
delete _channelA2B;
_channelA2B = NULL;
}
}
void TestVADDTX::Perform() {
const std::string file_name = webrtc::test::ResourcePath(
"audio_coding/testfile32kHz", "pcm");
_inFileA.Open(file_name, 32000, "rb");
EXPECT_EQ(0, _acmA->InitializeReceiver());
EXPECT_EQ(0, _acmB->InitializeReceiver());
uint8_t numEncoders = _acmA->NumberOfCodecs();
CodecInst myCodecParam;
for (uint8_t n = 0; n < numEncoders; n++) {
EXPECT_EQ(0, _acmB->Codec(n, &myCodecParam));
if (!strcmp(myCodecParam.plname, "opus")) {
// Register Opus as mono.
myCodecParam.channels = 1;
}
EXPECT_EQ(0, _acmB->RegisterReceiveCodec(myCodecParam));
}
// Create and connect the channel
_channelA2B = new Channel;
_acmA->RegisterTransportCallback(_channelA2B);
_channelA2B->RegisterReceiverACM(_acmB.get());
_acmA->RegisterVADCallback(&_monitor);
int16_t testCntr = 1;
#ifdef WEBRTC_CODEC_ISAC
// Open outputfile
OpenOutFile(testCntr++);
// Register iSAC WB as send codec
char nameISAC[] = "ISAC";
RegisterSendCodec('A', nameISAC, 16000);
// Run the five test cased
runTestCases();
// Close file
_outFileB.Close();
// Open outputfile
OpenOutFile(testCntr++);
// Register iSAC SWB as send codec
RegisterSendCodec('A', nameISAC, 32000);
// Run the five test cased
runTestCases();
// Close file
_outFileB.Close();
#endif
#ifdef WEBRTC_CODEC_ILBC
// Open outputfile
OpenOutFile(testCntr++);
// Register iLBC as send codec
char nameILBC[] = "ilbc";
RegisterSendCodec('A', nameILBC);
// Run the five test cased
runTestCases();
// Close file
_outFileB.Close();
#endif
#ifdef WEBRTC_CODEC_OPUS
// Open outputfile
OpenOutFile(testCntr++);
// Register Opus as send codec
char nameOPUS[] = "opus";
RegisterSendCodec('A', nameOPUS);
// Run the five test cased
runTestCases();
// Close file
_outFileB.Close();
#endif
}
void TestVADDTX::runTestCases() {
// #1 DTX = OFF, VAD = ON, VADNormal
SetVAD(false, true, VADNormal);
Run();
VerifyTest();
// #2 DTX = OFF, VAD = ON, VADAggr
SetVAD(false, true, VADAggr);
Run();
VerifyTest();
// #3 DTX = ON, VAD = ON, VADLowBitrate
SetVAD(true, true, VADLowBitrate);
Run();
VerifyTest();
// #4 DTX = ON, VAD = ON, VADVeryAggr
SetVAD(true, true, VADVeryAggr);
Run();
VerifyTest();
// #5 DTX = ON, VAD = OFF, VADNormal
SetVAD(true, false, VADNormal);
Run();
VerifyTest();
}
void TestVADDTX::runTestInternalDTX(int expected_result) {
// #6 DTX = ON, VAD = ON, VADNormal
SetVAD(true, true, VADNormal);
EXPECT_EQ(expected_result, _acmA->ReplaceInternalDTXWithWebRtc(true));
if (expected_result == 0) {
Run();
VerifyTest();
}
}
void TestVADDTX::SetVAD(bool statusDTX, bool statusVAD, int16_t vadMode) {
bool dtxEnabled, vadEnabled;
ACMVADMode vadModeSet;
EXPECT_EQ(0, _acmA->SetVAD(statusDTX, statusVAD, (ACMVADMode) vadMode));
EXPECT_EQ(0, _acmA->VAD(&dtxEnabled, &vadEnabled, &vadModeSet));
// Requested VAD/DTX settings
_setStruct.statusDTX = statusDTX;
_setStruct.statusVAD = statusVAD;
_setStruct.vadMode = (ACMVADMode) vadMode;
// VAD settings after setting VAD in ACM
_getStruct.statusDTX = dtxEnabled;
_getStruct.statusVAD = vadEnabled;
_getStruct.vadMode = vadModeSet;
}
VADDTXstruct TestVADDTX::GetVAD() {
VADDTXstruct retStruct;
bool dtxEnabled, vadEnabled;
ACMVADMode vadModeSet;
EXPECT_EQ(0, _acmA->VAD(&dtxEnabled, &vadEnabled, &vadModeSet));
retStruct.statusDTX = dtxEnabled;
retStruct.statusVAD = vadEnabled;
retStruct.vadMode = vadModeSet;
return retStruct;
}
int16_t TestVADDTX::RegisterSendCodec(char side, char* codecName,
int32_t samplingFreqHz,
int32_t rateKbps) {
std::cout << std::flush;
AudioCodingModule* myACM;
switch (side) {
case 'A': {
myACM = _acmA.get();
break;
}
case 'B': {
myACM = _acmB.get();
break;
}
default:
return -1;
}
if (myACM == NULL) {
return -1;
}
CodecInst myCodecParam;
for (int16_t codecCntr = 0; codecCntr < myACM->NumberOfCodecs();
codecCntr++) {
EXPECT_EQ(0, myACM->Codec((uint8_t) codecCntr, &myCodecParam));
if (!STR_CASE_CMP(myCodecParam.plname, codecName)) {
if ((samplingFreqHz == -1) || (myCodecParam.plfreq == samplingFreqHz)) {
if ((rateKbps == -1) || (myCodecParam.rate == rateKbps)) {
break;
}
}
}
}
// We only allow VAD/DTX when sending mono.
myCodecParam.channels = 1;
EXPECT_EQ(0, myACM->RegisterSendCodec(myCodecParam));
// initialization was succesful
return 0;
}
void TestVADDTX::Run() {
AudioFrame audioFrame;
uint16_t SamplesIn10MsecA = _inFileA.PayloadLength10Ms();
uint32_t timestampA = 1;
int32_t outFreqHzB = _outFileB.SamplingFrequency();
while (!_inFileA.EndOfFile()) {
_inFileA.Read10MsData(audioFrame);
audioFrame.timestamp_ = timestampA;
timestampA += SamplesIn10MsecA;
EXPECT_EQ(0, _acmA->Add10MsData(audioFrame));
EXPECT_GT(_acmA->Process(), -1);
EXPECT_EQ(0, _acmB->PlayoutData10Ms(outFreqHzB, &audioFrame));
_outFileB.Write10MsData(audioFrame.data_, audioFrame.samples_per_channel_);
}
#ifdef PRINT_STAT
_monitor.PrintStatistics();
#endif
_inFileA.Rewind();
_monitor.GetStatistics(_statCounter);
_monitor.ResetStatistics();
}
void TestVADDTX::OpenOutFile(int16_t test_number) {
std::string file_name;
std::stringstream file_stream;
file_stream << webrtc::test::OutputPath();
file_stream << "testVADDTX_outFile_";
file_stream << test_number << ".pcm";
file_name = file_stream.str();
_outFileB.Open(file_name, 16000, "wb");
}
int16_t TestVADDTX::VerifyTest() {
// Verify empty frame result
uint8_t statusEF = 0;
uint8_t vadPattern = 0;
uint8_t emptyFramePattern[6];
CodecInst myCodecParam;
_acmA->SendCodec(&myCodecParam);
bool dtxInUse = true;
bool isReplaced = false;
if ((STR_CASE_CMP(myCodecParam.plname, "G729") == 0)
|| (STR_CASE_CMP(myCodecParam.plname, "G723") == 0)
|| (STR_CASE_CMP(myCodecParam.plname, "AMR") == 0)
|| (STR_CASE_CMP(myCodecParam.plname, "AMR-wb") == 0)
|| (STR_CASE_CMP(myCodecParam.plname, "speex") == 0)) {
_acmA->IsInternalDTXReplacedWithWebRtc(&isReplaced);
if (!isReplaced) {
dtxInUse = false;
}
} else if (STR_CASE_CMP(myCodecParam.plname, "opus") == 0) {
if (_getStruct.statusDTX != false) {
// DTX status doesn't match expected.
vadPattern |= 4;
} else if (_getStruct.statusVAD != false) {
// Mismatch in VAD setting.
vadPattern |= 2;
} else {
_setStruct.statusDTX = false;
_setStruct.statusVAD = false;
}
}
// Check for error in VAD/DTX settings
if (_getStruct.statusDTX != _setStruct.statusDTX) {
// DTX status doesn't match expected
vadPattern |= 4;
}
if (_getStruct.statusDTX) {
if ((!_getStruct.statusVAD && dtxInUse)
|| (!dtxInUse && (_getStruct.statusVAD != _setStruct.statusVAD))) {
// Missmatch in VAD setting
vadPattern |= 2;
}
} else {
if (_getStruct.statusVAD != _setStruct.statusVAD) {
// VAD status doesn't match expected
vadPattern |= 2;
}
}
if (_getStruct.vadMode != _setStruct.vadMode) {
// VAD Mode doesn't match expected
vadPattern |= 1;
}
// Set expected empty frame pattern
int ii;
for (ii = 0; ii < 6; ii++) {
emptyFramePattern[ii] = 0;
}
// 0 - "kNoEncoding", not important to check.
// Codecs with packetsize != 80 samples will get this output.
// 1 - "kActiveNormalEncoded", expect to receive some frames with this label .
// 2 - "kPassiveNormalEncoded".
// 3 - "kPassiveDTXNB".
// 4 - "kPassiveDTXWB".
// 5 - "kPassiveDTXSWB".
emptyFramePattern[0] = 1;
emptyFramePattern[1] = 1;
emptyFramePattern[2] = (((!_getStruct.statusDTX && _getStruct.statusVAD)
|| (!dtxInUse && _getStruct.statusDTX)));
emptyFramePattern[3] = ((_getStruct.statusDTX && dtxInUse
&& (_acmA->SendFrequency() == 8000)));
emptyFramePattern[4] = ((_getStruct.statusDTX && dtxInUse
&& (_acmA->SendFrequency() == 16000)));
emptyFramePattern[5] = ((_getStruct.statusDTX && dtxInUse
&& (_acmA->SendFrequency() == 32000)));
// Check pattern 1-5 (skip 0)
for (int ii = 1; ii < 6; ii++) {
if (emptyFramePattern[ii]) {
statusEF |= (_statCounter[ii] == 0);
} else {
statusEF |= (_statCounter[ii] > 0);
}
}
EXPECT_EQ(0, statusEF);
EXPECT_EQ(0, vadPattern);
return 0;
}
ActivityMonitor::ActivityMonitor() {
_counter[0] = _counter[1] = _counter[2] = _counter[3] = _counter[4] =
_counter[5] = 0;
}
ActivityMonitor::~ActivityMonitor() {
}
int32_t ActivityMonitor::InFrameType(int16_t frameType) {
_counter[frameType]++;
return 0;
}
void ActivityMonitor::PrintStatistics() {
printf("\n");
printf("kActiveNormalEncoded kPassiveNormalEncoded kPassiveDTXWB ");
printf("kPassiveDTXNB kPassiveDTXSWB kFrameEmpty\n");
printf("%19u", _counter[1]);
printf("%22u", _counter[2]);
printf("%14u", _counter[3]);
printf("%14u", _counter[4]);
printf("%14u", _counter[5]);
printf("%11u", _counter[0]);
printf("\n\n");
}
void ActivityMonitor::ResetStatistics() {
_counter[0] = _counter[1] = _counter[2] = _counter[3] = _counter[4] =
_counter[5] = 0;
}
void ActivityMonitor::GetStatistics(uint32_t* getCounter) {
for (int ii = 0; ii < 6; ii++) {
getCounter[ii] = _counter[ii];
}
}
} // namespace webrtc