/* * Copyright (c) 2016 The ZLMediaKit project authors. All Rights Reserved. * * This file is part of ZLMediaKit(https://github.com/xia-chu/ZLMediaKit). * * Use of this source code is governed by MIT license that can be found in the * LICENSE file in the root of the source tree. All contributing project authors * may be found in the AUTHORS file in the root of the source tree. */ #include #include #include "Common/config.h" #include "RtpExt.h" #include "Rtcp/Rtcp.h" #include "Rtcp/RtcpFCI.h" #include "Rtcp/RtcpContext.h" #include "Rtsp/Rtsp.h" #include "Rtsp/RtpReceiver.h" #include "WebRtcTransport.h" #include "WebRtcEchoTest.h" #include "WebRtcPlayer.h" #include "WebRtcPusher.h" #include "Rtsp/RtspMediaSourceImp.h" #define RTP_SSRC_OFFSET 1 #define RTX_SSRC_OFFSET 2 #define RTP_CNAME "zlmediakit-rtp" #define RTP_LABEL "zlmediakit-label" #define RTP_MSLABEL "zlmediakit-mslabel" #define RTP_MSID RTP_MSLABEL " " RTP_LABEL using namespace std; namespace mediakit { // RTC配置项目 namespace Rtc { #define RTC_FIELD "rtc." // rtp和rtcp接受超时时间 const string kTimeOutSec = RTC_FIELD "timeoutSec"; // 服务器外网ip const string kExternIP = RTC_FIELD "externIP"; // 设置remb比特率,非0时关闭twcc并开启remb。该设置在rtc推流时有效,可以控制推流画质 const string kRembBitRate = RTC_FIELD "rembBitRate"; // webrtc单端口udp服务器 const string kPort = RTC_FIELD "port"; const string kTcpPort = RTC_FIELD "tcpPort"; static onceToken token([]() { mINI::Instance()[kTimeOutSec] = 15; mINI::Instance()[kExternIP] = ""; mINI::Instance()[kRembBitRate] = 0; mINI::Instance()[kPort] = 0; mINI::Instance()[kTcpPort] = 0; }); } // namespace RTC static atomic s_key { 0 }; static void translateIPFromEnv(std::vector &v) { for (auto iter = v.begin(); iter != v.end();) { if (start_with(*iter, "$")) { auto ip = toolkit::getEnv(*iter); if (ip.empty()) { iter = v.erase(iter); } else { *iter++ = ip; } } else { ++iter; } } } const char* sockTypeStr(Session* session) { if (session) { switch (session->getSock()->sockType()) { case SockNum::Sock_TCP: return "tcp"; case SockNum::Sock_UDP: return "udp"; default: break; } } return "unknown"; } WebRtcTransport::WebRtcTransport(const EventPoller::Ptr &poller) { _poller = poller; _identifier = "zlm_" + to_string(++s_key); _packet_pool.setSize(64); } void WebRtcTransport::onCreate() { _dtls_transport = std::make_shared(_poller, this); _ice_server = std::make_shared(this, _identifier, makeRandStr(24)); } void WebRtcTransport::onDestory() { #ifdef ENABLE_SCTP _sctp = nullptr; #endif _dtls_transport = nullptr; _ice_server = nullptr; } const EventPoller::Ptr &WebRtcTransport::getPoller() const { return _poller; } const string &WebRtcTransport::getIdentifier() const { return _identifier; } const std::string& WebRtcTransport::deleteRandStr() const { if (_delete_rand_str.empty()) { _delete_rand_str = makeRandStr(32); } return _delete_rand_str; } ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void WebRtcTransport::OnIceServerSendStunPacket( const RTC::IceServer *iceServer, const RTC::StunPacket *packet, RTC::TransportTuple *tuple) { sendSockData((char *)packet->GetData(), packet->GetSize(), tuple); } void WebRtcTransportImp::OnIceServerSelectedTuple(const RTC::IceServer *iceServer, RTC::TransportTuple *tuple) { InfoL << getIdentifier() << " select tuple " << sockTypeStr(tuple) << " " << tuple->get_peer_ip() << ":" << tuple->get_peer_port(); tuple->setSendFlushFlag(false); unrefSelf(); } void WebRtcTransport::OnIceServerConnected(const RTC::IceServer *iceServer) { InfoL << getIdentifier(); } void WebRtcTransport::OnIceServerCompleted(const RTC::IceServer *iceServer) { InfoL << getIdentifier(); if (_answer_sdp->media[0].role == DtlsRole::passive) { _dtls_transport->Run(RTC::DtlsTransport::Role::SERVER); } else { _dtls_transport->Run(RTC::DtlsTransport::Role::CLIENT); } } void WebRtcTransport::OnIceServerDisconnected(const RTC::IceServer *iceServer) { InfoL << getIdentifier(); } ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void WebRtcTransport::OnDtlsTransportConnected( const RTC::DtlsTransport *dtlsTransport, RTC::SrtpSession::CryptoSuite srtpCryptoSuite, uint8_t *srtpLocalKey, size_t srtpLocalKeyLen, uint8_t *srtpRemoteKey, size_t srtpRemoteKeyLen, std::string &remoteCert) { InfoL << getIdentifier(); _srtp_session_send = std::make_shared( RTC::SrtpSession::Type::OUTBOUND, srtpCryptoSuite, srtpLocalKey, srtpLocalKeyLen); _srtp_session_recv = std::make_shared( RTC::SrtpSession::Type::INBOUND, srtpCryptoSuite, srtpRemoteKey, srtpRemoteKeyLen); #ifdef ENABLE_SCTP _sctp = std::make_shared(getPoller(), this, 128, 128, 262144, true); _sctp->TransportConnected(); #endif onStartWebRTC(); } void WebRtcTransport::OnDtlsTransportSendData( const RTC::DtlsTransport *dtlsTransport, const uint8_t *data, size_t len) { sendSockData((char *)data, len, nullptr); } void WebRtcTransport::OnDtlsTransportConnecting(const RTC::DtlsTransport *dtlsTransport) { InfoL << getIdentifier(); } void WebRtcTransport::OnDtlsTransportFailed(const RTC::DtlsTransport *dtlsTransport) { InfoL << getIdentifier(); onShutdown(SockException(Err_shutdown, "dtls transport failed")); } void WebRtcTransport::OnDtlsTransportClosed(const RTC::DtlsTransport *dtlsTransport) { InfoL << getIdentifier(); onShutdown(SockException(Err_shutdown, "dtls close notify received")); } void WebRtcTransport::OnDtlsTransportApplicationDataReceived( const RTC::DtlsTransport *dtlsTransport, const uint8_t *data, size_t len) { #ifdef ENABLE_SCTP _sctp->ProcessSctpData(data, len); #else InfoL << hexdump(data, len); #endif } ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #ifdef ENABLE_SCTP void WebRtcTransport::OnSctpAssociationConnecting(RTC::SctpAssociation *sctpAssociation) { TraceL << getIdentifier(); } void WebRtcTransport::OnSctpAssociationConnected(RTC::SctpAssociation *sctpAssociation) { InfoL << getIdentifier(); } void WebRtcTransport::OnSctpAssociationFailed(RTC::SctpAssociation *sctpAssociation) { WarnL << getIdentifier(); } void WebRtcTransport::OnSctpAssociationClosed(RTC::SctpAssociation *sctpAssociation) { InfoL << getIdentifier(); } void WebRtcTransport::OnSctpAssociationSendData( RTC::SctpAssociation *sctpAssociation, const uint8_t *data, size_t len) { _dtls_transport->SendApplicationData(data, len); } void WebRtcTransport::OnSctpAssociationMessageReceived( RTC::SctpAssociation *sctpAssociation, uint16_t streamId, uint32_t ppid, const uint8_t *msg, size_t len) { InfoL << getIdentifier() << " " << streamId << " " << ppid << " " << len << " " << string((char *)msg, len); RTC::SctpStreamParameters params; params.streamId = streamId; // 回显数据 _sctp->SendSctpMessage(params, ppid, msg, len); } #endif void WebRtcTransport::sendDatachannel(uint16_t streamId, uint32_t ppid, const char *msg, size_t len) { #ifdef ENABLE_SCTP if (_sctp) { RTC::SctpStreamParameters params; params.streamId = streamId; _sctp->SendSctpMessage(params, ppid, (uint8_t *)msg, len); } #else WarnL << "WebRTC datachannel disabled!"; #endif } ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// void WebRtcTransport::sendSockData(const char *buf, size_t len, RTC::TransportTuple *tuple) { auto pkt = _packet_pool.obtain2(); pkt->assign(buf, len); onSendSockData(std::move(pkt), true, tuple ? tuple : _ice_server->GetSelectedTuple()); } Session::Ptr WebRtcTransport::getSession() const { auto tuple = _ice_server->GetSelectedTuple(true); return tuple ? static_pointer_cast(tuple->shared_from_this()) : nullptr; } void WebRtcTransport::sendRtcpRemb(uint32_t ssrc, size_t bit_rate) { auto remb = FCI_REMB::create({ ssrc }, (uint32_t)bit_rate); auto fb = RtcpFB::create(PSFBType::RTCP_PSFB_REMB, remb.data(), remb.size()); fb->ssrc = htonl(0); fb->ssrc_media = htonl(ssrc); sendRtcpPacket((char *)fb.get(), fb->getSize(), true); } void WebRtcTransport::sendRtcpPli(uint32_t ssrc) { auto pli = RtcpFB::create(PSFBType::RTCP_PSFB_PLI); pli->ssrc = htonl(0); pli->ssrc_media = htonl(ssrc); sendRtcpPacket((char *)pli.get(), pli->getSize(), true); } string getFingerprint(const string &algorithm_str, const std::shared_ptr &transport) { auto algorithm = RTC::DtlsTransport::GetFingerprintAlgorithm(algorithm_str); for (auto &finger_prints : transport->GetLocalFingerprints()) { if (finger_prints.algorithm == algorithm) { return finger_prints.value; } } throw std::invalid_argument(StrPrinter << "不支持的加密算法:" << algorithm_str); } void WebRtcTransport::setRemoteDtlsFingerprint(const RtcSession &remote) { // 设置远端dtls签名 RTC::DtlsTransport::Fingerprint remote_fingerprint; remote_fingerprint.algorithm = RTC::DtlsTransport::GetFingerprintAlgorithm(_offer_sdp->media[0].fingerprint.algorithm); remote_fingerprint.value = _offer_sdp->media[0].fingerprint.hash; _dtls_transport->SetRemoteFingerprint(remote_fingerprint); } void WebRtcTransport::onRtcConfigure(RtcConfigure &configure) const { // 开启remb后关闭twcc,因为开启twcc后remb无效 GET_CONFIG(size_t, remb_bit_rate, Rtc::kRembBitRate); configure.enableTWCC(!remb_bit_rate); } std::string WebRtcTransport::getAnswerSdp(const string &offer) { try { //// 解析offer sdp //// _offer_sdp = std::make_shared(); _offer_sdp->loadFrom(offer); onCheckSdp(SdpType::offer, *_offer_sdp); _offer_sdp->checkValid(); setRemoteDtlsFingerprint(*_offer_sdp); //// sdp 配置 //// SdpAttrFingerprint fingerprint; fingerprint.algorithm = _offer_sdp->media[0].fingerprint.algorithm; fingerprint.hash = getFingerprint(fingerprint.algorithm, _dtls_transport); RtcConfigure configure; configure.setDefaultSetting( _ice_server->GetUsernameFragment(), _ice_server->GetPassword(), RtpDirection::sendrecv, fingerprint); onRtcConfigure(configure); //// 生成answer sdp //// _answer_sdp = configure.createAnswer(*_offer_sdp); onCheckSdp(SdpType::answer, *_answer_sdp); _answer_sdp->checkValid(); return _answer_sdp->toString(); } catch (exception &ex) { onShutdown(SockException(Err_shutdown, ex.what())); throw; } } static bool isDtls(char *buf) { return ((*buf > 19) && (*buf < 64)); } static string getPeerAddress(RTC::TransportTuple *tuple) { return tuple->get_peer_ip(); } void WebRtcTransport::inputSockData(char *buf, int len, RTC::TransportTuple *tuple) { if (RTC::StunPacket::IsStun((const uint8_t *)buf, len)) { std::unique_ptr packet(RTC::StunPacket::Parse((const uint8_t *)buf, len)); if (!packet) { WarnL << "parse stun error"; return; } _ice_server->ProcessStunPacket(packet.get(), tuple); return; } if (isDtls(buf)) { _dtls_transport->ProcessDtlsData((uint8_t *)buf, len); return; } if (isRtp(buf, len)) { if (!_srtp_session_recv) { WarnL << "received rtp packet when dtls not completed from:" << getPeerAddress(tuple); return; } if (_srtp_session_recv->DecryptSrtp((uint8_t *)buf, &len)) { onRtp(buf, len, _ticker.createdTime()); } return; } if (isRtcp(buf, len)) { if (!_srtp_session_recv) { WarnL << "received rtcp packet when dtls not completed from:" << getPeerAddress(tuple); return; } if (_srtp_session_recv->DecryptSrtcp((uint8_t *)buf, &len)) { onRtcp(buf, len); } return; } } void WebRtcTransport::sendRtpPacket(const char *buf, int len, bool flush, void *ctx) { if (_srtp_session_send) { auto pkt = _packet_pool.obtain2(); // 预留rtx加入的两个字节 pkt->setCapacity((size_t)len + SRTP_MAX_TRAILER_LEN + 2); memcpy(pkt->data(), buf, len); onBeforeEncryptRtp(pkt->data(), len, ctx); if (_srtp_session_send->EncryptRtp(reinterpret_cast(pkt->data()), &len)) { pkt->setSize(len); onSendSockData(std::move(pkt), flush); } } } void WebRtcTransport::sendRtcpPacket(const char *buf, int len, bool flush, void *ctx) { if (_srtp_session_send) { auto pkt = _packet_pool.obtain2(); // 预留rtx加入的两个字节 pkt->setCapacity((size_t)len + SRTP_MAX_TRAILER_LEN + 2); memcpy(pkt->data(), buf, len); onBeforeEncryptRtcp(pkt->data(), len, ctx); if (_srtp_session_send->EncryptRtcp(reinterpret_cast(pkt->data()), &len)) { pkt->setSize(len); onSendSockData(std::move(pkt), flush); } } } /////////////////////////////////////////////////////////////////////////////////// void WebRtcTransportImp::onCreate() { WebRtcTransport::onCreate(); registerSelf(); weak_ptr weak_self = static_pointer_cast(shared_from_this()); GET_CONFIG(float, timeoutSec, Rtc::kTimeOutSec); _timer = std::make_shared( timeoutSec / 2, [weak_self]() { auto strong_self = weak_self.lock(); if (!strong_self) { return false; } if (strong_self->_alive_ticker.elapsedTime() > timeoutSec * 1000) { strong_self->onShutdown(SockException(Err_timeout, "接受rtp/rtcp/datachannel超时")); } return true; }, getPoller()); _twcc_ctx.setOnSendTwccCB([this](uint32_t ssrc, string fci) { onSendTwcc(ssrc, fci); }); } void WebRtcTransportImp::OnDtlsTransportApplicationDataReceived(const RTC::DtlsTransport *dtlsTransport, const uint8_t *data, size_t len) { WebRtcTransport::OnDtlsTransportApplicationDataReceived(dtlsTransport, data, len); #ifdef ENABLE_SCTP if (_answer_sdp->isOnlyDatachannel()) { _alive_ticker.resetTime(); } #endif } WebRtcTransportImp::WebRtcTransportImp(const EventPoller::Ptr &poller,bool preferred_tcp) : WebRtcTransport(poller), _preferred_tcp(preferred_tcp) { InfoL << getIdentifier(); } WebRtcTransportImp::~WebRtcTransportImp() { InfoL << getIdentifier(); } void WebRtcTransportImp::onDestory() { WebRtcTransport::onDestory(); unregisterSelf(); } void WebRtcTransportImp::onSendSockData(Buffer::Ptr buf, bool flush, RTC::TransportTuple *tuple) { if (tuple == nullptr) { tuple = _ice_server->GetSelectedTuple(); if (!tuple) { WarnL << "send data failed:" << buf->size(); return; } } // 一次性发送一帧的rtp数据,提高网络io性能 if (tuple->getSock()->sockType() == SockNum::Sock_TCP) { // 增加tcp两字节头 auto len = buf->size(); char tcp_len[2] = { 0 }; tcp_len[0] = (len >> 8) & 0xff; tcp_len[1] = len & 0xff; tuple->SockSender::send(tcp_len, 2); } tuple->send(std::move(buf)); if (flush) { tuple->flushAll(); } } /////////////////////////////////////////////////////////////////// bool WebRtcTransportImp::canSendRtp() const { for (auto &m : _answer_sdp->media) { if (m.direction == RtpDirection::sendrecv || m.direction == RtpDirection::sendonly) { return true; } } return false; } bool WebRtcTransportImp::canRecvRtp() const { for (auto &m : _answer_sdp->media) { if (m.direction == RtpDirection::sendrecv || m.direction == RtpDirection::recvonly) { return true; } } return false; } void WebRtcTransportImp::onStartWebRTC() { // 获取ssrc和pt相关信息,届时收到rtp和rtcp时分别可以根据pt和ssrc找到相关的信息 for (auto &m_answer : _answer_sdp->media) { if (m_answer.type == TrackApplication) { continue; } auto m_offer = _offer_sdp->getMedia(m_answer.type); auto track = std::make_shared(); track->media = &m_answer; track->answer_ssrc_rtp = m_answer.getRtpSSRC(); track->answer_ssrc_rtx = m_answer.getRtxSSRC(); track->offer_ssrc_rtp = m_offer->getRtpSSRC(); track->offer_ssrc_rtx = m_offer->getRtxSSRC(); track->plan_rtp = &m_answer.plan[0]; track->plan_rtx = m_answer.getRelatedRtxPlan(track->plan_rtp->pt); track->rtcp_context_send = std::make_shared(); // rtp track type --> MediaTrack if (m_answer.direction == RtpDirection::sendonly || m_answer.direction == RtpDirection::sendrecv) { // 该类型的track 才支持发送 _type_to_track[m_answer.type] = track; } // send ssrc --> MediaTrack _ssrc_to_track[track->answer_ssrc_rtp] = track; _ssrc_to_track[track->answer_ssrc_rtx] = track; // recv ssrc --> MediaTrack _ssrc_to_track[track->offer_ssrc_rtp] = track; _ssrc_to_track[track->offer_ssrc_rtx] = track; // rtp pt --> MediaTrack _pt_to_track.emplace( track->plan_rtp->pt, std::unique_ptr(new WrappedRtpTrack(track, _twcc_ctx, *this))); if (track->plan_rtx) { // rtx pt --> MediaTrack _pt_to_track.emplace(track->plan_rtx->pt, std::unique_ptr(new WrappedRtxTrack(track))); } // 记录rtp ext类型与id的关系,方便接收或发送rtp时修改rtp ext id track->rtp_ext_ctx = std::make_shared(m_answer); weak_ptr weak_track = track; track->rtp_ext_ctx->setOnGetRtp([this, weak_track](uint8_t pt, uint32_t ssrc, const string &rid) { // ssrc --> MediaTrack auto track = weak_track.lock(); assert(track); _ssrc_to_track[ssrc] = std::move(track); InfoL << "get rtp, pt:" << (int)pt << ", ssrc:" << ssrc << ", rid:" << rid; }); size_t index = 0; for (auto &ssrc : m_offer->rtp_ssrc_sim) { // 记录ssrc对应的MediaTrack _ssrc_to_track[ssrc.ssrc] = track; if (m_offer->rtp_rids.size() > index) { // 支持firefox的simulcast, 提前映射好ssrc和rid的关系 track->rtp_ext_ctx->setRid(ssrc.ssrc, m_offer->rtp_rids[index]); } else { // SDP munging没有rid, 它通过group-ssrc:SIM给出ssrc列表; // 系统又要有rid,这里手工生成rid,并为其绑定ssrc std::string rid = "r" + std::to_string(index); track->rtp_ext_ctx->setRid(ssrc.ssrc, rid); if (ssrc.rtx_ssrc) { track->rtp_ext_ctx->setRid(ssrc.rtx_ssrc, rid); } } ++index; } } } void WebRtcTransportImp::onCheckAnswer(RtcSession &sdp) { // 修改answer sdp的ip、端口信息 GET_CONFIG_FUNC(std::vector, extern_ips, Rtc::kExternIP, [](string str) { std::vector ret; if (str.length()) { ret = split(str, ","); } translateIPFromEnv(ret); return ret; }); for (auto &m : sdp.media) { m.addr.reset(); m.addr.address = extern_ips.empty() ? SockUtil::get_local_ip() : extern_ips[0]; m.rtcp_addr.reset(); m.rtcp_addr.address = m.addr.address; GET_CONFIG(uint16_t, udp_port, Rtc::kPort); GET_CONFIG(uint16_t, tcp_port, Rtc::kTcpPort); m.port = m.port ? (udp_port ? udp_port : tcp_port) : 0; if (m.type != TrackApplication) { m.rtcp_addr.port = m.port; } sdp.origin.address = m.addr.address; } if (!canSendRtp()) { // 设置我们发送的rtp的ssrc return; } for (auto &m : sdp.media) { if (m.type == TrackApplication) { continue; } if (!m.rtp_rtx_ssrc.empty()) { // 已经生成了ssrc continue; } // 添加answer sdp的ssrc信息 m.rtp_rtx_ssrc.emplace_back(); auto &ssrc = m.rtp_rtx_ssrc.back(); // 发送的ssrc我们随便定义,因为在发送rtp时会修改为此值 ssrc.ssrc = m.type + RTP_SSRC_OFFSET; ssrc.cname = RTP_CNAME; ssrc.label = RTP_LABEL; ssrc.mslabel = RTP_MSLABEL; ssrc.msid = RTP_MSID; if (m.getRelatedRtxPlan(m.plan[0].pt)) { // rtx ssrc ssrc.rtx_ssrc = ssrc.ssrc + RTX_SSRC_OFFSET; } } } void WebRtcTransportImp::onCheckSdp(SdpType type, RtcSession &sdp) { switch (type) { case SdpType::answer: onCheckAnswer(sdp); break; case SdpType::offer: break; default: /*不可达*/ assert(0); break; } } SdpAttrCandidate::Ptr makeIceCandidate(std::string ip, uint16_t port, uint32_t priority = 100, std::string proto = "udp") { auto candidate = std::make_shared(); // rtp端口 candidate->component = 1; candidate->transport = proto; candidate->foundation = proto + "candidate"; // 优先级,单candidate时随便 candidate->priority = priority; candidate->address = ip; candidate->port = port; candidate->type = "host"; if (proto == "tcp") { candidate->type += " tcptype passive"; } return candidate; } void WebRtcTransportImp::onRtcConfigure(RtcConfigure &configure) const { WebRtcTransport::onRtcConfigure(configure); GET_CONFIG(uint16_t, local_udp_port, Rtc::kPort); GET_CONFIG(uint16_t, local_tcp_port, Rtc::kTcpPort); // 添加接收端口candidate信息 GET_CONFIG_FUNC(std::vector, extern_ips, Rtc::kExternIP, [](string str) { std::vector ret; if (str.length()) { ret = split(str, ","); } translateIPFromEnv(ret); return ret; }); if (extern_ips.empty()) { std::string local_ip = SockUtil::get_local_ip(); if (local_udp_port) { configure.addCandidate(*makeIceCandidate(local_ip, local_udp_port, 120, "udp")); } if (local_tcp_port) { configure.addCandidate(*makeIceCandidate(local_ip, local_tcp_port, _preferred_tcp ? 125 : 115, "tcp")); } } else { const uint32_t delta = 10; uint32_t priority = 100 + delta * extern_ips.size(); for (auto ip : extern_ips) { if (local_udp_port) { configure.addCandidate(*makeIceCandidate(ip, local_udp_port, priority, "udp")); } if (local_tcp_port) { configure.addCandidate(*makeIceCandidate(ip, local_tcp_port, priority - (_preferred_tcp ? -5 : 5), "tcp")); } priority -= delta; } } } /////////////////////////////////////////////////////////////////// class RtpChannel : public RtpTrackImp, public std::enable_shared_from_this { public: RtpChannel(EventPoller::Ptr poller, RtpTrackImp::OnSorted cb, function on_nack) { _poller = std::move(poller); _on_nack = std::move(on_nack); setOnSorted(std::move(cb)); //设置jitter buffer参数 RtpTrackImp::setParams(1024, NackContext::kNackMaxMS, 512); _nack_ctx.setOnNack([this](const FCI_NACK &nack) { onNack(nack); }); } ~RtpChannel() override = default; RtpPacket::Ptr inputRtp(TrackType type, int sample_rate, uint8_t *ptr, size_t len, bool is_rtx) { auto rtp = RtpTrack::inputRtp(type, sample_rate, ptr, len); if (!rtp) { return rtp; } auto seq = rtp->getSeq(); _nack_ctx.received(seq, is_rtx); if (!is_rtx) { // 统计rtp接受情况,便于生成nack rtcp包 _rtcp_context.onRtp(seq, rtp->getStamp(), rtp->ntp_stamp, sample_rate, len); } return rtp; } Buffer::Ptr createRtcpRR(RtcpHeader *sr, uint32_t ssrc) { _rtcp_context.onRtcp(sr); return _rtcp_context.createRtcpRR(ssrc, getSSRC()); } float getLossRate() { auto expected = _rtcp_context.getExpectedPacketsInterval(); if (!expected) { return -1; } return _rtcp_context.getLostInterval() * 100 / expected; } private: void starNackTimer() { if (_delay_task) { return; } weak_ptr weak_self = shared_from_this(); _delay_task = _poller->doDelayTask(10, [weak_self]() -> uint64_t { auto strong_self = weak_self.lock(); if (!strong_self) { return 0; } auto ret = strong_self->_nack_ctx.reSendNack(); if (!ret) { strong_self->_delay_task = nullptr; } return ret; }); } void onNack(const FCI_NACK &nack) { _on_nack(nack); starNackTimer(); } private: NackContext _nack_ctx; RtcpContextForRecv _rtcp_context; EventPoller::Ptr _poller; EventPoller::DelayTask::Ptr _delay_task; function _on_nack; }; std::shared_ptr MediaTrack::getRtpChannel(uint32_t ssrc) const { auto it_chn = rtp_channel.find(rtp_ext_ctx->getRid(ssrc)); if (it_chn == rtp_channel.end()) { return nullptr; } return it_chn->second; } float WebRtcTransportImp::getLossRate(TrackType type) { for (auto &pr : _ssrc_to_track) { auto ssrc = pr.first; auto &track = pr.second; auto rtp_chn = track->getRtpChannel(ssrc); if (rtp_chn) { if (track->media && type == track->media->type) { return rtp_chn->getLossRate(); } } } return -1; } void WebRtcTransportImp::onRtcp(const char *buf, size_t len) { _bytes_usage += len; auto rtcps = RtcpHeader::loadFromBytes((char *)buf, len); for (auto rtcp : rtcps) { switch ((RtcpType)rtcp->pt) { case RtcpType::RTCP_SR: { _alive_ticker.resetTime(); // 对方汇报rtp发送情况 RtcpSR *sr = (RtcpSR *)rtcp; auto it = _ssrc_to_track.find(sr->ssrc); if (it != _ssrc_to_track.end()) { auto &track = it->second; auto rtp_chn = track->getRtpChannel(sr->ssrc); if (!rtp_chn) { WarnL << "未识别的sr rtcp包:" << rtcp->dumpString(); } else { // InfoL << "接收丢包率,ssrc:" << sr->ssrc << ",loss rate(%):" << rtp_chn->getLossRate(); // 设置rtp时间戳与ntp时间戳的对应关系 rtp_chn->setNtpStamp(sr->rtpts, sr->getNtpUnixStampMS()); auto rr = rtp_chn->createRtcpRR(sr, track->answer_ssrc_rtp); sendRtcpPacket(rr->data(), rr->size(), true); } } else { WarnL << "未识别的sr rtcp包:" << rtcp->dumpString(); } break; } case RtcpType::RTCP_RR: { _alive_ticker.resetTime(); // 对方汇报rtp接收情况 RtcpRR *rr = (RtcpRR *)rtcp; for (auto item : rr->getItemList()) { auto it = _ssrc_to_track.find(item->ssrc); if (it != _ssrc_to_track.end()) { auto &track = it->second; track->rtcp_context_send->onRtcp(rtcp); auto sr = track->rtcp_context_send->createRtcpSR(track->answer_ssrc_rtp); sendRtcpPacket(sr->data(), sr->size(), true); } else { WarnL << "未识别的rr rtcp包:" << rtcp->dumpString(); } } break; } case RtcpType::RTCP_BYE: { // 对方汇报停止发送rtp RtcpBye *bye = (RtcpBye *)rtcp; for (auto ssrc : bye->getSSRC()) { auto it = _ssrc_to_track.find(*ssrc); if (it == _ssrc_to_track.end()) { WarnL << "未识别的bye rtcp包:" << rtcp->dumpString(); continue; } _ssrc_to_track.erase(it); } onRtcpBye(); // bye 会在 sender audio track mute 时出现, 因此不能作为 shutdown 的依据 break; } case RtcpType::RTCP_PSFB: case RtcpType::RTCP_RTPFB: { if ((RtcpType)rtcp->pt == RtcpType::RTCP_PSFB) { break; } // RTPFB switch ((RTPFBType)rtcp->report_count) { case RTPFBType::RTCP_RTPFB_NACK: { RtcpFB *fb = (RtcpFB *)rtcp; auto it = _ssrc_to_track.find(fb->ssrc_media); if (it == _ssrc_to_track.end()) { WarnL << "未识别的 rtcp包:" << rtcp->dumpString(); return; } auto &track = it->second; auto &fci = fb->getFci(); track->nack_list.forEach(fci, [&](const RtpPacket::Ptr &rtp) { // rtp重传 onSendRtp(rtp, true, true); }); break; } default: break; } break; } case RtcpType::RTCP_XR: { RtcpXRRRTR *xr = (RtcpXRRRTR *)rtcp; if (xr->bt != 4) { break; } auto it = _ssrc_to_track.find(xr->ssrc); if (it == _ssrc_to_track.end()) { WarnL << "未识别的 rtcp包:" << rtcp->dumpString(); return; } auto &track = it->second; track->rtcp_context_send->onRtcp(rtcp); auto xrdlrr = track->rtcp_context_send->createRtcpXRDLRR(track->answer_ssrc_rtp, track->answer_ssrc_rtp); sendRtcpPacket(xrdlrr->data(), xrdlrr->size(), true); break; } default: break; } } } /////////////////////////////////////////////////////////////////// void WebRtcTransportImp::createRtpChannel(const string &rid, uint32_t ssrc, MediaTrack &track) { // rid --> RtpReceiverImp auto &ref = track.rtp_channel[rid]; weak_ptr weak_self = static_pointer_cast(shared_from_this()); ref = std::make_shared( getPoller(), [&track, this, rid](RtpPacket::Ptr rtp) mutable { onSortedRtp(track, rid, std::move(rtp)); }, [&track, weak_self, ssrc](const FCI_NACK &nack) mutable { // nack发送可能由定时器异步触发 auto strong_self = weak_self.lock(); if (strong_self) { strong_self->onSendNack(track, nack, ssrc); } }); InfoL << "create rtp receiver of ssrc:" << ssrc << ", rid:" << rid << ", codec:" << track.plan_rtp->codec; } void WebRtcTransportImp::updateTicker() { _alive_ticker.resetTime(); } void WebRtcTransportImp::onRtp(const char *buf, size_t len, uint64_t stamp_ms) { _bytes_usage += len; _alive_ticker.resetTime(); RtpHeader *rtp = (RtpHeader *)buf; // 根据接收到的rtp的pt信息,找到该流的信息 auto it = _pt_to_track.find(rtp->pt); if (it == _pt_to_track.end()) { WarnL << "unknown rtp pt:" << (int)rtp->pt; return; } it->second->inputRtp(buf, len, stamp_ms, rtp); } void WrappedRtpTrack::inputRtp(const char *buf, size_t len, uint64_t stamp_ms, RtpHeader *rtp) { #if 0 auto seq = ntohs(rtp->seq); if (track->media->type == TrackVideo && seq % 100 == 0) { //此处模拟接受丢包 return; } #endif auto ssrc = ntohl(rtp->ssrc); // 修改ext id至统一 string rid; auto twcc_ext = track->rtp_ext_ctx->changeRtpExtId(rtp, true, &rid, RtpExtType::transport_cc); if (twcc_ext) { _twcc_ctx.onRtp(ssrc, twcc_ext.getTransportCCSeq(), stamp_ms); } auto &ref = track->rtp_channel[rid]; if (!ref) { _transport.createRtpChannel(rid, ssrc, *track); } // 解析并排序rtp ref->inputRtp(track->media->type, track->plan_rtp->sample_rate, (uint8_t *)buf, len, false); } void WrappedRtxTrack::inputRtp(const char *buf, size_t len, uint64_t stamp_ms, RtpHeader *rtp) { // 修改ext id至统一 string rid; track->rtp_ext_ctx->changeRtpExtId(rtp, true, &rid, RtpExtType::transport_cc); auto &ref = track->rtp_channel[rid]; if (!ref) { // 再接收到对应的rtp前,丢弃rtx包 WarnL << "unknown rtx rtp, rid:" << rid << ", ssrc:" << ntohl(rtp->ssrc) << ", codec:" << track->plan_rtp->codec << ", seq:" << ntohs(rtp->seq); return; } // 这里是rtx重传包 // https://datatracker.ietf.org/doc/html/rfc4588#section-4 auto payload = rtp->getPayloadData(); auto size = rtp->getPayloadSize(len); if (size < 2) { return; } // 前两个字节是原始的rtp的seq auto origin_seq = payload[0] << 8 | payload[1]; // rtx 转换为 rtp rtp->pt = track->plan_rtp->pt; rtp->seq = htons(origin_seq); rtp->ssrc = htonl(ref->getSSRC()); memmove((uint8_t *)buf + 2, buf, payload - (uint8_t *)buf); buf += 2; len -= 2; ref->inputRtp(track->media->type, track->plan_rtp->sample_rate, (uint8_t *)buf, len, true); } void WebRtcTransportImp::onSendNack(MediaTrack &track, const FCI_NACK &nack, uint32_t ssrc) { auto rtcp = RtcpFB::create(RTPFBType::RTCP_RTPFB_NACK, &nack, FCI_NACK::kSize); rtcp->ssrc = htonl(track.answer_ssrc_rtp); rtcp->ssrc_media = htonl(ssrc); sendRtcpPacket((char *)rtcp.get(), rtcp->getSize(), true); } void WebRtcTransportImp::onSendTwcc(uint32_t ssrc, const string &twcc_fci) { auto rtcp = RtcpFB::create(RTPFBType::RTCP_RTPFB_TWCC, twcc_fci.data(), twcc_fci.size()); rtcp->ssrc = htonl(0); rtcp->ssrc_media = htonl(ssrc); sendRtcpPacket((char *)rtcp.get(), rtcp->getSize(), true); } /////////////////////////////////////////////////////////////////// void WebRtcTransportImp::onSortedRtp(MediaTrack &track, const string &rid, RtpPacket::Ptr rtp) { if (track.media->type == TrackVideo && _pli_ticker.elapsedTime() > 2000) { // 定期发送pli请求关键帧,方便非rtc等协议 _pli_ticker.resetTime(); sendRtcpPli(rtp->getSSRC()); // 开启remb,则发送remb包调节比特率 GET_CONFIG(size_t, remb_bit_rate, Rtc::kRembBitRate); if (remb_bit_rate && _answer_sdp->supportRtcpFb(SdpConst::kRembRtcpFb)) { sendRtcpRemb(rtp->getSSRC(), remb_bit_rate); } } onRecvRtp(track, rid, std::move(rtp)); } /////////////////////////////////////////////////////////////////// void WebRtcTransportImp::onSendRtp(const RtpPacket::Ptr &rtp, bool flush, bool rtx) { auto &track = _type_to_track[rtp->type]; if (!track) { // 忽略,对方不支持该编码类型 return; } if (!rtx) { // 统计rtp发送情况,好做sr汇报 track->rtcp_context_send->onRtp( rtp->getSeq(), rtp->getStamp(), rtp->ntp_stamp, rtp->sample_rate, rtp->size() - RtpPacket::kRtpTcpHeaderSize); track->nack_list.pushBack(rtp); #if 0 //此处模拟发送丢包 if (rtp->type == TrackVideo && rtp->getSeq() % 100 == 0) { return; } #endif } else { // 发送rtx重传包 // TraceL << "send rtx rtp:" << rtp->getSeq(); } pair ctx { rtx, track.get() }; sendRtpPacket(rtp->data() + RtpPacket::kRtpTcpHeaderSize, rtp->size() - RtpPacket::kRtpTcpHeaderSize, flush, &ctx); _bytes_usage += rtp->size() - RtpPacket::kRtpTcpHeaderSize; } void WebRtcTransportImp::onBeforeEncryptRtp(const char *buf, int &len, void *ctx) { auto pr = (pair *)ctx; auto header = (RtpHeader *)buf; if (!pr->first || !pr->second->plan_rtx) { // 普通的rtp,或者不支持rtx, 修改目标pt和ssrc pr->second->rtp_ext_ctx->changeRtpExtId(header, false); header->pt = pr->second->plan_rtp->pt; header->ssrc = htonl(pr->second->answer_ssrc_rtp); } else { // 重传的rtp, rtx pr->second->rtp_ext_ctx->changeRtpExtId(header, false); header->pt = pr->second->plan_rtx->pt; if (pr->second->answer_ssrc_rtx) { // 有rtx单独的ssrc,有些情况下,浏览器支持rtx,但是未指定rtx单独的ssrc header->ssrc = htonl(pr->second->answer_ssrc_rtx); } else { // 未单独指定rtx的ssrc,那么使用rtp的ssrc header->ssrc = htonl(pr->second->answer_ssrc_rtp); } auto origin_seq = ntohs(header->seq); // seq跟原来的不一样 header->seq = htons(_rtx_seq[pr->second->media->type]); ++_rtx_seq[pr->second->media->type]; auto payload = header->getPayloadData(); auto payload_size = header->getPayloadSize(len); if (payload_size) { // rtp负载后移两个字节,这两个字节用于存放osn // https://datatracker.ietf.org/doc/html/rfc4588#section-4 memmove(payload + 2, payload, payload_size); } payload[0] = origin_seq >> 8; payload[1] = origin_seq & 0xFF; len += 2; } } void WebRtcTransportImp::safeShutdown(const SockException &ex) { std::weak_ptr weak_self = static_pointer_cast(shared_from_this()); getPoller()->async([ex, weak_self]() { if (auto strong_self = weak_self.lock()) { strong_self->onShutdown(ex); } }); } void WebRtcTransportImp::onShutdown(const SockException &ex) { WarnL << ex; unrefSelf(); for (auto &tuple : _ice_server->GetTuples()) { tuple->shutdown(ex); } } void WebRtcTransportImp::removeTuple(RTC::TransportTuple *tuple) { InfoL << getIdentifier() << " remove tuple " << tuple->get_peer_ip() << ":" << tuple->get_peer_port(); this->_ice_server->RemoveTuple(tuple); } uint64_t WebRtcTransportImp::getBytesUsage() const { return _bytes_usage; } uint64_t WebRtcTransportImp::getDuration() const { return _alive_ticker.createdTime() / 1000; } void WebRtcTransportImp::onRtcpBye(){} ///////////////////////////////////////////////////////////////////////////////////////////// void WebRtcTransportImp::registerSelf() { _self = static_pointer_cast(shared_from_this()); WebRtcTransportManager::Instance().addItem(getIdentifier(), _self); } void WebRtcTransportImp::unrefSelf() { _self = nullptr; } void WebRtcTransportImp::unregisterSelf() { unrefSelf(); WebRtcTransportManager::Instance().removeItem(getIdentifier()); } WebRtcTransportManager &WebRtcTransportManager::Instance() { static WebRtcTransportManager s_instance; return s_instance; } void WebRtcTransportManager::addItem(const string &key, const WebRtcTransportImp::Ptr &ptr) { lock_guard lck(_mtx); _map[key] = ptr; } WebRtcTransportImp::Ptr WebRtcTransportManager::getItem(const string &key) { if (key.empty()) { return nullptr; } lock_guard lck(_mtx); auto it = _map.find(key); if (it == _map.end()) { return nullptr; } return it->second.lock(); } void WebRtcTransportManager::removeItem(const string &key) { lock_guard lck(_mtx); _map.erase(key); } ////////////////////////////////////////////////////////////////////////////////////////////// WebRtcPluginManager &WebRtcPluginManager::Instance() { static WebRtcPluginManager s_instance; return s_instance; } void WebRtcPluginManager::registerPlugin(const string &type, Plugin cb) { lock_guard lck(_mtx_creator); _map_creator[type] = std::move(cb); } std::string exchangeSdp(const WebRtcInterface &exchanger, const std::string& offer) { return const_cast(exchanger).getAnswerSdp(offer); } void WebRtcPluginManager::getAnswerSdp(Session &sender, const string &type, const WebRtcArgs &args, const onCreateRtc &cb) { lock_guard lck(_mtx_creator); auto it = _map_creator.find(type); if (it == _map_creator.end()) { cb(WebRtcException(SockException(Err_other, "the type can not supported"))); return; } it->second(sender, args, cb); } void echo_plugin(Session &sender, const WebRtcArgs &args, const WebRtcPluginManager::onCreateRtc &cb) { cb(*WebRtcEchoTest::create(EventPollerPool::Instance().getPoller())); } void push_plugin(Session &sender, const WebRtcArgs &args, const WebRtcPluginManager::onCreateRtc &cb) { MediaInfo info(args["url"]); bool preferred_tcp = args["preferred_tcp"]; Broadcast::PublishAuthInvoker invoker = [cb, info, preferred_tcp](const string &err, const ProtocolOption &option) mutable { if (!err.empty()) { cb(WebRtcException(SockException(Err_other, err))); return; } RtspMediaSourceImp::Ptr push_src; std::shared_ptr push_src_ownership; auto src = MediaSource::find(RTSP_SCHEMA, info.vhost, info.app, info.stream); auto push_failed = (bool)src; while (src) { // 尝试断连后继续推流 auto rtsp_src = dynamic_pointer_cast(src); if (!rtsp_src) { // 源不是rtsp推流产生的 break; } auto ownership = rtsp_src->getOwnership(); if (!ownership) { // 获取推流源所有权失败 break; } push_src = std::move(rtsp_src); push_src_ownership = std::move(ownership); push_failed = false; break; } if (push_failed) { cb(WebRtcException(SockException(Err_other, "already publishing"))); return; } if (!push_src) { push_src = std::make_shared(info); push_src_ownership = push_src->getOwnership(); push_src->setProtocolOption(option); } auto rtc = WebRtcPusher::create(EventPollerPool::Instance().getPoller(), push_src, push_src_ownership, info, option, preferred_tcp); push_src->setListener(rtc); cb(*rtc); }; // rtsp推流需要鉴权 auto flag = NOTICE_EMIT(BroadcastMediaPublishArgs, Broadcast::kBroadcastMediaPublish, MediaOriginType::rtc_push, info, invoker, sender); if (!flag) { // 该事件无人监听,默认不鉴权 invoker("", ProtocolOption()); } } void play_plugin(Session &sender, const WebRtcArgs &args, const WebRtcPluginManager::onCreateRtc &cb) { MediaInfo info(args["url"]); bool preferred_tcp = args["preferred_tcp"]; auto session_ptr = static_pointer_cast(sender.shared_from_this()); Broadcast::AuthInvoker invoker = [cb, info, session_ptr, preferred_tcp](const string &err) mutable { if (!err.empty()) { cb(WebRtcException(SockException(Err_other, err))); return; } // webrtc播放的是rtsp的源 info.schema = RTSP_SCHEMA; MediaSource::findAsync(info, session_ptr, [=](const MediaSource::Ptr &src_in) mutable { auto src = dynamic_pointer_cast(src_in); if (!src) { cb(WebRtcException(SockException(Err_other, "stream not found"))); return; } // 还原成rtc,目的是为了hook时识别哪种播放协议 info.schema = RTC_SCHEMA; auto rtc = WebRtcPlayer::create(EventPollerPool::Instance().getPoller(), src, info, preferred_tcp); cb(*rtc); }); }; // 广播通用播放url鉴权事件 auto flag = NOTICE_EMIT(BroadcastMediaPlayedArgs, Broadcast::kBroadcastMediaPlayed, info, invoker, sender); if (!flag) { // 该事件无人监听,默认不鉴权 invoker(""); } } static onceToken s_rtc_auto_register([]() { WebRtcPluginManager::Instance().registerPlugin("echo", echo_plugin); WebRtcPluginManager::Instance().registerPlugin("push", push_plugin); WebRtcPluginManager::Instance().registerPlugin("play", play_plugin); }); }// namespace mediakit