Older/MediaServer/Rtp/RtpSession.cpp

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2024-09-28 23:55:00 +08:00
/*
* Copyright (c) 2016-present The ZLMediaKit project authors. All Rights Reserved.
*
* This file is part of ZLMediaKit(https://github.com/ZLMediaKit/ZLMediaKit).
*
* Use of this source code is governed by MIT-like 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.
*/
#if defined(ENABLE_RTPPROXY)
#include "RtpSession.h"
#include "RtpProcess.h"
#include "Network/TcpServer.h"
#include "Rtsp/Rtsp.h"
#include "Rtsp/RtpReceiver.h"
#include "Common/config.h"
using namespace std;
using namespace toolkit;
namespace mediakit{
const string RtpSession::kVhost = "vhost";
const string RtpSession::kApp = "app";
const string RtpSession::kStreamID = "stream_id";
const string RtpSession::kSSRC = "ssrc";
const string RtpSession::kOnlyTrack = "only_track";
const string RtpSession::kUdpRecvBuffer = "udp_recv_socket_buffer";
void RtpSession::attachServer(const Server &server) {
setParams(const_cast<Server &>(server));
}
void RtpSession::setParams(mINI &ini) {
_tuple.vhost = ini[kVhost];
_tuple.app = ini[kApp];
_tuple.stream = ini[kStreamID];
_ssrc = ini[kSSRC];
_only_track = ini[kOnlyTrack];
int udp_socket_buffer = ini[kUdpRecvBuffer];
if (_is_udp) {
// 设置udp socket读缓存 [AUTO-TRANSLATED:80cfb6e3]
// Set udp socket read buffer
SockUtil::setRecvBuf(getSock()->rawFD(),
(udp_socket_buffer > 0) ? udp_socket_buffer : (4 * 1024 * 1024));
}
}
RtpSession::RtpSession(const Socket::Ptr &sock)
: Session(sock) {
socklen_t addr_len = sizeof(_addr);
getpeername(sock->rawFD(), (struct sockaddr *)&_addr, &addr_len);
_is_udp = sock->sockType() == SockNum::Sock_UDP;
}
RtpSession::~RtpSession() = default;
void RtpSession::onRecv(const Buffer::Ptr &data) {
if (_is_udp) {
onRtpPacket(data->data(), data->size());
return;
}
RtpSplitter::input(data->data(), data->size());
}
void RtpSession::onError(const SockException &err) {
if (_emit_detach) {
_process->onDetach(err);
}
WarnP(this) << _tuple.shortUrl() << " " << err;
}
void RtpSession::onManager() {
if (!_process && _ticker.createdTime() > 10 * 1000) {
shutdown(SockException(Err_timeout, "illegal connection"));
}
}
void RtpSession::setRtpProcess(RtpProcess::Ptr process) {
_emit_detach = (bool)process;
_process = std::move(process);
}
void RtpSession::onRtpPacket(const char *data, size_t len) {
if (!isRtp(data, len)) {
// 忽略非rtp数据 [AUTO-TRANSLATED:771b77d8]
// Ignore non-rtp data
WarnP(this) << "Not rtp packet";
return;
}
if (!_is_udp) {
if (_search_rtp) {
// 搜索上下文期间,数据丢弃 [AUTO-TRANSLATED:e0a3b407]
// Data discarded during context search
if (_search_rtp_finished) {
// 下个包开始就是正确的rtp包了 [AUTO-TRANSLATED:a73a3a61]
// The next packet is the correct rtp packet
_search_rtp_finished = false;
_search_rtp = false;
}
return;
}
GET_CONFIG(uint32_t, rtpMaxSize, Rtp::kRtpMaxSize);
if (len > 1024 * rtpMaxSize) {
_search_rtp = true;
WarnL << "rtp包长度异常(" << len << ")发送端可能缓存溢出并覆盖开始搜索ssrc以便恢复上下文";
return;
}
}
// 未设置ssrc时尝试获取ssrc [AUTO-TRANSLATED:30f31a81]
// Try to get ssrc when ssrc is not set
if (!_ssrc && !getSSRC(data, len, _ssrc)) {
return;
}
// 未指定流id就使用ssrc为流id [AUTO-TRANSLATED:9eb98394]
// Use ssrc as stream id if stream id is not specified
if (_tuple.stream.empty()) {
_tuple.stream = printSSRC(_ssrc);
}
if (!_process) {
_process = RtpProcess::createProcess(_tuple);
_process->setOnlyTrack((RtpProcess::OnlyTrack)_only_track);
weak_ptr<RtpSession> weak_self = static_pointer_cast<RtpSession>(shared_from_this());
_process->setOnDetach([weak_self](const SockException &ex) {
if (auto strong_self = weak_self.lock()) {
strong_self->_process = nullptr;
strong_self->shutdown(ex);
}
});
}
try {
uint32_t rtp_ssrc = 0;
getSSRC(data, len, rtp_ssrc);
if (rtp_ssrc != _ssrc) {
WarnP(this) << "ssrc mismatched, rtp dropped: " << rtp_ssrc << " != " << _ssrc;
return;
}
_process->inputRtp(false, getSock(), data, len, (struct sockaddr *)&_addr);
} catch (RtpTrack::BadRtpException &ex) {
if (!_is_udp) {
WarnL << ex.what() << "开始搜索ssrc以便恢复上下文";
_search_rtp = true;
} else {
throw;
}
}
_ticker.resetTime();
}
static const char *findSSRC(const char *data, ssize_t len, uint32_t ssrc) {
// rtp前面必须预留两个字节的长度字段 [AUTO-TRANSLATED:2af4e647]
// Two bytes of length field must be reserved before rtp
for (ssize_t i = 2; i <= len - 4; ++i) {
auto ptr = (const uint8_t *)data + i;
if (ptr[0] == (ssrc >> 24) && ptr[1] == ((ssrc >> 16) & 0xFF) && ptr[2] == ((ssrc >> 8) & 0xFF)
&& ptr[3] == (ssrc & 0xFF)) {
return (const char *)ptr;
}
}
return nullptr;
}
static const char *findPsHeaderFlag(const char *data, ssize_t len) {
for (ssize_t i = 2; i <= len - 4; ++i) {
auto ptr = (const uint8_t *)data + i;
// PsHeader 0x000001ba、PsSystemHeader0x000001bb关键帧标识 [AUTO-TRANSLATED:f8146534]
// PsHeader 0x000001ba, PsSystemHeader 0x000001bb (keyframe identifier)
if (ptr[0] == (0x00) && ptr[1] == (0x00) && ptr[2] == (0x01) && ptr[3] == (0xbb)) {
return (const char *)ptr;
}
}
return nullptr;
}
// rtp长度到ssrc间的长度固定为10 [AUTO-TRANSLATED:7428bd59]
// The length between rtp length and ssrc is fixed to 10
static size_t constexpr kSSRCOffset = 2 + 4 + 4;
// rtp长度到ps header间的长度固定为14 暂时不采用找ps header,采用找system header代替 [AUTO-TRANSLATED:cf6b289c]
// The length between rtp length and ps header is fixed to 14 (temporarily not using ps header, using system header instead)
// rtp长度到ps system header间的长度固定为20 (关键帧标识) [AUTO-TRANSLATED:abe8bb8e]
// The length between rtp length and ps system header is fixed to 20 (keyframe identifier)
static size_t constexpr kPSHeaderOffset = 2 + 4 + 4 + 4 + 20;
const char *RtpSession::onSearchPacketTail(const char *data, size_t len) {
if (!_search_rtp) {
// tcp上下文正常不用搜索ssrc [AUTO-TRANSLATED:cab86669]
// Tcp context is normal, no need to search ssrc
return RtpSplitter::onSearchPacketTail(data, len);
}
if (!_process) {
InfoL << "ssrc未获取到无法通过ssrc恢复tcp上下文尝试搜索PsSystemHeader恢复tcp上下文。";
auto rtp_ptr1 = searchByPsHeaderFlag(data, len);
return rtp_ptr1;
}
auto rtp_ptr0 = searchBySSRC(data, len);
if (rtp_ptr0) {
return rtp_ptr0;
}
// ssrc搜索失败继续尝试搜索ps header flag [AUTO-TRANSLATED:e8f65bd2]
// Continue to search for ps header flag if ssrc search fails
auto rtp_ptr2 = searchByPsHeaderFlag(data, len);
return rtp_ptr2;
}
const char *RtpSession::searchBySSRC(const char *data, size_t len) {
InfoL << "尝试rtp搜索ssrc..._ssrc=" << _ssrc;
// 搜索第一个rtp的ssrc [AUTO-TRANSLATED:6b010df0]
// Search for the first rtp's ssrc
auto ssrc_ptr0 = findSSRC(data, len, _ssrc);
if (!ssrc_ptr0) {
// 未搜索到任意rtp返回数据不够 [AUTO-TRANSLATED:50db17ed]
// Return insufficient data if no rtp is found
InfoL << "rtp搜索ssrc失败第一个数据不够丢弃rtp数据为" << len;
return nullptr;
}
// 这两个字节是第一个rtp的长度字段 [AUTO-TRANSLATED:75816ba4]
// These two bytes are the length field of the first rtp
auto rtp_len_ptr = (ssrc_ptr0 - kSSRCOffset);
auto rtp_len = ((uint8_t *)rtp_len_ptr)[0] << 8 | ((uint8_t *)rtp_len_ptr)[1];
// 搜索第二个rtp的ssrc [AUTO-TRANSLATED:238eaa43]
// Search for the second rtp's ssrc
auto ssrc_ptr1 = findSSRC(ssrc_ptr0 + rtp_len, data + (ssize_t)len - ssrc_ptr0 - rtp_len, _ssrc);
if (!ssrc_ptr1) {
// 未搜索到第二个rtp返回数据不够 [AUTO-TRANSLATED:3a78a586]
// Return insufficient data if the second rtp is not found
InfoL << "rtp搜索ssrc失败(第二个数据不够)丢弃rtp数据为" << len;
return nullptr;
}
// 两个ssrc的间隔正好等于rtp的长度(外加rtp长度字段)那么说明找到rtp [AUTO-TRANSLATED:b1517bfd]
// The interval between the two ssrcs is exactly equal to the length of the rtp (plus the rtp length field), which means that the rtp is found
auto ssrc_offset = ssrc_ptr1 - ssrc_ptr0;
if (ssrc_offset == rtp_len + 2 || ssrc_offset == rtp_len + 4) {
InfoL << "rtp搜索ssrc成功tcp上下文恢复成功丢弃的rtp残余数据为" << rtp_len_ptr - data;
_search_rtp_finished = true;
if (rtp_len_ptr == data) {
// 停止搜索rtp否则会进入死循环 [AUTO-TRANSLATED:319eefa7]
// Stop searching for rtp, otherwise it will enter an infinite loop
_search_rtp = false;
}
// 前面的数据都需要丢弃这个是rtp的起始 [AUTO-TRANSLATED:129082d2]
// All previous data needs to be discarded, this is the start of rtp
return rtp_len_ptr;
}
// 第一个rtp长度不匹配说明第一个找到的ssrc不是rtp丢弃之我们从第二个ssrc所在rtp开始搜索 [AUTO-TRANSLATED:ec35b2ba]
// The length of the first rtp does not match, which means that the first ssrc found is not rtp, discard it, we start searching from the second ssrc rtp
return ssrc_ptr1 - kSSRCOffset;
}
const char *RtpSession::searchByPsHeaderFlag(const char *data, size_t len) {
InfoL << "尝试rtp搜索PsSystemHeaderFlag..._ssrc=" << _ssrc;
// 搜索rtp中的第一个PsHeaderFlag [AUTO-TRANSLATED:77a18970]
// Search for the first PsHeaderFlag in rtp
auto ps_header_flag_ptr = findPsHeaderFlag(data, len);
if (!ps_header_flag_ptr) {
InfoL << "rtp搜索flag失败丢弃rtp数据为" << len;
return nullptr;
}
auto rtp_ptr = ps_header_flag_ptr - kPSHeaderOffset;
_search_rtp_finished = true;
if (rtp_ptr == data) {
// 停止搜索rtp否则会进入死循环 [AUTO-TRANSLATED:319eefa7]
// Stop searching for rtp, otherwise it will enter an infinite loop
_search_rtp = false;
}
InfoL << "rtp搜索flag成功tcp上下文恢复成功丢弃的rtp残余数据为" << rtp_ptr - data;
// TODO or Not ? 更新设置ssrc [AUTO-TRANSLATED:9c21db0a]
// TODO or Not ? Update setting ssrc
uint32_t rtp_ssrc = 0;
getSSRC(rtp_ptr + 2, len, rtp_ssrc);
_ssrc = rtp_ssrc;
InfoL << "设置_ssrc为" << _ssrc;
// RtpServer::updateSSRC(uint32_t ssrc)
return rtp_ptr;
}
}//namespace mediakit
#endif//defined(ENABLE_RTPPROXY)