//ZoneMinder Packet Queue Implementation Class //Copyright 2016 Steve Gilvarry // //This file is part of ZoneMinder. // //ZoneMinder is free software: you can redistribute it and/or modify //it under the terms of the GNU General Public License as published by //the Free Software Foundation, either version 3 of the License, or //(at your option) any later version. // //ZoneMinder is distributed in the hope that it will be useful, //but WITHOUT ANY WARRANTY; without even the implied warranty of //MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //GNU General Public License for more details. // //You should have received a copy of the GNU General Public License //along with ZoneMinder. If not, see . // PacketQueue must know about all iterators and manage them #include "zm_packetqueue.h" #include "zm_ffmpeg.h" #include "zm_packet.h" #include "zm_signal.h" PacketQueue::PacketQueue(): video_stream_id(-1), max_video_packet_count(-1), pre_event_video_packet_count(-1), max_stream_id(-1), packet_counts(nullptr), deleting(false), keep_keyframes(false) { } /* Assumes queue is empty when adding streams * Assumes first stream added will be the video stream */ int PacketQueue::addStream() { deleting = false; if (max_stream_id == -1) { video_stream_id = 0; max_stream_id = 0; } else { max_stream_id ++; } if (packet_counts) delete[] packet_counts; packet_counts = new int[max_stream_id+1]; for (int i=0; i <= max_stream_id; ++i) packet_counts[i] = 0; return max_stream_id; } PacketQueue::~PacketQueue() { clear(); if (packet_counts) { delete[] packet_counts; packet_counts = nullptr; } while (!iterators.empty()) { packetqueue_iterator *it = iterators.front(); iterators.pop_front(); delete it; } Debug(4, "Done in destructor"); } /* Enqueues the given packet. Will maintain the it pointer and image packet counts. * If we have reached our max image packet count, it will pop off as many packets as are needed. * Thus it will ensure that the same packet never gets queued twice. */ bool PacketQueue::queuePacket(std::shared_ptr add_packet) { if (iterators.empty()) { Debug(4, "No iterators so no one needs us to queue packets."); return false; } if (!packet_counts[video_stream_id] and !add_packet->keyframe) { Debug(4, "No video keyframe so no one needs us to queue packets."); return false; } { std::unique_lock lck(mutex); if (add_packet->packet.stream_index == video_stream_id) { if ((max_video_packet_count > 0) and (packet_counts[video_stream_id] > max_video_packet_count)) { Warning("You have set the max video packets in the queue to %u." " The queue is full. Either Analysis is not keeping up or" " your camera's keyframe interval is larger than this setting." " We are dropping packets.", max_video_packet_count); if (add_packet->keyframe) { // Have a new keyframe, so delete everything while ((*pktQueue.begin() != add_packet) and (packet_counts[video_stream_id] > max_video_packet_count)) { std::shared_ptr zm_packet = *pktQueue.begin(); ZMLockedPacket *lp = new ZMLockedPacket(zm_packet); if (!lp->trylock()) { Debug(1, "Found locked packet when trying to free up video packets. Can't continue"); delete lp; break; } delete lp; for ( std::list::iterator iterators_it = iterators.begin(); iterators_it != iterators.end(); ++iterators_it ) { packetqueue_iterator *iterator_it = *iterators_it; // Have to check each iterator and make sure it doesn't point to the packet we are about to delete if ( *(*iterator_it) == zm_packet ) { Debug(1, "Bumping IT because it is at the front that we are deleting"); ++(*iterators_it); } } // end foreach iterator pktQueue.pop_front(); packet_counts[zm_packet->packet.stream_index] -= 1; Debug(1, "Deleting a packet with stream index:%d image_index:%d with keyframe:%d, video frames in queue:%d max: %d, queuesize:%zu", zm_packet->packet.stream_index, zm_packet->image_index, zm_packet->keyframe, packet_counts[video_stream_id], max_video_packet_count, pktQueue.size()); } // end while } } // end if too many video packets if (max_video_packet_count > 0) { while (packet_counts[video_stream_id] > max_video_packet_count) { Error("Unable to free up older packets. Waiting."); condition.wait(lck); if (deleting or zm_terminate) return false; } } } // end if this packet is a video packet pktQueue.push_back(add_packet); packet_counts[add_packet->packet.stream_index] += 1; Debug(2, "packet counts for %d is %d", add_packet->packet.stream_index, packet_counts[add_packet->packet.stream_index]); for ( std::list::iterator iterators_it = iterators.begin(); iterators_it != iterators.end(); ++iterators_it ) { packetqueue_iterator *iterator_it = *iterators_it; if (*iterator_it == pktQueue.end()) { Debug(4, "pointing it %p to back", iterator_it); --(*iterator_it); } else { Debug(4, "it %p not at end", iterator_it); } } // end foreach iterator } // end lock scope // We signal on every packet because someday we may analyze sound Debug(4, "packetqueue queuepacket, unlocked signalling"); condition.notify_all(); return true; } // end bool PacketQueue::queuePacket(ZMPacket* zm_packet) void PacketQueue::clearPackets(const std::shared_ptr &add_packet) { // Only do queueCleaning if we are adding a video keyframe, so that we guarantee that there is one. // No good. Have to satisfy two conditions: // 1. packetqueue starts with a video keyframe // 2. Have minimum # of video packets // 3. No packets can be locked // 4. No iterator can point to one of the packets // // So start at the beginning, counting video packets until the next keyframe. // Then if deleting those packets doesn't break 1 and 2, then go ahead and delete them. if (deleting) return; if (!pktQueue.size()) return; if (keep_keyframes and ! ( add_packet->packet.stream_index == video_stream_id and add_packet->keyframe and (packet_counts[video_stream_id] > pre_event_video_packet_count) and *(pktQueue.begin()) != add_packet ) ) { Debug(3, "stream index %d ?= video_stream_id %d, keyframe %d, keep_keyframes %d, counts %d > pre_event_count %d at begin %d", add_packet->packet.stream_index, video_stream_id, add_packet->keyframe, keep_keyframes, packet_counts[video_stream_id], pre_event_video_packet_count, ( *(pktQueue.begin()) != add_packet ) ); return; } std::unique_lock lck(mutex); // If analysis_it isn't at the end, we need to keep that many additional packets int tail_count = 0; if (pktQueue.back() != add_packet) { packetqueue_iterator it = pktQueue.end(); --it; while (*it != add_packet) { if ((*it)->packet.stream_index == video_stream_id) ++tail_count; --it; } } Debug(1, "Tail count is %d, queue size is %lu", tail_count, pktQueue.size()); if (!keep_keyframes) { // If not doing passthrough, we don't care about starting with a keyframe so logic is simpler while ((*pktQueue.begin() != add_packet) and (packet_counts[video_stream_id] > pre_event_video_packet_count + tail_count)) { std::shared_ptr zm_packet = *pktQueue.begin(); ZMLockedPacket *lp = new ZMLockedPacket(zm_packet); if (!lp->trylock()) break; delete lp; if (is_there_an_iterator_pointing_to_packet(zm_packet)) { Warning("Found iterator at beginning of queue. Some thread isn't keeping up"); break; } pktQueue.pop_front(); packet_counts[zm_packet->packet.stream_index] -= 1; Debug(1, "Deleting a packet with stream index:%d image_index:%d with keyframe:%d, video frames in queue:%d max: %d, queuesize:%zu", zm_packet->packet.stream_index, zm_packet->image_index, zm_packet->keyframe, packet_counts[video_stream_id], pre_event_video_packet_count, pktQueue.size()); //delete zm_packet; } // end while return; } packetqueue_iterator it = pktQueue.begin(); packetqueue_iterator next_front = pktQueue.begin(); // First packet is special because we know it is a video keyframe and only need to check for lock std::shared_ptr zm_packet = *it; if (zm_packet == add_packet) { return; } Debug(1, "trying lock on first packet"); ZMLockedPacket *lp = new ZMLockedPacket(zm_packet); if (lp->trylock()) { int video_packets_to_delete = 0; // This is a count of how many packets we will delete so we know when to stop looking Debug(1, "Have lock on first packet"); ++it; delete lp; if (it == pktQueue.end()) { Debug(1, "Hit end already"); it = pktQueue.begin(); } else { // Since we have many packets in the queue, we should NOT be pointing at end so don't need to test for that while (*it != add_packet) { zm_packet = *it; lp = new ZMLockedPacket(zm_packet); if (!lp->trylock()) { delete lp; break; } delete lp; if (is_there_an_iterator_pointing_to_packet(zm_packet) and (pktQueue.begin() == next_front)) { Warning("Found iterator at beginning of queue. Some thread isn't keeping up"); break; } if (zm_packet->packet.stream_index == video_stream_id) { if (zm_packet->keyframe) { Debug(3, "Have a video keyframe so setting next front to it"); next_front = it; } ++video_packets_to_delete; Debug(4, "Counted %d video packets. Which would leave %d in packetqueue tail count is %d", video_packets_to_delete, packet_counts[video_stream_id]-video_packets_to_delete, tail_count); if (packet_counts[video_stream_id] - video_packets_to_delete <= pre_event_video_packet_count + tail_count) { break; } } ++it; } // end while } } // end if first packet not locked Debug(1, "Resulting pointing at latest packet? %d, next front points to begin? %d", ( *it == add_packet ), ( next_front == pktQueue.begin() ) ); if (next_front != pktQueue.begin()) { while (pktQueue.begin() != next_front) { zm_packet = *pktQueue.begin(); if (!zm_packet) { Error("NULL zm_packet in queue"); continue; } Debug(1, "Deleting a packet with stream index:%d image_index:%d with keyframe:%d, video frames in queue:%d max: %d, queuesize:%zu", zm_packet->packet.stream_index, zm_packet->image_index, zm_packet->keyframe, packet_counts[video_stream_id], pre_event_video_packet_count, pktQueue.size()); pktQueue.pop_front(); packet_counts[zm_packet->packet.stream_index] -= 1; //delete zm_packet; } } // end if have at least max_video_packet_count video packets remaining // We signal on every packet because someday we may analyze sound return; } // end voidPacketQueue::clearPackets(ZMPacket* zm_packet) void PacketQueue::clear() { deleting = true; condition.notify_all(); if (!packet_counts) // special case, not initialised return; Debug(1, "Clearing packetqueue"); std::unique_lock lck(mutex); while (!pktQueue.empty()) { std::shared_ptr packet = pktQueue.front(); // Someone might have this packet, but not for very long and since we have locked the queue they won't be able to get another one ZMLockedPacket *lp = new ZMLockedPacket(packet); lp->lock(); Debug(1, "Deleting a packet with stream index:%d image_index:%d with keyframe:%d, video frames in queue:%d max: %d, queuesize:%zu", packet->packet.stream_index, packet->image_index, packet->keyframe, packet_counts[video_stream_id], pre_event_video_packet_count, pktQueue.size()); pktQueue.pop_front(); delete lp; //delete packet; } Debug(1, "Packetqueue is clear, deleting iterators"); for ( std::list::iterator iterators_it = iterators.begin(); iterators_it != iterators.end(); ++iterators_it ) { packetqueue_iterator *iterator_it = *iterators_it; *iterator_it = pktQueue.begin(); } // end foreach iterator if (packet_counts) delete[] packet_counts; packet_counts = nullptr; max_stream_id = -1; Debug(1, "Packetqueue is clear, notifying"); condition.notify_all(); } unsigned int PacketQueue::size() { return pktQueue.size(); } int PacketQueue::packet_count(int stream_id) { if (stream_id < 0 or stream_id > max_stream_id) { Error("Invalid stream_id %d max is %d", stream_id, max_stream_id); return -1; } return packet_counts[stream_id]; } // end int PacketQueue::packet_count(int stream_id) // Returns a packet. Packet will be locked ZMLockedPacket *PacketQueue::get_packet(packetqueue_iterator *it) { if (deleting or zm_terminate) return nullptr; Debug(4, "Locking in get_packet using it %p queue end? %d", std::addressof(*it), (*it == pktQueue.end())); ZMLockedPacket *lp = nullptr; { // scope for lock std::unique_lock lck(mutex); Debug(4, "Have Lock in get_packet"); while (!lp) { while ((*it == pktQueue.end()) and !(deleting or zm_terminate)) { Debug(2, "waiting. Queue size %zu it == end? %d", pktQueue.size(), (*it == pktQueue.end())); condition.wait(lck); } if (deleting or zm_terminate) break; std::shared_ptr p = *(*it); if (!p) { Error("Null p?!"); return nullptr; } Debug(3, "get_packet using it %p locking index %d", std::addressof(*it), p->image_index); lp = new ZMLockedPacket(p); if (lp->trylock()) { Debug(2, "Locked packet %d, unlocking packetqueue mutex", p->image_index); return lp; } delete lp; lp = nullptr; Debug(2, "waiting. Queue size %zu it == end? %d", pktQueue.size(), (*it == pktQueue.end())); condition.wait(lck); } // end while !lp } // end scope for lock if (!lp) { Debug(1, "terminated, leaving"); condition.notify_all(); } return lp; } // end ZMLockedPacket *PacketQueue::get_packet(it) // Returns a packet. Packet will be locked ZMLockedPacket *PacketQueue::get_packet_and_increment_it(packetqueue_iterator *it) { if (deleting or zm_terminate) return nullptr; Debug(4, "Locking in get_packet using it %p queue end? %d", std::addressof(*it), (*it == pktQueue.end())); ZMLockedPacket *lp = nullptr; { // scope for lock std::unique_lock lck(mutex); Debug(4, "Have Lock in get_packet"); while (!lp) { while ((*it == pktQueue.end()) and !(deleting or zm_terminate)) { Debug(2, "waiting. Queue size %zu it == end? %d", pktQueue.size(), (*it == pktQueue.end())); condition.wait(lck); } if (deleting or zm_terminate) break; std::shared_ptr p = *(*it); if (!p) { Error("Null p?!"); return nullptr; } Debug(3, "get_packet using it %p locking index %d", std::addressof(*it), p->image_index); lp = new ZMLockedPacket(p); if (lp->trylock()) { Debug(2, "Locked packet %d, unlocking packetqueue mutex, incrementing it", p->image_index); ++(*it); return lp; } delete lp; lp = nullptr; Debug(2, "waiting. Queue size %zu it == end? %d", pktQueue.size(), (*it == pktQueue.end())); condition.wait(lck); } // end while !lp } // end scope for lock if (!lp) { Debug(1, "terminated, leaving"); condition.notify_all(); } return lp; } // end ZMLockedPacket *PacketQueue::get_packet_and_increment_it(it) void PacketQueue::unlock(ZMLockedPacket *lp) { delete lp; condition.notify_all(); } bool PacketQueue::increment_it(packetqueue_iterator *it) { Debug(2, "Incrementing %p, queue size %zu, end? %d", it, pktQueue.size(), ((*it) == pktQueue.end())); if (((*it) == pktQueue.end()) or deleting) { return false; } std::unique_lock lck(mutex); ++(*it); if (*it != pktQueue.end()) { Debug(2, "Incrementing %p, %p still not at end, so returning true", it, std::addressof(*it)); return true; } Debug(2, "At end"); return false; } // end bool PacketQueue::increment_it(packetqueue_iterator *it) // Increment it only considering packets for a given stream bool PacketQueue::increment_it(packetqueue_iterator *it, int stream_id) { Debug(2, "Incrementing %p, queue size %zu, end? %d", it, pktQueue.size(), (*it == pktQueue.end())); if (*it == pktQueue.end()) { return false; } std::unique_lock lck(mutex); do { ++(*it); } while ( (*it != pktQueue.end()) and ( (*(*it))->packet.stream_index != stream_id) ); if ( *it != pktQueue.end() ) { Debug(2, "Incrementing %p, still not at end, so incrementing", it); return true; } return false; } // end bool PacketQueue::increment_it(packetqueue_iterator *it) packetqueue_iterator *PacketQueue::get_event_start_packet_it( packetqueue_iterator snapshot_it, unsigned int pre_event_count ) { std::unique_lock lck(mutex); packetqueue_iterator *it = new packetqueue_iterator; iterators.push_back(it); *it = snapshot_it; std::shared_ptr packet = *(*it); ZM_DUMP_PACKET(packet->packet, ""); // Step one count back pre_event_count frames as the minimum // Do not assume that snapshot_it is video // snapshot it might already point to the beginning if (pre_event_count) { while ((*it) != pktQueue.begin()) { packet = *(*it); Debug(1, "Previous packet pre_event_count %d stream_index %d keyframe %d score %d", pre_event_count, packet->packet.stream_index, packet->keyframe, packet->score); ZM_DUMP_PACKET(packet->packet, ""); if (packet->packet.stream_index == video_stream_id) { pre_event_count --; if (!pre_event_count) break; } (*it)--; } packet = *(*it); } // it either points to beginning or we have seen pre_event_count video packets. if (pre_event_count) { if (packet->image_index < (int)pre_event_count) { // probably just starting up Debug(1, "Hit end of packetqueue before satisfying pre_event_count. Needed %d more video frames", pre_event_count); } else { Warning("Hit end of packetqueue before satisfying pre_event_count. Needed %d more video frames", pre_event_count); } ZM_DUMP_PACKET(packet->packet, ""); return it; } else if (!keep_keyframes) { // Are encoding, so don't care about keyframes return it; } while ((*it) != pktQueue.begin()) { packet = *(*it); ZM_DUMP_PACKET(packet->packet, "No keyframe"); if ((packet->packet.stream_index == video_stream_id) and packet->keyframe) return it; // Success --(*it); } if (!(*(*it))->keyframe) { Warning("Hit beginning of packetqueue and packet is not a keyframe. index is %d", packet->image_index); } return it; } // end packetqueue_iterator *PacketQueue::get_event_start_packet_it void PacketQueue::dumpQueue() { std::list>::reverse_iterator it; for ( it = pktQueue.rbegin(); it != pktQueue.rend(); ++ it ) { std::shared_ptr zm_packet = *it; ZM_DUMP_PACKET(zm_packet->packet, ""); } } /* Returns an iterator to the first video keyframe in the queue. * nullptr if no keyframe video packet exists. */ packetqueue_iterator * PacketQueue::get_video_it(bool wait) { packetqueue_iterator *it = new packetqueue_iterator; iterators.push_back(it); std::unique_lock lck(mutex); *it = pktQueue.begin(); if ( wait ) { while ( ((! pktQueue.size()) or (*it == pktQueue.end())) and !zm_terminate and !deleting ) { Debug(2, "waiting for packets in queue. Queue size %zu it == end? %d", pktQueue.size(), (*it == pktQueue.end())); condition.wait(lck); *it = pktQueue.begin(); } if ( deleting or zm_terminate ) { free_it(it); delete it; return nullptr; } } while (*it != pktQueue.end()) { std::shared_ptr zm_packet = *(*it); if (!zm_packet) { Error("Null zmpacket in queue!?"); free_it(it); return nullptr; } Debug(1, "Packet keyframe %d for stream %d, so returning the it to it", zm_packet->keyframe, zm_packet->packet.stream_index); if (zm_packet->keyframe and ( zm_packet->packet.stream_index == video_stream_id )) { Debug(1, "Found a keyframe for stream %d, so returning the it to it", video_stream_id); return it; } ++(*it); } Debug(1, "DIdn't Found a keyframe for stream %d, so returning the it to it", video_stream_id); return it; } // get video_it void PacketQueue::free_it(packetqueue_iterator *it) { for ( std::list::iterator iterators_it = iterators.begin(); iterators_it != iterators.end(); ++iterators_it ) { if ( *iterators_it == it ) { iterators.erase(iterators_it); break; } } } bool PacketQueue::is_there_an_iterator_pointing_to_packet(const std::shared_ptr &zm_packet) { for ( std::list::iterator iterators_it = iterators.begin(); iterators_it != iterators.end(); ++iterators_it ) { packetqueue_iterator *iterator_it = *iterators_it; if (*iterator_it == pktQueue.end()) { continue; } Debug(4, "Checking iterator %p == packet ? %d", std::addressof(*iterator_it), ( *(*iterator_it) == zm_packet )); // Have to check each iterator and make sure it doesn't point to the packet we are about to delete if (*(*iterator_it) == zm_packet) { return true; } } // end foreach iterator return false; } void PacketQueue::setMaxVideoPackets(int p) { max_video_packet_count = p; Debug(1, "Setting max_video_packet_count to %d", p); if (max_video_packet_count < 0) max_video_packet_count = 0 ; } void PacketQueue::setPreEventVideoPackets(int p) { pre_event_video_packet_count = p; Debug(1, "Setting pre_event_video_packet_count to %d", p); if (pre_event_video_packet_count < 1) pre_event_video_packet_count = 1; // We can simplify a lot of logic in queuePacket if we can assume at least 1 packet in queue }