ZLMediaKit/webrtc/WebRtcTransport.cpp

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/*
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* Copyright (c) 2016-present The ZLMediaKit project authors. All Rights Reserved.
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*
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* This file is part of ZLMediaKit(https://github.com/ZLMediaKit/ZLMediaKit).
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*
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* Use of this source code is governed by MIT-like license that can be found in the
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* 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.
*/
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#include <iostream>
#include <srtp2/srtp.h>
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#include "Util/base64.h"
#include "Network/sockutil.h"
#include "Common/config.h"
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#include "Nack.h"
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#include "RtpExt.h"
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#include "Rtcp/Rtcp.h"
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#include "Rtcp/RtcpFCI.h"
#include "Rtcp/RtcpContext.h"
#include "Rtsp/Rtsp.h"
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#include "Rtsp/RtpReceiver.h"
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#include "WebRtcTransport.h"
#include "RtcMediaSource.h"
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#include "WebRtcEchoTest.h"
#include "WebRtcPlayer.h"
#include "WebRtcPusher.h"
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#include "Rtsp/RtspMediaSourceImp.h"
#define RTP_SSRC_OFFSET 1
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#define RTX_SSRC_OFFSET 2
#define RTP_CNAME "zlmediakit-rtp"
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#define RTP_LABEL "zlmediakit-label"
#define RTP_MSLABEL "zlmediakit-mslabel"
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using namespace std;
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namespace mediakit {
// RTC配置项目 [AUTO-TRANSLATED:19940011]
// RTC configuration project
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namespace Rtc {
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#define RTC_FIELD "rtc."
// rtp和rtcp接受超时时间 [AUTO-TRANSLATED:0f318cc0]
// rtp and rtcp receive timeout
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const string kTimeOutSec = RTC_FIELD "timeoutSec";
// 服务器外网ip [AUTO-TRANSLATED:23283ba6]
// Server external network ip
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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 [AUTO-TRANSLATED:412801db]
// Set remb bitrate, when it is not 0, turn off twcc and turn on remb. This setting is valid when rtc pushes the stream, and can control the pushing stream quality
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const string kRembBitRate = RTC_FIELD "rembBitRate";
// 是否转码G711音频做到: 出rtc将g711转成aac入rtc将g711转成opus
const string kTranscodeG711 = RTC_FIELD "transcodeG711";
// webrtc单端口udp服务器 [AUTO-TRANSLATED:d17271ea]
// webrtc single-port udp server
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const string kPort = RTC_FIELD "port";
const string kTcpPort = RTC_FIELD "tcpPort";
// 比特率设置 [AUTO-TRANSLATED:2c75f5bc]
// Bitrate setting
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const string kStartBitrate = RTC_FIELD "start_bitrate";
const string kMaxBitrate = RTC_FIELD "max_bitrate";
const string kMinBitrate = RTC_FIELD "min_bitrate";
// 数据通道设置 [AUTO-TRANSLATED:2dc48bc3]
// Data channel setting
const string kDataChannelEcho = RTC_FIELD "datachannel_echo";
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static onceToken token([]() {
mINI::Instance()[kTimeOutSec] = 15;
mINI::Instance()[kExternIP] = "";
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mINI::Instance()[kRembBitRate] = 0;
mINI::Instance()[kPort] = 8000;
mINI::Instance()[kTcpPort] = 8000;
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mINI::Instance()[kStartBitrate] = 0;
mINI::Instance()[kMaxBitrate] = 0;
mINI::Instance()[kMinBitrate] = 0;
mINI::Instance()[kDataChannelEcho] = true;
mINI::Instance()[kTranscodeG711] = 0;
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});
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} // namespace RTC
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static atomic<uint64_t> s_key { 0 };
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static void translateIPFromEnv(std::vector<std::string> &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;
}
}
}
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static std::string getServerPrefix() {
// stun_user_name格式: base64(ip+udp_port+tcp_port) + _ + number [AUTO-TRANSLATED:cc3c5902]
// stun_user_name format: base64(ip+udp_port+tcp_port) + _ + number
// 其中ip为二进制char[4], udp_port/tcp_port为大端 uint16. [AUTO-TRANSLATED:92ea5521]
// Where ip is binary char[4], udp_port/tcp_port is big-endian uint16.
// number为自增长数确保短时间内唯一 [AUTO-TRANSLATED:d31aada9]
// number is an auto-incrementing number, ensuring uniqueness in a short period of time
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GET_CONFIG(uint16_t, udp_port, Rtc::kPort);
GET_CONFIG(uint16_t, tcp_port, Rtc::kTcpPort);
char buf[8];
auto host = SockUtil::get_local_ip();
auto addr = SockUtil::make_sockaddr(host.data(), udp_port);
// 拷贝ipv4地址 [AUTO-TRANSLATED:49c16eed]
// Copy ipv4 address
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memcpy(buf, &(reinterpret_cast<sockaddr_in *>(&addr)->sin_addr), 4);
// 拷贝udp端口 [AUTO-TRANSLATED:ebb750d3]
// Copy udp port
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memcpy(buf + 4, &(reinterpret_cast<sockaddr_in *>(&addr)->sin_port), 2);
// tcp端口转大端模式 [AUTO-TRANSLATED:4f2293de]
// Convert tcp port to big-endian mode
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addr = SockUtil::make_sockaddr(host.data(), tcp_port);
// 拷贝tcp端口 [AUTO-TRANSLATED:23191878]
// Copy tcp port
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memcpy(buf + 6, &(reinterpret_cast<sockaddr_in *>(&addr)->sin_port), 2);
auto ret = encodeBase64(string(buf, 8)) + '_';
InfoL << "MediaServer(" << host << ":" << udp_port << ":" << tcp_port << ") prefix: " << ret;
return ret;
}
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";
}
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WebRtcTransport::WebRtcTransport(const EventPoller::Ptr &poller) {
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_poller = poller;
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static auto prefix = getServerPrefix();
_identifier = prefix + to_string(++s_key);
_packet_pool.setSize(64);
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}
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void WebRtcTransport::onCreate() {
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_dtls_transport = std::make_shared<RTC::DtlsTransport>(_poller, this);
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_ice_server = std::make_shared<RTC::IceServer>(this, _identifier, makeRandStr(24));
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}
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void WebRtcTransport::onDestory() {
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#ifdef ENABLE_SCTP
_sctp = nullptr;
#endif
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_dtls_transport = nullptr;
_ice_server = nullptr;
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}
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const EventPoller::Ptr &WebRtcTransport::getPoller() const {
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return _poller;
}
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const string &WebRtcTransport::getIdentifier() const {
return _identifier;
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}
const std::string& WebRtcTransport::deleteRandStr() const {
if (_delete_rand_str.empty()) {
_delete_rand_str = makeRandStr(32);
}
return _delete_rand_str;
}
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//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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void WebRtcTransport::OnIceServerSendStunPacket(
const RTC::IceServer *iceServer, const RTC::StunPacket *packet, RTC::TransportTuple *tuple) {
sendSockData((char *)packet->GetData(), packet->GetSize(), tuple);
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}
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();
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}
void WebRtcTransport::OnIceServerConnected(const RTC::IceServer *iceServer) {
InfoL << getIdentifier();
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}
void WebRtcTransport::OnIceServerCompleted(const RTC::IceServer *iceServer) {
InfoL << getIdentifier();
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if (_answer_sdp->media[0].role == DtlsRole::passive) {
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_dtls_transport->Run(RTC::DtlsTransport::Role::SERVER);
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} else {
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_dtls_transport->Run(RTC::DtlsTransport::Role::CLIENT);
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}
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}
void WebRtcTransport::OnIceServerDisconnected(const RTC::IceServer *iceServer) {
InfoL << getIdentifier();
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}
//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
void WebRtcTransport::OnDtlsTransportConnected(
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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();
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_srtp_session_send = std::make_shared<RTC::SrtpSession>(
RTC::SrtpSession::Type::OUTBOUND, srtpCryptoSuite, srtpLocalKey, srtpLocalKeyLen);
_srtp_session_recv = std::make_shared<RTC::SrtpSession>(
RTC::SrtpSession::Type::INBOUND, srtpCryptoSuite, srtpRemoteKey, srtpRemoteKeyLen);
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#ifdef ENABLE_SCTP
_sctp = std::make_shared<RTC::SctpAssociationImp>(getPoller(), this, 128, 128, 262144, true);
_sctp->TransportConnected();
#endif
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onStartWebRTC();
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}
#pragma pack(push, 1)
struct DtlsHeader {
uint8_t content_type;
uint16_t dtls_version;
uint16_t epoch;
uint8_t seq[6];
uint16_t length;
uint8_t payload[1];
};
#pragma pack(pop)
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void WebRtcTransport::OnDtlsTransportSendData(
const RTC::DtlsTransport *dtlsTransport, const uint8_t *data, size_t len) {
size_t offset = 0;
while(offset < len) {
auto *header = reinterpret_cast<const DtlsHeader *>(data + offset);
auto length = ntohs(header->length) + offsetof(DtlsHeader, payload);
sendSockData((char *)data + offset, length, nullptr);
offset += length;
}
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}
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void WebRtcTransport::OnDtlsTransportConnecting(const RTC::DtlsTransport *dtlsTransport) {
InfoL << getIdentifier();
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}
void WebRtcTransport::OnDtlsTransportFailed(const RTC::DtlsTransport *dtlsTransport) {
InfoL << getIdentifier();
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onShutdown(SockException(Err_shutdown, "dtls transport failed"));
}
void WebRtcTransport::OnDtlsTransportClosed(const RTC::DtlsTransport *dtlsTransport) {
InfoL << getIdentifier();
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onShutdown(SockException(Err_shutdown, "dtls close notify received"));
}
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void WebRtcTransport::OnDtlsTransportApplicationDataReceived(
const RTC::DtlsTransport *dtlsTransport, const uint8_t *data, size_t len) {
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#ifdef ENABLE_SCTP
_sctp->ProcessSctpData(data, len);
#else
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InfoL << hexdump(data, len);
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#endif
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}
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//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#ifdef ENABLE_SCTP
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void WebRtcTransport::OnSctpAssociationConnecting(RTC::SctpAssociation *sctpAssociation) {
TraceL << getIdentifier();
try {
NOTICE_EMIT(BroadcastRtcSctpConnectArgs, Broadcast::kBroadcastRtcSctpConnecting, *this);
} catch (std::exception &ex) {
WarnL << "Exception occurred: " << ex.what();
}
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}
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void WebRtcTransport::OnSctpAssociationConnected(RTC::SctpAssociation *sctpAssociation) {
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InfoL << getIdentifier();
try {
NOTICE_EMIT(BroadcastRtcSctpConnectArgs, Broadcast::kBroadcastRtcSctpConnected, *this);
} catch (std::exception &ex) {
WarnL << "Exception occurred: " << ex.what();
}
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}
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void WebRtcTransport::OnSctpAssociationFailed(RTC::SctpAssociation *sctpAssociation) {
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WarnL << getIdentifier();
try {
NOTICE_EMIT(BroadcastRtcSctpConnectArgs, Broadcast::kBroadcastRtcSctpFailed, *this);
} catch (std::exception &ex) {
WarnL << "Exception occurred: " << ex.what();
}
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}
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void WebRtcTransport::OnSctpAssociationClosed(RTC::SctpAssociation *sctpAssociation) {
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InfoL << getIdentifier();
try {
NOTICE_EMIT(BroadcastRtcSctpConnectArgs, Broadcast::kBroadcastRtcSctpClosed, *this);
} catch (std::exception &ex) {
WarnL << "Exception occurred: " << ex.what();
}
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}
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void WebRtcTransport::OnSctpAssociationSendData(
RTC::SctpAssociation *sctpAssociation, const uint8_t *data, size_t len) {
try {
NOTICE_EMIT(BroadcastRtcSctpSendArgs, Broadcast::kBroadcastRtcSctpSend, *this, data, len);
} catch (std::exception &ex) {
WarnL << "Exception occurred: " << ex.what();
}
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_dtls_transport->SendApplicationData(data, len);
}
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void WebRtcTransport::OnSctpAssociationMessageReceived(
RTC::SctpAssociation *sctpAssociation, uint16_t streamId, uint32_t ppid, const uint8_t *msg, size_t len) {
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InfoL << getIdentifier() << " " << streamId << " " << ppid << " " << len << " " << string((char *)msg, len);
RTC::SctpStreamParameters params;
params.streamId = streamId;
GET_CONFIG(bool, datachannel_echo, Rtc::kDataChannelEcho);
if (datachannel_echo) {
// 回显数据 [AUTO-TRANSLATED:7868d3a4]
// Echo data
_sctp->SendSctpMessage(params, ppid, msg, len);
}
try {
NOTICE_EMIT(BroadcastRtcSctpReceivedArgs, Broadcast::kBroadcastRtcSctpReceived, *this, streamId, ppid, msg, len);
} catch (std::exception &ex) {
WarnL << "Exception occurred: " << ex.what();
}
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}
#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
}
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//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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void WebRtcTransport::sendSockData(const char *buf, size_t len, RTC::TransportTuple *tuple) {
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auto pkt = _packet_pool.obtain2();
pkt->assign(buf, len);
onSendSockData(std::move(pkt), true, tuple ? tuple : _ice_server->GetSelectedTuple());
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}
Session::Ptr WebRtcTransport::getSession() const {
auto tuple = _ice_server ? _ice_server->GetSelectedTuple(true) : nullptr;
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return tuple ? static_pointer_cast<Session>(tuple->shared_from_this()) : nullptr;
}
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void WebRtcTransport::sendRtcpRemb(uint32_t ssrc, size_t bit_rate) {
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auto remb = FCI_REMB::create({ ssrc }, (uint32_t)bit_rate);
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auto fb = RtcpFB::create(PSFBType::RTCP_PSFB_REMB, remb.data(), remb.size());
fb->ssrc = htonl(0);
fb->ssrc_media = htonl(ssrc);
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sendRtcpPacket((char *)fb.get(), fb->getSize(), true);
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}
void WebRtcTransport::sendRtcpPli(uint32_t ssrc) {
auto pli = RtcpFB::create(PSFBType::RTCP_PSFB_PLI);
pli->ssrc = htonl(0);
pli->ssrc_media = htonl(ssrc);
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sendRtcpPacket((char *)pli.get(), pli->getSize(), true);
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}
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string getFingerprint(const string &algorithm_str, const std::shared_ptr<RTC::DtlsTransport> &transport) {
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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);
}
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void WebRtcTransport::setRemoteDtlsFingerprint(const RtcSession &remote) {
// 设置远端dtls签名 [AUTO-TRANSLATED:746d5f9c]
// Set remote dtls signature
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RTC::DtlsTransport::Fingerprint remote_fingerprint;
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remote_fingerprint.algorithm
= RTC::DtlsTransport::GetFingerprintAlgorithm(_offer_sdp->media[0].fingerprint.algorithm);
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remote_fingerprint.value = _offer_sdp->media[0].fingerprint.hash;
_dtls_transport->SetRemoteFingerprint(remote_fingerprint);
}
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void WebRtcTransport::onRtcConfigure(RtcConfigure &configure) const {
SdpAttrFingerprint fingerprint;
fingerprint.algorithm = _offer_sdp->media[0].fingerprint.algorithm;
fingerprint.hash = getFingerprint(fingerprint.algorithm, _dtls_transport);
configure.setDefaultSetting(
_ice_server->GetUsernameFragment(), _ice_server->GetPassword(), RtpDirection::sendrecv, fingerprint);
// 开启remb后关闭twcc因为开启twcc后remb无效 [AUTO-TRANSLATED:8a8feca2]
// Turn off twcc after turning on remb, because remb is invalid after turning on twcc
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GET_CONFIG(size_t, remb_bit_rate, Rtc::kRembBitRate);
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configure.enableTWCC(!remb_bit_rate);
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}
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static void setSdpBitrate(RtcSession &sdp) {
GET_CONFIG(size_t, max_bitrate, Rtc::kMaxBitrate);
GET_CONFIG(size_t, min_bitrate, Rtc::kMinBitrate);
GET_CONFIG(size_t, start_bitrate, Rtc::kStartBitrate);
auto m = (RtcMedia *)(sdp.getMedia(TrackType::TrackVideo));
if (m) {
auto &plan = m->plan[0];
if (max_bitrate) plan.fmtp["x-google-max-bitrate"] = std::to_string(max_bitrate);
if (min_bitrate) plan.fmtp["x-google-min-bitrate"] = std::to_string(min_bitrate);
if (start_bitrate) plan.fmtp["x-google-start-bitrate"] = std::to_string(start_bitrate);
}
}
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std::string WebRtcTransport::getAnswerSdp(const string &offer) {
try {
// // 解析offer sdp //// [AUTO-TRANSLATED:87c1f337]
// // Parse offer sdp ////
_offer_sdp = std::make_shared<RtcSession>();
_offer_sdp->loadFrom(offer);
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onCheckSdp(SdpType::offer, *_offer_sdp);
_offer_sdp->checkValid();
setRemoteDtlsFingerprint(*_offer_sdp);
// // sdp 配置 //// [AUTO-TRANSLATED:718a72e2]
// // sdp configuration ////
RtcConfigure configure;
onRtcConfigure(configure);
// // 生成answer sdp //// [AUTO-TRANSLATED:a139475e]
// // Generate answer sdp ////
_answer_sdp = configure.createAnswer(*_offer_sdp);
onCheckSdp(SdpType::answer, *_answer_sdp);
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setSdpBitrate(*_answer_sdp);
_answer_sdp->checkValid();
return _answer_sdp->toString();
} catch (exception &ex) {
onShutdown(SockException(Err_shutdown, ex.what()));
throw;
}
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}
static bool isDtls(char *buf) {
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return ((*buf > 19) && (*buf < 64));
}
void WebRtcTransport::inputSockData(char *buf, int len, RTC::TransportTuple *tuple) {
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if (RTC::StunPacket::IsStun((const uint8_t *)buf, len)) {
std::unique_ptr<RTC::StunPacket> packet(RTC::StunPacket::Parse((const uint8_t *)buf, len));
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if (!packet) {
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WarnL << "parse stun error";
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return;
}
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_ice_server->ProcessStunPacket(packet.get(), tuple);
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return;
}
if (isDtls(buf)) {
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_dtls_transport->ProcessDtlsData((uint8_t *)buf, len);
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return;
}
if (isRtp(buf, len)) {
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if (!_srtp_session_recv) {
WarnL << "received rtp packet when dtls not completed from:" << tuple->get_peer_ip();
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return;
}
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if (_srtp_session_recv->DecryptSrtp((uint8_t *)buf, &len)) {
onRtp(buf, len, _ticker.createdTime());
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}
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return;
}
if (isRtcp(buf, len)) {
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if (!_srtp_session_recv) {
WarnL << "received rtcp packet when dtls not completed from:" << tuple->get_peer_ip();
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return;
}
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if (_srtp_session_recv->DecryptSrtcp((uint8_t *)buf, &len)) {
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onRtcp(buf, len);
}
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return;
}
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}
void WebRtcTransport::sendRtpPacket(const char *buf, int len, bool flush, void *ctx) {
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if (_srtp_session_send) {
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auto pkt = _packet_pool.obtain2();
// 预留rtx加入的两个字节 [AUTO-TRANSLATED:d1eb5cd7]
// Reserve two bytes for rtx joining
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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<uint8_t *>(pkt->data()), &len)) {
pkt->setSize(len);
onSendSockData(std::move(pkt), flush);
}
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}
}
void WebRtcTransport::sendRtcpPacket(const char *buf, int len, bool flush, void *ctx) {
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if (_srtp_session_send) {
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auto pkt = _packet_pool.obtain2();
// 预留rtx加入的两个字节 [AUTO-TRANSLATED:d1eb5cd7]
// Reserve two bytes for rtx joining
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pkt->setCapacity((size_t)len + SRTP_MAX_TRAILER_LEN + 2);
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memcpy(pkt->data(), buf, len);
onBeforeEncryptRtcp(pkt->data(), len, ctx);
if (_srtp_session_send->EncryptRtcp(reinterpret_cast<uint8_t *>(pkt->data()), &len)) {
pkt->setSize(len);
onSendSockData(std::move(pkt), flush);
}
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}
}
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///////////////////////////////////////////////////////////////////////////////////
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void WebRtcTransportImp::onCreate() {
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WebRtcTransport::onCreate();
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registerSelf();
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weak_ptr<WebRtcTransportImp> weak_self = static_pointer_cast<WebRtcTransportImp>(shared_from_this());
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GET_CONFIG(float, timeoutSec, Rtc::kTimeOutSec);
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_timer = std::make_shared<Timer>(
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"));
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}
return true;
},
getPoller());
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_twcc_ctx.setOnSendTwccCB([this](uint32_t ssrc, string fci) { onSendTwcc(ssrc, fci); });
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}
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) : WebRtcTransport(poller) {
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InfoL << getIdentifier();
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}
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WebRtcTransportImp::~WebRtcTransportImp() {
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InfoL << getIdentifier();
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}
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void WebRtcTransportImp::onDestory() {
WebRtcTransport::onDestory();
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unregisterSelf();
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}
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;
}
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}
// 一次性发送一帧的rtp数据提高网络io性能 [AUTO-TRANSLATED:fbab421e]
// Send one frame of rtp data at a time to improve network io performance
if (tuple->getSock()->sockType() == SockNum::Sock_TCP) {
// 增加tcp两字节头 [AUTO-TRANSLATED:62159f79]
// Add two-byte header to tcp
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();
}
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}
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///////////////////////////////////////////////////////////////////
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bool WebRtcTransportImp::canSendRtp() const {
for (auto &m : _answer_sdp->media) {
if (m.direction == RtpDirection::sendrecv || m.direction == RtpDirection::sendonly) {
return true;
}
}
return false;
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}
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bool WebRtcTransportImp::canRecvRtp() const {
for (auto &m : _answer_sdp->media) {
if (m.direction == RtpDirection::sendrecv || m.direction == RtpDirection::recvonly) {
return true;
}
}
return false;
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}
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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 [AUTO-TRANSLATED:39828247]
// Get ssrc and pt related information, so that when receiving rtp and rtcp, you can find the relevant information according to pt and ssrc respectively
for (auto &m_answer : _answer_sdp->media) {
if (m_answer.type == TrackApplication) {
continue;
}
auto m_offer = _offer_sdp->getMedia(m_answer.type);
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auto track = std::make_shared<MediaTrack>();
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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];
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track->plan_rtx = m_answer.getRelatedRtxPlan(track->plan_rtp->pt);
track->rtcp_context_send = std::make_shared<RtcpContextForSend>();
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// 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 [AUTO-TRANSLATED:b7c1e631]
// This type of track supports sending
_type_to_track[m_answer.type] = track;
}
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// send ssrc --> MediaTrack
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_ssrc_to_track[track->answer_ssrc_rtp] = track;
_ssrc_to_track[track->answer_ssrc_rtx] = track;
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// recv ssrc --> MediaTrack
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_ssrc_to_track[track->offer_ssrc_rtp] = track;
_ssrc_to_track[track->offer_ssrc_rtx] = track;
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// rtp pt --> MediaTrack
_pt_to_track.emplace(
track->plan_rtp->pt, std::unique_ptr<WrappedMediaTrack>(new WrappedRtpTrack(track, _twcc_ctx, *this)));
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if (track->plan_rtx) {
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// rtx pt --> MediaTrack
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_pt_to_track.emplace(track->plan_rtx->pt, std::unique_ptr<WrappedMediaTrack>(new WrappedRtxTrack(track)));
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}
// 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 [AUTO-TRANSLATED:5736bd34]
// Record the relationship between rtp ext type and id, which is convenient for modifying rtp ext id when receiving or sending rtp
track->rtp_ext_ctx = std::make_shared<RtpExtContext>(m_answer);
weak_ptr<MediaTrack> weak_track = track;
track->rtp_ext_ctx->setOnGetRtp([this, weak_track](uint8_t pt, uint32_t ssrc, const string &rid) {
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// ssrc --> MediaTrack
auto track = weak_track.lock();
assert(track);
_ssrc_to_track[ssrc] = std::move(track);
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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 [AUTO-TRANSLATED:8e344bc1]
// Record the MediaTrack corresponding to ssrc
_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 [AUTO-TRANSLATED:86f3e5bf]
// Support firefox's simulcast, map the relationship between ssrc and rid in advance
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; [AUTO-TRANSLATED:d6cd0b5b]
// SDP munging does not have rid, it gives the ssrc list through group-ssrc:SIM;
// 系统又要有rid这里手工生成rid并为其绑定ssrc [AUTO-TRANSLATED:f4988139]
// The system also needs a rid, so we manually generate a rid and bind it to the 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);
}
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}
++index;
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}
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}
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}
void WebRtcTransportImp::onCheckAnswer(RtcSession &sdp) {
// 修改answer sdp的ip、端口信息 [AUTO-TRANSLATED:ff72ec1e]
// Modify the ip and port information of the answer sdp
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GET_CONFIG_FUNC(std::vector<std::string>, extern_ips, Rtc::kExternIP, [](string str) {
std::vector<std::string> ret;
if (str.length()) {
ret = split(str, ",");
}
translateIPFromEnv(ret);
return ret;
});
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for (auto &m : sdp.media) {
m.addr.reset();
m.addr.address = extern_ips.empty() ? _local_ip.empty() ? SockUtil::get_local_ip() : _local_ip : extern_ips[0];
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m.rtcp_addr.reset();
m.rtcp_addr.address = m.addr.address;
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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;
}
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sdp.origin.address = m.addr.address;
}
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if (!canSendRtp()) {
// 设置我们发送的rtp的ssrc [AUTO-TRANSLATED:3704484a]
// Set the ssrc of the rtp we send
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return;
}
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for (auto &m : sdp.media) {
if (m.type == TrackApplication) {
continue;
}
if (!m.rtp_rtx_ssrc.empty()) {
// 已经生成了ssrc [AUTO-TRANSLATED:5883cab8]
// The ssrc has been generated
continue;
}
// 添加answer sdp的ssrc信息 [AUTO-TRANSLATED:ab4c3fad]
// Add the ssrc information to the answer sdp
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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 [AUTO-TRANSLATED:ee8d77f0]
// We can define the ssrc we send at will, because it will be modified to this value when sending rtp
ssrc.ssrc = m.type + RTP_SSRC_OFFSET;
ssrc.cname = RTP_CNAME;
ssrc.label = std::string(RTP_LABEL) + '-' + m.mid;
ssrc.mslabel = RTP_MSLABEL;
ssrc.msid = ssrc.mslabel + ' ' + ssrc.label;
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if (m.getRelatedRtxPlan(m.plan[0].pt)) {
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// rtx ssrc
ssrc.rtx_ssrc = ssrc.ssrc + RTX_SSRC_OFFSET;
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}
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}
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}
void WebRtcTransportImp::onCheckSdp(SdpType type, RtcSession &sdp) {
switch (type) {
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case SdpType::answer:
onCheckAnswer(sdp);
break;
case SdpType::offer:
break;
default: /*不可达*/
assert(0);
break;
}
}
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SdpAttrCandidate::Ptr
makeIceCandidate(std::string ip, uint16_t port, uint32_t priority = 100, std::string proto = "udp") {
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auto candidate = std::make_shared<SdpAttrCandidate>();
// rtp端口 [AUTO-TRANSLATED:b0addb27]
// rtp port
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candidate->component = 1;
candidate->transport = proto;
candidate->foundation = proto + "candidate";
// 优先级单candidate时随便 [AUTO-TRANSLATED:7c85d820]
// Priority, random when there is only one candidate
candidate->priority = priority;
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candidate->address = std::move(ip);
candidate->port = port;
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candidate->type = "host";
if (proto == "tcp") {
candidate->type += " tcptype passive";
}
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return candidate;
}
void WebRtcTransportImp::onRtcConfigure(RtcConfigure &configure) const {
WebRtcTransport::onRtcConfigure(configure);
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if (!_cands.empty()) {
for (auto &cand : _cands) {
configure.addCandidate(cand);
}
return;
}
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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 [AUTO-TRANSLATED:cc9a6a90]
// Add the receiving port candidate information
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GET_CONFIG_FUNC(std::vector<std::string>, extern_ips, Rtc::kExternIP, [](string str) {
std::vector<std::string> ret;
if (str.length()) {
ret = split(str, ",");
}
translateIPFromEnv(ret);
return ret;
});
if (extern_ips.empty()) {
std::string local_ip = _local_ip.empty() ? SockUtil::get_local_ip() : _local_ip;
if (local_udp_port) { configure.addCandidate(*makeIceCandidate(local_ip, local_udp_port, 120, "udp")); }
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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")); }
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if (local_tcp_port) { configure.addCandidate(*makeIceCandidate(ip, local_tcp_port, priority - (_preferred_tcp ? -5 : 5), "tcp")); }
priority -= delta;
}
}
}
void WebRtcTransportImp::setPreferredTcp(bool flag) {
_preferred_tcp = flag;
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}
void WebRtcTransportImp::setLocalIp(std::string local_ip) {
_local_ip = std::move(local_ip);
}
void WebRtcTransportImp::setIceCandidate(vector<SdpAttrCandidate> cands) {
_cands = std::move(cands);
}
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///////////////////////////////////////////////////////////////////
class RtpChannel : public RtpTrackImp, public std::enable_shared_from_this<RtpChannel> {
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public:
RtpChannel(EventPoller::Ptr poller, RtpTrackImp::OnSorted cb, function<void(const FCI_NACK &nack)> on_nack) {
_poller = std::move(poller);
_on_nack = std::move(on_nack);
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setOnSorted(std::move(cb));
// 设置jitter buffer参数 [AUTO-TRANSLATED:eede98b6]
// Set jitter buffer parameters
GET_CONFIG(uint32_t, nack_maxms, Rtc::kNackMaxMS);
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GET_CONFIG(uint32_t, nack_max_rtp, Rtc::kNackMaxSize);
RtpTrackImp::setParams(nack_max_rtp, nack_maxms, nack_max_rtp / 2);
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_nack_ctx.setOnNack([this](const FCI_NACK &nack) { onNack(nack); });
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}
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 [AUTO-TRANSLATED:57e0f80d]
// Statistics of rtp reception, which is convenient for generating nack rtcp packets
_rtcp_context.onRtp(seq, rtp->getStamp(), rtp->ntp_stamp, sample_rate, len);
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}
return rtp;
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}
Buffer::Ptr createRtcpRR(RtcpHeader *sr, uint32_t ssrc) {
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_rtcp_context.onRtcp(sr);
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return _rtcp_context.createRtcpRR(ssrc, getSSRC());
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}
float getLossRate() {
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auto expected = _rtcp_context.getExpectedPacketsInterval();
if (!expected) {
return -1;
}
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return _rtcp_context.getLostInterval() * 100 / expected;
}
private:
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void starNackTimer() {
if (_delay_task) {
return;
}
weak_ptr<RtpChannel> 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();
}
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private:
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NackContext _nack_ctx;
RtcpContextForRecv _rtcp_context;
EventPoller::Ptr _poller;
EventPoller::DelayTask::Ptr _delay_task;
function<void(const FCI_NACK &nack)> _on_nack;
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};
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std::shared_ptr<RtpChannel> MediaTrack::getRtpChannel(uint32_t ssrc) const {
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auto it_chn = rtp_channel.find(rtp_ext_ctx->getRid(ssrc));
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if (it_chn == rtp_channel.end()) {
return nullptr;
}
return it_chn->second;
}
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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;
}
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void WebRtcTransportImp::onRtcp(const char *buf, size_t len) {
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_bytes_usage += len;
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auto rtcps = RtcpHeader::loadFromBytes((char *)buf, len);
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for (auto rtcp : rtcps) {
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switch ((RtcpType)rtcp->pt) {
case RtcpType::RTCP_SR: {
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_alive_ticker.resetTime();
// 对方汇报rtp发送情况 [AUTO-TRANSLATED:1389b0c8]
// The other party reports the rtp sending situation
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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 {
// 设置rtp时间戳与ntp时间戳的对应关系 [AUTO-TRANSLATED:e92f4749]
// Set the correspondence between rtp timestamp and ntp timestamp
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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 [AUTO-TRANSLATED:77f50a28]
// The other party reports the rtp receiving situation
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RtcpRR *rr = (RtcpRR *)rtcp;
for (auto item : rr->getItemList()) {
auto it = _ssrc_to_track.find(item->ssrc);
if (it != _ssrc_to_track.end()) {
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auto &track = it->second;
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track->rtcp_context_send->onRtcp(rtcp);
auto sr = track->rtcp_context_send->createRtcpSR(track->answer_ssrc_rtp);
sendRtcpPacket(sr->data(), sr->size(), true);
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} else {
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WarnL << "未识别的rr rtcp包:" << rtcp->dumpString();
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}
}
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break;
}
case RtcpType::RTCP_BYE: {
// 对方汇报停止发送rtp [AUTO-TRANSLATED:96ad0cf3]
// The other party reports the stop sending rtp
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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;
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}
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_ssrc_to_track.erase(it);
}
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onRtcpBye();
// bye 会在 sender audio track mute 时出现, 因此不能作为 shutdown 的依据 [AUTO-TRANSLATED:d9fdfaac]
// Bye will appear when the sender audio track is muted, so it cannot be used as the basis for shutdown
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break;
}
case RtcpType::RTCP_PSFB:
case RtcpType::RTCP_RTPFB: {
if ((RtcpType)rtcp->pt == RtcpType::RTCP_PSFB) {
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break;
}
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// 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;
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}
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auto &track = it->second;
auto &fci = fb->getFci<FCI_NACK>();
track->nack_list.forEach(fci, [&](const RtpPacket::Ptr &rtp) {
// rtp重传 [AUTO-TRANSLATED:62a37e46]
// rtp retransmission
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onSendRtp(rtp, true, true);
});
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break;
}
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default:
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break;
}
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break;
}
case RtcpType::RTCP_XR: {
RtcpXRRRTR *xr = (RtcpXRRRTR *)rtcp;
if (xr->bt != 4) {
break;
}
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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;
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}
}
}
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///////////////////////////////////////////////////////////////////
void WebRtcTransportImp::createRtpChannel(const string &rid, uint32_t ssrc, MediaTrack &track) {
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// rid --> RtpReceiverImp
auto &ref = track.rtp_channel[rid];
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weak_ptr<WebRtcTransportImp> weak_self = static_pointer_cast<WebRtcTransportImp>(shared_from_this());
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ref = std::make_shared<RtpChannel>(
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-TRANSLATED:186d6723]
// Nack sending may be triggered asynchronously by a timer
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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();
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RtpHeader *rtp = (RtpHeader *)buf;
// 根据接收到的rtp的pt信息找到该流的信息 [AUTO-TRANSLATED:9a97682c]
// Find the information of the stream according to the pt information of the received rtp
auto it = _pt_to_track.find(rtp->pt);
if (it == _pt_to_track.end()) {
WarnL << "unknown rtp pt:" << (int)rtp->pt;
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return;
}
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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 [AUTO-TRANSLATED:7e8c2e5c]
// Simulate packet loss here
return;
}
#endif
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auto ssrc = ntohl(rtp->ssrc);
// 修改ext id至统一 [AUTO-TRANSLATED:0769b0ec]
// Modify the ext id to be unified
string rid;
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auto twcc_ext = track->rtp_ext_ctx->changeRtpExtId(rtp, true, &rid, RtpExtType::transport_cc);
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if (twcc_ext) {
_twcc_ctx.onRtp(ssrc, twcc_ext.getTransportCCSeq(), stamp_ms);
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}
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auto &ref = track->rtp_channel[rid];
if (!ref) {
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_transport.createRtpChannel(rid, ssrc, *track);
}
// 解析并排序rtp [AUTO-TRANSLATED:d382b65d]
// Parse and sort rtp
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ref->inputRtp(track->media->type, track->plan_rtp->sample_rate, (uint8_t *)buf, len, false);
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}
void WrappedRtxTrack::inputRtp(const char *buf, size_t len, uint64_t stamp_ms, RtpHeader *rtp) {
// 修改ext id至统一 [AUTO-TRANSLATED:0769b0ec]
// Modify the ext id to be unified
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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 [AUTO-TRANSLATED:d4ca6d69]
// Discard rtx packets before receiving the corresponding rtp
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WarnL << "unknown rtx rtp, rid:" << rid << ", ssrc:" << ntohl(rtp->ssrc) << ", codec:" << track->plan_rtp->codec
<< ", seq:" << ntohs(rtp->seq);
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return;
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}
// 这里是rtx重传包 [AUTO-TRANSLATED:6efd3766]
// This is the rtx retransmission packet
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// https://datatracker.ietf.org/doc/html/rfc4588#section-4
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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-TRANSLATED:c57ff92d]
// The first two bytes are the original rtp seq
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auto origin_seq = payload[0] << 8 | payload[1];
// rtx 转换为 rtp [AUTO-TRANSLATED:be27f61b]
// rtx converted to rtp
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rtp->pt = track->plan_rtp->pt;
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rtp->seq = htons(origin_seq);
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rtp->ssrc = htonl(ref->getSSRC());
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memmove((uint8_t *)buf + 2, buf, payload - (uint8_t *)buf);
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buf += 2;
len -= 2;
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ref->inputRtp(track->media->type, track->plan_rtp->sample_rate, (uint8_t *)buf, len, true);
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}
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void WebRtcTransportImp::onSendNack(MediaTrack &track, const FCI_NACK &nack, uint32_t ssrc) {
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auto rtcp = RtcpFB::create(RTPFBType::RTCP_RTPFB_NACK, &nack, FCI_NACK::kSize);
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rtcp->ssrc = htonl(track.answer_ssrc_rtp);
rtcp->ssrc_media = htonl(ssrc);
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sendRtcpPacket((char *)rtcp.get(), rtcp->getSize(), true);
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}
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void WebRtcTransportImp::onSendTwcc(uint32_t ssrc, const string &twcc_fci) {
auto rtcp = RtcpFB::create(RTPFBType::RTCP_RTPFB_TWCC, twcc_fci.data(), twcc_fci.size());
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rtcp->ssrc = htonl(0);
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rtcp->ssrc_media = htonl(ssrc);
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sendRtcpPacket((char *)rtcp.get(), rtcp->getSize(), true);
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}
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///////////////////////////////////////////////////////////////////
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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 [AUTO-TRANSLATED:b992f020]
// Regularly send pli requests for key frames, which is convenient for non-rtc protocols
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_pli_ticker.resetTime();
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sendRtcpPli(rtp->getSSRC());
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// 开启remb则发送remb包调节比特率 [AUTO-TRANSLATED:20e98cea]
// If remb is enabled, send remb packets to adjust the bitrate
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GET_CONFIG(size_t, remb_bit_rate, Rtc::kRembBitRate);
if (remb_bit_rate && _answer_sdp->supportRtcpFb(SdpConst::kRembRtcpFb)) {
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sendRtcpRemb(rtp->getSSRC(), remb_bit_rate);
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}
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}
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onRecvRtp(track, rid, std::move(rtp));
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}
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///////////////////////////////////////////////////////////////////
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void WebRtcTransportImp::onSendRtp(const RtpPacket::Ptr &rtp, bool flush, bool rtx) {
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auto &track = _type_to_track[rtp->type];
if (!track) {
// 忽略,对方不支持该编码类型 [AUTO-TRANSLATED:498ee936]
// Ignore, the other party does not support this encoding type
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return;
}
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if (!rtx) {
// 统计rtp发送情况好做sr汇报 [AUTO-TRANSLATED:142028b2]
// Statistics of RTP sending, for SR reporting
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track->rtcp_context_send->onRtp(
rtp->getSeq(), rtp->getStamp(), rtp->ntp_stamp, rtp->sample_rate,
rtp->size() - RtpPacket::kRtpTcpHeaderSize);
track->nack_list.pushBack(rtp);
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#if 0
// 此处模拟发送丢包 [AUTO-TRANSLATED:9612f08e]
// Simulate packet loss here
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if (rtp->type == TrackVideo && rtp->getSeq() % 100 == 0) {
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return;
}
#endif
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} else {
// 发送rtx重传包 [AUTO-TRANSLATED:ae60e1fd]
// Send RTX retransmission packets
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// TraceL << "send rtx rtp:" << rtp->getSeq();
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}
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pair<bool /*rtx*/, MediaTrack *> ctx { rtx, track.get() };
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sendRtpPacket(rtp->data() + RtpPacket::kRtpTcpHeaderSize, rtp->size() - RtpPacket::kRtpTcpHeaderSize, flush, &ctx);
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_bytes_usage += rtp->size() - RtpPacket::kRtpTcpHeaderSize;
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}
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void WebRtcTransportImp::onBeforeEncryptRtp(const char *buf, int &len, void *ctx) {
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auto pr = (pair<bool /*rtx*/, MediaTrack *> *)ctx;
auto header = (RtpHeader *)buf;
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if (!pr->first || !pr->second->plan_rtx) {
// 普通的rtp,或者不支持rtx, 修改目标pt和ssrc [AUTO-TRANSLATED:e1264971]
// Ordinary RTP, or does not support RTX, modify the target PT and SSRC
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pr->second->rtp_ext_ctx->changeRtpExtId(header, false);
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header->pt = pr->second->plan_rtp->pt;
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header->ssrc = htonl(pr->second->answer_ssrc_rtp);
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} else {
// 重传的rtp, rtx [AUTO-TRANSLATED:e863a518]
// Retransmitted RTP, RTX
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pr->second->rtp_ext_ctx->changeRtpExtId(header, false);
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header->pt = pr->second->plan_rtx->pt;
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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 [AUTO-TRANSLATED:181cee9a]
// RTX has a separate SSRC, in some cases, the browser supports RTX, but does not specify a separate SSRC for RTX
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header->ssrc = htonl(pr->second->answer_ssrc_rtx);
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} else {
// 未单独指定rtx的ssrc那么使用rtp的ssrc [AUTO-TRANSLATED:dcafdd75]
// If RTX SSRC is not specified separately, use the RTP SSRC
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header->ssrc = htonl(pr->second->answer_ssrc_rtp);
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}
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auto origin_seq = ntohs(header->seq);
// seq跟原来的不一样 [AUTO-TRANSLATED:803f9a5e]
// The sequence is different from the original
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header->seq = htons(_rtx_seq[pr->second->media->type]);
++_rtx_seq[pr->second->media->type];
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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 [AUTO-TRANSLATED:b7eed70e]
// The RTP payload is shifted two bytes, these two bytes are used to store OSN
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// https://datatracker.ietf.org/doc/html/rfc4588#section-4
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memmove(payload + 2, payload, payload_size);
}
payload[0] = origin_seq >> 8;
payload[1] = origin_seq & 0xFF;
len += 2;
}
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}
void WebRtcTransportImp::safeShutdown(const SockException &ex) {
std::weak_ptr<WebRtcTransportImp> weak_self = static_pointer_cast<WebRtcTransportImp>(shared_from_this());
getPoller()->async([ex, weak_self]() {
if (auto strong_self = weak_self.lock()) {
strong_self->onShutdown(ex);
}
});
}
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void WebRtcTransportImp::onShutdown(const SockException &ex) {
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WarnL << ex;
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unrefSelf();
for (auto &tuple : _ice_server->GetTuples()) {
tuple->shutdown(ex);
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}
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}
void WebRtcTransportImp::removeTuple(RTC::TransportTuple *tuple) {
InfoL << getIdentifier() << " remove tuple " << tuple->get_peer_ip() << ":" << tuple->get_peer_port();
this->_ice_server->RemoveTuple(tuple);
}
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uint64_t WebRtcTransportImp::getBytesUsage() const {
return _bytes_usage;
}
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uint64_t WebRtcTransportImp::getDuration() const {
return _alive_ticker.createdTime() / 1000;
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}
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void WebRtcTransportImp::onRtcpBye(){}
/////////////////////////////////////////////////////////////////////////////////////////////
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void WebRtcTransportImp::registerSelf() {
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_self = static_pointer_cast<WebRtcTransportImp>(shared_from_this());
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WebRtcTransportManager::Instance().addItem(getIdentifier(), _self);
}
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void WebRtcTransportImp::unrefSelf() {
_self = nullptr;
}
void WebRtcTransportImp::unregisterSelf() {
unrefSelf();
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WebRtcTransportManager::Instance().removeItem(getIdentifier());
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}
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WebRtcTransportManager &WebRtcTransportManager::Instance() {
static WebRtcTransportManager s_instance;
return s_instance;
}
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void WebRtcTransportManager::addItem(const string &key, const WebRtcTransportImp::Ptr &ptr) {
lock_guard<mutex> lck(_mtx);
_map[key] = ptr;
}
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WebRtcTransportImp::Ptr WebRtcTransportManager::getItem(const string &key) {
if (key.empty()) {
return nullptr;
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}
lock_guard<mutex> lck(_mtx);
auto it = _map.find(key);
if (it == _map.end()) {
return nullptr;
}
return it->second.lock();
}
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void WebRtcTransportManager::removeItem(const string &key) {
lock_guard<mutex> lck(_mtx);
_map.erase(key);
}
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//////////////////////////////////////////////////////////////////////////////////////////////
WebRtcPluginManager &WebRtcPluginManager::Instance() {
static WebRtcPluginManager s_instance;
return s_instance;
}
void WebRtcPluginManager::registerPlugin(const string &type, Plugin cb) {
lock_guard<mutex> lck(_mtx_creator);
_map_creator[type] = std::move(cb);
}
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void WebRtcPluginManager::setListener(Listener cb) {
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lock_guard<mutex> lck(_mtx_creator);
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_listener = std::move(cb);
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}
void WebRtcPluginManager::negotiateSdp(Session &sender, const string &type, const WebRtcArgs &args, const onCreateWebRtc &cb_in) {
onCreateWebRtc cb;
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lock_guard<mutex> lck(_mtx_creator);
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if (_listener) {
auto listener = _listener;
auto args_ptr = args.shared_from_this();
auto sender_ptr = static_pointer_cast<Session>(sender.shared_from_this());
cb = [listener, sender_ptr, type, args_ptr, cb_in](const WebRtcInterface &rtc) {
listener(*sender_ptr, type, *args_ptr, rtc);
cb_in(rtc);
};
} else {
cb = cb_in;
}
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auto it = _map_creator.find(type);
if (it == _map_creator.end()) {
cb_in(WebRtcException(SockException(Err_other, "the type can not supported")));
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return;
}
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it->second(sender, args, cb);
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}
void echo_plugin(Session &sender, const WebRtcArgs &args, const onCreateWebRtc &cb) {
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cb(*WebRtcEchoTest::create(EventPollerPool::Instance().getPoller()));
}
void push_plugin(Session &sender, const WebRtcArgs &args, const onCreateWebRtc &cb) {
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MediaInfo info(args["url"]);
Broadcast::PublishAuthInvoker invoker = [cb, info](const string &err, const ProtocolOption &option) mutable {
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if (!err.empty()) {
cb(WebRtcException(SockException(Err_other, err)));
return;
}
std::string schema = RTC_SCHEMA;
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RtspMediaSourceImp::Ptr push_src;
std::shared_ptr<void> push_src_ownership;
auto src = MediaSource::find(schema, info.vhost, info.app, info.stream);
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auto push_failed = (bool)src;
while (src) {
// 尝试断连后继续推流 [AUTO-TRANSLATED:9eaaa6dd]
// Try to continue streaming after disconnecting
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auto rtsp_src = dynamic_pointer_cast<RtspMediaSourceImp>(src);
if (!rtsp_src) {
// 源不是rtsp推流产生的 [AUTO-TRANSLATED:47b87993]
// The source is not generated by RTSP streaming
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break;
}
auto ownership = rtsp_src->getOwnership();
if (!ownership) {
// 获取推流源所有权失败 [AUTO-TRANSLATED:256190b2]
// Failed to get the ownership of the streaming source
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break;
}
push_src = std::move(rtsp_src);
push_src_ownership = std::move(ownership);
push_failed = false;
break;
}
if (push_failed) {
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cb(WebRtcException(SockException(Err_other, "already publishing")));
return;
}
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if (!push_src) {
push_src = std::make_shared<RtcMediaSourceImp>(info);
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push_src_ownership = push_src->getOwnership();
push_src->setProtocolOption(option);
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}
auto rtc = WebRtcPusher::create(EventPollerPool::Instance().getPoller(), push_src, push_src_ownership, info, option);
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push_src->setListener(rtc);
cb(*rtc);
};
// rtsp推流需要鉴权 [AUTO-TRANSLATED:c2cbb7ed]
// RTSP streaming requires authentication
auto flag = NOTICE_EMIT(BroadcastMediaPublishArgs, Broadcast::kBroadcastMediaPublish, MediaOriginType::rtc_push, info, invoker, sender);
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if (!flag) {
// 该事件无人监听,默认不鉴权 [AUTO-TRANSLATED:e1fbc6ae]
// No one is listening to this event, authentication is not enabled by default
invoker("", ProtocolOption());
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}
}
void play_plugin(Session &sender, const WebRtcArgs &args, const onCreateWebRtc &cb) {
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MediaInfo info(args["url"]);
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auto session_ptr = static_pointer_cast<Session>(sender.shared_from_this());
Broadcast::AuthInvoker invoker = [cb, info, session_ptr](const string &err) mutable {
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if (!err.empty()) {
cb(WebRtcException(SockException(Err_other, err)));
return;
}
// webrtc播放的是rtsp的源 [AUTO-TRANSLATED:649ae489]
// WebRTC plays the RTSP source
info.schema = RTC_SCHEMA;
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MediaSource::findAsync(info, session_ptr, [=](const MediaSource::Ptr &src_in) mutable {
auto src = dynamic_pointer_cast<RtspMediaSource>(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 [AUTO-TRANSLATED:fe8dd2dc]
// Restore to RTC, the purpose is to identify which playback protocol during hooking
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info.schema = "rtc";
auto rtc = WebRtcPlayer::create(EventPollerPool::Instance().getPoller(), src, info);
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cb(*rtc);
});
};
// 广播通用播放url鉴权事件 [AUTO-TRANSLATED:81e24be4]
// Broadcast a universal playback URL authentication event
auto flag = NOTICE_EMIT(BroadcastMediaPlayedArgs, Broadcast::kBroadcastMediaPlayed, info, invoker, sender);
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if (!flag) {
// 该事件无人监听,默认不鉴权 [AUTO-TRANSLATED:e1fbc6ae]
// No one is listening to this event, authentication is not enabled by default
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invoker("");
}
}
static void setWebRtcArgs(const WebRtcArgs &args, WebRtcInterface &rtc) {
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{
static auto is_vaild_ip = [](const std::string &ip) -> bool {
int a, b, c, d;
return sscanf(ip.c_str(), "%d.%d.%d.%d", &a, &b, &c, &d) == 4;
};
std::string host = args["Host"];
if (!host.empty()) {
auto local_ip = host.substr(0, host.find(':'));
if (!is_vaild_ip(local_ip) || local_ip == "127.0.0.1") {
local_ip = "";
}
rtc.setLocalIp(std::move(local_ip));
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}
}
bool preferred_tcp = args["preferred_tcp"];
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{
rtc.setPreferredTcp(preferred_tcp);
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}
{
vector<SdpAttrCandidate> cands;
{
auto cand_str = trim(args["cand_udp"]);
auto ip_port = toolkit::split(cand_str, ":");
if (ip_port.size() == 2) {
// udp优先 [AUTO-TRANSLATED:b428f63d]
// UDP priority
auto ice_cand = makeIceCandidate(ip_port[0], atoi(ip_port[1].data()), preferred_tcp ? 100 : 120, "udp");
cands.emplace_back(std::move(*ice_cand));
}
}
{
auto cand_str = trim(args["cand_tcp"]);
auto ip_port = toolkit::split(cand_str, ":");
if (ip_port.size() == 2) {
// tcp模式 [AUTO-TRANSLATED:62fddf91]
// TCP mode
auto ice_cand = makeIceCandidate(ip_port[0], atoi(ip_port[1].data()), preferred_tcp ? 120 : 100, "tcp");
cands.emplace_back(std::move(*ice_cand));
}
}
if (!cands.empty()) {
// udp优先 [AUTO-TRANSLATED:b428f63d]
// UDP priority
rtc.setIceCandidate(std::move(cands));
}
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}
}
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static onceToken s_rtc_auto_register([]() {
#if !defined (NDEBUG)
// debug模式才开启echo插件 [AUTO-TRANSLATED:48fcb116]
// Enable echo plugin only in debug mode
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WebRtcPluginManager::Instance().registerPlugin("echo", echo_plugin);
#endif
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WebRtcPluginManager::Instance().registerPlugin("push", push_plugin);
WebRtcPluginManager::Instance().registerPlugin("play", play_plugin);
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WebRtcPluginManager::Instance().setListener([](Session &sender, const std::string &type, const WebRtcArgs &args, const WebRtcInterface &rtc) {
setWebRtcArgs(args, const_cast<WebRtcInterface&>(rtc));
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});
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});
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}// namespace mediakit