ZLMediaKit/srt/PacketQueue.cpp

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#include "PacketQueue.hpp"
namespace SRT {
#define MAX_SEQ 0x7fffffff
#define MAX_TS 0xffffffff
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)){
return true;
}
return false;
}
inline bool isTSCycle(uint32_t first,uint32_t second){
uint32_t diff;
if(first>second){
diff = first - second;
}else{
diff = second - first;
}
if(diff > (MAX_TS>>1)){
return true;
}else{
return false;
}
}
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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){
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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;
return;
}else{
_pkt_map.emplace(pkt->packet_seq_number, pkt);
}
} else {
auto diff = _pkt_expected_seq - pkt->packet_seq_number;
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;
}
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}
}
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()) {
out.push_back(it->second);
_pkt_map.erase(it);
_pkt_expected_seq = genExpectedSeq(_pkt_expected_seq+1);
it = _pkt_map.find(_pkt_expected_seq);
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}
while (_pkt_map.size() > _pkt_cap) {
// 防止回环
it = _pkt_map.find(_pkt_expected_seq);
if(it != _pkt_map.end()){
out.push_back(it->second);
_pkt_map.erase(it);
}
_pkt_expected_seq = genExpectedSeq(_pkt_expected_seq + 1);
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}
while (timeLantency() > _pkt_lantency) {
it = _pkt_map.find(_pkt_expected_seq);
if(it != _pkt_map.end()){
out.push_back(it->second);
_pkt_map.erase(it);
}
_pkt_expected_seq = genExpectedSeq(_pkt_expected_seq + 1);
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}
return true;
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}
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;){
it = _pkt_map.find(i);
if(it != _pkt_map.end()){
out.push_back(it->second);
_pkt_map.erase(it);
}
i = genExpectedSeq(i+1);
}
_pkt_expected_seq = end;
return true;
}
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uint32_t PacketQueue::timeLantency() {
if (_pkt_map.empty()) {
return 0;
}
auto first = _pkt_map.begin()->second->timestamp;
auto last = _pkt_map.rbegin()->second->timestamp;
uint32_t dur;
if(last>first){
dur = last - first;
}else{
dur = first - last;
}
if(dur > 0x80000000){
dur = MAX_TS - dur;
WarnL<<"cycle dur "<<dur;
}
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return dur;
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}
std::list<PacketQueue::LostPair> PacketQueue::getLostSeq() {
std::list<PacketQueue::LostPair> re;
if(_pkt_map.empty()){
return re;
}
if(getExpectedSize() == getSize()){
return re;
}
uint32_t end = 0;
uint32_t first,last;
first = _pkt_map.begin()->second->packet_seq_number;
last = _pkt_map.rbegin()->second->packet_seq_number;
if ((last - first) > (MAX_SEQ >> 1)) {
TraceL << " cycle seq first " << first << " last " << last << " size " << _pkt_map.size();
end = first;
} else {
end = last;
}
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PacketQueue::LostPair lost;
lost.first = 0;
lost.second = 0;
uint32_t i = _pkt_expected_seq;
bool finish = true;
for(i = _pkt_expected_seq;i<=end;){
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if(_pkt_map.find(i) == _pkt_map.end()){
if(finish){
finish = false;
lost.first = i;
lost.second = i+1;
}else{
lost.second = i+1;
}
}else{
if(!finish){
finish = true;
re.push_back(lost);
}
}
i = genExpectedSeq(i+1);
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}
return re;
}
size_t PacketQueue::getSize(){
return _pkt_map.size();
}
size_t PacketQueue::getExpectedSize() {
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;
}
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}
size_t PacketQueue::getAvailableBufferSize(){
auto size = getExpectedSize();
if(_pkt_cap > size){
return _pkt_cap - 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();
return _pkt_cap;
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}
uint32_t PacketQueue::getExpectedSeq(){
return _pkt_expected_seq;
}
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;
}
return std::move(printer);
}
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} // namespace SRT