Skip to content

Z
ZLMediaKit
Commit c92fc8a4 by xiongguangjie
Options

format code and remove some useless code

parent 83d75c9a
正在显示 包含 337 行增加353 行删除
srt/Ack.cpp
......@@ -3,7 +3,7 @@
namespace SRT {
bool ACKPacket::loadFromData(uint8_t *buf, size_t len) {
if(len < ACK_CIF_SIZE + ControlPacket::HEADER_SIZE){
if (len < ACK_CIF_SIZE + ControlPacket::HEADER_SIZE) {
return false;
}
......@@ -11,7 +11,7 @@ bool ACKPacket::loadFromData(uint8_t *buf, size_t len) {
_data->assign((char *)(buf), len);
ControlPacket::loadHeader();
ack_number = loadUint32(type_specific_info);
uint8_t* ptr = (uint8_t*)_data->data()+ControlPacket::HEADER_SIZE;
uint8_t *ptr = (uint8_t *)_data->data() + ControlPacket::HEADER_SIZE;
last_ack_pkt_seq_number = loadUint32(ptr);
ptr += 4;
......@@ -43,41 +43,41 @@ bool ACKPacket::storeToData() {
control_type = ControlPacket::ACK;
sub_type = 0;
storeUint32(type_specific_info,ack_number);
storeUint32(type_specific_info, ack_number);
storeToHeader();
uint8_t* ptr = (uint8_t*)_data->data()+ControlPacket::HEADER_SIZE;
uint8_t *ptr = (uint8_t *)_data->data() + ControlPacket::HEADER_SIZE;
storeUint32(ptr,last_ack_pkt_seq_number);
storeUint32(ptr, last_ack_pkt_seq_number);
ptr += 4;
storeUint32(ptr,rtt);
storeUint32(ptr, rtt);
ptr += 4;
storeUint32(ptr,rtt_variance);
storeUint32(ptr, rtt_variance);
ptr += 4;
storeUint32(ptr,pkt_recv_rate);
storeUint32(ptr, pkt_recv_rate);
ptr += 4;
storeUint32(ptr,available_buf_size);
storeUint32(ptr, available_buf_size);
ptr += 4;
storeUint32(ptr,estimated_link_capacity);
storeUint32(ptr, estimated_link_capacity);
ptr += 4;
storeUint32(ptr,recv_rate);
storeUint32(ptr, recv_rate);
ptr += 4;
return true;
}
std::string ACKPacket::dump(){
std::string ACKPacket::dump() {
_StrPrinter printer;
printer << "last_ack_pkt_seq_number="<<last_ack_pkt_seq_number<<\
" rtt="<<rtt<<" rtt_variance="<<rtt_variance<<\
" pkt_recv_rate="<<pkt_recv_rate<<" available_buf_size="<<available_buf_size<<\
" estimated_link_capacity="<<estimated_link_capacity<<" recv_rate="<<recv_rate;
printer << "last_ack_pkt_seq_number=" << last_ack_pkt_seq_number << " rtt=" << rtt
<< " rtt_variance=" << rtt_variance << " pkt_recv_rate=" << pkt_recv_rate
<< " available_buf_size=" << available_buf_size << " estimated_link_capacity=" << estimated_link_capacity
<< " recv_rate=" << recv_rate;
return std::move(printer);
}
} // namespace
\ No newline at end of file
} // namespace SRT
\ No newline at end of file
srt/Ack.hpp
......@@ -2,8 +2,7 @@
#define ZLMEDIAKIT_SRT_ACK_H
#include "Packet.hpp"
namespace SRT{
namespace SRT {
/*
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
......@@ -33,16 +32,13 @@ namespace SRT{
Figure 13: ACK control packet
https://haivision.github.io/srt-rfc/draft-sharabayko-srt.html#name-ack-acknowledgment
*/
class ACKPacket : public ControlPacket
{
class ACKPacket : public ControlPacket {
public:
using Ptr = std::shared_ptr<ACKPacket>;
ACKPacket() = default;
~ACKPacket() = default;
enum{
ACK_CIF_SIZE = 7*4
};
enum { ACK_CIF_SIZE = 7 * 4 };
std::string dump();
///////ControlPacket override///////
bool loadFromData(uint8_t *buf, size_t len) override;
......@@ -59,15 +55,14 @@ public:
uint32_t recv_rate;
};
class ACKACKPacket : public ControlPacket{
class ACKACKPacket : public ControlPacket {
public:
using Ptr = std::shared_ptr<ACKACKPacket>;
ACKACKPacket() = default;
~ACKACKPacket() = default;
///////ControlPacket override///////
bool loadFromData(uint8_t *buf, size_t len) override{
if(len < ControlPacket::HEADER_SIZE){
bool loadFromData(uint8_t *buf, size_t len) override {
if (len < ControlPacket::HEADER_SIZE) {
return false;
}
_data = BufferRaw::create();
......@@ -76,21 +71,20 @@ public:
ack_number = loadUint32(type_specific_info);
return true;
}
bool storeToData() override{
bool storeToData() override {
_data = BufferRaw::create();
_data->setCapacity(HEADER_SIZE);
_data->setSize(HEADER_SIZE );
_data->setSize(HEADER_SIZE);
control_type = ControlPacket::ACKACK;
sub_type = 0;
storeUint32(type_specific_info,ack_number);
storeUint32(type_specific_info, ack_number);
storeToHeader();
return true;
}
uint32_t ack_number;
};
} //namespace SRT
} // namespace SRT
#endif // ZLMEDIAKIT_SRT_ACK_H
\ No newline at end of file
srt/Common.hpp
#ifndef ZLMEDIAKIT_SRT_COMMON_H
#define ZLMEDIAKIT_SRT_COMMON_H
#if defined(_WIN32)
#include <Iphlpapi.h>
#include <winsock2.h>
#include <ws2tcpip.h>
#pragma comment(lib, "Ws2_32.lib")
#pragma comment(lib, "Iphlpapi.lib")
#else
#include <netdb.h>
#include <sys/socket.h>
#endif // defined(_WIN32)
#include <chrono>
namespace SRT
{
namespace SRT {
using SteadyClock = std::chrono::steady_clock;
using TimePoint = std::chrono::time_point<SteadyClock>;
using Microseconds = std::chrono::microseconds;
using Milliseconds = std::chrono::milliseconds;
inline int64_t DurationCountMicroseconds( SteadyClock::duration dur){
inline int64_t DurationCountMicroseconds(SteadyClock::duration dur) {
return std::chrono::duration_cast<std::chrono::microseconds>(dur).count();
}
......@@ -37,48 +47,38 @@ inline void storeUint32LE(uint8_t *buf, uint32_t val) {
buf[0] = val & 0xff;
buf[1] = (val >> 8) & 0xff;
buf[2] = (val >> 16) & 0xff;
buf[3] = (val >>24) & 0xff;
buf[3] = (val >> 24) & 0xff;
}
inline void storeUint16LE(uint8_t *buf, uint16_t val) {
buf[0] = val & 0xff;
buf[1] = (val>>8) & 0xff;
buf[1] = (val >> 8) & 0xff;
}
inline uint32_t srtVersion(int major, int minor, int patch)
{
return patch + minor*0x100 + major*0x10000;
inline uint32_t srtVersion(int major, int minor, int patch) {
return patch + minor * 0x100 + major * 0x10000;
}
class UTicker {
public:
UTicker() {
_created = _begin = SteadyClock::now();
}
UTicker() { _created = _begin = SteadyClock::now(); }
~UTicker() {
}
~UTicker() {}
/**
* 获取创建时间,单位微妙
*/
int64_t elapsedTime(TimePoint now) const {
return DurationCountMicroseconds(now - _begin);
}
int64_t elapsedTime(TimePoint now) const { return DurationCountMicroseconds(now - _begin); }
/**
* 获取上次resetTime后至今的时间,单位毫秒
*/
int64_t createdTime(TimePoint now) const {
return DurationCountMicroseconds(now - _created);
}
int64_t createdTime(TimePoint now) const { return DurationCountMicroseconds(now - _created); }
/**
* 重置计时器
*/
void resetTime(TimePoint now) {
_begin = now;
}
void resetTime(TimePoint now) { _begin = now; }
private:
TimePoint _begin;
......@@ -87,4 +87,4 @@ private:
} // namespace SRT
#endif //ZLMEDIAKIT_SRT_COMMON_H
\ No newline at end of file
#endif // ZLMEDIAKIT_SRT_COMMON_H
\ No newline at end of file
srt/HSExt.cpp
......@@ -2,18 +2,18 @@
namespace SRT {
bool HSExtMessage::loadFromData(uint8_t *buf, size_t len) {
if(buf == NULL || len != HSEXT_MSG_SIZE){
if (buf == NULL || len != HSEXT_MSG_SIZE) {
return false;
}
_data = BufferRaw::create();
_data->assign((char*)buf,len);
_data->assign((char *)buf, len);
extension_length = 3;
HSExt::loadHeader();
assert(extension_type == SRT_CMD_HSREQ || extension_type == SRT_CMD_HSRSP);
uint8_t* ptr = (uint8_t*)_data->data()+4;
uint8_t *ptr = (uint8_t *)_data->data() + 4;
srt_version = loadUint32(ptr);
ptr += 4;
......@@ -27,105 +27,103 @@ bool HSExtMessage::loadFromData(uint8_t *buf, size_t len) {
ptr += 2;
return true;
}
std::string HSExtMessage::dump(){
}
std::string HSExtMessage::dump() {
_StrPrinter printer;
printer << "srt version : "<<std::hex<<srt_version<<" srt flag : "<<std::hex<<srt_flag<<\
" recv_tsbpd_delay="<<recv_tsbpd_delay<<" send_tsbpd_delay = "<<send_tsbpd_delay;
printer << "srt version : " << std::hex << srt_version << " srt flag : " << std::hex << srt_flag
<< " recv_tsbpd_delay=" << recv_tsbpd_delay << " send_tsbpd_delay = " << send_tsbpd_delay;
return std::move(printer);
}
}
bool HSExtMessage::storeToData() {
_data = BufferRaw::create();
_data->setCapacity(HSEXT_MSG_SIZE);
_data->setSize(HSEXT_MSG_SIZE);
extension_length = 3;
HSExt::storeHeader();
uint8_t* ptr = (uint8_t*)_data->data()+4;
uint8_t *ptr = (uint8_t *)_data->data() + 4;
storeUint32(ptr,srt_version);
storeUint32(ptr, srt_version);
ptr += 4;
storeUint32(ptr,srt_flag);
storeUint32(ptr, srt_flag);
ptr += 4;
storeUint16(ptr,recv_tsbpd_delay);
storeUint16(ptr, recv_tsbpd_delay);
ptr += 2;
storeUint16(ptr,send_tsbpd_delay);
storeUint16(ptr, send_tsbpd_delay);
ptr += 2;
return true;
}
bool HSExtStreamID::loadFromData(uint8_t *buf, size_t len) {
if(buf == NULL || len < 4){
if (buf == NULL || len < 4) {
return false;
}
_data = BufferRaw::create();
_data->assign((char*)buf,len);
_data->assign((char *)buf, len);
HSExt::loadHeader();
size_t content_size = extension_length*4;
if(len < content_size+4){
size_t content_size = extension_length * 4;
if (len < content_size + 4) {
return false;
}
streamid.clear();
char* ptr = _data->data()+4;
char *ptr = _data->data() + 4;
for(size_t i = 0; i<extension_length; ++i){
streamid.push_back(*(ptr+3));
streamid.push_back(*(ptr+2));
streamid.push_back(*(ptr+1));
for (size_t i = 0; i < extension_length; ++i) {
streamid.push_back(*(ptr + 3));
streamid.push_back(*(ptr + 2));
streamid.push_back(*(ptr + 1));
streamid.push_back(*(ptr));
ptr+=4;
ptr += 4;
}
char zero = 0x00;
if(streamid.back() == zero){
streamid.erase(streamid.find_first_of(zero),streamid.size());
if (streamid.back() == zero) {
streamid.erase(streamid.find_first_of(zero), streamid.size());
}
return true;
}
}
bool HSExtStreamID::storeToData() {
size_t content_size = ((streamid.length()+4)+3)/4*4;
size_t content_size = ((streamid.length() + 4) + 3) / 4 * 4;
_data = BufferRaw::create();
_data->setCapacity(content_size);
_data->setSize(content_size);
extension_length = (content_size-4)/4;
extension_length = (content_size - 4) / 4;
extension_type = SRT_CMD_SID;
HSExt::storeHeader();
auto ptr = _data->data()+4;
memset(ptr,0,extension_length*4);
const char* src = streamid.c_str();
for(size_t i = 0; i< streamid.length()/4;++i){
*ptr = *(src+3+i*4);
auto ptr = _data->data() + 4;
memset(ptr, 0, extension_length * 4);
const char *src = streamid.c_str();
for (size_t i = 0; i < streamid.length() / 4; ++i) {
*ptr = *(src + 3 + i * 4);
ptr++;
*ptr = *(src+2+i*4);
*ptr = *(src + 2 + i * 4);
ptr++;
*ptr = *(src+1+i*4);
*ptr = *(src + 1 + i * 4);
ptr++;
*ptr = *(src+0+i*4);
*ptr = *(src + 0 + i * 4);
ptr++;
}
ptr += 3;
size_t offset = streamid.length()/4*4;
for(size_t i = 0; i<streamid.length()%4;++i){
*ptr = *(src+offset+i);
size_t offset = streamid.length() / 4 * 4;
for (size_t i = 0; i < streamid.length() % 4; ++i) {
*ptr = *(src + offset + i);
ptr -= 1;
}
return true;
}
std::string HSExtStreamID::dump(){
std::string HSExtStreamID::dump() {
_StrPrinter printer;
printer << " streamid : "<< streamid;
printer << " streamid : " << streamid;
return std::move(printer);
}
}
} // namespace SRT
\ No newline at end of file
srt/Packet.hpp
......@@ -62,8 +62,6 @@ public:
uint32_t timestamp;
uint32_t dst_socket_id;
TimePoint get_ts; // recv or send time
private:
BufferRaw::Ptr _data;
};
......@@ -182,17 +180,16 @@ public:
enum { HS_EXT_FILED_HSREQ = 0x00000001, HS_EXT_FILED_KMREQ = 0x00000002, HS_EXT_FILED_CONFIG = 0x00000004 };
HandshakePacket() = default;
~HandshakePacket() = default;
static bool isHandshakePacket(uint8_t *buf, size_t len);
static uint32_t getHandshakeType(uint8_t *buf, size_t len);
static uint32_t getSynCookie(uint8_t *buf, size_t len);
static uint32_t generateSynCookie(struct sockaddr_storage* addr,TimePoint ts,uint32_t current_cookie = 0, int correction = 0);
static uint32_t
generateSynCookie(struct sockaddr_storage *addr, TimePoint ts, uint32_t current_cookie = 0, int correction = 0);
void assignPeerIP(struct sockaddr_storage* addr);
void assignPeerIP(struct sockaddr_storage *addr);
///////ControlPacket override///////
bool loadFromData(uint8_t *buf, size_t len) override;
bool storeToData() override;
......@@ -209,8 +206,9 @@ public:
uint8_t peer_ip_addr[16];
std::vector<HSExt::Ptr> ext_list;
private:
bool loadExtMessage(uint8_t *buf,size_t len);
bool loadExtMessage(uint8_t *buf, size_t len);
bool storeExtMessage();
size_t getExtSize();
};
......@@ -229,8 +227,7 @@ private:
Figure 12: Keep-Alive control packet
https://haivision.github.io/srt-rfc/draft-sharabayko-srt.html#name-keep-alive
*/
class KeepLivePacket : public ControlPacket
{
class KeepLivePacket : public ControlPacket {
public:
using Ptr = std::shared_ptr<KeepLivePacket>;
KeepLivePacket() = default;
......@@ -265,11 +262,10 @@ An SRT NAK packet is formatted as follows:
Figure 14: NAK control packet
https://haivision.github.io/srt-rfc/draft-sharabayko-srt.html#name-nak-control-packet
*/
class NAKPacket : public ControlPacket
{
class NAKPacket : public ControlPacket {
public:
using Ptr = std::shared_ptr<NAKPacket>;
using LostPair = std::pair<uint32_t,uint32_t>;
using LostPair = std::pair<uint32_t, uint32_t>;
NAKPacket() = default;
~NAKPacket() = default;
std::string dump();
......@@ -278,11 +274,11 @@ public:
bool storeToData() override;
std::list<LostPair> lost_list;
private:
size_t getCIFSize();
};
/*
0 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
......@@ -302,9 +298,8 @@ private:
Figure 18: Drop Request control packet
https://haivision.github.io/srt-rfc/draft-sharabayko-srt.html#name-message-drop-request
*/
class MsgDropReqPacket : public ControlPacket
{
public:
class MsgDropReqPacket : public ControlPacket {
public:
using Ptr = std::shared_ptr<MsgDropReqPacket>;
MsgDropReqPacket() = default;
~MsgDropReqPacket() = default;
......@@ -332,8 +327,7 @@ class MsgDropReqPacket : public ControlPacket
https://haivision.github.io/srt-rfc/draft-sharabayko-srt.html#name-shutdown
*/
class ShutDownPacket : public ControlPacket
{
class ShutDownPacket : public ControlPacket {
public:
using Ptr = std::shared_ptr<ShutDownPacket>;
ShutDownPacket() = default;
......@@ -360,4 +354,4 @@ public:
};
} // namespace SRT
#endif //ZLMEDIAKIT_SRT_PACKET_H
\ No newline at end of file
#endif // ZLMEDIAKIT_SRT_PACKET_H
\ No newline at end of file
srt/PacketQueue.cpp
......@@ -4,69 +4,71 @@ namespace SRT {
#define MAX_SEQ 0x7fffffff
#define MAX_TS 0xffffffff
inline uint32_t genExpectedSeq(uint32_t seq){
inline uint32_t genExpectedSeq(uint32_t seq) {
return MAX_SEQ & seq;
}
inline bool isSeqEdge(uint32_t seq,uint32_t cap){
if(seq >(MAX_SEQ - cap)){
inline bool isSeqEdge(uint32_t seq, uint32_t cap) {
if (seq > (MAX_SEQ - cap)) {
return true;
}
return false;
}
inline bool isTSCycle(uint32_t first,uint32_t second){
inline bool isTSCycle(uint32_t first, uint32_t second) {
uint32_t diff;
if(first>second){
if (first > second) {
diff = first - second;
}else{
} else {
diff = second - first;
}
if(diff > (MAX_TS>>1)){
if (diff > (MAX_TS >> 1)) {
return true;
}else{
} else {
return false;
}
}
PacketQueue::PacketQueue(uint32_t max_size, uint32_t init_seq, uint32_t lantency)
: _pkt_expected_seq(init_seq)
, _pkt_cap(max_size)
, _pkt_lantency(lantency) {
}
void PacketQueue::tryInsertPkt(DataPacket::Ptr pkt){
, _pkt_lantency(lantency) {}
void PacketQueue::tryInsertPkt(DataPacket::Ptr pkt) {
if (_pkt_expected_seq <= pkt->packet_seq_number) {
auto diff = pkt->packet_seq_number - _pkt_expected_seq;
if(diff >= (MAX_SEQ>>1)){
TraceL << "drop packet too later for cycle "<< "expected seq=" << _pkt_expected_seq << " pkt seq=" << pkt->packet_seq_number;
if (diff >= (MAX_SEQ >> 1)) {
TraceL << "drop packet too later for cycle "
<< "expected seq=" << _pkt_expected_seq << " pkt seq=" << pkt->packet_seq_number;
return;
}else{
} else {
_pkt_map.emplace(pkt->packet_seq_number, pkt);
}
} else {
auto diff = _pkt_expected_seq - pkt->packet_seq_number;
if(diff >= (MAX_SEQ>>1)){
if (diff >= (MAX_SEQ >> 1)) {
_pkt_map.emplace(pkt->packet_seq_number, pkt);
TraceL<<" cycle packet "<<"expected seq=" << _pkt_expected_seq << " pkt seq=" << pkt->packet_seq_number;
}else{
//TraceL << "drop packet too later "<< "expected seq=" << _pkt_expected_seq << " pkt seq=" << pkt->packet_seq_number;
TraceL << " cycle packet "
<< "expected seq=" << _pkt_expected_seq << " pkt seq=" << pkt->packet_seq_number;
} else {
// TraceL << "drop packet too later "<< "expected seq=" << _pkt_expected_seq << " pkt seq=" <<
// pkt->packet_seq_number;
}
}
}
bool PacketQueue::inputPacket(DataPacket::Ptr pkt,std::list<DataPacket::Ptr>& out) {
bool PacketQueue::inputPacket(DataPacket::Ptr pkt, std::list<DataPacket::Ptr> &out) {
tryInsertPkt(pkt);
auto it = _pkt_map.find(_pkt_expected_seq);
while ( it != _pkt_map.end()) {
while (it != _pkt_map.end()) {
out.push_back(it->second);
_pkt_map.erase(it);
_pkt_expected_seq = genExpectedSeq(_pkt_expected_seq+1);
_pkt_expected_seq = genExpectedSeq(_pkt_expected_seq + 1);
it = _pkt_map.find(_pkt_expected_seq);
}
while (_pkt_map.size() > _pkt_cap) {
// 防止回环
it = _pkt_map.find(_pkt_expected_seq);
if(it != _pkt_map.end()){
if (it != _pkt_map.end()) {
out.push_back(it->second);
_pkt_map.erase(it);
}
......@@ -75,7 +77,7 @@ bool PacketQueue::inputPacket(DataPacket::Ptr pkt,std::list<DataPacket::Ptr>& ou
while (timeLantency() > _pkt_lantency) {
it = _pkt_map.find(_pkt_expected_seq);
if(it != _pkt_map.end()){
if (it != _pkt_map.end()) {
out.push_back(it->second);
_pkt_map.erase(it);
}
......@@ -85,16 +87,16 @@ bool PacketQueue::inputPacket(DataPacket::Ptr pkt,std::list<DataPacket::Ptr>& ou
return true;
}
bool PacketQueue::drop(uint32_t first, uint32_t last,std::list<DataPacket::Ptr>& out){
uint32_t end = genExpectedSeq(last+1);
bool PacketQueue::drop(uint32_t first, uint32_t last, std::list<DataPacket::Ptr> &out) {
uint32_t end = genExpectedSeq(last + 1);
decltype(_pkt_map.end()) it;
for(uint32_t i =_pkt_expected_seq;i< end;){
for (uint32_t i = _pkt_expected_seq; i < end;) {
it = _pkt_map.find(i);
if(it != _pkt_map.end()){
if (it != _pkt_map.end()) {
out.push_back(it->second);
_pkt_map.erase(it);
}
i = genExpectedSeq(i+1);
i = genExpectedSeq(i + 1);
}
_pkt_expected_seq = end;
return true;
......@@ -108,15 +110,15 @@ uint32_t PacketQueue::timeLantency() {
auto first = _pkt_map.begin()->second->timestamp;
auto last = _pkt_map.rbegin()->second->timestamp;
uint32_t dur;
if(last>first){
if (last > first) {
dur = last - first;
}else{
} else {
dur = first - last;
}
if(dur > 0x80000000){
if (dur > 0x80000000) {
dur = MAX_TS - dur;
WarnL<<"cycle dur "<<dur;
WarnL << "cycle dur " << dur;
}
return dur;
......@@ -124,16 +126,16 @@ uint32_t PacketQueue::timeLantency() {
std::list<PacketQueue::LostPair> PacketQueue::getLostSeq() {
std::list<PacketQueue::LostPair> re;
if(_pkt_map.empty()){
if (_pkt_map.empty()) {
return re;
}
if(getExpectedSize() == getSize()){
if (getExpectedSize() == getSize()) {
return re;
}
uint32_t end = 0;
uint32_t first,last;
uint32_t first, last;
first = _pkt_map.begin()->second->packet_seq_number;
last = _pkt_map.rbegin()->second->packet_seq_number;
......@@ -149,70 +151,73 @@ std::list<PacketQueue::LostPair> PacketQueue::getLostSeq() {
uint32_t i = _pkt_expected_seq;
bool finish = true;
for(i = _pkt_expected_seq;i<=end;){
if(_pkt_map.find(i) == _pkt_map.end()){
if(finish){
for (i = _pkt_expected_seq; i <= end;) {
if (_pkt_map.find(i) == _pkt_map.end()) {
if (finish) {
finish = false;
lost.first = i;
lost.second = i+1;
}else{
lost.second = i+1;
lost.second = i + 1;
} else {
lost.second = i + 1;
}
}else{
if(!finish){
} else {
if (!finish) {
finish = true;
re.push_back(lost);
}
}
i = genExpectedSeq(i+1);
i = genExpectedSeq(i + 1);
}
return re;
}
size_t PacketQueue::getSize(){
size_t PacketQueue::getSize() {
return _pkt_map.size();
}
size_t PacketQueue::getExpectedSize() {
if(_pkt_map.empty()){
if (_pkt_map.empty()) {
return 0;
}
uint32_t max = _pkt_map.rbegin()->first;
uint32_t min = _pkt_map.begin()->first;
if((max-min)>=(MAX_SEQ>>1)){
TraceL<<"cycle "<<"expected seq "<<_pkt_expected_seq<<" min "<<min<<" max "<<max<<" size "<<_pkt_map.size();
return MAX_SEQ-_pkt_expected_seq+min+1;
}else{
return max-_pkt_expected_seq+1;
if ((max - min) >= (MAX_SEQ >> 1)) {
TraceL << "cycle "
<< "expected seq " << _pkt_expected_seq << " min " << min << " max " << max << " size "
<< _pkt_map.size();
return MAX_SEQ - _pkt_expected_seq + min + 1;
} else {
return max - _pkt_expected_seq + 1;
}
}
size_t PacketQueue::getAvailableBufferSize(){
size_t PacketQueue::getAvailableBufferSize() {
auto size = getExpectedSize();
if(_pkt_cap > size){
if (_pkt_cap > size) {
return _pkt_cap - size;
}
if(_pkt_cap > _pkt_map.size()){
if (_pkt_cap > _pkt_map.size()) {
return _pkt_cap - _pkt_map.size();
}
WarnL<<" cap "<<_pkt_cap<<" expected size "<<size<<" map size "<<_pkt_map.size();
WarnL << " cap " << _pkt_cap << " expected size " << size << " map size " << _pkt_map.size();
return _pkt_cap;
}
uint32_t PacketQueue::getExpectedSeq(){
uint32_t PacketQueue::getExpectedSeq() {
return _pkt_expected_seq;
}
std::string PacketQueue::dump(){
std::string PacketQueue::dump() {
_StrPrinter printer;
if(_pkt_map.empty()){
printer<<" expected seq :"<<_pkt_expected_seq;
}else{
printer<<" expected seq :"<<_pkt_expected_seq<<" size:"<<_pkt_map.size()<<" first:"<<_pkt_map.begin()->second->packet_seq_number;
printer<<" last:"<<_pkt_map.rbegin()->second->packet_seq_number;
printer<<" latency:"<<timeLantency()/1e3;
if (_pkt_map.empty()) {
printer << " expected seq :" << _pkt_expected_seq;
} else {
printer << " expected seq :" << _pkt_expected_seq << " size:" << _pkt_map.size()
<< " first:" << _pkt_map.begin()->second->packet_seq_number;
printer << " last:" << _pkt_map.rbegin()->second->packet_seq_number;
printer << " latency:" << timeLantency() / 1e3;
}
return std::move(printer);
}
......
srt/PacketQueue.hpp
......@@ -3,8 +3,8 @@
#include "Packet.hpp"
#include <algorithm>
#include <list>
#include <memory>
#include <map>
#include <memory>
#include <tuple>
#include <utility>
......@@ -18,7 +18,7 @@ public:
PacketQueue(uint32_t max_size, uint32_t init_seq, uint32_t lantency);
~PacketQueue() = default;
bool inputPacket(DataPacket::Ptr pkt,std::list<DataPacket::Ptr>& out);
bool inputPacket(DataPacket::Ptr pkt, std::list<DataPacket::Ptr> &out);
uint32_t timeLantency();
std::list<LostPair> getLostSeq();
......@@ -28,13 +28,14 @@ public:
size_t getAvailableBufferSize();
uint32_t getExpectedSeq();
bool drop(uint32_t first, uint32_t last,std::list<DataPacket::Ptr>& out);
bool drop(uint32_t first, uint32_t last, std::list<DataPacket::Ptr> &out);
std::string dump();
private:
void tryInsertPkt(DataPacket::Ptr pkt);
private:
private:
std::map<uint32_t, DataPacket::Ptr> _pkt_map;
uint32_t _pkt_expected_seq = 0;
......
srt/PacketSendQueue.cpp
......@@ -66,7 +66,7 @@ uint32_t PacketSendQueue::timeLantency() {
} else {
dur = first - last;
}
if (dur > (0x01 << 31)) {
if (dur > ((uint32_t)0x01 << 31)) {
TraceL << "cycle timeLantency " << dur;
dur = 0xffffffff - dur;
}
......
srt/PacketSendQueue.hpp
......@@ -16,9 +16,11 @@ public:
~PacketSendQueue() = default;
bool drop(uint32_t num);
bool inputPacket(DataPacket::Ptr pkt);
std::list<DataPacket::Ptr> findPacketBySeq(uint32_t start,uint32_t end);
std::list<DataPacket::Ptr> findPacketBySeq(uint32_t start, uint32_t end);
private:
uint32_t timeLantency();
private:
std::list<DataPacket::Ptr> _pkt_cache;
uint32_t _pkt_cap;
......
srt/SrtSession.cpp
......@@ -10,10 +10,10 @@ using namespace mediakit;
SrtSession::SrtSession(const Socket::Ptr &sock)
: UdpSession(sock) {
socklen_t addr_len = sizeof(_peer_addr);
memset(&_peer_addr,0,addr_len);
//TraceL<<"before addr len "<<addr_len;
memset(&_peer_addr, 0, addr_len);
// TraceL<<"before addr len "<<addr_len;
getpeername(sock->rawFD(), (struct sockaddr *)&_peer_addr, &addr_len);
//TraceL<<"after addr len "<<addr_len<<" family "<<_peer_addr.ss_family;
// TraceL<<"after addr len "<<addr_len<<" family "<<_peer_addr.ss_family;
}
SrtSession::~SrtSession() {
......@@ -21,40 +21,40 @@ SrtSession::~SrtSession() {
}
EventPoller::Ptr SrtSession::queryPoller(const Buffer::Ptr &buffer) {
uint8_t* data = (uint8_t*)buffer->data();
uint8_t *data = (uint8_t *)buffer->data();
size_t size = buffer->size();
if(DataPacket::isDataPacket(data,size)){
uint32_t socket_id = DataPacket::getSocketID(data,size);
if (DataPacket::isDataPacket(data, size)) {
uint32_t socket_id = DataPacket::getSocketID(data, size);
auto trans = SrtTransportManager::Instance().getItem(std::to_string(socket_id));
return trans ? trans->getPoller() : nullptr;
}
if(HandshakePacket::isHandshakePacket(data,size)){
auto type = HandshakePacket::getHandshakeType(data,size);
if(type == HandshakePacket::HS_TYPE_INDUCTION){
if (HandshakePacket::isHandshakePacket(data, size)) {
auto type = HandshakePacket::getHandshakeType(data, size);
if (type == HandshakePacket::HS_TYPE_INDUCTION) {
// 握手第一阶段
return nullptr;
}else if(type == HandshakePacket::HS_TYPE_CONCLUSION){
} else if (type == HandshakePacket::HS_TYPE_CONCLUSION) {
// 握手第二阶段
uint32_t sync_cookie = HandshakePacket::getSynCookie(data,size);
uint32_t sync_cookie = HandshakePacket::getSynCookie(data, size);
auto trans = SrtTransportManager::Instance().getHandshakeItem(std::to_string(sync_cookie));
return trans ? trans->getPoller() : nullptr;
}else{
WarnL<<" not reach there";
} else {
WarnL << " not reach there";
}
}else{
uint32_t socket_id = ControlPacket::getSocketID(data,size);
} else {
uint32_t socket_id = ControlPacket::getSocketID(data, size);
auto trans = SrtTransportManager::Instance().getItem(std::to_string(socket_id));
return trans ? trans->getPoller() : nullptr;
}
return nullptr;
}
void SrtSession::attachServer(const toolkit::Server &server){
SockUtil::setRecvBuf(getSock()->rawFD(),1024 * 1024);
void SrtSession::attachServer(const toolkit::Server &server) {
SockUtil::setRecvBuf(getSock()->rawFD(), 1024 * 1024);
}
void SrtSession::onRecv(const Buffer::Ptr &buffer) {
uint8_t* data = (uint8_t*)buffer->data();
uint8_t *data = (uint8_t *)buffer->data();
size_t size = buffer->size();
if (_find_transport) {
......@@ -64,10 +64,10 @@ void SrtSession::onRecv(const Buffer::Ptr &buffer) {
if (DataPacket::isDataPacket(data, size)) {
uint32_t socket_id = DataPacket::getSocketID(data, size);
auto trans = SrtTransportManager::Instance().getItem(std::to_string(socket_id));
if(trans){
if (trans) {
_transport = std::move(trans);
}else{
WarnL<<" data packet not find transport ";
} else {
WarnL << " data packet not find transport ";
}
}
......@@ -92,24 +92,24 @@ void SrtSession::onRecv(const Buffer::Ptr &buffer) {
} else {
uint32_t socket_id = ControlPacket::getSocketID(data, size);
auto trans = SrtTransportManager::Instance().getItem(std::to_string(socket_id));
if(trans){
if (trans) {
_transport = std::move(trans);
}else{
} else {
WarnL << " not find transport";
}
}
if(_transport){
if (_transport) {
_transport->setSession(shared_from_this());
}
InfoP(this);
}
_ticker.resetTime();
if(_transport){
_transport->inputSockData(data,size,&_peer_addr);
}else{
//WarnL<< "ingore data";
if (_transport) {
_transport->inputSockData(data, size, &_peer_addr);
} else {
// WarnL<< "ingore data";
}
}
......@@ -125,15 +125,17 @@ void SrtSession::onError(const SockException &err) {
// 防止互相引用导致不释放
auto transport = std::move(_transport);
getPoller()->async([transport,err] {
getPoller()->async(
[transport, err] {
//延时减引用,防止使用transport对象时,销毁对象
transport->onShutdown(err);
}, false);
},
false);
}
void SrtSession::onManager() {
GET_CONFIG(float, timeoutSec, kTimeOutSec);
if (_ticker.elapsedTime() > timeoutSec*1000) {
if (_ticker.elapsedTime() > timeoutSec * 1000) {
shutdown(SockException(Err_timeout, "srt connection timeout"));
return;
}
......
srt/SrtSession.hpp
......@@ -24,8 +24,7 @@ private:
Ticker _ticker;
struct sockaddr_storage _peer_addr;
SrtTransport::Ptr _transport;
};
} // namespace SRT
#endif //ZLMEDIAKIT_SRT_SESSION_H
\ No newline at end of file
#endif // ZLMEDIAKIT_SRT_SESSION_H
\ No newline at end of file
srt/SrtTransport.hpp
#ifndef ZLMEDIAKIT_SRT_TRANSPORT_H
#define ZLMEDIAKIT_SRT_TRANSPORT_H
#include <mutex>
#include <atomic>
#include <chrono>
#include <memory>
#include <atomic>
#include <mutex>
#include "Network/Session.h"
#include "Poller/EventPoller.h"
......@@ -46,23 +46,22 @@ public:
void unregisterSelfHandshake();
void unregisterSelf();
protected:
virtual void onHandShakeFinished(std::string& streamid,struct sockaddr_storage *addr){};
virtual void onSRTData(DataPacket::Ptr pkt){};
virtual void onHandShakeFinished(std::string &streamid, struct sockaddr_storage *addr) {};
virtual void onSRTData(DataPacket::Ptr pkt) {};
virtual void onShutdown(const SockException &ex);
virtual bool isPusher(){
return true;
};
virtual bool isPusher() { return true; };
private:
void registerSelfHandshake();
void registerSelf();
void switchToOtherTransport(uint8_t *buf, int len,uint32_t socketid, struct sockaddr_storage *addr);
void switchToOtherTransport(uint8_t *buf, int len, uint32_t socketid, struct sockaddr_storage *addr);
void handleHandshake(uint8_t *buf, int len, struct sockaddr_storage *addr);
void handleHandshakeInduction(HandshakePacket& pkt,struct sockaddr_storage *addr);
void handleHandshakeConclusion(HandshakePacket& pkt,struct sockaddr_storage *addr);
void handleHandshakeInduction(HandshakePacket &pkt, struct sockaddr_storage *addr);
void handleHandshakeConclusion(HandshakePacket &pkt, struct sockaddr_storage *addr);
void handleKeeplive(uint8_t *buf, int len, struct sockaddr_storage *addr);
void handleACK(uint8_t *buf, int len, struct sockaddr_storage *addr);
......@@ -75,26 +74,26 @@ private:
void handlePeerError(uint8_t *buf, int len, struct sockaddr_storage *addr);
void handleDataPacket(uint8_t *buf, int len, struct sockaddr_storage *addr);
void sendNAKPacket(std::list<PacketQueue::LostPair>& lost_list);
void sendNAKPacket(std::list<PacketQueue::LostPair> &lost_list);
void sendACKPacket();
void sendLightACKPacket();
void sendKeepLivePacket();
void sendShutDown();
void sendMsgDropReq(uint32_t first ,uint32_t last);
void sendMsgDropReq(uint32_t first, uint32_t last);
size_t getPayloadSize();
protected:
void sendDataPacket(DataPacket::Ptr pkt,char* buf,int len,bool flush = false);
void sendControlPacket(ControlPacket::Ptr pkt,bool flush = true);
virtual void sendPacket(Buffer::Ptr pkt,bool flush = true);
virtual int getLantencyMul(){
return 4;
};
void sendDataPacket(DataPacket::Ptr pkt, char *buf, int len, bool flush = false);
void sendControlPacket(ControlPacket::Ptr pkt, bool flush = true);
virtual void sendPacket(Buffer::Ptr pkt, bool flush = true);
virtual int getLantencyMul() { return 4; };
private:
//当前选中的udp链接
Session::Ptr _selected_session;
//链接迁移前后使用过的udp链接
std::unordered_map<Session *, std::weak_ptr<Session> > _history_sessions;
std::unordered_map<Session *, std::weak_ptr<Session>> _history_sessions;
EventPoller::Ptr _poller;
......@@ -119,13 +118,13 @@ private:
PacketSendQueue::Ptr _send_buf;
uint32_t _buf_delay = 120;
PacketQueue::Ptr _recv_buf;
uint32_t _rtt = 100*1000;
uint32_t _rtt_variance =50*1000;
uint32_t _rtt = 100 * 1000;
uint32_t _rtt_variance = 50 * 1000;
uint32_t _light_ack_pkt_count = 0;
uint32_t _ack_number_count = 0;
uint32_t _last_ack_pkt_seq_num = 0;
UTicker _ack_ticker;
std::map<uint32_t,TimePoint> _ack_send_timestamp;
std::map<uint32_t, TimePoint> _ack_send_timestamp;
std::shared_ptr<PacketRecvRateContext> _pkt_recv_rate_context;
std::shared_ptr<EstimatedLinkCapacityContext> _estimated_link_capacity_context;
......@@ -137,7 +136,6 @@ private:
HandshakePacket::Ptr _handleshake_res;
ResourcePool<BufferRaw> _packet_pool;
};
class SrtTransportManager {
......@@ -150,6 +148,7 @@ public:
void addHandshakeItem(const std::string &key, const SrtTransport::Ptr &ptr);
void removeHandshakeItem(const std::string &key);
SrtTransport::Ptr getHandshakeItem(const std::string &key);
private:
SrtTransportManager() = default;
......
srt/SrtTransportImp.cpp
......@@ -10,60 +10,59 @@ SrtTransportImp::SrtTransportImp(const EventPoller::Ptr &poller)
SrtTransportImp::~SrtTransportImp() {
InfoP(this);
uint64_t duration = _alive_ticker.createdTime() / 1000;
WarnP(this) << (_is_pusher ? "srt 推流器(" : "srt 播放器(")
<< _media_info._vhost << "/"
<< _media_info._app << "/"
<< _media_info._streamid
<< ")断开,耗时(s):" << duration;
WarnP(this) << (_is_pusher ? "srt 推流器(" : "srt 播放器(") << _media_info._vhost << "/" << _media_info._app << "/"
<< _media_info._streamid << ")断开,耗时(s):" << duration;
//流量统计事件广播
GET_CONFIG(uint32_t, iFlowThreshold, General::kFlowThreshold);
if (_total_bytes >= iFlowThreshold * 1024) {
NoticeCenter::Instance().emitEvent(Broadcast::kBroadcastFlowReport, _media_info, _total_bytes, duration, false, static_cast<SockInfo &>(*this));
NoticeCenter::Instance().emitEvent(
Broadcast::kBroadcastFlowReport, _media_info, _total_bytes, duration, false,
static_cast<SockInfo &>(*this));
}
}
void SrtTransportImp::onHandShakeFinished(std::string &streamid,struct sockaddr_storage *addr) {
void SrtTransportImp::onHandShakeFinished(std::string &streamid, struct sockaddr_storage *addr) {
// TODO parse streamid like this zlmediakit.com/live/test?token=1213444&type=push
if(!_addr){
if (!_addr) {
_addr.reset(new sockaddr_storage(*((sockaddr_storage *)addr)));
}
_is_pusher = false;
TraceL<<" stream id "<<streamid;
if(streamid.empty()){
TraceL << " stream id " << streamid;
if (streamid.empty()) {
onShutdown(SockException(Err_shutdown, "streamid not empty"));
return;
}
_media_info.parse("srt://"+streamid);
_media_info.parse("srt://" + streamid);
auto params = Parser::parseArgs(_media_info._param_strs);
if(params["type"] == "push"){
if (params["type"] == "push") {
_is_pusher = true;
_decoder = DecoderImp::createDecoder(DecoderImp::decoder_ts, this);
emitOnPublish();
}else{
} else {
_is_pusher = false;
emitOnPlay();
}
}
void SrtTransportImp::onSRTData(DataPacket::Ptr pkt) {
if(!_is_pusher){
WarnP(this)<<"this is a player data ignore";
if (!_is_pusher) {
WarnP(this) << "this is a player data ignore";
return;
}
if (_decoder) {
_decoder->input(reinterpret_cast<const uint8_t *>(pkt->payloadData()), pkt->payloadSize());
}else{
WarnP(this)<<" not reach this";
} else {
WarnP(this) << " not reach this";
}
}
void SrtTransportImp::onShutdown(const SockException &ex) {
SrtTransport::onShutdown(ex);
}
bool SrtTransportImp::close(mediakit::MediaSource &sender, bool force){
bool SrtTransportImp::close(mediakit::MediaSource &sender, bool force) {
if (!force && totalReaderCount(sender)) {
return false;
}
......@@ -81,19 +80,19 @@ bool SrtTransportImp::close(mediakit::MediaSource &sender, bool force){
return true;
}
// 播放总人数
int SrtTransportImp::totalReaderCount(mediakit::MediaSource &sender){
int SrtTransportImp::totalReaderCount(mediakit::MediaSource &sender) {
return _muxer ? _muxer->totalReaderCount() : sender.readerCount();
}
// 获取媒体源类型
mediakit::MediaOriginType SrtTransportImp::getOriginType(mediakit::MediaSource &sender) const{
mediakit::MediaOriginType SrtTransportImp::getOriginType(mediakit::MediaSource &sender) const {
return MediaOriginType::srt_push;
}
// 获取媒体源url或者文件路径
std::string SrtTransportImp::getOriginUrl(mediakit::MediaSource &sender) const{
std::string SrtTransportImp::getOriginUrl(mediakit::MediaSource &sender) const {
return _media_info._full_url;
}
// 获取媒体源客户端相关信息
std::shared_ptr<SockInfo> SrtTransportImp::getOriginSock(mediakit::MediaSource &sender) const{
std::shared_ptr<SockInfo> SrtTransportImp::getOriginSock(mediakit::MediaSource &sender) const {
return static_pointer_cast<SockInfo>(getSession());
}
......@@ -105,50 +104,51 @@ void SrtTransportImp::emitOnPublish() {
return;
}
if (err.empty()) {
strong_self->_muxer = std::make_shared<MultiMediaSourceMuxer>(strong_self->_media_info._vhost,
strong_self->_media_info._app,
strong_self->_media_info._streamid, 0.0f,
option);
strong_self->_muxer = std::make_shared<MultiMediaSourceMuxer>(
strong_self->_media_info._vhost, strong_self->_media_info._app, strong_self->_media_info._streamid,
0.0f, option);
strong_self->_muxer->setMediaListener(strong_self);
strong_self->doCachedFunc();
InfoP(strong_self) << "允许 srt 推流";
} else {
WarnP(strong_self) << "禁止 srt 推流:" << err;
strong_self->onShutdown(SockException(Err_refused,err));
strong_self->onShutdown(SockException(Err_refused, err));
}
};
//触发推流鉴权事件
auto flag = NoticeCenter::Instance().emitEvent(Broadcast::kBroadcastMediaPublish, MediaOriginType::srt_push, _media_info, invoker, static_cast<SockInfo &>(*this));
auto flag = NoticeCenter::Instance().emitEvent(
Broadcast::kBroadcastMediaPublish, MediaOriginType::srt_push, _media_info, invoker,
static_cast<SockInfo &>(*this));
if (!flag) {
//该事件无人监听,默认不鉴权
invoker("", ProtocolOption());
}
}
void SrtTransportImp::emitOnPlay(){
void SrtTransportImp::emitOnPlay() {
std::weak_ptr<SrtTransportImp> weak_self = static_pointer_cast<SrtTransportImp>(shared_from_this());
Broadcast::AuthInvoker invoker = [weak_self](const string &err){
Broadcast::AuthInvoker invoker = [weak_self](const string &err) {
auto strong_self = weak_self.lock();
if (!strong_self) {
return;
}
strong_self->getPoller()->async([strong_self,err]{
if(err != ""){
strong_self->onShutdown(SockException(Err_refused,err));
}else{
strong_self->getPoller()->async([strong_self, err] {
if (err != "") {
strong_self->onShutdown(SockException(Err_refused, err));
} else {
strong_self->doPlay();
}
});
};
auto flag = NoticeCenter::Instance().emitEvent(Broadcast::kBroadcastMediaPlayed, _media_info, invoker, static_cast<SockInfo &>(*this));
if(!flag){
auto flag = NoticeCenter::Instance().emitEvent(
Broadcast::kBroadcastMediaPlayed, _media_info, invoker, static_cast<SockInfo &>(*this));
if (!flag) {
doPlay();
}
}
void SrtTransportImp::doPlay(){
void SrtTransportImp::doPlay() {
//异步查找直播流
std::weak_ptr<SrtTransportImp> weak_self = static_pointer_cast<SrtTransportImp>(shared_from_this());
......@@ -158,15 +158,15 @@ void SrtTransportImp::doPlay(){
auto strong_self = weak_self.lock();
if (!strong_self) {
//本对象已经销毁
TraceL<<"本对象已经销毁";
TraceL << "本对象已经销毁";
return;
}
if (!src) {
//未找到该流
TraceL<<"未找到该流";
TraceL << "未找到该流";
strong_self->onShutdown(SockException(Err_shutdown));
} else {
TraceL<<"找到该流";
TraceL << "找到该流";
auto ts_src = dynamic_pointer_cast<TSMediaSource>(src);
assert(ts_src);
ts_src->pause(false);
......@@ -236,9 +236,7 @@ bool SrtTransportImp::inputFrame(const Frame::Ptr &frame) {
}
auto frame_cached = Frame::getCacheAbleFrame(frame);
lock_guard<recursive_mutex> lck(_func_mtx);
_cached_func.emplace_back([this, frame_cached]() {
_muxer->inputFrame(frame_cached);
});
_cached_func.emplace_back([this, frame_cached]() { _muxer->inputFrame(frame_cached); });
return true;
}
......@@ -248,9 +246,7 @@ bool SrtTransportImp::addTrack(const Track::Ptr &track) {
}
lock_guard<recursive_mutex> lck(_func_mtx);
_cached_func.emplace_back([this, track]() {
_muxer->addTrack(track);
});
_cached_func.emplace_back([this, track]() { _muxer->addTrack(track); });
return true;
}
......@@ -259,9 +255,7 @@ void SrtTransportImp::addTrackCompleted() {
_muxer->addTrackCompleted();
} else {
lock_guard<recursive_mutex> lck(_func_mtx);
_cached_func.emplace_back([this]() {
_muxer->addTrackCompleted();
});
_cached_func.emplace_back([this]() { _muxer->addTrackCompleted(); });
}
}
......@@ -273,10 +267,9 @@ void SrtTransportImp::doCachedFunc() {
_cached_func.clear();
}
int SrtTransportImp::getLantencyMul(){
int SrtTransportImp::getLantencyMul() {
GET_CONFIG(int, lantencyMul, kLantencyMul);
return lantencyMul;
}
} // namespace SRT
\ No newline at end of file
srt/SrtTransportImp.hpp
#ifndef ZLMEDIAKIT_SRT_TRANSPORT_IMP_H
#define ZLMEDIAKIT_SRT_TRANSPORT_IMP_H
#include <mutex>
#include "Common/MultiMediaSourceMuxer.h"
#include "Rtp/Decoder.h"
#include "TS/TSMediaSource.h"
#include "SrtTransport.hpp"
#include "TS/TSMediaSource.h"
#include <mutex>
namespace SRT {
using namespace toolkit;
using namespace mediakit;
using namespace std;
using namespace toolkit;
using namespace mediakit;
using namespace std;
class SrtTransportImp
: public SrtTransport
, public toolkit::SockInfo
......@@ -19,13 +18,11 @@ class SrtTransportImp
public:
SrtTransportImp(const EventPoller::Ptr &poller);
~SrtTransportImp();
void inputSockData(uint8_t *buf, int len, struct sockaddr_storage *addr){
SrtTransport::inputSockData(buf,len,addr);
void inputSockData(uint8_t *buf, int len, struct sockaddr_storage *addr) {
SrtTransport::inputSockData(buf, len, addr);
_total_bytes += len;
}
void onSendTSData(const Buffer::Ptr &buffer, bool flush){
SrtTransport::onSendTSData(buffer,flush);
}
void onSendTSData(const Buffer::Ptr &buffer, bool flush) { SrtTransport::onSendTSData(buffer, flush); }
/// SockInfo override
std::string get_local_ip() override;
uint16_t get_local_port() override;
......@@ -35,19 +32,17 @@ public:
protected:
///////SrtTransport override///////
void onHandShakeFinished(std::string& streamid,struct sockaddr_storage *addr) override;
void onHandShakeFinished(std::string &streamid, struct sockaddr_storage *addr) override;
void onSRTData(DataPacket::Ptr pkt) override;
void onShutdown(const SockException &ex) override;
int getLantencyMul() override;
void sendPacket(Buffer::Ptr pkt,bool flush = true) override{
void sendPacket(Buffer::Ptr pkt, bool flush = true) override {
_total_bytes += pkt->size();
SrtTransport::sendPacket(pkt,flush);
SrtTransport::sendPacket(pkt, flush);
};
bool isPusher() override{
return _is_pusher;
}
bool isPusher() override { return _is_pusher; }
///////MediaSourceEvent override///////
// 关闭
......@@ -62,7 +57,7 @@ protected:
std::shared_ptr<SockInfo> getOriginSock(mediakit::MediaSource &sender) const override;
bool inputFrame(const Frame::Ptr &frame) override;
bool addTrack(const Track::Ptr & track) override;
bool addTrack(const Track::Ptr &track) override;
void addTrackCompleted() override;
void resetTracks() override {};
......@@ -85,7 +80,7 @@ private:
MultiMediaSourceMuxer::Ptr _muxer;
DecoderImp::Ptr _decoder;
std::recursive_mutex _func_mtx;
std::deque<std::function<void()> > _cached_func;
std::deque<std::function<void()>> _cached_func;
};
} // namespace SRT
......
srt/Statistic.cpp
......@@ -2,12 +2,12 @@
#include "Statistic.hpp"
namespace SRT {
void PacketRecvRateContext::inputPacket(TimePoint& ts) {
if(_pkt_map.size()>100){
void PacketRecvRateContext::inputPacket(TimePoint &ts) {
if (_pkt_map.size() > 100) {
_pkt_map.erase(_pkt_map.begin());
}
auto tmp = DurationCountMicroseconds(ts - _start);
_pkt_map.emplace(tmp,tmp);
_pkt_map.emplace(tmp, tmp);
}
uint32_t PacketRecvRateContext::getPacketRecvRate() {
if (_pkt_map.size() < 2) {
......@@ -27,13 +27,13 @@ uint32_t PacketRecvRateContext::getPacketRecvRate() {
}
double rate = 1e6 / (double)dur;
if(rate <=1000){
if (rate <= 1000) {
return 50000;
}
return rate;
}
void EstimatedLinkCapacityContext::inputPacket(TimePoint& ts) {
void EstimatedLinkCapacityContext::inputPacket(TimePoint &ts) {
if (_pkt_map.size() > 16) {
_pkt_map.erase(_pkt_map.begin());
}
......@@ -44,31 +44,30 @@ uint32_t EstimatedLinkCapacityContext::getEstimatedLinkCapacity() {
decltype(_pkt_map.begin()) next;
std::vector<int64_t> tmp;
for(auto it = _pkt_map.begin();it != _pkt_map.end();++it){
for (auto it = _pkt_map.begin(); it != _pkt_map.end(); ++it) {
next = it;
++next;
if(next != _pkt_map.end()){
tmp.push_back(next->first -it->first);
}else{
if (next != _pkt_map.end()) {
tmp.push_back(next->first - it->first);
} else {
break;
}
}
std::sort(tmp.begin(),tmp.end());
if(tmp.empty()){
std::sort(tmp.begin(), tmp.end());
if (tmp.empty()) {
return 1000;
}
if(tmp.size()<16){
if (tmp.size() < 16) {
return 1000;
}
double dur =tmp[0]/1e6;
return (uint32_t)(1.0/dur);
double dur = tmp[0] / 1e6;
return (uint32_t)(1.0 / dur);
}
void RecvRateContext::inputPacket(TimePoint& ts, size_t size ) {
void RecvRateContext::inputPacket(TimePoint &ts, size_t size) {
if (_pkt_map.size() > 100) {
_pkt_map.erase(_pkt_map.begin());
}
......@@ -77,19 +76,19 @@ void RecvRateContext::inputPacket(TimePoint& ts, size_t size ) {
_pkt_map.emplace(tmp, tmp);
}
uint32_t RecvRateContext::getRecvRate() {
if(_pkt_map.size()<2){
if (_pkt_map.size() < 2) {
return 0;
}
auto first = _pkt_map.begin();
auto last = _pkt_map.rbegin();
double dur = (last->first - first->first)/1000000.0;
double dur = (last->first - first->first) / 1000000.0;
size_t bytes = 0;
for(auto it : _pkt_map){
for (auto it : _pkt_map) {
bytes += it.second;
}
double rate = (double)bytes/dur;
double rate = (double)bytes / dur;
return (uint32_t)rate;
}
......
srt/Statistic.hpp
......@@ -8,39 +8,42 @@
namespace SRT {
class PacketRecvRateContext {
public:
PacketRecvRateContext(TimePoint start):_start(start){};
PacketRecvRateContext(TimePoint start)
: _start(start) {};
~PacketRecvRateContext() = default;
void inputPacket(TimePoint& ts);
void inputPacket(TimePoint &ts);
uint32_t getPacketRecvRate();
private:
std::map<int64_t,int64_t> _pkt_map;
std::map<int64_t, int64_t> _pkt_map;
TimePoint _start;
};
class EstimatedLinkCapacityContext {
public:
EstimatedLinkCapacityContext(TimePoint start):_start(start){};
EstimatedLinkCapacityContext(TimePoint start)
: _start(start) {};
~EstimatedLinkCapacityContext() = default;
void inputPacket(TimePoint& ts);
void inputPacket(TimePoint &ts);
uint32_t getEstimatedLinkCapacity();
private:
std::map<int64_t,int64_t> _pkt_map;
std::map<int64_t, int64_t> _pkt_map;
TimePoint _start;
};
class RecvRateContext {
public:
RecvRateContext(TimePoint start):_start(start){};
RecvRateContext(TimePoint start)
: _start(start) {};
~RecvRateContext() = default;
void inputPacket(TimePoint& ts,size_t size);
void inputPacket(TimePoint &ts, size_t size);
uint32_t getRecvRate();
private:
std::map<int64_t,size_t> _pkt_map;
std::map<int64_t, size_t> _pkt_map;
TimePoint _start;
};
} // namespace SRT
#endif // ZLMEDIAKIT_SRT_STATISTIC_H
\ No newline at end of file
Markdown 格式
0%
您添加了 0 到此讨论。请谨慎行事。
请先完成此评论的编辑!
注册 或者 后发表评论