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|
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "CSFLog.h"
#include "nspr.h"
#include "plstr.h"
#include "VideoConduit.h"
#include "AudioConduit.h"
#include "nsThreadUtils.h"
#include "LoadManager.h"
#include "YuvStamper.h"
#include "nsServiceManagerUtils.h"
#include "nsIPrefService.h"
#include "nsIPrefBranch.h"
#include "mozilla/media/MediaUtils.h"
#include "mozilla/TemplateLib.h"
#include "webrtc/common_types.h"
#include "webrtc/common_video/interface/native_handle.h"
#include "webrtc/common_video/libyuv/include/webrtc_libyuv.h"
#include "webrtc/video_engine/include/vie_errors.h"
#include "webrtc/video_engine/vie_defines.h"
#include "mozilla/Unused.h"
#ifdef MOZ_WIDGET_ANDROID
#include "AndroidJNIWrapper.h"
#endif
// for ntohs
#ifdef _MSC_VER
#include "Winsock2.h"
#else
#include <netinet/in.h>
#endif
#include <algorithm>
#include <math.h>
#define DEFAULT_VIDEO_MAX_FRAMERATE 30
#define INVALID_RTP_PAYLOAD 255 //valid payload types are 0 to 127
namespace mozilla {
static const char* logTag ="WebrtcVideoSessionConduit";
// 32 bytes is what WebRTC CodecInst expects
const unsigned int WebrtcVideoConduit::CODEC_PLNAME_SIZE = 32;
/**
* Factory Method for VideoConduit
*/
RefPtr<VideoSessionConduit>
VideoSessionConduit::Create()
{
NS_ASSERTION(NS_IsMainThread(), "Only call on main thread");
CSFLogDebug(logTag, "%s ", __FUNCTION__);
WebrtcVideoConduit* obj = new WebrtcVideoConduit();
if(obj->Init() != kMediaConduitNoError)
{
CSFLogError(logTag, "%s VideoConduit Init Failed ", __FUNCTION__);
delete obj;
return nullptr;
}
CSFLogDebug(logTag, "%s Successfully created VideoConduit ", __FUNCTION__);
return obj;
}
WebrtcVideoConduit::WebrtcVideoConduit():
mVideoEngine(nullptr),
mTransportMonitor("WebrtcVideoConduit"),
mTransmitterTransport(nullptr),
mReceiverTransport(nullptr),
mRenderer(nullptr),
mPtrExtCapture(nullptr),
mEngineTransmitting(false),
mEngineReceiving(false),
mChannel(-1),
mCapId(-1),
mCodecMutex("VideoConduit codec db"),
mInReconfig(false),
mLastWidth(0), // forces a check for reconfig at start
mLastHeight(0),
mSendingWidth(0),
mSendingHeight(0),
mReceivingWidth(0),
mReceivingHeight(0),
mSendingFramerate(DEFAULT_VIDEO_MAX_FRAMERATE),
mLastFramerateTenths(DEFAULT_VIDEO_MAX_FRAMERATE*10),
mNumReceivingStreams(1),
mVideoLatencyTestEnable(false),
mVideoLatencyAvg(0),
mMinBitrate(0),
mStartBitrate(0),
mMaxBitrate(0),
mMinBitrateEstimate(0),
mRtpStreamIdEnabled(false),
mRtpStreamIdExtId(0),
mCodecMode(webrtc::kRealtimeVideo)
{}
WebrtcVideoConduit::~WebrtcVideoConduit()
{
NS_ASSERTION(NS_IsMainThread(), "Only call on main thread");
CSFLogDebug(logTag, "%s ", __FUNCTION__);
// Release AudioConduit first by dropping reference on MainThread, where it expects to be
SyncTo(nullptr);
Destroy();
}
bool WebrtcVideoConduit::SetLocalSSRC(unsigned int ssrc)
{
unsigned int oldSsrc;
if (!GetLocalSSRC(&oldSsrc)) {
MOZ_ASSERT(false, "GetLocalSSRC failed");
return false;
}
if (oldSsrc == ssrc) {
return true;
}
bool wasTransmitting = mEngineTransmitting;
if (StopTransmitting() != kMediaConduitNoError) {
return false;
}
if (mPtrRTP->SetLocalSSRC(mChannel, ssrc)) {
return false;
}
if (wasTransmitting) {
if (StartTransmitting() != kMediaConduitNoError) {
return false;
}
}
return true;
}
bool WebrtcVideoConduit::GetLocalSSRC(unsigned int* ssrc)
{
return !mPtrRTP->GetLocalSSRC(mChannel, *ssrc);
}
bool WebrtcVideoConduit::GetRemoteSSRC(unsigned int* ssrc)
{
return !mPtrRTP->GetRemoteSSRC(mChannel, *ssrc);
}
bool WebrtcVideoConduit::SetLocalCNAME(const char* cname)
{
char temp[256];
strncpy(temp, cname, sizeof(temp) - 1);
temp[sizeof(temp) - 1] = 0;
return !mPtrRTP->SetRTCPCName(mChannel, temp);
}
bool WebrtcVideoConduit::GetVideoEncoderStats(double* framerateMean,
double* framerateStdDev,
double* bitrateMean,
double* bitrateStdDev,
uint32_t* droppedFrames)
{
if (!mEngineTransmitting) {
return false;
}
MOZ_ASSERT(mVideoCodecStat);
mVideoCodecStat->GetEncoderStats(framerateMean, framerateStdDev,
bitrateMean, bitrateStdDev,
droppedFrames);
// See if we need to adjust bandwidth.
// Avoid changing bandwidth constantly; use hysteresis.
// Note: mLastFramerate is a relaxed Atomic because we're setting it here, and
// reading it on whatever thread calls DeliverFrame/SendVideoFrame. Alternately
// we could use a lock. Note that we don't change it often, and read it once per frame.
// We scale by *10 because mozilla::Atomic<> doesn't do 'double' or 'float'.
double framerate = mLastFramerateTenths/10.0; // fetch once
if (std::abs(*framerateMean - framerate)/framerate > 0.1 &&
*framerateMean >= 0.5) {
// unchanged resolution, but adjust bandwidth limits to match camera fps
CSFLogDebug(logTag, "Encoder frame rate changed from %f to %f",
(mLastFramerateTenths/10.0), *framerateMean);
MutexAutoLock lock(mCodecMutex);
mLastFramerateTenths = *framerateMean * 10;
SelectSendResolution(mSendingWidth, mSendingHeight, nullptr);
}
return true;
}
bool WebrtcVideoConduit::GetVideoDecoderStats(double* framerateMean,
double* framerateStdDev,
double* bitrateMean,
double* bitrateStdDev,
uint32_t* discardedPackets)
{
if (!mEngineReceiving) {
return false;
}
MOZ_ASSERT(mVideoCodecStat);
mVideoCodecStat->GetDecoderStats(framerateMean, framerateStdDev,
bitrateMean, bitrateStdDev,
discardedPackets);
return true;
}
bool WebrtcVideoConduit::GetAVStats(int32_t* jitterBufferDelayMs,
int32_t* playoutBufferDelayMs,
int32_t* avSyncOffsetMs) {
return false;
}
bool WebrtcVideoConduit::GetRTPStats(unsigned int* jitterMs,
unsigned int* cumulativeLost) {
unsigned short fractionLost;
unsigned extendedMax;
int64_t rttMs;
// GetReceivedRTCPStatistics is a poorly named GetRTPStatistics variant
return !mPtrRTP->GetReceivedRTCPStatistics(mChannel, fractionLost,
*cumulativeLost,
extendedMax,
*jitterMs,
rttMs);
}
bool WebrtcVideoConduit::GetRTCPReceiverReport(DOMHighResTimeStamp* timestamp,
uint32_t* jitterMs,
uint32_t* packetsReceived,
uint64_t* bytesReceived,
uint32_t* cumulativeLost,
int32_t* rttMs) {
uint32_t ntpHigh, ntpLow;
uint16_t fractionLost;
bool result = !mPtrRTP->GetRemoteRTCPReceiverInfo(mChannel, ntpHigh, ntpLow,
*packetsReceived,
*bytesReceived,
jitterMs,
&fractionLost,
cumulativeLost,
rttMs);
if (result) {
*timestamp = NTPtoDOMHighResTimeStamp(ntpHigh, ntpLow);
}
return result;
}
bool WebrtcVideoConduit::GetRTCPSenderReport(DOMHighResTimeStamp* timestamp,
unsigned int* packetsSent,
uint64_t* bytesSent) {
struct webrtc::SenderInfo senderInfo;
bool result = !mPtrRTP->GetRemoteRTCPSenderInfo(mChannel, &senderInfo);
if (result) {
*timestamp = NTPtoDOMHighResTimeStamp(senderInfo.NTP_timestamp_high,
senderInfo.NTP_timestamp_low);
*packetsSent = senderInfo.sender_packet_count;
*bytesSent = senderInfo.sender_octet_count;
}
return result;
}
MediaConduitErrorCode
WebrtcVideoConduit::InitMain()
{
#if defined(MOZILLA_INTERNAL_API)
// already know we must be on MainThread barring unit test weirdness
MOZ_ASSERT(NS_IsMainThread());
nsresult rv;
nsCOMPtr<nsIPrefService> prefs = do_GetService("@mozilla.org/preferences-service;1", &rv);
if (!NS_WARN_IF(NS_FAILED(rv)))
{
nsCOMPtr<nsIPrefBranch> branch = do_QueryInterface(prefs);
if (branch)
{
int32_t temp;
Unused << NS_WARN_IF(NS_FAILED(branch->GetBoolPref("media.video.test_latency", &mVideoLatencyTestEnable)));
if (!NS_WARN_IF(NS_FAILED(branch->GetIntPref("media.peerconnection.video.min_bitrate", &temp))))
{
if (temp >= 0) {
mMinBitrate = temp;
}
}
if (!NS_WARN_IF(NS_FAILED(branch->GetIntPref("media.peerconnection.video.start_bitrate", &temp))))
{
if (temp >= 0) {
mStartBitrate = temp;
}
}
if (!NS_WARN_IF(NS_FAILED(branch->GetIntPref("media.peerconnection.video.max_bitrate", &temp))))
{
if (temp >= 0) {
mMaxBitrate = temp;
}
}
if (mMinBitrate != 0 && mMinBitrate < webrtc::kViEMinCodecBitrate) {
mMinBitrate = webrtc::kViEMinCodecBitrate;
}
if (mStartBitrate < mMinBitrate) {
mStartBitrate = mMinBitrate;
}
if (mStartBitrate > mMaxBitrate) {
mStartBitrate = mMaxBitrate;
}
if (!NS_WARN_IF(NS_FAILED(branch->GetIntPref("media.peerconnection.video.min_bitrate_estimate", &temp))))
{
if (temp >= 0) {
mMinBitrateEstimate = temp;
}
}
bool use_loadmanager = false;
if (!NS_WARN_IF(NS_FAILED(branch->GetBoolPref("media.navigator.load_adapt", &use_loadmanager))))
{
if (use_loadmanager) {
mLoadManager = LoadManagerBuild();
}
}
}
}
#ifdef MOZ_WIDGET_ANDROID
// get the JVM
JavaVM *jvm = jsjni_GetVM();
if (webrtc::VideoEngine::SetAndroidObjects(jvm) != 0) {
CSFLogError(logTag, "%s: could not set Android objects", __FUNCTION__);
return kMediaConduitSessionNotInited;
}
#endif
#endif
return kMediaConduitNoError;
}
/**
* Performs initialization of the MANDATORY components of the Video Engine
*/
MediaConduitErrorCode
WebrtcVideoConduit::Init()
{
CSFLogDebug(logTag, "%s this=%p", __FUNCTION__, this);
MediaConduitErrorCode result;
// Run code that must run on MainThread first
MOZ_ASSERT(NS_IsMainThread());
result = InitMain();
if (result != kMediaConduitNoError) {
return result;
}
// Per WebRTC APIs below function calls return nullptr on failure
mVideoEngine = webrtc::VideoEngine::Create();
if(!mVideoEngine)
{
CSFLogError(logTag, "%s Unable to create video engine ", __FUNCTION__);
return kMediaConduitSessionNotInited;
}
if( !(mPtrViEBase = ViEBase::GetInterface(mVideoEngine)))
{
CSFLogError(logTag, "%s Unable to get video base interface ", __FUNCTION__);
return kMediaConduitSessionNotInited;
}
if( !(mPtrViECapture = ViECapture::GetInterface(mVideoEngine)))
{
CSFLogError(logTag, "%s Unable to get video capture interface", __FUNCTION__);
return kMediaConduitSessionNotInited;
}
if( !(mPtrViECodec = ViECodec::GetInterface(mVideoEngine)))
{
CSFLogError(logTag, "%s Unable to get video codec interface ", __FUNCTION__);
return kMediaConduitSessionNotInited;
}
if( !(mPtrViENetwork = ViENetwork::GetInterface(mVideoEngine)))
{
CSFLogError(logTag, "%s Unable to get video network interface ", __FUNCTION__);
return kMediaConduitSessionNotInited;
}
if( !(mPtrViERender = ViERender::GetInterface(mVideoEngine)))
{
CSFLogError(logTag, "%s Unable to get video render interface ", __FUNCTION__);
return kMediaConduitSessionNotInited;
}
mPtrExtCodec = webrtc::ViEExternalCodec::GetInterface(mVideoEngine);
if (!mPtrExtCodec) {
CSFLogError(logTag, "%s Unable to get external codec interface: %d ",
__FUNCTION__,mPtrViEBase->LastError());
return kMediaConduitSessionNotInited;
}
if( !(mPtrRTP = webrtc::ViERTP_RTCP::GetInterface(mVideoEngine)))
{
CSFLogError(logTag, "%s Unable to get video RTCP interface ", __FUNCTION__);
return kMediaConduitSessionNotInited;
}
if ( !(mPtrExtCodec = webrtc::ViEExternalCodec::GetInterface(mVideoEngine)))
{
CSFLogError(logTag, "%s Unable to get external codec interface %d ",
__FUNCTION__, mPtrViEBase->LastError());
return kMediaConduitSessionNotInited;
}
CSFLogDebug(logTag, "%s Engine Created: Init'ng the interfaces ",__FUNCTION__);
if(mPtrViEBase->Init() == -1)
{
CSFLogError(logTag, " %s Video Engine Init Failed %d ",__FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitSessionNotInited;
}
if(mPtrViEBase->CreateChannel(mChannel) == -1)
{
CSFLogError(logTag, " %s Channel creation Failed %d ",__FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitChannelError;
}
if(mPtrViENetwork->RegisterSendTransport(mChannel, *this) == -1)
{
CSFLogError(logTag, "%s ViENetwork Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitTransportRegistrationFail;
}
if(mPtrViECapture->AllocateExternalCaptureDevice(mCapId,
mPtrExtCapture) == -1)
{
CSFLogError(logTag, "%s Unable to Allocate capture module: %d ",
__FUNCTION__, mPtrViEBase->LastError());
return kMediaConduitCaptureError;
}
if(mPtrViECapture->ConnectCaptureDevice(mCapId,mChannel) == -1)
{
CSFLogError(logTag, "%s Unable to Connect capture module: %d ",
__FUNCTION__,mPtrViEBase->LastError());
return kMediaConduitCaptureError;
}
// Set up some parameters, per juberti. Set MTU.
if(mPtrViENetwork->SetMTU(mChannel, 1200) != 0)
{
CSFLogError(logTag, "%s MTU Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitMTUError;
}
// Turn on RTCP and loss feedback reporting.
if(mPtrRTP->SetRTCPStatus(mChannel, webrtc::kRtcpCompound_RFC4585) != 0)
{
CSFLogError(logTag, "%s RTCPStatus Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitRTCPStatusError;
}
if (mPtrViERender->AddRenderer(mChannel,
webrtc::kVideoI420,
(webrtc::ExternalRenderer*) this) == -1) {
CSFLogError(logTag, "%s Failed to added external renderer ", __FUNCTION__);
return kMediaConduitInvalidRenderer;
}
if (mLoadManager) {
mPtrViEBase->RegisterCpuOveruseObserver(mChannel, mLoadManager);
mPtrViEBase->SetLoadManager(mLoadManager);
}
CSFLogError(logTag, "%s Initialization Done", __FUNCTION__);
return kMediaConduitNoError;
}
void
WebrtcVideoConduit::Destroy()
{
// The first one of a pair to be deleted shuts down media for both
//Deal with External Capturer
if(mPtrViECapture)
{
mPtrViECapture->DisconnectCaptureDevice(mCapId);
mPtrViECapture->ReleaseCaptureDevice(mCapId);
mPtrExtCapture = nullptr;
}
if (mPtrExtCodec) {
mPtrExtCodec->Release();
mPtrExtCodec = NULL;
}
//Deal with External Renderer
if(mPtrViERender)
{
if(mRenderer) {
mPtrViERender->StopRender(mChannel);
}
mPtrViERender->RemoveRenderer(mChannel);
}
//Deal with the transport
if(mPtrViENetwork)
{
mPtrViENetwork->DeregisterSendTransport(mChannel);
}
if(mPtrViEBase)
{
mPtrViEBase->StopSend(mChannel);
mPtrViEBase->StopReceive(mChannel);
mPtrViEBase->DeleteChannel(mChannel);
}
// mVideoCodecStat has a back-ptr to mPtrViECodec that must be released first
if (mVideoCodecStat) {
mVideoCodecStat->EndOfCallStats();
}
mVideoCodecStat = nullptr;
// We can't delete the VideoEngine until all these are released!
// And we can't use a Scoped ptr, since the order is arbitrary
mPtrViEBase = nullptr;
mPtrViECapture = nullptr;
mPtrViECodec = nullptr;
mPtrViENetwork = nullptr;
mPtrViERender = nullptr;
mPtrRTP = nullptr;
mPtrExtCodec = nullptr;
// only one opener can call Delete. Have it be the last to close.
if(mVideoEngine)
{
webrtc::VideoEngine::Delete(mVideoEngine);
}
}
void
WebrtcVideoConduit::SyncTo(WebrtcAudioConduit *aConduit)
{
CSFLogDebug(logTag, "%s Synced to %p", __FUNCTION__, aConduit);
// SyncTo(value) syncs to the AudioConduit, and if already synced replaces
// the current sync target. SyncTo(nullptr) cancels any existing sync and
// releases the strong ref to AudioConduit.
if (aConduit) {
mPtrViEBase->SetVoiceEngine(aConduit->GetVoiceEngine());
mPtrViEBase->ConnectAudioChannel(mChannel, aConduit->GetChannel());
// NOTE: this means the VideoConduit will keep the AudioConduit alive!
} else {
mPtrViEBase->DisconnectAudioChannel(mChannel);
mPtrViEBase->SetVoiceEngine(nullptr);
}
mSyncedTo = aConduit;
}
MediaConduitErrorCode
WebrtcVideoConduit::AttachRenderer(RefPtr<VideoRenderer> aVideoRenderer)
{
CSFLogDebug(logTag, "%s ", __FUNCTION__);
//null renderer
if(!aVideoRenderer)
{
CSFLogError(logTag, "%s NULL Renderer", __FUNCTION__);
MOZ_ASSERT(false);
return kMediaConduitInvalidRenderer;
}
// This function is called only from main, so we only need to protect against
// modifying mRenderer while any webrtc.org code is trying to use it.
bool wasRendering;
{
ReentrantMonitorAutoEnter enter(mTransportMonitor);
wasRendering = !!mRenderer;
mRenderer = aVideoRenderer;
// Make sure the renderer knows the resolution
mRenderer->FrameSizeChange(mReceivingWidth,
mReceivingHeight,
mNumReceivingStreams);
}
if (!wasRendering) {
if(mPtrViERender->StartRender(mChannel) == -1)
{
CSFLogError(logTag, "%s Starting the Renderer Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
ReentrantMonitorAutoEnter enter(mTransportMonitor);
mRenderer = nullptr;
return kMediaConduitRendererFail;
}
}
return kMediaConduitNoError;
}
void
WebrtcVideoConduit::DetachRenderer()
{
{
ReentrantMonitorAutoEnter enter(mTransportMonitor);
if(mRenderer)
{
mRenderer = nullptr;
}
}
mPtrViERender->StopRender(mChannel);
}
MediaConduitErrorCode
WebrtcVideoConduit::SetTransmitterTransport(RefPtr<TransportInterface> aTransport)
{
CSFLogDebug(logTag, "%s ", __FUNCTION__);
ReentrantMonitorAutoEnter enter(mTransportMonitor);
// set the transport
mTransmitterTransport = aTransport;
return kMediaConduitNoError;
}
MediaConduitErrorCode
WebrtcVideoConduit::SetReceiverTransport(RefPtr<TransportInterface> aTransport)
{
CSFLogDebug(logTag, "%s ", __FUNCTION__);
ReentrantMonitorAutoEnter enter(mTransportMonitor);
// set the transport
mReceiverTransport = aTransport;
return kMediaConduitNoError;
}
MediaConduitErrorCode
WebrtcVideoConduit::ConfigureCodecMode(webrtc::VideoCodecMode mode)
{
CSFLogDebug(logTag, "%s ", __FUNCTION__);
mCodecMode = mode;
return kMediaConduitNoError;
}
/**
* Note: Setting the send-codec on the Video Engine will restart the encoder,
* sets up new SSRC and reset RTP_RTCP module with the new codec setting.
*
* Note: this is called from MainThread, and the codec settings are read on
* videoframe delivery threads (i.e in SendVideoFrame(). With
* renegotiation/reconfiguration, this now needs a lock! Alternatively
* changes could be queued until the next frame is delivered using an
* Atomic pointer and swaps.
*/
MediaConduitErrorCode
WebrtcVideoConduit::ConfigureSendMediaCodec(const VideoCodecConfig* codecConfig)
{
CSFLogDebug(logTag, "%s for %s", __FUNCTION__, codecConfig ? codecConfig->mName.c_str() : "<null>");
bool codecFound = false;
MediaConduitErrorCode condError = kMediaConduitNoError;
int error = 0; //webrtc engine errors
webrtc::VideoCodec video_codec;
std::string payloadName;
memset(&video_codec, 0, sizeof(video_codec));
{
//validate basic params
if((condError = ValidateCodecConfig(codecConfig,true)) != kMediaConduitNoError)
{
return condError;
}
}
condError = StopTransmitting();
if (condError != kMediaConduitNoError) {
return condError;
}
if (mRtpStreamIdEnabled) {
video_codec.ridId = mRtpStreamIdExtId;
}
if (mExternalSendCodec &&
codecConfig->mType == mExternalSendCodec->mType) {
CSFLogError(logTag, "%s Configuring External H264 Send Codec", __FUNCTION__);
// width/height will be overridden on the first frame
video_codec.width = 320;
video_codec.height = 240;
#ifdef MOZ_WEBRTC_OMX
if (codecConfig->mType == webrtc::kVideoCodecH264) {
video_codec.resolution_divisor = 16;
} else {
video_codec.resolution_divisor = 1; // We could try using it to handle odd resolutions
}
#else
video_codec.resolution_divisor = 1; // We could try using it to handle odd resolutions
#endif
video_codec.qpMax = 56;
video_codec.numberOfSimulcastStreams = 1;
video_codec.simulcastStream[0].jsScaleDownBy =
codecConfig->mEncodingConstraints.scaleDownBy;
video_codec.mode = mCodecMode;
codecFound = true;
} else {
// we should be good here to set the new codec.
for(int idx=0; idx < mPtrViECodec->NumberOfCodecs(); idx++)
{
if(0 == mPtrViECodec->GetCodec(idx, video_codec))
{
payloadName = video_codec.plName;
if(codecConfig->mName.compare(payloadName) == 0)
{
// Note: side-effect of this is that video_codec is filled in
// by GetCodec()
codecFound = true;
break;
}
}
}//for
}
if(codecFound == false)
{
CSFLogError(logTag, "%s Codec Mismatch ", __FUNCTION__);
return kMediaConduitInvalidSendCodec;
}
// Note: only for overriding parameters from GetCodec()!
CodecConfigToWebRTCCodec(codecConfig, video_codec);
if (mSendingWidth != 0) {
// We're already in a call and are reconfiguring (perhaps due to
// ReplaceTrack). Set to match the last frame we sent.
// We could also set mLastWidth to 0, to force immediate reconfig -
// more expensive, but perhaps less risk of missing something. Really
// on ReplaceTrack we should just call ConfigureCodecMode(), and if the
// mode changed, we re-configure.
// Do this after CodecConfigToWebRTCCodec() to avoid messing up simulcast
video_codec.width = mSendingWidth;
video_codec.height = mSendingHeight;
video_codec.maxFramerate = mSendingFramerate;
} else {
mSendingWidth = 0;
mSendingHeight = 0;
mSendingFramerate = video_codec.maxFramerate;
}
video_codec.mode = mCodecMode;
if(mPtrViECodec->SetSendCodec(mChannel, video_codec) == -1)
{
error = mPtrViEBase->LastError();
if(error == kViECodecInvalidCodec)
{
CSFLogError(logTag, "%s Invalid Send Codec", __FUNCTION__);
return kMediaConduitInvalidSendCodec;
}
CSFLogError(logTag, "%s SetSendCodec Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitUnknownError;
}
if (mMinBitrateEstimate != 0) {
mPtrViENetwork->SetBitrateConfig(mChannel,
mMinBitrateEstimate,
std::max(video_codec.startBitrate,
mMinBitrateEstimate),
std::max(video_codec.maxBitrate,
mMinBitrateEstimate));
}
if (!mVideoCodecStat) {
mVideoCodecStat = new VideoCodecStatistics(mChannel, mPtrViECodec);
}
mVideoCodecStat->Register(true);
// See Bug 1297058, enabling FEC when NACK is set on H.264 is problematic
bool use_fec = codecConfig->RtcpFbFECIsSet();
if ((mExternalSendCodec && codecConfig->mType == mExternalSendCodec->mType)
|| codecConfig->mType == webrtc::kVideoCodecH264) {
if(codecConfig->RtcpFbNackIsSet("")) {
use_fec = false;
}
}
if (use_fec)
{
uint8_t payload_type_red = INVALID_RTP_PAYLOAD;
uint8_t payload_type_ulpfec = INVALID_RTP_PAYLOAD;
if (!DetermineREDAndULPFECPayloadTypes(payload_type_red, payload_type_ulpfec)) {
CSFLogError(logTag, "%s Unable to set FEC status: could not determine"
"payload type: red %u ulpfec %u",
__FUNCTION__, payload_type_red, payload_type_ulpfec);
return kMediaConduitFECStatusError;
}
if(codecConfig->RtcpFbNackIsSet("")) {
CSFLogDebug(logTag, "Enabling NACK/FEC (send) for video stream\n");
if (mPtrRTP->SetHybridNACKFECStatus(mChannel, true,
payload_type_red,
payload_type_ulpfec) != 0) {
CSFLogError(logTag, "%s SetHybridNACKFECStatus Failed %d ",
__FUNCTION__, mPtrViEBase->LastError());
return kMediaConduitHybridNACKFECStatusError;
}
} else {
CSFLogDebug(logTag, "Enabling FEC (send) for video stream\n");
if (mPtrRTP->SetFECStatus(mChannel, true,
payload_type_red, payload_type_ulpfec) != 0)
{
CSFLogError(logTag, "%s SetFECStatus Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitFECStatusError;
}
}
} else if(codecConfig->RtcpFbNackIsSet("")) {
CSFLogDebug(logTag, "Enabling NACK (send) for video stream\n");
if (mPtrRTP->SetNACKStatus(mChannel, true) != 0)
{
CSFLogError(logTag, "%s NACKStatus Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitNACKStatusError;
}
}
{
MutexAutoLock lock(mCodecMutex);
//Copy the applied config for future reference.
mCurSendCodecConfig = new VideoCodecConfig(*codecConfig);
}
bool remb_requested = codecConfig->RtcpFbRembIsSet();
mPtrRTP->SetRembStatus(mChannel, true, remb_requested);
return kMediaConduitNoError;
}
MediaConduitErrorCode
WebrtcVideoConduit::ConfigureRecvMediaCodecs(
const std::vector<VideoCodecConfig* >& codecConfigList)
{
CSFLogDebug(logTag, "%s ", __FUNCTION__);
MediaConduitErrorCode condError = kMediaConduitNoError;
bool success = false;
std::string payloadName;
condError = StopReceiving();
if (condError != kMediaConduitNoError) {
return condError;
}
if(codecConfigList.empty())
{
CSFLogError(logTag, "%s Zero number of codecs to configure", __FUNCTION__);
return kMediaConduitMalformedArgument;
}
webrtc::ViEKeyFrameRequestMethod kf_request = webrtc::kViEKeyFrameRequestNone;
bool use_nack_basic = false;
bool use_tmmbr = false;
bool use_remb = false;
bool use_fec = false;
//Try Applying the codecs in the list
// we treat as success if atleast one codec was applied and reception was
// started successfully.
for(std::vector<VideoCodecConfig*>::size_type i=0;i < codecConfigList.size();i++)
{
//if the codec param is invalid or diplicate, return error
if((condError = ValidateCodecConfig(codecConfigList[i],false)) != kMediaConduitNoError)
{
return condError;
}
// Check for the keyframe request type: PLI is preferred
// over FIR, and FIR is preferred over none.
if (codecConfigList[i]->RtcpFbNackIsSet("pli"))
{
kf_request = webrtc::kViEKeyFrameRequestPliRtcp;
} else if(kf_request == webrtc::kViEKeyFrameRequestNone &&
codecConfigList[i]->RtcpFbCcmIsSet("fir"))
{
kf_request = webrtc::kViEKeyFrameRequestFirRtcp;
}
// Check whether NACK is requested
if(codecConfigList[i]->RtcpFbNackIsSet(""))
{
use_nack_basic = true;
}
// Check whether TMMBR is requested
if (codecConfigList[i]->RtcpFbCcmIsSet("tmmbr")) {
use_tmmbr = true;
}
// Check whether REMB is requested
if (codecConfigList[i]->RtcpFbRembIsSet()) {
use_remb = true;
}
// Check whether FEC is requested
if (codecConfigList[i]->RtcpFbFECIsSet()) {
use_fec = true;
}
webrtc::VideoCodec video_codec;
memset(&video_codec, 0, sizeof(webrtc::VideoCodec));
if (mExternalRecvCodec &&
codecConfigList[i]->mType == mExternalRecvCodec->mType) {
CSFLogError(logTag, "%s Configuring External H264 Receive Codec", __FUNCTION__);
// XXX Do we need a separate setting for receive maxbitrate? Is it
// different for hardware codecs? For now assume symmetry.
CodecConfigToWebRTCCodec(codecConfigList[i], video_codec);
// values SetReceiveCodec() cares about are name, type, maxbitrate
if(mPtrViECodec->SetReceiveCodec(mChannel,video_codec) == -1)
{
CSFLogError(logTag, "%s Invalid Receive Codec %d ", __FUNCTION__,
mPtrViEBase->LastError());
} else {
CSFLogError(logTag, "%s Successfully Set the codec %s", __FUNCTION__,
codecConfigList[i]->mName.c_str());
success = true;
}
} else {
//Retrieve pre-populated codec structure for our codec.
for(int idx=0; idx < mPtrViECodec->NumberOfCodecs(); idx++)
{
if(mPtrViECodec->GetCodec(idx, video_codec) == 0)
{
payloadName = video_codec.plName;
if(codecConfigList[i]->mName.compare(payloadName) == 0)
{
CodecConfigToWebRTCCodec(codecConfigList[i], video_codec);
if(mPtrViECodec->SetReceiveCodec(mChannel,video_codec) == -1)
{
CSFLogError(logTag, "%s Invalid Receive Codec %d ", __FUNCTION__,
mPtrViEBase->LastError());
} else {
CSFLogError(logTag, "%s Successfully Set the codec %s", __FUNCTION__,
codecConfigList[i]->mName.c_str());
success = true;
}
break; //we found a match
}
}
}//end for codeclist
}
}//end for
if(!success)
{
CSFLogError(logTag, "%s Setting Receive Codec Failed ", __FUNCTION__);
return kMediaConduitInvalidReceiveCodec;
}
if (!mVideoCodecStat) {
mVideoCodecStat = new VideoCodecStatistics(mChannel, mPtrViECodec);
}
mVideoCodecStat->Register(false);
// XXX Currently, we gather up all of the feedback types that the remote
// party indicated it supports for all video codecs and configure the entire
// conduit based on those capabilities. This is technically out of spec,
// as these values should be configured on a per-codec basis. However,
// the video engine only provides this API on a per-conduit basis, so that's
// how we have to do it. The approach of considering the remote capablities
// for the entire conduit to be a union of all remote codec capabilities
// (rather than the more conservative approach of using an intersection)
// is made to provide as many feedback mechanisms as are likely to be
// processed by the remote party (and should be relatively safe, since the
// remote party is required to ignore feedback types that it does not
// understand).
//
// Note that our configuration uses this union of remote capabilites as
// input to the configuration. It is not isomorphic to the configuration.
// For example, it only makes sense to have one frame request mechanism
// active at a time; so, if the remote party indicates more than one
// supported mechanism, we're only configuring the one we most prefer.
//
// See http://code.google.com/p/webrtc/issues/detail?id=2331
if (kf_request != webrtc::kViEKeyFrameRequestNone)
{
CSFLogDebug(logTag, "Enabling %s frame requests for video stream\n",
(kf_request == webrtc::kViEKeyFrameRequestPliRtcp ?
"PLI" : "FIR"));
if(mPtrRTP->SetKeyFrameRequestMethod(mChannel, kf_request) != 0)
{
CSFLogError(logTag, "%s KeyFrameRequest Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitKeyFrameRequestError;
}
}
switch (kf_request) {
case webrtc::kViEKeyFrameRequestNone:
mFrameRequestMethod = FrameRequestNone;
break;
case webrtc::kViEKeyFrameRequestPliRtcp:
mFrameRequestMethod = FrameRequestPli;
break;
case webrtc::kViEKeyFrameRequestFirRtcp:
mFrameRequestMethod = FrameRequestFir;
break;
default:
MOZ_ASSERT(false);
mFrameRequestMethod = FrameRequestUnknown;
}
if (use_fec)
{
uint8_t payload_type_red = INVALID_RTP_PAYLOAD;
uint8_t payload_type_ulpfec = INVALID_RTP_PAYLOAD;
if (!DetermineREDAndULPFECPayloadTypes(payload_type_red, payload_type_ulpfec)) {
CSFLogError(logTag, "%s Unable to set FEC status: could not determine"
"payload type: red %u ulpfec %u",
__FUNCTION__, payload_type_red, payload_type_ulpfec);
return kMediaConduitFECStatusError;
}
// We also need to call SetReceiveCodec for RED and ULPFEC codecs
for(int idx=0; idx < mPtrViECodec->NumberOfCodecs(); idx++) {
webrtc::VideoCodec video_codec;
if(mPtrViECodec->GetCodec(idx, video_codec) == 0) {
payloadName = video_codec.plName;
if(video_codec.codecType == webrtc::VideoCodecType::kVideoCodecRED ||
video_codec.codecType == webrtc::VideoCodecType::kVideoCodecULPFEC) {
if(mPtrViECodec->SetReceiveCodec(mChannel,video_codec) == -1) {
CSFLogError(logTag, "%s Invalid Receive Codec %d ", __FUNCTION__,
mPtrViEBase->LastError());
} else {
CSFLogDebug(logTag, "%s Successfully Set the codec %s", __FUNCTION__,
video_codec.plName);
}
}
}
}
if (use_nack_basic) {
CSFLogDebug(logTag, "Enabling NACK/FEC (recv) for video stream\n");
if (mPtrRTP->SetHybridNACKFECStatus(mChannel, true,
payload_type_red,
payload_type_ulpfec) != 0) {
CSFLogError(logTag, "%s SetHybridNACKFECStatus Failed %d ",
__FUNCTION__, mPtrViEBase->LastError());
return kMediaConduitNACKStatusError;
}
} else {
CSFLogDebug(logTag, "Enabling FEC (recv) for video stream\n");
if (mPtrRTP->SetFECStatus(mChannel, true,
payload_type_red, payload_type_ulpfec) != 0)
{
CSFLogError(logTag, "%s SetFECStatus Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitNACKStatusError;
}
}
} else if(use_nack_basic) {
CSFLogDebug(logTag, "Enabling NACK (recv) for video stream\n");
if (mPtrRTP->SetNACKStatus(mChannel, true) != 0)
{
CSFLogError(logTag, "%s NACKStatus Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitNACKStatusError;
}
}
mUsingNackBasic = use_nack_basic;
mUsingFEC = use_fec;
if (use_tmmbr) {
CSFLogDebug(logTag, "Enabling TMMBR for video stream");
if (mPtrRTP->SetTMMBRStatus(mChannel, true) != 0) {
CSFLogError(logTag, "%s SetTMMBRStatus Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitTMMBRStatusError;
}
}
mUsingTmmbr = use_tmmbr;
condError = StartReceiving();
if (condError != kMediaConduitNoError) {
return condError;
}
// by now we should be successfully started the reception
CSFLogDebug(logTag, "REMB enabled for video stream %s",
(use_remb ? "yes" : "no"));
mPtrRTP->SetRembStatus(mChannel, use_remb, true);
return kMediaConduitNoError;
}
template<typename T>
T MinIgnoreZero(const T& a, const T& b)
{
return std::min(a? a:b, b? b:a);
}
struct ResolutionAndBitrateLimits {
uint32_t resolution_in_mb;
uint16_t min_bitrate;
uint16_t start_bitrate;
uint16_t max_bitrate;
};
#define MB_OF(w,h) ((unsigned int)((((w+15)>>4))*((unsigned int)((h+15)>>4))))
// For now, try to set the max rates well above the knee in the curve.
// Chosen somewhat arbitrarily; it's hard to find good data oriented for
// realtime interactive/talking-head recording. These rates assume
// 30fps.
// XXX Populate this based on a pref (which we should consider sorting because
// people won't assume they need to).
static ResolutionAndBitrateLimits kResolutionAndBitrateLimits[] = {
{MB_OF(1920, 1200), 1500, 2000, 10000}, // >HD (3K, 4K, etc)
{MB_OF(1280, 720), 1200, 1500, 5000}, // HD ~1080-1200
{MB_OF(800, 480), 600, 800, 2500}, // HD ~720
{tl::Max<MB_OF(400, 240), MB_OF(352, 288)>::value, 200, 300, 1300}, // VGA, WVGA
{MB_OF(176, 144), 100, 150, 500}, // WQVGA, CIF
{0 , 40, 80, 250} // QCIF and below
};
void
WebrtcVideoConduit::SelectBitrates(unsigned short width,
unsigned short height,
unsigned int cap,
mozilla::Atomic<int32_t, mozilla::Relaxed>& aLastFramerateTenths,
unsigned int& out_min,
unsigned int& out_start,
unsigned int& out_max)
{
// max bandwidth should be proportional (not linearly!) to resolution, and
// proportional (perhaps linearly, or close) to current frame rate.
unsigned int fs = MB_OF(width, height);
for (ResolutionAndBitrateLimits resAndLimits : kResolutionAndBitrateLimits) {
if (fs > resAndLimits.resolution_in_mb &&
// pick the highest range where at least start rate is within cap
// (or if we're at the end of the array).
(!cap || resAndLimits.start_bitrate <= cap ||
resAndLimits.resolution_in_mb == 0)) {
out_min = MinIgnoreZero((unsigned int)resAndLimits.min_bitrate, cap);
out_start = MinIgnoreZero((unsigned int)resAndLimits.start_bitrate, cap);
out_max = MinIgnoreZero((unsigned int)resAndLimits.max_bitrate, cap);
break;
}
}
// mLastFramerateTenths is an atomic, and scaled by *10
double framerate = std::min((aLastFramerateTenths/10.),60.0);
MOZ_ASSERT(framerate > 0);
// Now linear reduction/increase based on fps (max 60fps i.e. doubling)
if (framerate >= 10) {
out_min = out_min * (framerate/30);
out_start = out_start * (framerate/30);
out_max = std::max((unsigned int)(out_max * (framerate/30)), cap);
} else {
// At low framerates, don't reduce bandwidth as much - cut slope to 1/2.
// Mostly this would be ultra-low-light situations/mobile or screensharing.
out_min = out_min * ((10-(framerate/2))/30);
out_start = out_start * ((10-(framerate/2))/30);
out_max = std::max((unsigned int)(out_max * ((10-(framerate/2))/30)), cap);
}
if (mMinBitrate && mMinBitrate > out_min) {
out_min = mMinBitrate;
}
// If we try to set a minimum bitrate that is too low, ViE will reject it.
out_min = std::max((unsigned int) webrtc::kViEMinCodecBitrate,
out_min);
if (mStartBitrate && mStartBitrate > out_start) {
out_start = mStartBitrate;
}
out_start = std::max(out_start, out_min);
// Note: mMaxBitrate is the max transport bitrate - it applies to a
// single codec encoding, but should also apply to the sum of all
// simulcast layers in this encoding!
// So sum(layers.maxBitrate) <= mMaxBitrate
if (mMaxBitrate && mMaxBitrate > out_max) {
out_max = mMaxBitrate;
}
}
static void ConstrainPreservingAspectRatioExact(uint32_t max_fs,
unsigned short* width,
unsigned short* height)
{
// We could try to pick a better starting divisor, but it won't make any real
// performance difference.
for (size_t d = 1; d < std::min(*width, *height); ++d) {
if ((*width % d) || (*height % d)) {
continue; // Not divisible
}
if (((*width) * (*height))/(d*d) <= max_fs) {
*width /= d;
*height /= d;
return;
}
}
*width = 0;
*height = 0;
}
static void ConstrainPreservingAspectRatio(uint16_t max_width,
uint16_t max_height,
unsigned short* width,
unsigned short* height)
{
if (((*width) <= max_width) && ((*height) <= max_height)) {
return;
}
if ((*width) * max_height > max_width * (*height))
{
(*height) = max_width * (*height) / (*width);
(*width) = max_width;
}
else
{
(*width) = max_height * (*width) / (*height);
(*height) = max_height;
}
}
// XXX we need to figure out how to feed back changes in preferred capture
// resolution to the getUserMedia source.
// Returns boolean if we've submitted an async change (and took ownership
// of *frame's data)
bool
WebrtcVideoConduit::SelectSendResolution(unsigned short width,
unsigned short height,
webrtc::I420VideoFrame *frame) // may be null
{
mCodecMutex.AssertCurrentThreadOwns();
// XXX This will do bandwidth-resolution adaptation as well - bug 877954
mLastWidth = width;
mLastHeight = height;
// Enforce constraints
if (mCurSendCodecConfig) {
uint16_t max_width = mCurSendCodecConfig->mEncodingConstraints.maxWidth;
uint16_t max_height = mCurSendCodecConfig->mEncodingConstraints.maxHeight;
if (max_width || max_height) {
max_width = max_width ? max_width : UINT16_MAX;
max_height = max_height ? max_height : UINT16_MAX;
ConstrainPreservingAspectRatio(max_width, max_height, &width, &height);
}
// Limit resolution to max-fs while keeping same aspect ratio as the
// incoming image.
if (mCurSendCodecConfig->mEncodingConstraints.maxFs)
{
uint32_t max_fs = mCurSendCodecConfig->mEncodingConstraints.maxFs;
unsigned int cur_fs, mb_width, mb_height, mb_max;
// Could we make this simpler by picking the larger of width and height,
// calculating a max for just that value based on the scale parameter,
// and then let ConstrainPreservingAspectRatio do the rest?
mb_width = (width + 15) >> 4;
mb_height = (height + 15) >> 4;
cur_fs = mb_width * mb_height;
// Limit resolution to max_fs, but don't scale up.
if (cur_fs > max_fs)
{
double scale_ratio;
scale_ratio = sqrt((double) max_fs / (double) cur_fs);
mb_width = mb_width * scale_ratio;
mb_height = mb_height * scale_ratio;
// Adjust mb_width and mb_height if they were truncated to zero.
if (mb_width == 0) {
mb_width = 1;
mb_height = std::min(mb_height, max_fs);
}
if (mb_height == 0) {
mb_height = 1;
mb_width = std::min(mb_width, max_fs);
}
}
// Limit width/height seperately to limit effect of extreme aspect ratios.
mb_max = (unsigned) sqrt(8 * (double) max_fs);
max_width = 16 * std::min(mb_width, mb_max);
max_height = 16 * std::min(mb_height, mb_max);
ConstrainPreservingAspectRatio(max_width, max_height, &width, &height);
}
}
// Adapt to getUserMedia resolution changes
// check if we need to reconfigure the sending resolution.
bool changed = false;
if (mSendingWidth != width || mSendingHeight != height)
{
CSFLogDebug(logTag, "%s: resolution changing to %ux%u (from %ux%u)",
__FUNCTION__, width, height, mSendingWidth, mSendingHeight);
// This will avoid us continually retrying this operation if it fails.
// If the resolution changes, we'll try again. In the meantime, we'll
// keep using the old size in the encoder.
mSendingWidth = width;
mSendingHeight = height;
changed = true;
}
// uses mSendingWidth/Height
unsigned int framerate = SelectSendFrameRate(mSendingFramerate);
if (mSendingFramerate != framerate) {
CSFLogDebug(logTag, "%s: framerate changing to %u (from %u)",
__FUNCTION__, framerate, mSendingFramerate);
mSendingFramerate = framerate;
changed = true;
}
if (changed) {
// On a resolution change, bounce this to the correct thread to
// re-configure (same as used for Init(). Do *not* block the calling
// thread since that may be the MSG thread.
// MUST run on the same thread as Init()/etc
if (!NS_IsMainThread()) {
// Note: on *initial* config (first frame), best would be to drop
// frames until the config is done, then encode the most recent frame
// provided and continue from there. We don't do this, but we do drop
// all frames while in the process of a reconfig and then encode the
// frame that started the reconfig, which is close. There may be
// barely perceptible glitch in the video due to the dropped frame(s).
mInReconfig = true;
// We can't pass a UniquePtr<> or unique_ptr<> to a lambda directly
webrtc::I420VideoFrame *new_frame = nullptr;
if (frame) {
new_frame = new webrtc::I420VideoFrame();
// the internal buffer pointer is refcounted, so we don't have 2 copies here
new_frame->ShallowCopy(*frame);
}
RefPtr<WebrtcVideoConduit> self(this);
RefPtr<Runnable> webrtc_runnable =
media::NewRunnableFrom([self, width, height, new_frame]() -> nsresult {
UniquePtr<webrtc::I420VideoFrame> local_frame(new_frame); // Simplify cleanup
MutexAutoLock lock(self->mCodecMutex);
return self->ReconfigureSendCodec(width, height, new_frame);
});
// new_frame now owned by lambda
CSFLogDebug(logTag, "%s: proxying lambda to WebRTC thread for reconfig (width %u/%u, height %u/%u",
__FUNCTION__, width, mLastWidth, height, mLastHeight);
NS_DispatchToMainThread(webrtc_runnable.forget());
if (new_frame) {
return true; // queued it
}
} else {
// already on the right thread
ReconfigureSendCodec(width, height, frame);
}
}
return false;
}
nsresult
WebrtcVideoConduit::ReconfigureSendCodec(unsigned short width,
unsigned short height,
webrtc::I420VideoFrame *frame)
{
mCodecMutex.AssertCurrentThreadOwns();
// Get current vie codec.
webrtc::VideoCodec vie_codec;
int32_t err;
mInReconfig = false;
if ((err = mPtrViECodec->GetSendCodec(mChannel, vie_codec)) != 0)
{
CSFLogError(logTag, "%s: GetSendCodec failed, err %d", __FUNCTION__, err);
return NS_ERROR_FAILURE;
}
CSFLogDebug(logTag,
"%s: Requesting resolution change to %ux%u (from %ux%u)",
__FUNCTION__, width, height, vie_codec.width, vie_codec.height);
if (mRtpStreamIdEnabled) {
vie_codec.ridId = mRtpStreamIdExtId;
}
vie_codec.width = width;
vie_codec.height = height;
vie_codec.maxFramerate = mSendingFramerate;
SelectBitrates(vie_codec.width, vie_codec.height, 0,
mLastFramerateTenths,
vie_codec.minBitrate,
vie_codec.startBitrate,
vie_codec.maxBitrate);
// These are based on lowest-fidelity, because if there is insufficient
// bandwidth for all streams, only the lowest fidelity one will be sent.
uint32_t minMinBitrate = 0;
uint32_t minStartBitrate = 0;
// Total for all simulcast streams.
uint32_t totalMaxBitrate = 0;
for (size_t i = vie_codec.numberOfSimulcastStreams; i > 0; --i) {
webrtc::SimulcastStream& stream(vie_codec.simulcastStream[i - 1]);
stream.width = width;
stream.height = height;
MOZ_ASSERT(stream.jsScaleDownBy >= 1.0);
uint32_t new_width = uint32_t(width / stream.jsScaleDownBy);
uint32_t new_height = uint32_t(height / stream.jsScaleDownBy);
// TODO: If two layers are similar, only alloc bits to one (Bug 1249859)
if (new_width != width || new_height != height) {
if (vie_codec.numberOfSimulcastStreams == 1) {
// Use less strict scaling in unicast. That way 320x240 / 3 = 106x79.
ConstrainPreservingAspectRatio(new_width, new_height,
&stream.width, &stream.height);
} else {
// webrtc.org supposedly won't tolerate simulcast unless every stream
// is exactly the same aspect ratio. 320x240 / 3 = 80x60.
ConstrainPreservingAspectRatioExact(new_width*new_height,
&stream.width, &stream.height);
}
}
// Give each layer default appropriate bandwidth limits based on the
// resolution/framerate of that layer
SelectBitrates(stream.width, stream.height,
MinIgnoreZero(stream.jsMaxBitrate, vie_codec.maxBitrate),
mLastFramerateTenths,
stream.minBitrate,
stream.targetBitrate,
stream.maxBitrate);
// webrtc.org expects the last, highest fidelity, simulcast stream to
// always have the same resolution as vie_codec
// Also set the least user-constrained of the stream bitrates on vie_codec.
if (i == vie_codec.numberOfSimulcastStreams) {
vie_codec.width = stream.width;
vie_codec.height = stream.height;
}
minMinBitrate = MinIgnoreZero(stream.minBitrate, minMinBitrate);
minStartBitrate = MinIgnoreZero(stream.targetBitrate, minStartBitrate);
totalMaxBitrate += stream.maxBitrate;
}
if (vie_codec.numberOfSimulcastStreams != 0) {
vie_codec.minBitrate = std::max(minMinBitrate, vie_codec.minBitrate);
vie_codec.maxBitrate = std::min(totalMaxBitrate, vie_codec.maxBitrate);
vie_codec.startBitrate = std::max(vie_codec.minBitrate,
std::min(minStartBitrate,
vie_codec.maxBitrate));
}
vie_codec.mode = mCodecMode;
if ((err = mPtrViECodec->SetSendCodec(mChannel, vie_codec)) != 0)
{
CSFLogError(logTag, "%s: SetSendCodec(%ux%u) failed, err %d",
__FUNCTION__, width, height, err);
return NS_ERROR_FAILURE;
}
if (mMinBitrateEstimate != 0) {
mPtrViENetwork->SetBitrateConfig(mChannel,
mMinBitrateEstimate,
std::max(vie_codec.startBitrate,
mMinBitrateEstimate),
std::max(vie_codec.maxBitrate,
mMinBitrateEstimate));
}
CSFLogDebug(logTag, "%s: Encoder resolution changed to %ux%u @ %ufps, bitrate %u:%u",
__FUNCTION__, width, height, mSendingFramerate,
vie_codec.minBitrate, vie_codec.maxBitrate);
if (frame) {
// XXX I really don't like doing this from MainThread...
mPtrExtCapture->IncomingFrame(*frame);
mVideoCodecStat->SentFrame();
CSFLogDebug(logTag, "%s Inserted a frame from reconfig lambda", __FUNCTION__);
}
return NS_OK;
}
// Invoked under lock of mCodecMutex!
unsigned int
WebrtcVideoConduit::SelectSendFrameRate(unsigned int framerate) const
{
mCodecMutex.AssertCurrentThreadOwns();
unsigned int new_framerate = framerate;
// Limit frame rate based on max-mbps
if (mCurSendCodecConfig && mCurSendCodecConfig->mEncodingConstraints.maxMbps)
{
unsigned int cur_fs, mb_width, mb_height, max_fps;
mb_width = (mSendingWidth + 15) >> 4;
mb_height = (mSendingHeight + 15) >> 4;
cur_fs = mb_width * mb_height;
if (cur_fs > 0) { // in case no frames have been sent
max_fps = mCurSendCodecConfig->mEncodingConstraints.maxMbps/cur_fs;
if (max_fps < mSendingFramerate) {
new_framerate = max_fps;
}
if (mCurSendCodecConfig->mEncodingConstraints.maxFps != 0 &&
mCurSendCodecConfig->mEncodingConstraints.maxFps < mSendingFramerate) {
new_framerate = mCurSendCodecConfig->mEncodingConstraints.maxFps;
}
}
}
return new_framerate;
}
MediaConduitErrorCode
WebrtcVideoConduit::SetExternalSendCodec(VideoCodecConfig* config,
VideoEncoder* encoder) {
NS_ASSERTION(NS_IsMainThread(), "Only call on main thread");
if (!mPtrExtCodec->RegisterExternalSendCodec(mChannel,
config->mType,
static_cast<WebrtcVideoEncoder*>(encoder),
false)) {
mExternalSendCodecHandle = encoder;
mExternalSendCodec = new VideoCodecConfig(*config);
return kMediaConduitNoError;
}
return kMediaConduitInvalidSendCodec;
}
MediaConduitErrorCode
WebrtcVideoConduit::SetExternalRecvCodec(VideoCodecConfig* config,
VideoDecoder* decoder) {
NS_ASSERTION(NS_IsMainThread(), "Only call on main thread");
if (!mPtrExtCodec->RegisterExternalReceiveCodec(mChannel,
config->mType,
static_cast<WebrtcVideoDecoder*>(decoder))) {
mExternalRecvCodecHandle = decoder;
mExternalRecvCodec = new VideoCodecConfig(*config);
return kMediaConduitNoError;
}
return kMediaConduitInvalidReceiveCodec;
}
MediaConduitErrorCode
WebrtcVideoConduit::EnableRTPStreamIdExtension(bool enabled, uint8_t id) {
mRtpStreamIdEnabled = enabled;
mRtpStreamIdExtId = id;
return kMediaConduitNoError;
}
MediaConduitErrorCode
WebrtcVideoConduit::SendVideoFrame(unsigned char* video_frame,
unsigned int video_frame_length,
unsigned short width,
unsigned short height,
VideoType video_type,
uint64_t capture_time)
{
//check for the parameters sanity
if(!video_frame || video_frame_length == 0 ||
width == 0 || height == 0)
{
CSFLogError(logTag, "%s Invalid Parameters ",__FUNCTION__);
MOZ_ASSERT(false);
return kMediaConduitMalformedArgument;
}
MOZ_ASSERT(video_type == VideoType::kVideoI420);
MOZ_ASSERT(mPtrExtCapture);
// Transmission should be enabled before we insert any frames.
if(!mEngineTransmitting)
{
CSFLogError(logTag, "%s Engine not transmitting ", __FUNCTION__);
return kMediaConduitSessionNotInited;
}
// insert the frame to video engine in I420 format only
webrtc::I420VideoFrame i420_frame;
i420_frame.CreateFrame(video_frame, width, height, webrtc::kVideoRotation_0);
i420_frame.set_timestamp(capture_time);
i420_frame.set_render_time_ms(capture_time);
return SendVideoFrame(i420_frame);
}
MediaConduitErrorCode
WebrtcVideoConduit::SendVideoFrame(webrtc::I420VideoFrame& frame)
{
CSFLogDebug(logTag, "%s ", __FUNCTION__);
// See if we need to recalculate what we're sending.
// Don't compare mSendingWidth/Height, since those may not be the same as the input.
{
MutexAutoLock lock(mCodecMutex);
if (mInReconfig) {
// Waiting for it to finish
return kMediaConduitNoError;
}
if (frame.width() != mLastWidth || frame.height() != mLastHeight) {
CSFLogDebug(logTag, "%s: call SelectSendResolution with %ux%u",
__FUNCTION__, frame.width(), frame.height());
if (SelectSendResolution(frame.width(), frame.height(), &frame)) {
// SelectSendResolution took ownership of the data in i420_frame.
// Submit the frame after reconfig is done
return kMediaConduitNoError;
}
}
}
mPtrExtCapture->IncomingFrame(frame);
mVideoCodecStat->SentFrame();
CSFLogDebug(logTag, "%s Inserted a frame", __FUNCTION__);
return kMediaConduitNoError;
}
// Transport Layer Callbacks
MediaConduitErrorCode
WebrtcVideoConduit::ReceivedRTPPacket(const void *data, int len)
{
CSFLogDebug(logTag, "%s: seq# %u, Channel %d, Len %d ", __FUNCTION__,
(uint16_t) ntohs(((uint16_t*) data)[1]), mChannel, len);
// Media Engine should be receiving already.
if(mEngineReceiving)
{
// let the engine know of a RTP packet to decode
// XXX we need to get passed the time the packet was received
if(mPtrViENetwork->ReceivedRTPPacket(mChannel, data, len, webrtc::PacketTime()) == -1)
{
int error = mPtrViEBase->LastError();
CSFLogError(logTag, "%s RTP Processing Failed %d ", __FUNCTION__, error);
if(error >= kViERtpRtcpInvalidChannelId && error <= kViERtpRtcpRtcpDisabled)
{
return kMediaConduitRTPProcessingFailed;
}
return kMediaConduitRTPRTCPModuleError;
}
} else {
CSFLogError(logTag, "Error: %s when not receiving", __FUNCTION__);
return kMediaConduitSessionNotInited;
}
return kMediaConduitNoError;
}
MediaConduitErrorCode
WebrtcVideoConduit::ReceivedRTCPPacket(const void *data, int len)
{
CSFLogDebug(logTag, " %s Channel %d, Len %d ", __FUNCTION__, mChannel, len);
//Media Engine should be receiving already
if(mPtrViENetwork->ReceivedRTCPPacket(mChannel,data,len) == -1)
{
int error = mPtrViEBase->LastError();
CSFLogError(logTag, "%s RTCP Processing Failed %d", __FUNCTION__, error);
if(error >= kViERtpRtcpInvalidChannelId && error <= kViERtpRtcpRtcpDisabled)
{
return kMediaConduitRTPProcessingFailed;
}
return kMediaConduitRTPRTCPModuleError;
}
return kMediaConduitNoError;
}
MediaConduitErrorCode
WebrtcVideoConduit::StopTransmitting()
{
if(mEngineTransmitting)
{
CSFLogDebug(logTag, "%s Engine Already Sending. Attemping to Stop ", __FUNCTION__);
if(mPtrViEBase->StopSend(mChannel) == -1)
{
CSFLogError(logTag, "%s StopSend() Failed %d ",__FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitUnknownError;
}
mEngineTransmitting = false;
}
return kMediaConduitNoError;
}
MediaConduitErrorCode
WebrtcVideoConduit::StartTransmitting()
{
if (!mEngineTransmitting) {
if(mPtrViEBase->StartSend(mChannel) == -1)
{
CSFLogError(logTag, "%s Start Send Error %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitUnknownError;
}
mEngineTransmitting = true;
}
return kMediaConduitNoError;
}
MediaConduitErrorCode
WebrtcVideoConduit::StopReceiving()
{
NS_ASSERTION(NS_IsMainThread(), "Only call on main thread");
// Are we receiving already? If so, stop receiving and playout
// since we can't apply new recv codec when the engine is playing.
if(mEngineReceiving)
{
CSFLogDebug(logTag, "%s Engine Already Receiving . Attemping to Stop ", __FUNCTION__);
if(mPtrViEBase->StopReceive(mChannel) == -1)
{
int error = mPtrViEBase->LastError();
if(error == kViEBaseUnknownError)
{
CSFLogDebug(logTag, "%s StopReceive() Success ", __FUNCTION__);
} else {
CSFLogError(logTag, "%s StopReceive() Failed %d ", __FUNCTION__,
mPtrViEBase->LastError());
return kMediaConduitUnknownError;
}
}
mEngineReceiving = false;
}
return kMediaConduitNoError;
}
MediaConduitErrorCode
WebrtcVideoConduit::StartReceiving()
{
if (!mEngineReceiving) {
CSFLogDebug(logTag, "%s Attemping to start... ", __FUNCTION__);
//Start Receive on the video engine
if(mPtrViEBase->StartReceive(mChannel) == -1)
{
int error = mPtrViEBase->LastError();
CSFLogError(logTag, "%s Start Receive Error %d ", __FUNCTION__, error);
return kMediaConduitUnknownError;
}
mEngineReceiving = true;
}
return kMediaConduitNoError;
}
//WebRTC::RTP Callback Implementation
// Called on MSG thread
int WebrtcVideoConduit::SendPacket(int channel, const void* data, size_t len)
{
CSFLogDebug(logTag, "%s : channel %d len %lu", __FUNCTION__, channel, (unsigned long) len);
ReentrantMonitorAutoEnter enter(mTransportMonitor);
if(mTransmitterTransport &&
(mTransmitterTransport->SendRtpPacket(data, len) == NS_OK))
{
CSFLogDebug(logTag, "%s Sent RTP Packet ", __FUNCTION__);
return len;
} else {
CSFLogError(logTag, "%s RTP Packet Send Failed ", __FUNCTION__);
return -1;
}
}
// Called from multiple threads including webrtc Process thread
int WebrtcVideoConduit::SendRTCPPacket(int channel, const void* data, size_t len)
{
CSFLogDebug(logTag, "%s : channel %d , len %lu ", __FUNCTION__, channel, (unsigned long) len);
// We come here if we have only one pipeline/conduit setup,
// such as for unidirectional streams.
// We also end up here if we are receiving
ReentrantMonitorAutoEnter enter(mTransportMonitor);
if(mReceiverTransport &&
mReceiverTransport->SendRtcpPacket(data, len) == NS_OK)
{
// Might be a sender report, might be a receiver report, we don't know.
CSFLogDebug(logTag, "%s Sent RTCP Packet ", __FUNCTION__);
return len;
} else if(mTransmitterTransport &&
(mTransmitterTransport->SendRtcpPacket(data, len) == NS_OK)) {
CSFLogDebug(logTag, "%s Sent RTCP Packet (sender report) ", __FUNCTION__);
return len;
} else {
CSFLogError(logTag, "%s RTCP Packet Send Failed ", __FUNCTION__);
return -1;
}
}
// WebRTC::ExternalMedia Implementation
int
WebrtcVideoConduit::FrameSizeChange(unsigned int width,
unsigned int height,
unsigned int numStreams)
{
CSFLogDebug(logTag, "%s ", __FUNCTION__);
ReentrantMonitorAutoEnter enter(mTransportMonitor);
mReceivingWidth = width;
mReceivingHeight = height;
mNumReceivingStreams = numStreams;
if(mRenderer)
{
mRenderer->FrameSizeChange(width, height, numStreams);
return 0;
}
CSFLogError(logTag, "%s Renderer is NULL ", __FUNCTION__);
return -1;
}
int
WebrtcVideoConduit::DeliverFrame(unsigned char* buffer,
size_t buffer_size,
uint32_t time_stamp,
int64_t ntp_time_ms,
int64_t render_time,
void *handle)
{
return DeliverFrame(buffer, buffer_size, mReceivingWidth, (mReceivingWidth+1)>>1,
time_stamp, ntp_time_ms, render_time, handle);
}
int
WebrtcVideoConduit::DeliverFrame(unsigned char* buffer,
size_t buffer_size,
uint32_t y_stride,
uint32_t cbcr_stride,
uint32_t time_stamp,
int64_t ntp_time_ms,
int64_t render_time,
void *handle)
{
CSFLogDebug(logTag, "%s Buffer Size %lu", __FUNCTION__, (unsigned long) buffer_size);
ReentrantMonitorAutoEnter enter(mTransportMonitor);
if(mRenderer)
{
layers::Image* img = nullptr;
// |handle| should be a webrtc::NativeHandle if available.
if (handle) {
webrtc::NativeHandle* native_h = static_cast<webrtc::NativeHandle*>(handle);
// In the handle, there should be a layers::Image.
img = static_cast<layers::Image*>(native_h->GetHandle());
}
if (mVideoLatencyTestEnable && mReceivingWidth && mReceivingHeight) {
uint64_t now = PR_Now();
uint64_t timestamp = 0;
bool ok = YuvStamper::Decode(mReceivingWidth, mReceivingHeight, mReceivingWidth,
buffer,
reinterpret_cast<unsigned char*>(×tamp),
sizeof(timestamp), 0, 0);
if (ok) {
VideoLatencyUpdate(now - timestamp);
}
}
const ImageHandle img_h(img);
mRenderer->RenderVideoFrame(buffer, buffer_size, y_stride, cbcr_stride,
time_stamp, render_time, img_h);
return 0;
}
CSFLogError(logTag, "%s Renderer is NULL ", __FUNCTION__);
return -1;
}
int
WebrtcVideoConduit::DeliverI420Frame(const webrtc::I420VideoFrame& webrtc_frame)
{
if (!webrtc_frame.native_handle()) {
uint32_t y_stride = webrtc_frame.stride(static_cast<webrtc::PlaneType>(0));
return DeliverFrame(const_cast<uint8_t*>(webrtc_frame.buffer(webrtc::kYPlane)),
CalcBufferSize(webrtc::kI420, y_stride, webrtc_frame.height()),
y_stride,
webrtc_frame.stride(static_cast<webrtc::PlaneType>(1)),
webrtc_frame.timestamp(),
webrtc_frame.ntp_time_ms(),
webrtc_frame.render_time_ms(), nullptr);
}
size_t buffer_size = CalcBufferSize(webrtc::kI420, webrtc_frame.width(), webrtc_frame.height());
CSFLogDebug(logTag, "%s Buffer Size %lu", __FUNCTION__, (unsigned long) buffer_size);
ReentrantMonitorAutoEnter enter(mTransportMonitor);
if(mRenderer)
{
layers::Image* img = nullptr;
// |handle| should be a webrtc::NativeHandle if available.
webrtc::NativeHandle* native_h = static_cast<webrtc::NativeHandle*>(webrtc_frame.native_handle());
if (native_h) {
// In the handle, there should be a layers::Image.
img = static_cast<layers::Image*>(native_h->GetHandle());
}
#if 0
//#ifndef MOZ_WEBRTC_OMX
// XXX - this may not be possible on GONK with textures!
if (mVideoLatencyTestEnable && mReceivingWidth && mReceivingHeight) {
uint64_t now = PR_Now();
uint64_t timestamp = 0;
bool ok = YuvStamper::Decode(mReceivingWidth, mReceivingHeight, mReceivingWidth,
buffer,
reinterpret_cast<unsigned char*>(×tamp),
sizeof(timestamp), 0, 0);
if (ok) {
VideoLatencyUpdate(now - timestamp);
}
}
#endif
const ImageHandle img_h(img);
mRenderer->RenderVideoFrame(nullptr, buffer_size, webrtc_frame.timestamp(),
webrtc_frame.render_time_ms(), img_h);
return 0;
}
CSFLogError(logTag, "%s Renderer is NULL ", __FUNCTION__);
return -1;
}
/**
* Copy the codec passed into Conduit's database
*/
void
WebrtcVideoConduit::CodecConfigToWebRTCCodec(const VideoCodecConfig* codecInfo,
webrtc::VideoCodec& cinst)
{
// Note: this assumes cinst is initialized to a base state either by
// hand or from a config fetched with GetConfig(); this modifies the config
// to match parameters from VideoCodecConfig
cinst.plType = codecInfo->mType;
if (codecInfo->mName == "H264") {
cinst.codecType = webrtc::kVideoCodecH264;
PL_strncpyz(cinst.plName, "H264", sizeof(cinst.plName));
} else if (codecInfo->mName == "VP8") {
cinst.codecType = webrtc::kVideoCodecVP8;
PL_strncpyz(cinst.plName, "VP8", sizeof(cinst.plName));
} else if (codecInfo->mName == "VP9") {
cinst.codecType = webrtc::kVideoCodecVP9;
PL_strncpyz(cinst.plName, "VP9", sizeof(cinst.plName));
} else if (codecInfo->mName == "I420") {
cinst.codecType = webrtc::kVideoCodecI420;
PL_strncpyz(cinst.plName, "I420", sizeof(cinst.plName));
} else {
cinst.codecType = webrtc::kVideoCodecUnknown;
PL_strncpyz(cinst.plName, "Unknown", sizeof(cinst.plName));
}
// width/height will be overridden on the first frame; they must be 'sane' for
// SetSendCodec()
if (codecInfo->mEncodingConstraints.maxFps > 0) {
cinst.maxFramerate = codecInfo->mEncodingConstraints.maxFps;
} else {
cinst.maxFramerate = DEFAULT_VIDEO_MAX_FRAMERATE;
}
// Defaults if rates aren't forced by pref. Typically defaults are
// overridden on the first video frame.
cinst.minBitrate = mMinBitrate ? mMinBitrate : 200;
cinst.startBitrate = mStartBitrate ? mStartBitrate : 300;
cinst.targetBitrate = cinst.startBitrate;
cinst.maxBitrate = mMaxBitrate ? mMaxBitrate : 2000;
if (cinst.codecType == webrtc::kVideoCodecH264)
{
#ifdef MOZ_WEBRTC_OMX
cinst.resolution_divisor = 16;
#endif
// cinst.codecSpecific.H264.profile = ?
cinst.codecSpecific.H264.profile_byte = codecInfo->mProfile;
cinst.codecSpecific.H264.constraints = codecInfo->mConstraints;
cinst.codecSpecific.H264.level = codecInfo->mLevel;
cinst.codecSpecific.H264.packetizationMode = codecInfo->mPacketizationMode;
if (codecInfo->mEncodingConstraints.maxBr > 0) {
// webrtc.org uses kbps, we use bps
cinst.maxBitrate =
MinIgnoreZero(cinst.maxBitrate,
codecInfo->mEncodingConstraints.maxBr)/1000;
}
if (codecInfo->mEncodingConstraints.maxMbps > 0) {
// Not supported yet!
CSFLogError(logTag, "%s H.264 max_mbps not supported yet ", __FUNCTION__);
}
// XXX parse the encoded SPS/PPS data
// paranoia
cinst.codecSpecific.H264.spsData = nullptr;
cinst.codecSpecific.H264.spsLen = 0;
cinst.codecSpecific.H264.ppsData = nullptr;
cinst.codecSpecific.H264.ppsLen = 0;
}
// Init mSimulcastEncodings always since they hold info from setParameters.
// TODO(bug 1210175): H264 doesn't support simulcast yet.
size_t numberOfSimulcastEncodings = std::min(codecInfo->mSimulcastEncodings.size(), (size_t)webrtc::kMaxSimulcastStreams);
for (size_t i = 0; i < numberOfSimulcastEncodings; ++i) {
const VideoCodecConfig::SimulcastEncoding& encoding =
codecInfo->mSimulcastEncodings[i];
// Make sure the constraints on the whole stream are reflected.
webrtc::SimulcastStream stream;
memset(&stream, 0, sizeof(stream));
stream.width = cinst.width;
stream.height = cinst.height;
stream.numberOfTemporalLayers = 1;
stream.maxBitrate = cinst.maxBitrate;
stream.targetBitrate = cinst.targetBitrate;
stream.minBitrate = cinst.minBitrate;
stream.qpMax = cinst.qpMax;
strncpy(stream.rid, encoding.rid.c_str(), sizeof(stream.rid)-1);
stream.rid[sizeof(stream.rid) - 1] = 0;
// Apply encoding-specific constraints.
stream.width = MinIgnoreZero(
stream.width,
(unsigned short)encoding.constraints.maxWidth);
stream.height = MinIgnoreZero(
stream.height,
(unsigned short)encoding.constraints.maxHeight);
// webrtc.org uses kbps, we use bps
stream.jsMaxBitrate = encoding.constraints.maxBr/1000;
stream.jsScaleDownBy = encoding.constraints.scaleDownBy;
MOZ_ASSERT(stream.jsScaleDownBy >= 1.0);
uint32_t width = stream.width? stream.width : 640;
uint32_t height = stream.height? stream.height : 480;
uint32_t new_width = uint32_t(width / stream.jsScaleDownBy);
uint32_t new_height = uint32_t(height / stream.jsScaleDownBy);
if (new_width != width || new_height != height) {
// Estimate. Overridden on first frame.
SelectBitrates(new_width, new_height, stream.jsMaxBitrate,
mLastFramerateTenths,
stream.minBitrate,
stream.targetBitrate,
stream.maxBitrate);
}
// webrtc.org expects simulcast streams to be ordered by increasing
// fidelity, our jsep code does the opposite.
cinst.simulcastStream[numberOfSimulcastEncodings-i-1] = stream;
}
cinst.numberOfSimulcastStreams = numberOfSimulcastEncodings;
}
/**
* Perform validation on the codecConfig to be applied
* Verifies if the codec is already applied.
*/
MediaConduitErrorCode
WebrtcVideoConduit::ValidateCodecConfig(const VideoCodecConfig* codecInfo,
bool send)
{
if(!codecInfo)
{
CSFLogError(logTag, "%s Null CodecConfig ", __FUNCTION__);
return kMediaConduitMalformedArgument;
}
if((codecInfo->mName.empty()) ||
(codecInfo->mName.length() >= CODEC_PLNAME_SIZE))
{
CSFLogError(logTag, "%s Invalid Payload Name Length ", __FUNCTION__);
return kMediaConduitMalformedArgument;
}
return kMediaConduitNoError;
}
void
WebrtcVideoConduit::VideoLatencyUpdate(uint64_t newSample)
{
mVideoLatencyAvg = (sRoundingPadding * newSample + sAlphaNum * mVideoLatencyAvg) / sAlphaDen;
}
uint64_t
WebrtcVideoConduit::MozVideoLatencyAvg()
{
return mVideoLatencyAvg / sRoundingPadding;
}
uint64_t
WebrtcVideoConduit::CodecPluginID()
{
if (mExternalSendCodecHandle) {
return mExternalSendCodecHandle->PluginID();
} else if (mExternalRecvCodecHandle) {
return mExternalRecvCodecHandle->PluginID();
}
return 0;
}
bool
WebrtcVideoConduit::DetermineREDAndULPFECPayloadTypes(uint8_t &payload_type_red, uint8_t &payload_type_ulpfec)
{
webrtc::VideoCodec video_codec;
payload_type_red = INVALID_RTP_PAYLOAD;
payload_type_ulpfec = INVALID_RTP_PAYLOAD;
for(int idx=0; idx < mPtrViECodec->NumberOfCodecs(); idx++)
{
if(mPtrViECodec->GetCodec(idx, video_codec) == 0)
{
switch(video_codec.codecType) {
case webrtc::VideoCodecType::kVideoCodecRED:
payload_type_red = video_codec.plType;
break;
case webrtc::VideoCodecType::kVideoCodecULPFEC:
payload_type_ulpfec = video_codec.plType;
break;
default:
break;
}
}
}
return payload_type_red != INVALID_RTP_PAYLOAD
&& payload_type_ulpfec != INVALID_RTP_PAYLOAD;
}
}// end namespace
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