#include "PacketSendQueue.hpp" namespace SRT { PacketSendQueue::PacketSendQueue(uint32_t max_size, uint32_t latency,uint32_t flag) : _pkt_cap(max_size) , _pkt_latency(latency) , _srt_flag(flag) {} bool PacketSendQueue::drop(uint32_t num) { decltype(_pkt_cache.begin()) it; for (it = _pkt_cache.begin(); it != _pkt_cache.end(); ++it) { if ((*it)->packet_seq_number == num) { break; } } if (it != _pkt_cache.end()) { _pkt_cache.erase(_pkt_cache.begin(), it); } return true; } bool PacketSendQueue::inputPacket(DataPacket::Ptr pkt) { _pkt_cache.push_back(pkt); while (_pkt_cache.size() > _pkt_cap) { _pkt_cache.pop_front(); } while (timeLatency() > _pkt_latency && TLPKTDrop()) { _pkt_cache.pop_front(); } return true; } bool PacketSendQueue::TLPKTDrop(){ return (_srt_flag&HSExtMessage::HS_EXT_MSG_TLPKTDROP) && (_srt_flag &HSExtMessage::HS_EXT_MSG_TSBPDSND); } std::list PacketSendQueue::findPacketBySeq(uint32_t start, uint32_t end) { std::list re; decltype(_pkt_cache.begin()) it; for (it = _pkt_cache.begin(); it != _pkt_cache.end(); ++it) { if ((*it)->packet_seq_number == start) { break; } } if (start == end) { if (it != _pkt_cache.end()) { re.push_back(*it); } return re; } for (; it != _pkt_cache.end(); ++it) { re.push_back(*it); if ((*it)->packet_seq_number == end) { break; } } return re; } uint32_t PacketSendQueue::timeLatency() { if (_pkt_cache.empty()) { return 0; } auto first = _pkt_cache.front()->timestamp; auto last = _pkt_cache.back()->timestamp; uint32_t dur; if (last > first) { dur = last - first; } else { dur = first - last; } if (dur > ((uint32_t)0x01 << 31)) { TraceL << "cycle timeLatency " << dur; dur = 0xffffffff - dur; } return dur; } } // namespace SRT