3 Copyright (C) 2013 celeron55, Perttu Ahola <celeron55@gmail.com>
5 This program is free software; you can redistribute it and/or modify
6 it under the terms of the GNU Lesser General Public License as published by
7 the Free Software Foundation; either version 2.1 of the License, or
8 (at your option) any later version.
10 This program is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 GNU Lesser General Public License for more details.
15 You should have received a copy of the GNU Lesser General Public License along
16 with this program; if not, write to the Free Software Foundation, Inc.,
17 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
22 #include "connection.h"
24 #include "serialization.h"
27 #include "util/serialize.h"
28 #include "util/numeric.h"
29 #include "util/string.h"
32 #include "main.h" // for profiling
37 /******************************************************************************/
38 /* defines used for debugging and profiling */
39 /******************************************************************************/
43 #undef DEBUG_CONNECTION_KBPS
45 /* this mutex is used to achieve log message consistency */
46 JMutex log_message_mutex;
49 JMutexAutoLock loglock(log_message_mutex); \
53 //#define DEBUG_CONNECTION_KBPS
54 #undef DEBUG_CONNECTION_KBPS
58 static inline float CALC_DTIME(unsigned int lasttime, unsigned int curtime) {
59 float value = ( curtime - lasttime) / 1000.0;
60 return MYMAX(MYMIN(value,0.1),0.0);
63 /* maximum window size to use, 0xFFFF is theoretical maximum don't think about
64 * touching it, the less you're away from it the more likely data corruption
67 #define MAX_RELIABLE_WINDOW_SIZE 0x8000
68 /* starting value for window size */
69 #define MIN_RELIABLE_WINDOW_SIZE 0x40
71 #define MAX_UDP_PEERS 65535
73 #define PING_TIMEOUT 5.0
75 static u16 readPeerId(u8 *packetdata)
77 return readU16(&packetdata[4]);
79 static u8 readChannel(u8 *packetdata)
81 return readU8(&packetdata[6]);
84 BufferedPacket makePacket(Address &address, u8 *data, u32 datasize,
85 u32 protocol_id, u16 sender_peer_id, u8 channel)
87 u32 packet_size = datasize + BASE_HEADER_SIZE;
88 BufferedPacket p(packet_size);
91 writeU32(&p.data[0], protocol_id);
92 writeU16(&p.data[4], sender_peer_id);
93 writeU8(&p.data[6], channel);
95 memcpy(&p.data[BASE_HEADER_SIZE], data, datasize);
100 BufferedPacket makePacket(Address &address, SharedBuffer<u8> &data,
101 u32 protocol_id, u16 sender_peer_id, u8 channel)
103 return makePacket(address, *data, data.getSize(),
104 protocol_id, sender_peer_id, channel);
107 SharedBuffer<u8> makeOriginalPacket(
108 SharedBuffer<u8> data)
111 u32 packet_size = data.getSize() + header_size;
112 SharedBuffer<u8> b(packet_size);
114 writeU8(&b[0], TYPE_ORIGINAL);
116 memcpy(&b[header_size], *data, data.getSize());
121 std::list<SharedBuffer<u8> > makeSplitPacket(
122 SharedBuffer<u8> data,
126 // Chunk packets, containing the TYPE_SPLIT header
127 std::list<SharedBuffer<u8> > chunks;
129 u32 chunk_header_size = 7;
130 u32 maximum_data_size = chunksize_max - chunk_header_size;
136 end = start + maximum_data_size - 1;
137 if(end > data.getSize() - 1)
138 end = data.getSize() - 1;
140 u32 payload_size = end - start + 1;
141 u32 packet_size = chunk_header_size + payload_size;
143 SharedBuffer<u8> chunk(packet_size);
145 writeU8(&chunk[0], TYPE_SPLIT);
146 writeU16(&chunk[1], seqnum);
147 // [3] u16 chunk_count is written at next stage
148 writeU16(&chunk[5], chunk_num);
149 memcpy(&chunk[chunk_header_size], &data[start], payload_size);
151 chunks.push_back(chunk);
157 while(end != data.getSize() - 1);
159 for(std::list<SharedBuffer<u8> >::iterator i = chunks.begin();
160 i != chunks.end(); ++i)
163 writeU16(&((*i)[3]), chunk_count);
169 std::list<SharedBuffer<u8> > makeAutoSplitPacket(
170 SharedBuffer<u8> data,
174 u32 original_header_size = 1;
175 std::list<SharedBuffer<u8> > list;
176 if(data.getSize() + original_header_size > chunksize_max)
178 list = makeSplitPacket(data, chunksize_max, split_seqnum);
184 list.push_back(makeOriginalPacket(data));
189 SharedBuffer<u8> makeReliablePacket(
190 SharedBuffer<u8> data,
193 /*dstream<<"BEGIN SharedBuffer<u8> makeReliablePacket()"<<std::endl;
194 dstream<<"data.getSize()="<<data.getSize()<<", data[0]="
195 <<((unsigned int)data[0]&0xff)<<std::endl;*/
197 u32 packet_size = data.getSize() + header_size;
198 SharedBuffer<u8> b(packet_size);
200 writeU8(&b[0], TYPE_RELIABLE);
201 writeU16(&b[1], seqnum);
203 memcpy(&b[header_size], *data, data.getSize());
205 /*dstream<<"data.getSize()="<<data.getSize()<<", data[0]="
206 <<((unsigned int)data[0]&0xff)<<std::endl;*/
207 //dstream<<"END SharedBuffer<u8> makeReliablePacket()"<<std::endl;
215 ReliablePacketBuffer::ReliablePacketBuffer(): m_list_size(0),writeptr(0) {}
217 void ReliablePacketBuffer::print()
219 JMutexAutoLock listlock(m_list_mutex);
220 LOG(dout_con<<"Dump of ReliablePacketBuffer:" << std::endl);
221 unsigned int index = 0;
222 for(std::list<BufferedPacket>::iterator i = m_list.begin();
226 u16 s = readU16(&(i->data[BASE_HEADER_SIZE+1]));
227 LOG(dout_con<<index<< ":" << s << std::endl);
231 bool ReliablePacketBuffer::empty()
233 JMutexAutoLock listlock(m_list_mutex);
234 return m_list.empty();
237 u32 ReliablePacketBuffer::size()
242 bool ReliablePacketBuffer::containsPacket(u16 seqnum)
244 return !(findPacket(seqnum) == m_list.end());
247 RPBSearchResult ReliablePacketBuffer::findPacket(u16 seqnum)
249 std::list<BufferedPacket>::iterator i = m_list.begin();
250 for(; i != m_list.end(); ++i)
252 u16 s = readU16(&(i->data[BASE_HEADER_SIZE+1]));
253 /*dout_con<<"findPacket(): finding seqnum="<<seqnum
254 <<", comparing to s="<<s<<std::endl;*/
260 RPBSearchResult ReliablePacketBuffer::notFound()
264 bool ReliablePacketBuffer::getFirstSeqnum(u16& result)
266 JMutexAutoLock listlock(m_list_mutex);
269 BufferedPacket p = *m_list.begin();
270 result = readU16(&p.data[BASE_HEADER_SIZE+1]);
274 BufferedPacket ReliablePacketBuffer::popFirst()
276 JMutexAutoLock listlock(m_list_mutex);
278 throw NotFoundException("Buffer is empty");
279 BufferedPacket p = *m_list.begin();
280 m_list.erase(m_list.begin());
283 if (m_list_size == 0)
284 { m_oldest_non_answered_ack = 0; }
286 { m_oldest_non_answered_ack = readU16(&(*m_list.begin()).data[BASE_HEADER_SIZE+1]); }
289 BufferedPacket ReliablePacketBuffer::popSeqnum(u16 seqnum)
291 JMutexAutoLock listlock(m_list_mutex);
292 RPBSearchResult r = findPacket(seqnum);
294 LOG(dout_con<<"Sequence number: " << seqnum << " not found in reliable buffer"<<std::endl);
295 throw NotFoundException("seqnum not found in buffer");
297 BufferedPacket p = *r;
300 RPBSearchResult next = r;
302 if (next != notFound()) {
303 u16 s = readU16(&(next->data[BASE_HEADER_SIZE+1]));
304 m_oldest_non_answered_ack = s;
310 if (m_list_size == 0)
311 { m_oldest_non_answered_ack = 0; }
313 { m_oldest_non_answered_ack = readU16(&(*m_list.begin()).data[BASE_HEADER_SIZE+1]); }
316 void ReliablePacketBuffer::insert(BufferedPacket &p,u16 next_expected)
318 JMutexAutoLock listlock(m_list_mutex);
319 assert(p.data.getSize() >= BASE_HEADER_SIZE+3);
320 u8 type = readU8(&p.data[BASE_HEADER_SIZE+0]);
321 assert(type == TYPE_RELIABLE);
322 u16 seqnum = readU16(&p.data[BASE_HEADER_SIZE+1]);
324 assert(seqnum_in_window(seqnum,next_expected,MAX_RELIABLE_WINDOW_SIZE));
325 assert(seqnum != next_expected);
328 assert(m_list_size <= SEQNUM_MAX+1);
330 // Find the right place for the packet and insert it there
331 // If list is empty, just add it
335 m_oldest_non_answered_ack = seqnum;
340 // Otherwise find the right place
341 std::list<BufferedPacket>::iterator i = m_list.begin();
342 // Find the first packet in the list which has a higher seqnum
343 u16 s = readU16(&(i->data[BASE_HEADER_SIZE+1]));
345 /* case seqnum is smaller then next_expected seqnum */
346 /* this is true e.g. on wrap around */
347 if (seqnum < next_expected) {
348 while(((s < seqnum) || (s >= next_expected)) && (i != m_list.end())) {
350 if (i != m_list.end())
351 s = readU16(&(i->data[BASE_HEADER_SIZE+1]));
354 /* non wrap around case (at least for incoming and next_expected */
357 while(((s < seqnum) && (s >= next_expected)) && (i != m_list.end())) {
359 if (i != m_list.end())
360 s = readU16(&(i->data[BASE_HEADER_SIZE+1]));
366 (readU16(&(i->data[BASE_HEADER_SIZE+1])) != seqnum) ||
367 (i->data.getSize() != p.data.getSize()) ||
368 (i->address != p.address)
371 /* if this happens your maximum transfer window may be to big */
372 fprintf(stderr, "Duplicated seqnum %d non matching packet detected:\n",seqnum);
373 fprintf(stderr, "Old: seqnum: %05d size: %04d, address: %s\n",
374 readU16(&(i->data[BASE_HEADER_SIZE+1])),i->data.getSize(), i->address.serializeString().c_str());
375 fprintf(stderr, "New: seqnum: %05d size: %04d, address: %s\n",
376 readU16(&(p.data[BASE_HEADER_SIZE+1])),p.data.getSize(), p.address.serializeString().c_str());
377 throw IncomingDataCorruption("duplicated packet isn't same as original one");
380 assert(readU16(&(i->data[BASE_HEADER_SIZE+1])) == seqnum);
381 assert(i->data.getSize() == p.data.getSize());
382 assert(i->address == p.address);
384 /* nothing to do this seems to be a resent packet */
385 /* for paranoia reason data should be compared */
388 /* insert or push back */
389 else if (i != m_list.end()) {
396 /* update last packet number */
397 m_oldest_non_answered_ack = readU16(&(*m_list.begin()).data[BASE_HEADER_SIZE+1]);
400 void ReliablePacketBuffer::incrementTimeouts(float dtime)
402 JMutexAutoLock listlock(m_list_mutex);
403 for(std::list<BufferedPacket>::iterator i = m_list.begin();
404 i != m_list.end(); ++i)
407 i->totaltime += dtime;
411 std::list<BufferedPacket> ReliablePacketBuffer::getTimedOuts(float timeout,
412 unsigned int max_packets)
414 JMutexAutoLock listlock(m_list_mutex);
415 std::list<BufferedPacket> timed_outs;
416 for(std::list<BufferedPacket>::iterator i = m_list.begin();
417 i != m_list.end(); ++i)
419 if(i->time >= timeout) {
420 timed_outs.push_back(*i);
422 //this packet will be sent right afterwards reset timeout here
424 if (timed_outs.size() >= max_packets)
435 IncomingSplitBuffer::~IncomingSplitBuffer()
437 JMutexAutoLock listlock(m_map_mutex);
438 for(std::map<u16, IncomingSplitPacket*>::iterator i = m_buf.begin();
439 i != m_buf.end(); ++i)
445 This will throw a GotSplitPacketException when a full
446 split packet is constructed.
448 SharedBuffer<u8> IncomingSplitBuffer::insert(BufferedPacket &p, bool reliable)
450 JMutexAutoLock listlock(m_map_mutex);
451 u32 headersize = BASE_HEADER_SIZE + 7;
452 assert(p.data.getSize() >= headersize);
453 u8 type = readU8(&p.data[BASE_HEADER_SIZE+0]);
454 assert(type == TYPE_SPLIT);
455 u16 seqnum = readU16(&p.data[BASE_HEADER_SIZE+1]);
456 u16 chunk_count = readU16(&p.data[BASE_HEADER_SIZE+3]);
457 u16 chunk_num = readU16(&p.data[BASE_HEADER_SIZE+5]);
459 // Add if doesn't exist
460 if(m_buf.find(seqnum) == m_buf.end())
462 IncomingSplitPacket *sp = new IncomingSplitPacket();
463 sp->chunk_count = chunk_count;
464 sp->reliable = reliable;
468 IncomingSplitPacket *sp = m_buf[seqnum];
470 // TODO: These errors should be thrown or something? Dunno.
471 if(chunk_count != sp->chunk_count)
472 LOG(derr_con<<"Connection: WARNING: chunk_count="<<chunk_count
473 <<" != sp->chunk_count="<<sp->chunk_count
475 if(reliable != sp->reliable)
476 LOG(derr_con<<"Connection: WARNING: reliable="<<reliable
477 <<" != sp->reliable="<<sp->reliable
480 // If chunk already exists, ignore it.
481 // Sometimes two identical packets may arrive when there is network
482 // lag and the server re-sends stuff.
483 if(sp->chunks.find(chunk_num) != sp->chunks.end())
484 return SharedBuffer<u8>();
486 // Cut chunk data out of packet
487 u32 chunkdatasize = p.data.getSize() - headersize;
488 SharedBuffer<u8> chunkdata(chunkdatasize);
489 memcpy(*chunkdata, &(p.data[headersize]), chunkdatasize);
491 // Set chunk data in buffer
492 sp->chunks[chunk_num] = chunkdata;
494 // If not all chunks are received, return empty buffer
495 if(sp->allReceived() == false)
496 return SharedBuffer<u8>();
498 // Calculate total size
500 for(std::map<u16, SharedBuffer<u8> >::iterator i = sp->chunks.begin();
501 i != sp->chunks.end(); ++i)
503 totalsize += i->second.getSize();
506 SharedBuffer<u8> fulldata(totalsize);
508 // Copy chunks to data buffer
510 for(u32 chunk_i=0; chunk_i<sp->chunk_count;
513 SharedBuffer<u8> buf = sp->chunks[chunk_i];
514 u16 chunkdatasize = buf.getSize();
515 memcpy(&fulldata[start], *buf, chunkdatasize);
516 start += chunkdatasize;;
519 // Remove sp from buffer
525 void IncomingSplitBuffer::removeUnreliableTimedOuts(float dtime, float timeout)
527 std::list<u16> remove_queue;
529 JMutexAutoLock listlock(m_map_mutex);
530 for(std::map<u16, IncomingSplitPacket*>::iterator i = m_buf.begin();
531 i != m_buf.end(); ++i)
533 IncomingSplitPacket *p = i->second;
534 // Reliable ones are not removed by timeout
535 if(p->reliable == true)
538 if(p->time >= timeout)
539 remove_queue.push_back(i->first);
542 for(std::list<u16>::iterator j = remove_queue.begin();
543 j != remove_queue.end(); ++j)
545 JMutexAutoLock listlock(m_map_mutex);
546 LOG(dout_con<<"NOTE: Removing timed out unreliable split packet"<<std::endl);
557 window_size(MIN_RELIABLE_WINDOW_SIZE),
558 next_incoming_seqnum(SEQNUM_INITIAL),
559 next_outgoing_seqnum(SEQNUM_INITIAL),
560 next_outgoing_split_seqnum(SEQNUM_INITIAL),
561 current_packet_loss(0),
562 current_packet_too_late(0),
563 packet_loss_counter(0),
564 current_bytes_transfered(0),
565 current_bytes_lost(0),
580 u16 Channel::readNextIncomingSeqNum()
582 JMutexAutoLock internal(m_internal_mutex);
583 return next_incoming_seqnum;
586 u16 Channel::incNextIncomingSeqNum()
588 JMutexAutoLock internal(m_internal_mutex);
589 u16 retval = next_incoming_seqnum;
590 next_incoming_seqnum++;
594 u16 Channel::readNextSplitSeqNum()
596 JMutexAutoLock internal(m_internal_mutex);
597 return next_outgoing_split_seqnum;
599 void Channel::setNextSplitSeqNum(u16 seqnum)
601 JMutexAutoLock internal(m_internal_mutex);
602 next_outgoing_split_seqnum = seqnum;
605 u16 Channel::getOutgoingSequenceNumber(bool& successfull)
607 JMutexAutoLock internal(m_internal_mutex);
608 u16 retval = next_outgoing_seqnum;
609 u16 lowest_unacked_seqnumber;
611 /* shortcut if there ain't any packet in outgoing list */
612 if (outgoing_reliables_sent.empty())
614 next_outgoing_seqnum++;
618 if (outgoing_reliables_sent.getFirstSeqnum(lowest_unacked_seqnumber))
620 if (lowest_unacked_seqnumber < next_outgoing_seqnum) {
621 // ugly cast but this one is required in order to tell compiler we
622 // know about difference of two unsigned may be negative in general
623 // but we already made sure it won't happen in this case
624 if (((u16)(next_outgoing_seqnum - lowest_unacked_seqnumber)) > window_size) {
630 // ugly cast but this one is required in order to tell compiler we
631 // know about difference of two unsigned may be negative in general
632 // but we already made sure it won't happen in this case
633 if ((next_outgoing_seqnum + (u16)(SEQNUM_MAX - lowest_unacked_seqnumber)) >
641 next_outgoing_seqnum++;
645 u16 Channel::readOutgoingSequenceNumber()
647 JMutexAutoLock internal(m_internal_mutex);
648 return next_outgoing_seqnum;
651 bool Channel::putBackSequenceNumber(u16 seqnum)
653 if (((seqnum + 1) % (SEQNUM_MAX+1)) == next_outgoing_seqnum) {
655 next_outgoing_seqnum = seqnum;
661 void Channel::UpdateBytesSent(unsigned int bytes, unsigned int packets)
663 JMutexAutoLock internal(m_internal_mutex);
664 current_bytes_transfered += bytes;
665 current_packet_successfull += packets;
668 void Channel::UpdateBytesLost(unsigned int bytes)
670 JMutexAutoLock internal(m_internal_mutex);
671 current_bytes_lost += bytes;
675 void Channel::UpdatePacketLossCounter(unsigned int count)
677 JMutexAutoLock internal(m_internal_mutex);
678 current_packet_loss += count;
681 void Channel::UpdatePacketTooLateCounter()
683 JMutexAutoLock internal(m_internal_mutex);
684 current_packet_too_late++;
687 void Channel::UpdateTimers(float dtime)
689 bpm_counter += dtime;
690 packet_loss_counter += dtime;
692 if (packet_loss_counter > 1.0)
694 packet_loss_counter -= 1.0;
696 unsigned int packet_loss = 11; /* use a neutral value for initialization */
697 unsigned int packets_successfull = 0;
698 unsigned int packet_too_late = 0;
700 bool reasonable_amount_of_data_transmitted = false;
703 JMutexAutoLock internal(m_internal_mutex);
704 packet_loss = current_packet_loss;
705 packet_too_late = current_packet_too_late;
706 packets_successfull = current_packet_successfull;
708 if (current_bytes_transfered > (window_size*512/2))
710 reasonable_amount_of_data_transmitted = true;
712 current_packet_loss = 0;
713 current_packet_too_late = 0;
714 current_packet_successfull = 0;
717 float successfull_to_lost_ratio = 0.0;
720 if (packets_successfull > 0) {
721 successfull_to_lost_ratio = packet_loss/packets_successfull;
723 else if (packet_loss > 0)
727 MIN_RELIABLE_WINDOW_SIZE);
733 if ((successfull_to_lost_ratio < 0.01) &&
734 (window_size < MAX_RELIABLE_WINDOW_SIZE))
736 /* don't even think about increasing if we didn't even
737 * use major parts of our window */
738 if (reasonable_amount_of_data_transmitted)
741 MAX_RELIABLE_WINDOW_SIZE);
743 else if ((successfull_to_lost_ratio < 0.05) &&
744 (window_size < MAX_RELIABLE_WINDOW_SIZE))
746 /* don't even think about increasing if we didn't even
747 * use major parts of our window */
748 if (reasonable_amount_of_data_transmitted)
751 MAX_RELIABLE_WINDOW_SIZE);
753 else if (successfull_to_lost_ratio > 0.15)
757 MIN_RELIABLE_WINDOW_SIZE);
759 else if (successfull_to_lost_ratio > 0.1)
763 MIN_RELIABLE_WINDOW_SIZE);
768 if (bpm_counter > 10.0)
771 JMutexAutoLock internal(m_internal_mutex);
772 cur_kbps = (current_bytes_transfered/bpm_counter)/1024;
773 current_bytes_transfered = 0;
774 cur_kbps_lost = (current_bytes_lost/bpm_counter)/1024;
775 current_bytes_lost = 0;
779 if (cur_kbps > max_kbps)
784 if (cur_kbps_lost > max_kbps_lost)
786 max_kbps_lost = cur_kbps_lost;
789 avg_kbps = avg_kbps * 0.9 + cur_kbps * 0.1;
790 avg_kbps_lost = avg_kbps_lost * 0.9 + cur_kbps_lost * 0.1;
799 PeerHelper::PeerHelper() :
804 PeerHelper::PeerHelper(Peer* peer) :
809 if (!peer->IncUseCount())
816 PeerHelper::~PeerHelper()
819 m_peer->DecUseCount();
824 PeerHelper& PeerHelper::operator=(Peer* peer)
829 if (!peer->IncUseCount())
837 Peer* PeerHelper::operator->() const
842 Peer* PeerHelper::operator&() const
847 bool PeerHelper::operator!() {
851 bool PeerHelper::operator!=(void* ptr)
853 return ((void*) m_peer != ptr);
856 bool Peer::IncUseCount()
858 JMutexAutoLock lock(m_exclusive_access_mutex);
860 if (!m_pending_deletion)
869 void Peer::DecUseCount()
872 JMutexAutoLock lock(m_exclusive_access_mutex);
876 if (!((m_pending_deletion) && (m_usage == 0)))
882 void Peer::RTTStatistics(float rtt,
883 std::string profiler_id,
884 unsigned int num_samples) {
886 if (m_last_rtt > 0) {
887 /* set min max values */
888 if (rtt < m_rtt.min_rtt)
890 if (rtt >= m_rtt.max_rtt)
893 /* do average calculation */
894 if(m_rtt.avg_rtt < 0.0)
897 m_rtt.avg_rtt = m_rtt.avg_rtt * (num_samples/(num_samples-1)) +
898 rtt * (1/num_samples);
900 /* do jitter calculation */
902 //just use some neutral value at beginning
903 float jitter = m_rtt.jitter_min;
905 if (rtt > m_last_rtt)
906 jitter = rtt-m_last_rtt;
908 if (rtt <= m_last_rtt)
909 jitter = m_last_rtt - rtt;
911 if (jitter < m_rtt.jitter_min)
912 m_rtt.jitter_min = jitter;
913 if (jitter >= m_rtt.jitter_max)
914 m_rtt.jitter_max = jitter;
916 if(m_rtt.jitter_avg < 0.0)
917 m_rtt.jitter_avg = jitter;
919 m_rtt.jitter_avg = m_rtt.jitter_avg * (num_samples/(num_samples-1)) +
920 jitter * (1/num_samples);
922 if (profiler_id != "")
924 g_profiler->graphAdd(profiler_id + "_rtt", rtt);
925 g_profiler->graphAdd(profiler_id + "_jitter", jitter);
928 /* save values required for next loop */
932 bool Peer::isTimedOut(float timeout)
934 JMutexAutoLock lock(m_exclusive_access_mutex);
935 u32 current_time = porting::getTimeMs();
937 float dtime = CALC_DTIME(m_last_timeout_check,current_time);
938 m_last_timeout_check = current_time;
940 m_timeout_counter += dtime;
942 return m_timeout_counter > timeout;
948 JMutexAutoLock usage_lock(m_exclusive_access_mutex);
949 m_pending_deletion = true;
954 PROFILE(std::stringstream peerIdentifier1);
955 PROFILE(peerIdentifier1 << "runTimeouts[" << m_connection->getDesc() << ";" << id << ";RELIABLE]");
956 PROFILE(g_profiler->remove(peerIdentifier1.str()));
957 PROFILE(std::stringstream peerIdentifier2);
958 PROFILE(peerIdentifier2 << "sendPackets[" << m_connection->getDesc() << ";" << id << ";RELIABLE]");
959 PROFILE(ScopeProfiler peerprofiler(g_profiler, peerIdentifier2.str(), SPT_AVG));
964 UDPPeer::UDPPeer(u16 a_id, Address a_address, Connection* connection) :
965 Peer(a_address,a_id,connection),
966 m_pending_disconnect(false),
972 bool UDPPeer::getAddress(MTProtocols type,Address& toset)
974 if ((type == UDP) || (type == MINETEST_RELIABLE_UDP) || (type == PRIMARY))
983 void UDPPeer::setNonLegacyPeer()
985 m_legacy_peer = false;
986 for(unsigned int i=0; i< CHANNEL_COUNT; i++)
988 channels->setWindowSize(g_settings->getU16("max_packets_per_iteration"));
992 void UDPPeer::reportRTT(float rtt)
997 RTTStatistics(rtt,"rudp",MAX_RELIABLE_WINDOW_SIZE*10);
999 float timeout = getStat(AVG_RTT) * RESEND_TIMEOUT_FACTOR;
1000 if(timeout < RESEND_TIMEOUT_MIN)
1001 timeout = RESEND_TIMEOUT_MIN;
1002 if(timeout > RESEND_TIMEOUT_MAX)
1003 timeout = RESEND_TIMEOUT_MAX;
1005 JMutexAutoLock usage_lock(m_exclusive_access_mutex);
1006 resend_timeout = timeout;
1009 bool UDPPeer::Ping(float dtime,SharedBuffer<u8>& data)
1011 m_ping_timer += dtime;
1012 if(m_ping_timer >= PING_TIMEOUT)
1014 // Create and send PING packet
1015 writeU8(&data[0], TYPE_CONTROL);
1016 writeU8(&data[1], CONTROLTYPE_PING);
1023 void UDPPeer::PutReliableSendCommand(ConnectionCommand &c,
1024 unsigned int max_packet_size)
1026 if (m_pending_disconnect)
1029 if ( channels[c.channelnum].queued_commands.empty() &&
1030 /* don't queue more packets then window size */
1031 (channels[c.channelnum].queued_reliables.size()
1032 < (channels[c.channelnum].getWindowSize()/2)))
1034 LOG(dout_con<<m_connection->getDesc()
1035 <<" processing reliable command for peer id: " << c.peer_id
1036 <<" data size: " << c.data.getSize() << std::endl);
1037 if (!processReliableSendCommand(c,max_packet_size))
1039 channels[c.channelnum].queued_commands.push_back(c);
1044 LOG(dout_con<<m_connection->getDesc()
1045 <<" Queueing reliable command for peer id: " << c.peer_id
1046 <<" data size: " << c.data.getSize() <<std::endl);
1047 channels[c.channelnum].queued_commands.push_back(c);
1051 bool UDPPeer::processReliableSendCommand(
1052 ConnectionCommand &c,
1053 unsigned int max_packet_size)
1055 if (m_pending_disconnect)
1058 u32 chunksize_max = max_packet_size
1060 - RELIABLE_HEADER_SIZE;
1062 assert(c.data.getSize() < MAX_RELIABLE_WINDOW_SIZE*512);
1064 std::list<SharedBuffer<u8> > originals;
1065 u16 split_sequence_number = channels[c.channelnum].readNextSplitSeqNum();
1069 originals.push_back(c.data);
1072 originals = makeAutoSplitPacket(c.data, chunksize_max,split_sequence_number);
1073 channels[c.channelnum].setNextSplitSeqNum(split_sequence_number);
1076 bool have_sequence_number = true;
1077 bool have_initial_sequence_number = false;
1078 Queue<BufferedPacket> toadd;
1079 volatile u16 initial_sequence_number = 0;
1081 for(std::list<SharedBuffer<u8> >::iterator i = originals.begin();
1082 i != originals.end(); ++i)
1084 u16 seqnum = channels[c.channelnum].getOutgoingSequenceNumber(have_sequence_number);
1086 /* oops, we don't have enough sequence numbers to send this packet */
1087 if (!have_sequence_number)
1090 if (!have_initial_sequence_number)
1092 initial_sequence_number = seqnum;
1093 have_initial_sequence_number = true;
1096 SharedBuffer<u8> reliable = makeReliablePacket(*i, seqnum);
1098 // Add base headers and make a packet
1099 BufferedPacket p = con::makePacket(address, reliable,
1100 m_connection->GetProtocolID(), m_connection->GetPeerID(),
1106 if (have_sequence_number) {
1107 volatile u16 pcount = 0;
1108 while(toadd.size() > 0) {
1109 BufferedPacket p = toadd.pop_front();
1110 // LOG(dout_con<<connection->getDesc()
1111 // << " queuing reliable packet for peer_id: " << c.peer_id
1112 // << " channel: " << (c.channelnum&0xFF)
1113 // << " seqnum: " << readU16(&p.data[BASE_HEADER_SIZE+1])
1115 channels[c.channelnum].queued_reliables.push_back(p);
1118 assert(channels[c.channelnum].queued_reliables.size() < 0xFFFF);
1122 volatile u16 packets_available = toadd.size();
1123 /* we didn't get a single sequence number no need to fill queue */
1124 if (!have_initial_sequence_number)
1128 while(toadd.size() > 0) {
1132 bool successfully_put_back_sequence_number
1133 = channels[c.channelnum].putBackSequenceNumber(
1134 (initial_sequence_number+toadd.size() % (SEQNUM_MAX+1)));
1136 assert(successfully_put_back_sequence_number);
1138 LOG(dout_con<<m_connection->getDesc()
1139 << " Windowsize exceeded on reliable sending " << c.data.getSize() << " bytes"
1140 << std::endl << "\t\tinitial_sequence_number: " << initial_sequence_number
1141 << std::endl << "\t\tgot at most : " << packets_available << " packets"
1142 << std::endl << "\t\tpackets queued : " << channels[c.channelnum].outgoing_reliables_sent.size()
1148 void UDPPeer::RunCommandQueues(
1149 unsigned int max_packet_size,
1150 unsigned int maxcommands,
1151 unsigned int maxtransfer)
1154 for (unsigned int i = 0; i < CHANNEL_COUNT; i++)
1156 unsigned int commands_processed = 0;
1158 if ((channels[i].queued_commands.size() > 0) &&
1159 (channels[i].queued_reliables.size() < maxtransfer) &&
1160 (commands_processed < maxcommands))
1163 ConnectionCommand c = channels[i].queued_commands.pop_front();
1164 LOG(dout_con<<m_connection->getDesc()
1165 <<" processing queued reliable command "<<std::endl);
1166 if (!processReliableSendCommand(c,max_packet_size)) {
1167 LOG(dout_con<<m_connection->getDesc()
1168 << " Failed to queue packets for peer_id: " << c.peer_id
1169 << ", delaying sending of " << c.data.getSize() << " bytes" << std::endl);
1170 channels[i].queued_commands.push_front(c);
1173 catch (ItemNotFoundException e) {
1174 // intentionally empty
1180 u16 UDPPeer::getNextSplitSequenceNumber(u8 channel)
1182 assert(channel < CHANNEL_COUNT);
1183 return channels[channel].readNextIncomingSeqNum();
1186 void UDPPeer::setNextSplitSequenceNumber(u8 channel, u16 seqnum)
1188 assert(channel < CHANNEL_COUNT);
1189 channels[channel].setNextSplitSeqNum(seqnum);
1192 SharedBuffer<u8> UDPPeer::addSpiltPacket(u8 channel,
1193 BufferedPacket toadd,
1196 assert(channel < CHANNEL_COUNT);
1197 return channels[channel].incoming_splits.insert(toadd,reliable);
1200 /******************************************************************************/
1201 /* Connection Threads */
1202 /******************************************************************************/
1204 ConnectionSendThread::ConnectionSendThread(Connection* parent,
1205 unsigned int max_packet_size,
1207 m_connection(parent),
1208 m_max_packet_size(max_packet_size),
1210 m_max_commands_per_iteration(1),
1211 m_max_data_packets_per_iteration(g_settings->getU16("max_packets_per_iteration")),
1212 m_max_packets_requeued(256)
1216 void * ConnectionSendThread::Thread()
1219 log_register_thread("ConnectionSend");
1221 LOG(dout_con<<m_connection->getDesc()
1222 <<"ConnectionSend thread started"<<std::endl);
1224 u32 curtime = porting::getTimeMs();
1225 u32 lasttime = curtime;
1227 PROFILE(std::stringstream ThreadIdentifier);
1228 PROFILE(ThreadIdentifier << "ConnectionSend: [" << m_connection->getDesc() << "]");
1230 /* if stop is requested don't stop immediately but try to send all */
1232 while(!StopRequested() || packetsQueued()) {
1233 BEGIN_DEBUG_EXCEPTION_HANDLER
1234 PROFILE(ScopeProfiler sp(g_profiler, ThreadIdentifier.str(), SPT_AVG));
1236 m_iteration_packets_avaialble = m_max_data_packets_per_iteration;
1238 /* wait for trigger or timeout */
1239 m_send_sleep_semaphore.Wait(50);
1241 /* remove all triggers */
1242 while(m_send_sleep_semaphore.Wait(0)) {}
1245 curtime = porting::getTimeMs();
1246 float dtime = CALC_DTIME(lasttime,curtime);
1248 /* first do all the reliable stuff */
1251 /* translate commands to packets */
1252 ConnectionCommand c = m_connection->m_command_queue.pop_frontNoEx(0);
1253 while(c.type != CONNCMD_NONE)
1256 processReliableCommand(c);
1258 processNonReliableCommand(c);
1260 c = m_connection->m_command_queue.pop_frontNoEx(0);
1263 /* send non reliable packets */
1266 END_DEBUG_EXCEPTION_HANDLER(derr_con);
1269 PROFILE(g_profiler->remove(ThreadIdentifier.str()));
1273 void ConnectionSendThread::Trigger()
1275 m_send_sleep_semaphore.Post();
1278 bool ConnectionSendThread::packetsQueued()
1280 std::list<u16> peerIds = m_connection->getPeerIDs();
1282 if ((this->m_outgoing_queue.size() > 0) && (peerIds.size() > 0))
1285 for(std::list<u16>::iterator j = peerIds.begin();
1286 j != peerIds.end(); ++j)
1288 PeerHelper peer = m_connection->getPeerNoEx(*j);
1293 if (dynamic_cast<UDPPeer*>(&peer) == 0)
1296 for(u16 i=0; i<CHANNEL_COUNT; i++)
1298 Channel *channel = &(dynamic_cast<UDPPeer*>(&peer))->channels[i];
1300 if (channel->queued_commands.size() > 0)
1311 void ConnectionSendThread::runTimeouts(float dtime)
1313 std::list<u16> timeouted_peers;
1314 std::list<u16> peerIds = m_connection->getPeerIDs();
1316 for(std::list<u16>::iterator j = peerIds.begin();
1317 j != peerIds.end(); ++j)
1319 PeerHelper peer = m_connection->getPeerNoEx(*j);
1324 if(dynamic_cast<UDPPeer*>(&peer) == 0)
1327 PROFILE(std::stringstream peerIdentifier);
1328 PROFILE(peerIdentifier << "runTimeouts[" << m_connection->getDesc() << ";" << *j << ";RELIABLE]");
1329 PROFILE(ScopeProfiler peerprofiler(g_profiler, peerIdentifier.str(), SPT_AVG));
1331 SharedBuffer<u8> data(2); // data for sending ping, required here because of goto
1336 if(peer->isTimedOut(m_timeout))
1338 LOG(derr_con<<m_connection->getDesc()
1339 <<"RunTimeouts(): Peer "<<peer->id
1341 <<" (source=peer->timeout_counter)"
1343 // Add peer to the list
1344 timeouted_peers.push_back(peer->id);
1345 // Don't bother going through the buffers of this one
1349 float resend_timeout = dynamic_cast<UDPPeer*>(&peer)->getResendTimeout();
1350 for(u16 i=0; i<CHANNEL_COUNT; i++)
1352 std::list<BufferedPacket> timed_outs;
1353 Channel *channel = &(dynamic_cast<UDPPeer*>(&peer))->channels[i];
1355 if (dynamic_cast<UDPPeer*>(&peer)->getLegacyPeer())
1356 channel->setWindowSize(g_settings->getU16("workaround_window_size"));
1358 // Remove timed out incomplete unreliable split packets
1359 channel->incoming_splits.removeUnreliableTimedOuts(dtime, m_timeout);
1361 // Increment reliable packet times
1362 channel->outgoing_reliables_sent.incrementTimeouts(dtime);
1364 unsigned int numpeers = m_connection->m_peers.size();
1369 // Re-send timed out outgoing reliables
1370 timed_outs = channel->
1371 outgoing_reliables_sent.getTimedOuts(resend_timeout,
1372 (m_max_data_packets_per_iteration/numpeers));
1374 channel->UpdatePacketLossCounter(timed_outs.size());
1376 m_iteration_packets_avaialble -= timed_outs.size();
1378 for(std::list<BufferedPacket>::iterator j = timed_outs.begin();
1379 j != timed_outs.end(); ++j)
1381 u16 peer_id = readPeerId(*(j->data));
1382 u8 channelnum = readChannel(*(j->data));
1383 u16 seqnum = readU16(&(j->data[BASE_HEADER_SIZE+1]));
1385 channel->UpdateBytesLost(j->data.getSize());
1387 LOG(derr_con<<m_connection->getDesc()
1388 <<"RE-SENDING timed-out RELIABLE to "
1389 << j->address.serializeString()
1390 << "(t/o="<<resend_timeout<<"): "
1391 <<"from_peer_id="<<peer_id
1392 <<", channel="<<((int)channelnum&0xff)
1393 <<", seqnum="<<seqnum
1398 // do not handle rtt here as we can't decide if this packet was
1399 // lost or really takes more time to transmit
1402 if (!dynamic_cast<UDPPeer*>(&peer)->getLegacyPeer())
1403 channel->UpdateTimers(dtime);
1406 /* send ping if necessary */
1407 if (dynamic_cast<UDPPeer*>(&peer)->Ping(dtime,data)) {
1408 LOG(dout_con<<m_connection->getDesc()
1409 <<"Sending ping for peer_id: "
1410 << dynamic_cast<UDPPeer*>(&peer)->id <<std::endl);
1411 /* this may fail if there ain't a sequence number left */
1412 if (!rawSendAsPacket(dynamic_cast<UDPPeer*>(&peer)->id, 0, data, true))
1414 //retrigger with reduced ping interval
1415 dynamic_cast<UDPPeer*>(&peer)->Ping(4.0,data);
1419 dynamic_cast<UDPPeer*>(&peer)->RunCommandQueues(m_max_packet_size,
1420 m_max_commands_per_iteration,
1421 m_max_packets_requeued);
1424 // Remove timed out peers
1425 for(std::list<u16>::iterator i = timeouted_peers.begin();
1426 i != timeouted_peers.end(); ++i)
1428 LOG(derr_con<<m_connection->getDesc()
1429 <<"RunTimeouts(): Removing peer "<<(*i)<<std::endl);
1430 m_connection->deletePeer(*i, true);
1434 void ConnectionSendThread::rawSend(const BufferedPacket &packet)
1437 m_connection->m_udpSocket.Send(packet.address, *packet.data, packet.data.getSize());
1438 LOG(dout_con <<m_connection->getDesc()
1439 << " rawSend: " << packet.data.getSize() << " bytes sent" << std::endl);
1440 } catch(SendFailedException &e){
1441 LOG(derr_con<<m_connection->getDesc()
1442 <<"Connection::rawSend(): SendFailedException: "
1443 <<packet.address.serializeString()<<std::endl);
1447 void ConnectionSendThread::sendAsPacketReliable(BufferedPacket& p, Channel* channel)
1450 p.absolute_send_time = porting::getTimeMs();
1451 // Buffer the packet
1452 channel->outgoing_reliables_sent.insert(p,
1453 (channel->readOutgoingSequenceNumber() - MAX_RELIABLE_WINDOW_SIZE) % (MAX_RELIABLE_WINDOW_SIZE+1));
1455 catch(AlreadyExistsException &e)
1457 LOG(derr_con<<m_connection->getDesc()
1458 <<"WARNING: Going to send a reliable packet"
1459 <<" in outgoing buffer" <<std::endl);
1467 bool ConnectionSendThread::rawSendAsPacket(u16 peer_id, u8 channelnum,
1468 SharedBuffer<u8> data, bool reliable)
1470 PeerHelper peer = m_connection->getPeerNoEx(peer_id);
1472 LOG(dout_con<<m_connection->getDesc()
1473 <<" INFO: dropped packet for non existent peer_id: " << peer_id << std::endl);
1474 assert(reliable && "trying to send raw packet reliable but no peer found!");
1477 Channel *channel = &(dynamic_cast<UDPPeer*>(&peer)->channels[channelnum]);
1481 bool have_sequence_number_for_raw_packet = true;
1482 u16 seqnum = channel->getOutgoingSequenceNumber(have_sequence_number_for_raw_packet);
1484 if (!have_sequence_number_for_raw_packet)
1487 SharedBuffer<u8> reliable = makeReliablePacket(data, seqnum);
1488 Address peer_address;
1489 peer->getAddress(MINETEST_RELIABLE_UDP,peer_address);
1491 // Add base headers and make a packet
1492 BufferedPacket p = con::makePacket(peer_address, reliable,
1493 m_connection->GetProtocolID(), m_connection->GetPeerID(),
1496 // first check if our send window is already maxed out
1497 if (channel->outgoing_reliables_sent.size()
1498 < channel->getWindowSize()) {
1499 LOG(dout_con<<m_connection->getDesc()
1500 <<" INFO: sending a reliable packet to peer_id " << peer_id
1501 <<" channel: " << channelnum
1502 <<" seqnum: " << seqnum << std::endl);
1503 sendAsPacketReliable(p,channel);
1507 LOG(dout_con<<m_connection->getDesc()
1508 <<" INFO: queueing reliable packet for peer_id: " << peer_id
1509 <<" channel: " << channelnum
1510 <<" seqnum: " << seqnum << std::endl);
1511 channel->queued_reliables.push_back(p);
1517 Address peer_address;
1519 if (peer->getAddress(UDP,peer_address))
1521 // Add base headers and make a packet
1522 BufferedPacket p = con::makePacket(peer_address, data,
1523 m_connection->GetProtocolID(), m_connection->GetPeerID(),
1531 LOG(dout_con<<m_connection->getDesc()
1532 <<" INFO: dropped unreliable packet for peer_id: " << peer_id
1533 <<" because of (yet) missing udp address" << std::endl);
1542 void ConnectionSendThread::processReliableCommand(ConnectionCommand &c)
1548 LOG(dout_con<<m_connection->getDesc()<<"UDP processing reliable CONNCMD_NONE"<<std::endl);
1552 LOG(dout_con<<m_connection->getDesc()<<"UDP processing reliable CONNCMD_SEND"<<std::endl);
1556 case CONNCMD_SEND_TO_ALL:
1557 LOG(dout_con<<m_connection->getDesc()<<"UDP processing CONNCMD_SEND_TO_ALL"<<std::endl);
1558 sendToAllReliable(c);
1561 case CONCMD_CREATE_PEER:
1562 LOG(dout_con<<m_connection->getDesc()<<"UDP processing reliable CONCMD_CREATE_PEER"<<std::endl);
1563 if (!rawSendAsPacket(c.peer_id,c.channelnum,c.data,c.reliable))
1565 /* put to queue if we couldn't send it immediately */
1570 case CONCMD_DISABLE_LEGACY:
1571 LOG(dout_con<<m_connection->getDesc()<<"UDP processing reliable CONCMD_DISABLE_LEGACY"<<std::endl);
1572 if (!rawSendAsPacket(c.peer_id,c.channelnum,c.data,c.reliable))
1574 /* put to queue if we couldn't send it immediately */
1580 case CONNCMD_CONNECT:
1581 case CONNCMD_DISCONNECT:
1583 assert("Got command that shouldn't be reliable as reliable command" == 0);
1585 LOG(dout_con<<m_connection->getDesc()<<" Invalid reliable command type: " << c.type <<std::endl);
1590 void ConnectionSendThread::processNonReliableCommand(ConnectionCommand &c)
1592 assert(!c.reliable);
1596 LOG(dout_con<<m_connection->getDesc()<<" UDP processing CONNCMD_NONE"<<std::endl);
1599 LOG(dout_con<<m_connection->getDesc()<<" UDP processing CONNCMD_SERVE port="
1600 <<c.address.serializeString()<<std::endl);
1603 case CONNCMD_CONNECT:
1604 LOG(dout_con<<m_connection->getDesc()<<" UDP processing CONNCMD_CONNECT"<<std::endl);
1607 case CONNCMD_DISCONNECT:
1608 LOG(dout_con<<m_connection->getDesc()<<" UDP processing CONNCMD_DISCONNECT"<<std::endl);
1611 case CONNCMD_DISCONNECT_PEER:
1612 LOG(dout_con<<m_connection->getDesc()<<" UDP processing CONNCMD_DISCONNECT_PEER"<<std::endl);
1613 disconnect_peer(c.peer_id);
1616 LOG(dout_con<<m_connection->getDesc()<<" UDP processing CONNCMD_SEND"<<std::endl);
1617 send(c.peer_id, c.channelnum, c.data);
1619 case CONNCMD_SEND_TO_ALL:
1620 LOG(dout_con<<m_connection->getDesc()<<" UDP processing CONNCMD_SEND_TO_ALL"<<std::endl);
1621 sendToAll(c.channelnum, c.data);
1624 LOG(dout_con<<m_connection->getDesc()<<" UDP processing CONCMD_ACK"<<std::endl);
1625 sendAsPacket(c.peer_id,c.channelnum,c.data,true);
1627 case CONCMD_CREATE_PEER:
1628 assert("Got command that should be reliable as unreliable command" == 0);
1630 LOG(dout_con<<m_connection->getDesc()<<" Invalid command type: " << c.type <<std::endl);
1634 void ConnectionSendThread::serve(Address bind_address)
1636 LOG(dout_con<<m_connection->getDesc()
1637 <<"UDP serving at port " << bind_address.serializeString() <<std::endl);
1639 m_connection->m_udpSocket.Bind(bind_address);
1640 m_connection->SetPeerID(PEER_ID_SERVER);
1642 catch(SocketException &e){
1646 m_connection->putEvent(ce);
1650 void ConnectionSendThread::connect(Address address)
1652 LOG(dout_con<<m_connection->getDesc()<<" connecting to "<<address.serializeString()
1653 <<":"<<address.getPort()<<std::endl);
1655 UDPPeer *peer = m_connection->createServerPeer(address);
1659 e.peerAdded(peer->id, peer->address);
1660 m_connection->putEvent(e);
1664 if (address.isIPv6())
1665 bind_addr.setAddress((IPv6AddressBytes*) NULL);
1667 bind_addr.setAddress(0,0,0,0);
1669 m_connection->m_udpSocket.Bind(bind_addr);
1671 // Send a dummy packet to server with peer_id = PEER_ID_INEXISTENT
1672 m_connection->SetPeerID(PEER_ID_INEXISTENT);
1673 SharedBuffer<u8> data(0);
1674 m_connection->Send(PEER_ID_SERVER, 0, data, true);
1677 void ConnectionSendThread::disconnect()
1679 LOG(dout_con<<m_connection->getDesc()<<" disconnecting"<<std::endl);
1681 // Create and send DISCO packet
1682 SharedBuffer<u8> data(2);
1683 writeU8(&data[0], TYPE_CONTROL);
1684 writeU8(&data[1], CONTROLTYPE_DISCO);
1688 std::list<u16> peerids = m_connection->getPeerIDs();
1690 for (std::list<u16>::iterator i = peerids.begin();
1694 sendAsPacket(*i, 0,data,false);
1698 void ConnectionSendThread::disconnect_peer(u16 peer_id)
1700 LOG(dout_con<<m_connection->getDesc()<<" disconnecting peer"<<std::endl);
1702 // Create and send DISCO packet
1703 SharedBuffer<u8> data(2);
1704 writeU8(&data[0], TYPE_CONTROL);
1705 writeU8(&data[1], CONTROLTYPE_DISCO);
1706 sendAsPacket(peer_id, 0,data,false);
1708 PeerHelper peer = m_connection->getPeerNoEx(peer_id);
1713 if (dynamic_cast<UDPPeer*>(&peer) == 0)
1718 dynamic_cast<UDPPeer*>(&peer)->m_pending_disconnect = true;
1721 void ConnectionSendThread::send(u16 peer_id, u8 channelnum,
1722 SharedBuffer<u8> data)
1724 assert(channelnum < CHANNEL_COUNT);
1726 PeerHelper peer = m_connection->getPeerNoEx(peer_id);
1729 LOG(dout_con<<m_connection->getDesc()<<" peer: peer_id="<<peer_id
1730 << ">>>NOT<<< found on sending packet"
1731 << ", channel " << (channelnum % 0xFF)
1732 << ", size: " << data.getSize() <<std::endl);
1736 LOG(dout_con<<m_connection->getDesc()<<" sending to peer_id="<<peer_id
1737 << ", channel " << (channelnum % 0xFF)
1738 << ", size: " << data.getSize() <<std::endl);
1740 u16 split_sequence_number = peer->getNextSplitSequenceNumber(channelnum);
1742 u32 chunksize_max = m_max_packet_size - BASE_HEADER_SIZE;
1743 std::list<SharedBuffer<u8> > originals;
1745 originals = makeAutoSplitPacket(data, chunksize_max,split_sequence_number);
1747 peer->setNextSplitSequenceNumber(channelnum,split_sequence_number);
1749 for(std::list<SharedBuffer<u8> >::iterator i = originals.begin();
1750 i != originals.end(); ++i)
1752 SharedBuffer<u8> original = *i;
1753 sendAsPacket(peer_id, channelnum, original);
1757 void ConnectionSendThread::sendReliable(ConnectionCommand &c)
1759 PeerHelper peer = m_connection->getPeerNoEx(c.peer_id);
1763 peer->PutReliableSendCommand(c,m_max_packet_size);
1766 void ConnectionSendThread::sendToAll(u8 channelnum, SharedBuffer<u8> data)
1768 std::list<u16> peerids = m_connection->getPeerIDs();
1770 for (std::list<u16>::iterator i = peerids.begin();
1774 send(*i, channelnum, data);
1778 void ConnectionSendThread::sendToAllReliable(ConnectionCommand &c)
1780 std::list<u16> peerids = m_connection->getPeerIDs();
1782 for (std::list<u16>::iterator i = peerids.begin();
1786 PeerHelper peer = m_connection->getPeerNoEx(*i);
1791 peer->PutReliableSendCommand(c,m_max_packet_size);
1795 void ConnectionSendThread::sendPackets(float dtime)
1797 std::list<u16> peerIds = m_connection->getPeerIDs();
1798 std::list<u16> pendingDisconnect;
1799 std::map<u16,bool> pending_unreliable;
1801 for(std::list<u16>::iterator
1802 j = peerIds.begin();
1803 j != peerIds.end(); ++j)
1805 PeerHelper peer = m_connection->getPeerNoEx(*j);
1806 //peer may have been removed
1808 LOG(dout_con<<m_connection->getDesc()<< " Peer not found: peer_id=" << *j << std::endl);
1811 peer->m_increment_packets_remaining = m_iteration_packets_avaialble/m_connection->m_peers.size();
1813 if (dynamic_cast<UDPPeer*>(&peer) == 0)
1818 if (dynamic_cast<UDPPeer*>(&peer)->m_pending_disconnect)
1820 pendingDisconnect.push_back(*j);
1823 PROFILE(std::stringstream peerIdentifier);
1824 PROFILE(peerIdentifier << "sendPackets[" << m_connection->getDesc() << ";" << *j << ";RELIABLE]");
1825 PROFILE(ScopeProfiler peerprofiler(g_profiler, peerIdentifier.str(), SPT_AVG));
1827 LOG(dout_con<<m_connection->getDesc()
1828 << " Handle per peer queues: peer_id=" << *j
1829 << " packet quota: " << peer->m_increment_packets_remaining << std::endl);
1830 // first send queued reliable packets for all peers (if possible)
1831 for (unsigned int i=0; i < CHANNEL_COUNT; i++)
1833 u16 next_to_ack = 0;
1834 dynamic_cast<UDPPeer*>(&peer)->channels[i].outgoing_reliables_sent.getFirstSeqnum(next_to_ack);
1835 u16 next_to_receive = 0;
1836 dynamic_cast<UDPPeer*>(&peer)->channels[i].incoming_reliables.getFirstSeqnum(next_to_receive);
1838 LOG(dout_con<<m_connection->getDesc()<< "\t channel: "
1839 << i << ", peer quota:"
1840 << peer->m_increment_packets_remaining
1842 << "\t\t\treliables on wire: "
1843 << dynamic_cast<UDPPeer*>(&peer)->channels[i].outgoing_reliables_sent.size()
1844 << ", waiting for ack for " << next_to_ack
1846 << "\t\t\tincoming_reliables: "
1847 << dynamic_cast<UDPPeer*>(&peer)->channels[i].incoming_reliables.size()
1848 << ", next reliable packet: "
1849 << dynamic_cast<UDPPeer*>(&peer)->channels[i].readNextIncomingSeqNum()
1850 << ", next queued: " << next_to_receive
1852 << "\t\t\treliables queued : "
1853 << dynamic_cast<UDPPeer*>(&peer)->channels[i].queued_reliables.size()
1855 << "\t\t\tqueued commands : "
1856 << dynamic_cast<UDPPeer*>(&peer)->channels[i].queued_commands.size()
1859 while ((dynamic_cast<UDPPeer*>(&peer)->channels[i].queued_reliables.size() > 0) &&
1860 (dynamic_cast<UDPPeer*>(&peer)->channels[i].outgoing_reliables_sent.size()
1861 < dynamic_cast<UDPPeer*>(&peer)->channels[i].getWindowSize())&&
1862 (peer->m_increment_packets_remaining > 0))
1864 BufferedPacket p = dynamic_cast<UDPPeer*>(&peer)->channels[i].queued_reliables.pop_front();
1865 Channel* channel = &(dynamic_cast<UDPPeer*>(&peer)->channels[i]);
1866 LOG(dout_con<<m_connection->getDesc()
1867 <<" INFO: sending a queued reliable packet "
1869 <<", seqnum: " << readU16(&p.data[BASE_HEADER_SIZE+1])
1871 sendAsPacketReliable(p,channel);
1872 peer->m_increment_packets_remaining--;
1877 if (m_outgoing_queue.size())
1879 LOG(dout_con<<m_connection->getDesc()
1880 << " Handle non reliable queue ("
1881 << m_outgoing_queue.size() << " pkts)" << std::endl);
1884 unsigned int initial_queuesize = m_outgoing_queue.size();
1885 /* send non reliable packets*/
1886 for(unsigned int i=0;i < initial_queuesize;i++) {
1887 OutgoingPacket packet = m_outgoing_queue.pop_front();
1889 assert(!packet.reliable &&
1890 "reliable packets are not allowed in outgoing queue!");
1892 PeerHelper peer = m_connection->getPeerNoEx(packet.peer_id);
1894 LOG(dout_con<<m_connection->getDesc()
1895 <<" Outgoing queue: peer_id="<<packet.peer_id
1896 << ">>>NOT<<< found on sending packet"
1897 << ", channel " << (packet.channelnum % 0xFF)
1898 << ", size: " << packet.data.getSize() <<std::endl);
1901 /* send acks immediately */
1902 else if (packet.ack)
1904 rawSendAsPacket(packet.peer_id, packet.channelnum,
1905 packet.data, packet.reliable);
1906 peer->m_increment_packets_remaining =
1907 MYMIN(0,peer->m_increment_packets_remaining--);
1910 ( peer->m_increment_packets_remaining > 0) ||
1912 rawSendAsPacket(packet.peer_id, packet.channelnum,
1913 packet.data, packet.reliable);
1914 peer->m_increment_packets_remaining--;
1917 m_outgoing_queue.push_back(packet);
1918 pending_unreliable[packet.peer_id] = true;
1922 for(std::list<u16>::iterator
1923 k = pendingDisconnect.begin();
1924 k != pendingDisconnect.end(); ++k)
1926 if (!pending_unreliable[*k])
1928 m_connection->deletePeer(*k,false);
1933 void ConnectionSendThread::sendAsPacket(u16 peer_id, u8 channelnum,
1934 SharedBuffer<u8> data, bool ack)
1936 OutgoingPacket packet(peer_id, channelnum, data, false, ack);
1937 m_outgoing_queue.push_back(packet);
1940 ConnectionReceiveThread::ConnectionReceiveThread(Connection* parent,
1941 unsigned int max_packet_size) :
1942 m_connection(parent),
1943 m_max_packet_size(max_packet_size)
1947 void * ConnectionReceiveThread::Thread()
1950 log_register_thread("ConnectionReceive");
1952 LOG(dout_con<<m_connection->getDesc()
1953 <<"ConnectionReceive thread started"<<std::endl);
1955 PROFILE(std::stringstream ThreadIdentifier);
1956 PROFILE(ThreadIdentifier << "ConnectionReceive: [" << m_connection->getDesc() << "]");
1958 #ifdef DEBUG_CONNECTION_KBPS
1959 u32 curtime = porting::getTimeMs();
1960 u32 lasttime = curtime;
1961 float debug_print_timer = 0.0;
1964 while(!StopRequested()) {
1965 BEGIN_DEBUG_EXCEPTION_HANDLER
1966 PROFILE(ScopeProfiler sp(g_profiler, ThreadIdentifier.str(), SPT_AVG));
1968 #ifdef DEBUG_CONNECTION_KBPS
1970 curtime = porting::getTimeMs();
1971 float dtime = CALC_DTIME(lasttime,curtime);
1974 /* receive packets */
1977 #ifdef DEBUG_CONNECTION_KBPS
1978 debug_print_timer += dtime;
1979 if (debug_print_timer > 20.0) {
1980 debug_print_timer -= 20.0;
1982 std::list<u16> peerids = m_connection->getPeerIDs();
1984 for (std::list<u16>::iterator i = peerids.begin();
1988 PeerHelper peer = m_connection->getPeerNoEx(*i);
1992 float peer_current = 0.0;
1993 float peer_loss = 0.0;
1994 float avg_rate = 0.0;
1995 float avg_loss = 0.0;
1997 for(u16 j=0; j<CHANNEL_COUNT; j++)
1999 peer_current +=peer->channels[j].getCurrentDownloadRateKB();
2000 peer_loss += peer->channels[j].getCurrentLossRateKB();
2001 avg_rate += peer->channels[j].getAvgDownloadRateKB();
2002 avg_loss += peer->channels[j].getAvgLossRateKB();
2005 std::stringstream output;
2006 output << std::fixed << std::setprecision(1);
2007 output << "OUT to Peer " << *i << " RATES (good / loss) " << std::endl;
2008 output << "\tcurrent (sum): " << peer_current << "kb/s "<< peer_loss << "kb/s" << std::endl;
2009 output << "\taverage (sum): " << avg_rate << "kb/s "<< avg_loss << "kb/s" << std::endl;
2010 output << std::setfill(' ');
2011 for(u16 j=0; j<CHANNEL_COUNT; j++)
2013 output << "\tcha " << j << ":"
2014 << " CUR: " << std::setw(6) << peer->channels[j].getCurrentDownloadRateKB() <<"kb/s"
2015 << " AVG: " << std::setw(6) << peer->channels[j].getAvgDownloadRateKB() <<"kb/s"
2016 << " MAX: " << std::setw(6) << peer->channels[j].getMaxDownloadRateKB() <<"kb/s"
2018 << " CUR: " << std::setw(6) << peer->channels[j].getCurrentLossRateKB() <<"kb/s"
2019 << " AVG: " << std::setw(6) << peer->channels[j].getAvgLossRateKB() <<"kb/s"
2020 << " MAX: " << std::setw(6) << peer->channels[j].getMaxLossRateKB() <<"kb/s"
2021 << " / WS: " << peer->channels[j].getWindowSize()
2025 fprintf(stderr,"%s\n",output.str().c_str());
2029 END_DEBUG_EXCEPTION_HANDLER(derr_con);
2031 PROFILE(g_profiler->remove(ThreadIdentifier.str()));
2035 // Receive packets from the network and buffers and create ConnectionEvents
2036 void ConnectionReceiveThread::receive()
2038 // use IPv6 minimum allowed MTU as receive buffer size as this is
2039 // theoretical reliable upper boundary of a udp packet for all IPv6 enabled
2041 unsigned int packet_maxsize = 1500;
2042 SharedBuffer<u8> packetdata(packet_maxsize);
2044 bool packet_queued = true;
2046 unsigned int loop_count = 0;
2048 /* first of all read packets from socket */
2049 /* check for incoming data available */
2050 while( (loop_count < 10) &&
2051 (m_connection->m_udpSocket.WaitData(50)))
2057 bool no_data_left = false;
2059 SharedBuffer<u8> resultdata;
2060 while(!no_data_left)
2063 no_data_left = !getFromBuffers(peer_id, resultdata);
2064 if (!no_data_left) {
2066 e.dataReceived(peer_id, resultdata);
2067 m_connection->putEvent(e);
2070 catch(ProcessedSilentlyException e) {
2071 /* try reading again */
2074 packet_queued = false;
2078 s32 received_size = m_connection->m_udpSocket.Receive(sender, *packetdata, packet_maxsize);
2080 if ((received_size < 0) ||
2081 (received_size < BASE_HEADER_SIZE) ||
2082 (readU32(&packetdata[0]) != m_connection->GetProtocolID()))
2084 LOG(derr_con<<m_connection->getDesc()
2085 <<"Receive(): Invalid incoming packet, "
2086 <<"size: " << received_size
2087 <<", protocol: " << readU32(&packetdata[0]) <<std::endl);
2091 u16 peer_id = readPeerId(*packetdata);
2092 u8 channelnum = readChannel(*packetdata);
2094 if(channelnum > CHANNEL_COUNT-1){
2095 LOG(derr_con<<m_connection->getDesc()
2096 <<"Receive(): Invalid channel "<<channelnum<<std::endl);
2097 throw InvalidIncomingDataException("Channel doesn't exist");
2100 /* preserve original peer_id for later usage */
2101 u16 packet_peer_id = peer_id;
2103 /* Try to identify peer by sender address (may happen on join) */
2104 if(peer_id == PEER_ID_INEXISTENT)
2106 peer_id = m_connection->lookupPeer(sender);
2109 /* The peer was not found in our lists. Add it. */
2110 if(peer_id == PEER_ID_INEXISTENT)
2112 peer_id = m_connection->createPeer(sender,MINETEST_RELIABLE_UDP,0);
2115 PeerHelper peer = m_connection->getPeerNoEx(peer_id);
2118 LOG(dout_con<<m_connection->getDesc()
2119 <<" got packet from unknown peer_id: "
2120 <<peer_id<<" Ignoring."<<std::endl);
2124 // Validate peer address
2126 Address peer_address;
2128 if (peer->getAddress(UDP,peer_address)) {
2129 if (peer_address != sender) {
2130 LOG(derr_con<<m_connection->getDesc()
2131 <<m_connection->getDesc()
2132 <<" Peer "<<peer_id<<" sending from different address."
2133 " Ignoring."<<std::endl);
2139 bool invalid_address = true;
2140 if (invalid_address) {
2141 LOG(derr_con<<m_connection->getDesc()
2142 <<m_connection->getDesc()
2143 <<" Peer "<<peer_id<<" unknown."
2144 " Ignoring."<<std::endl);
2150 /* mark peer as seen with id */
2151 if (!(packet_peer_id == PEER_ID_INEXISTENT))
2152 peer->setSentWithID();
2154 peer->ResetTimeout();
2156 Channel *channel = 0;
2158 if (dynamic_cast<UDPPeer*>(&peer) != 0)
2160 channel = &(dynamic_cast<UDPPeer*>(&peer)->channels[channelnum]);
2163 // Throw the received packet to channel->processPacket()
2165 // Make a new SharedBuffer from the data without the base headers
2166 SharedBuffer<u8> strippeddata(received_size - BASE_HEADER_SIZE);
2167 memcpy(*strippeddata, &packetdata[BASE_HEADER_SIZE],
2168 strippeddata.getSize());
2171 // Process it (the result is some data with no headers made by us)
2172 SharedBuffer<u8> resultdata = processPacket
2173 (channel, strippeddata, peer_id, channelnum, false);
2175 LOG(dout_con<<m_connection->getDesc()
2176 <<" ProcessPacket from peer_id: " << peer_id
2177 << ",channel: " << (channelnum & 0xFF) << ", returned "
2178 << resultdata.getSize() << " bytes" <<std::endl);
2181 e.dataReceived(peer_id, resultdata);
2182 m_connection->putEvent(e);
2183 }catch(ProcessedSilentlyException &e){
2184 }catch(ProcessedQueued &e){
2185 packet_queued = true;
2187 }catch(InvalidIncomingDataException &e){
2189 catch(ProcessedSilentlyException &e){
2194 bool ConnectionReceiveThread::getFromBuffers(u16 &peer_id, SharedBuffer<u8> &dst)
2196 std::list<u16> peerids = m_connection->getPeerIDs();
2198 for(std::list<u16>::iterator j = peerids.begin();
2199 j != peerids.end(); ++j)
2201 PeerHelper peer = m_connection->getPeerNoEx(*j);
2205 if(dynamic_cast<UDPPeer*>(&peer) == 0)
2208 for(u16 i=0; i<CHANNEL_COUNT; i++)
2210 Channel *channel = &(dynamic_cast<UDPPeer*>(&peer))->channels[i];
2212 SharedBuffer<u8> resultdata;
2213 bool got = checkIncomingBuffers(channel, peer_id, resultdata);
2223 bool ConnectionReceiveThread::checkIncomingBuffers(Channel *channel, u16 &peer_id,
2224 SharedBuffer<u8> &dst)
2226 u16 firstseqnum = 0;
2227 if (channel->incoming_reliables.getFirstSeqnum(firstseqnum))
2229 if(firstseqnum == channel->readNextIncomingSeqNum())
2231 BufferedPacket p = channel->incoming_reliables.popFirst();
2232 peer_id = readPeerId(*p.data);
2233 u8 channelnum = readChannel(*p.data);
2234 u16 seqnum = readU16(&p.data[BASE_HEADER_SIZE+1]);
2236 LOG(dout_con<<m_connection->getDesc()
2237 <<"UNBUFFERING TYPE_RELIABLE"
2238 <<" seqnum="<<seqnum
2239 <<" peer_id="<<peer_id
2240 <<" channel="<<((int)channelnum&0xff)
2243 channel->incNextIncomingSeqNum();
2245 u32 headers_size = BASE_HEADER_SIZE + RELIABLE_HEADER_SIZE;
2246 // Get out the inside packet and re-process it
2247 SharedBuffer<u8> payload(p.data.getSize() - headers_size);
2248 memcpy(*payload, &p.data[headers_size], payload.getSize());
2250 dst = processPacket(channel, payload, peer_id, channelnum, true);
2257 SharedBuffer<u8> ConnectionReceiveThread::processPacket(Channel *channel,
2258 SharedBuffer<u8> packetdata, u16 peer_id,
2259 u8 channelnum, bool reliable)
2261 PeerHelper peer = m_connection->getPeer(peer_id);
2263 if(packetdata.getSize() < 1)
2264 throw InvalidIncomingDataException("packetdata.getSize() < 1");
2266 u8 type = readU8(&packetdata[0]);
2268 if(type == TYPE_CONTROL)
2270 if(packetdata.getSize() < 2)
2271 throw InvalidIncomingDataException("packetdata.getSize() < 2");
2273 u8 controltype = readU8(&packetdata[1]);
2275 if( (controltype == CONTROLTYPE_ACK)
2276 && (peer_id <= MAX_UDP_PEERS))
2278 assert(channel != 0);
2279 if(packetdata.getSize() < 4)
2280 throw InvalidIncomingDataException
2281 ("packetdata.getSize() < 4 (ACK header size)");
2283 u16 seqnum = readU16(&packetdata[2]);
2284 LOG(dout_con<<m_connection->getDesc()
2285 <<" [ CONTROLTYPE_ACK: channelnum="
2286 <<((int)channelnum&0xff)<<", peer_id="<<peer_id
2287 <<", seqnum="<<seqnum<< " ]"<<std::endl);
2291 channel->outgoing_reliables_sent.popSeqnum(seqnum);
2292 // Get round trip time
2293 unsigned int current_time = porting::getTimeMs();
2295 if (current_time > p.absolute_send_time)
2297 float rtt = (current_time - p.absolute_send_time) / 1000.0;
2299 // Let peer calculate stuff according to it
2300 // (avg_rtt and resend_timeout)
2301 dynamic_cast<UDPPeer*>(&peer)->reportRTT(rtt);
2303 else if (p.totaltime > 0)
2305 float rtt = p.totaltime;
2307 // Let peer calculate stuff according to it
2308 // (avg_rtt and resend_timeout)
2309 dynamic_cast<UDPPeer*>(&peer)->reportRTT(rtt);
2311 //put bytes for max bandwidth calculation
2312 channel->UpdateBytesSent(p.data.getSize(),1);
2313 if (channel->outgoing_reliables_sent.size() == 0)
2315 m_connection->TriggerSend();
2318 catch(NotFoundException &e){
2319 LOG(derr_con<<m_connection->getDesc()
2320 <<"WARNING: ACKed packet not "
2323 channel->UpdatePacketTooLateCounter();
2325 throw ProcessedSilentlyException("Got an ACK");
2327 else if((controltype == CONTROLTYPE_SET_PEER_ID)
2328 && (peer_id <= MAX_UDP_PEERS))
2330 // Got a packet to set our peer id
2331 if(packetdata.getSize() < 4)
2332 throw InvalidIncomingDataException
2333 ("packetdata.getSize() < 4 (SET_PEER_ID header size)");
2334 u16 peer_id_new = readU16(&packetdata[2]);
2335 LOG(dout_con<<m_connection->getDesc()
2336 <<"Got new peer id: "<<peer_id_new<<"... "<<std::endl);
2338 if(m_connection->GetPeerID() != PEER_ID_INEXISTENT)
2340 LOG(derr_con<<m_connection->getDesc()
2341 <<"WARNING: Not changing"
2342 " existing peer id."<<std::endl);
2346 LOG(dout_con<<m_connection->getDesc()<<"changing own peer id"<<std::endl);
2347 m_connection->SetPeerID(peer_id_new);
2350 ConnectionCommand cmd;
2352 SharedBuffer<u8> reply(2);
2353 writeU8(&reply[0], TYPE_CONTROL);
2354 writeU8(&reply[1], CONTROLTYPE_ENABLE_BIG_SEND_WINDOW);
2355 cmd.disableLegacy(PEER_ID_SERVER,reply);
2356 m_connection->putCommand(cmd);
2358 throw ProcessedSilentlyException("Got a SET_PEER_ID");
2360 else if((controltype == CONTROLTYPE_PING)
2361 && (peer_id <= MAX_UDP_PEERS))
2363 // Just ignore it, the incoming data already reset
2364 // the timeout counter
2365 LOG(dout_con<<m_connection->getDesc()<<"PING"<<std::endl);
2366 throw ProcessedSilentlyException("Got a PING");
2368 else if(controltype == CONTROLTYPE_DISCO)
2370 // Just ignore it, the incoming data already reset
2371 // the timeout counter
2372 LOG(dout_con<<m_connection->getDesc()
2373 <<"DISCO: Removing peer "<<(peer_id)<<std::endl);
2375 if(m_connection->deletePeer(peer_id, false) == false)
2377 derr_con<<m_connection->getDesc()
2378 <<"DISCO: Peer not found"<<std::endl;
2381 throw ProcessedSilentlyException("Got a DISCO");
2383 else if((controltype == CONTROLTYPE_ENABLE_BIG_SEND_WINDOW)
2384 && (peer_id <= MAX_UDP_PEERS))
2386 dynamic_cast<UDPPeer*>(&peer)->setNonLegacyPeer();
2387 throw ProcessedSilentlyException("Got non legacy control");
2390 LOG(derr_con<<m_connection->getDesc()
2391 <<"INVALID TYPE_CONTROL: invalid controltype="
2392 <<((int)controltype&0xff)<<std::endl);
2393 throw InvalidIncomingDataException("Invalid control type");
2396 else if(type == TYPE_ORIGINAL)
2398 if(packetdata.getSize() < ORIGINAL_HEADER_SIZE)
2399 throw InvalidIncomingDataException
2400 ("packetdata.getSize() < ORIGINAL_HEADER_SIZE");
2401 LOG(dout_con<<m_connection->getDesc()
2402 <<"RETURNING TYPE_ORIGINAL to user"
2404 // Get the inside packet out and return it
2405 SharedBuffer<u8> payload(packetdata.getSize() - ORIGINAL_HEADER_SIZE);
2406 memcpy(*payload, &packetdata[ORIGINAL_HEADER_SIZE], payload.getSize());
2409 else if(type == TYPE_SPLIT)
2411 Address peer_address;
2413 if (peer->getAddress(UDP,peer_address)) {
2415 // We have to create a packet again for buffering
2416 // This isn't actually too bad an idea.
2417 BufferedPacket packet = makePacket(
2420 m_connection->GetProtocolID(),
2424 // Buffer the packet
2425 SharedBuffer<u8> data =
2426 peer->addSpiltPacket(channelnum,packet,reliable);
2428 if(data.getSize() != 0)
2430 LOG(dout_con<<m_connection->getDesc()
2431 <<"RETURNING TYPE_SPLIT: Constructed full data, "
2432 <<"size="<<data.getSize()<<std::endl);
2435 LOG(dout_con<<m_connection->getDesc()<<"BUFFERED TYPE_SPLIT"<<std::endl);
2436 throw ProcessedSilentlyException("Buffered a split packet chunk");
2439 //TODO throw some error
2442 else if((peer_id <= MAX_UDP_PEERS) && (type == TYPE_RELIABLE))
2444 assert(channel != 0);
2445 // Recursive reliable packets not allowed
2447 throw InvalidIncomingDataException("Found nested reliable packets");
2449 if(packetdata.getSize() < RELIABLE_HEADER_SIZE)
2450 throw InvalidIncomingDataException
2451 ("packetdata.getSize() < RELIABLE_HEADER_SIZE");
2453 u16 seqnum = readU16(&packetdata[1]);
2454 bool is_future_packet = false;
2455 bool is_old_packet = false;
2457 /* packet is within our receive window send ack */
2458 if (seqnum_in_window(seqnum, channel->readNextIncomingSeqNum(),MAX_RELIABLE_WINDOW_SIZE))
2460 m_connection->sendAck(peer_id,channelnum,seqnum);
2463 is_future_packet = seqnum_higher(seqnum, channel->readNextIncomingSeqNum());
2464 is_old_packet = seqnum_higher(channel->readNextIncomingSeqNum(), seqnum);
2467 /* packet is not within receive window, don't send ack. *
2468 * if this was a valid packet it's gonna be retransmitted */
2469 if (is_future_packet)
2471 throw ProcessedSilentlyException("Received packet newer then expected, not sending ack");
2474 /* seems like our ack was lost, send another one for a old packet */
2477 LOG(dout_con<<m_connection->getDesc()
2478 << "RE-SENDING ACK: peer_id: " << peer_id
2479 << ", channel: " << (channelnum&0xFF)
2480 << ", seqnum: " << seqnum << std::endl;)
2481 m_connection->sendAck(peer_id,channelnum,seqnum);
2483 // we already have this packet so this one was on wire at least
2484 // the current timeout
2485 dynamic_cast<UDPPeer*>(&peer)->reportRTT(dynamic_cast<UDPPeer*>(&peer)->getResendTimeout());
2487 throw ProcessedSilentlyException("Retransmitting ack for old packet");
2491 if (seqnum != channel->readNextIncomingSeqNum())
2493 Address peer_address;
2495 // this is a reliable packet so we have a udp address for sure
2496 peer->getAddress(MINETEST_RELIABLE_UDP,peer_address);
2497 // This one comes later, buffer it.
2498 // Actually we have to make a packet to buffer one.
2499 // Well, we have all the ingredients, so just do it.
2500 BufferedPacket packet = con::makePacket(
2503 m_connection->GetProtocolID(),
2507 channel->incoming_reliables.insert(packet,channel->readNextIncomingSeqNum());
2509 LOG(dout_con<<m_connection->getDesc()
2510 << "BUFFERING, TYPE_RELIABLE peer_id: " << peer_id
2511 << ", channel: " << (channelnum&0xFF)
2512 << ", seqnum: " << seqnum << std::endl;)
2514 throw ProcessedQueued("Buffered future reliable packet");
2516 catch(AlreadyExistsException &e)
2519 catch(IncomingDataCorruption &e)
2521 ConnectionCommand discon;
2522 discon.disconnect_peer(peer_id);
2523 m_connection->putCommand(discon);
2525 LOG(derr_con<<m_connection->getDesc()
2526 << "INVALID, TYPE_RELIABLE peer_id: " << peer_id
2527 << ", channel: " << (channelnum&0xFF)
2528 << ", seqnum: " << seqnum
2529 << "DROPPING CLIENT!" << std::endl;)
2533 /* we got a packet to process right now */
2534 LOG(dout_con<<m_connection->getDesc()
2535 << "RECURSIVE, TYPE_RELIABLE peer_id: " << peer_id
2536 << ", channel: " << (channelnum&0xFF)
2537 << ", seqnum: " << seqnum << std::endl;)
2540 /* check for resend case */
2541 u16 queued_seqnum = 0;
2542 if (channel->incoming_reliables.getFirstSeqnum(queued_seqnum))
2544 if (queued_seqnum == seqnum)
2546 BufferedPacket queued_packet = channel->incoming_reliables.popFirst();
2547 /** TODO find a way to verify the new against the old packet */
2551 channel->incNextIncomingSeqNum();
2553 // Get out the inside packet and re-process it
2554 SharedBuffer<u8> payload(packetdata.getSize() - RELIABLE_HEADER_SIZE);
2555 memcpy(*payload, &packetdata[RELIABLE_HEADER_SIZE], payload.getSize());
2557 return processPacket(channel, payload, peer_id, channelnum, true);
2561 derr_con<<m_connection->getDesc()
2562 <<"Got invalid type="<<((int)type&0xff)<<std::endl;
2563 throw InvalidIncomingDataException("Invalid packet type");
2566 // We should never get here.
2567 // If you get here, add an exception or a return to some of the
2568 // above conditionals.
2570 throw BaseException("Error in Channel::ProcessPacket()");
2577 Connection::Connection(u32 protocol_id, u32 max_packet_size, float timeout,
2583 m_protocol_id(protocol_id),
2584 m_sendThread(this, max_packet_size, timeout),
2585 m_receiveThread(this, max_packet_size),
2587 m_bc_peerhandler(0),
2588 m_bc_receive_timeout(0),
2589 m_shutting_down(false),
2590 m_next_remote_peer_id(2)
2592 m_udpSocket.setTimeoutMs(5);
2594 m_sendThread.Start();
2595 m_receiveThread.Start();
2598 Connection::Connection(u32 protocol_id, u32 max_packet_size, float timeout,
2599 bool ipv6, PeerHandler *peerhandler):
2604 m_protocol_id(protocol_id),
2605 m_sendThread(this, max_packet_size, timeout),
2606 m_receiveThread(this, max_packet_size),
2608 m_bc_peerhandler(peerhandler),
2609 m_bc_receive_timeout(0),
2610 m_shutting_down(false),
2611 m_next_remote_peer_id(2)
2614 m_udpSocket.setTimeoutMs(5);
2616 m_sendThread.Start();
2617 m_receiveThread.Start();
2622 Connection::~Connection()
2624 m_shutting_down = true;
2625 // request threads to stop
2626 m_sendThread.Stop();
2627 m_receiveThread.Stop();
2629 //TODO for some unkonwn reason send/receive threads do not exit as they're
2630 // supposed to be but wait on peer timeout. To speed up shutdown we reduce
2631 // timeout to half a second.
2632 m_sendThread.setPeerTimeout(0.5);
2634 // wait for threads to finish
2635 m_sendThread.Wait();
2636 m_receiveThread.Wait();
2639 for(std::map<u16, Peer*>::iterator
2640 j = m_peers.begin();
2641 j != m_peers.end(); ++j)
2647 /* Internal stuff */
2648 void Connection::putEvent(ConnectionEvent &e)
2650 assert(e.type != CONNEVENT_NONE);
2651 m_event_queue.push_back(e);
2654 PeerHelper Connection::getPeer(u16 peer_id)
2656 JMutexAutoLock peerlock(m_peers_mutex);
2657 std::map<u16, Peer*>::iterator node = m_peers.find(peer_id);
2659 if(node == m_peers.end()){
2660 throw PeerNotFoundException("GetPeer: Peer not found (possible timeout)");
2664 assert(node->second->id == peer_id);
2666 return PeerHelper(node->second);
2669 PeerHelper Connection::getPeerNoEx(u16 peer_id)
2671 JMutexAutoLock peerlock(m_peers_mutex);
2672 std::map<u16, Peer*>::iterator node = m_peers.find(peer_id);
2674 if(node == m_peers.end()){
2675 return PeerHelper(NULL);
2679 assert(node->second->id == peer_id);
2681 return PeerHelper(node->second);
2684 /* find peer_id for address */
2685 u16 Connection::lookupPeer(Address& sender)
2687 JMutexAutoLock peerlock(m_peers_mutex);
2688 std::map<u16, Peer*>::iterator j;
2689 j = m_peers.begin();
2690 for(; j != m_peers.end(); ++j)
2692 Peer *peer = j->second;
2693 if(peer->isActive())
2698 if ((peer->getAddress(MINETEST_RELIABLE_UDP,tocheck)) && (tocheck == sender))
2701 if ((peer->getAddress(UDP,tocheck)) && (tocheck == sender))
2705 return PEER_ID_INEXISTENT;
2708 std::list<Peer*> Connection::getPeers()
2710 std::list<Peer*> list;
2711 for(std::map<u16, Peer*>::iterator j = m_peers.begin();
2712 j != m_peers.end(); ++j)
2714 Peer *peer = j->second;
2715 list.push_back(peer);
2720 bool Connection::deletePeer(u16 peer_id, bool timeout)
2724 /* lock list as short as possible */
2726 JMutexAutoLock peerlock(m_peers_mutex);
2727 if(m_peers.find(peer_id) == m_peers.end())
2729 peer = m_peers[peer_id];
2730 m_peers.erase(peer_id);
2733 Address peer_address;
2734 //any peer has a primary address this never fails!
2735 peer->getAddress(PRIMARY,peer_address);
2738 e.peerRemoved(peer_id, timeout, peer_address);
2748 ConnectionEvent Connection::getEvent()
2750 if(m_event_queue.empty()){
2752 e.type = CONNEVENT_NONE;
2755 return m_event_queue.pop_frontNoEx();
2758 ConnectionEvent Connection::waitEvent(u32 timeout_ms)
2761 return m_event_queue.pop_front(timeout_ms);
2762 } catch(ItemNotFoundException &ex){
2764 e.type = CONNEVENT_NONE;
2769 void Connection::putCommand(ConnectionCommand &c)
2771 if (!m_shutting_down)
2773 m_command_queue.push_back(c);
2774 m_sendThread.Trigger();
2778 void Connection::Serve(Address bind_addr)
2780 ConnectionCommand c;
2785 void Connection::Connect(Address address)
2787 ConnectionCommand c;
2792 bool Connection::Connected()
2794 JMutexAutoLock peerlock(m_peers_mutex);
2796 if(m_peers.size() != 1)
2799 std::map<u16, Peer*>::iterator node = m_peers.find(PEER_ID_SERVER);
2800 if(node == m_peers.end())
2803 if(m_peer_id == PEER_ID_INEXISTENT)
2809 void Connection::Disconnect()
2811 ConnectionCommand c;
2816 u32 Connection::Receive(u16 &peer_id, SharedBuffer<u8> &data)
2819 ConnectionEvent e = waitEvent(m_bc_receive_timeout);
2820 if(e.type != CONNEVENT_NONE)
2821 LOG(dout_con<<getDesc()<<": Receive: got event: "
2822 <<e.describe()<<std::endl);
2824 case CONNEVENT_NONE:
2825 throw NoIncomingDataException("No incoming data");
2826 case CONNEVENT_DATA_RECEIVED:
2827 peer_id = e.peer_id;
2828 data = SharedBuffer<u8>(e.data);
2829 return e.data.getSize();
2830 case CONNEVENT_PEER_ADDED: {
2831 UDPPeer tmp(e.peer_id, e.address, this);
2832 if(m_bc_peerhandler)
2833 m_bc_peerhandler->peerAdded(&tmp);
2835 case CONNEVENT_PEER_REMOVED: {
2836 UDPPeer tmp(e.peer_id, e.address, this);
2837 if(m_bc_peerhandler)
2838 m_bc_peerhandler->deletingPeer(&tmp, e.timeout);
2840 case CONNEVENT_BIND_FAILED:
2841 throw ConnectionBindFailed("Failed to bind socket "
2842 "(port already in use?)");
2845 throw NoIncomingDataException("No incoming data");
2848 void Connection::SendToAll(u8 channelnum, SharedBuffer<u8> data, bool reliable)
2850 assert(channelnum < CHANNEL_COUNT);
2852 ConnectionCommand c;
2853 c.sendToAll(channelnum, data, reliable);
2857 void Connection::Send(u16 peer_id, u8 channelnum,
2858 SharedBuffer<u8> data, bool reliable)
2860 assert(channelnum < CHANNEL_COUNT);
2862 ConnectionCommand c;
2863 c.send(peer_id, channelnum, data, reliable);
2867 Address Connection::GetPeerAddress(u16 peer_id)
2869 PeerHelper peer = getPeerNoEx(peer_id);
2872 throw PeerNotFoundException("No address for peer found!");
2873 Address peer_address;
2874 peer->getAddress(PRIMARY,peer_address);
2875 return peer_address;
2878 float Connection::GetPeerAvgRTT(u16 peer_id)
2880 PeerHelper peer = getPeerNoEx(peer_id);
2881 if (!peer) return -1;
2882 return peer->getStat(AVG_RTT);
2885 u16 Connection::createPeer(Address& sender, MTProtocols protocol, int fd)
2887 // Somebody wants to make a new connection
2889 // Get a unique peer id (2 or higher)
2890 u16 peer_id_new = m_next_remote_peer_id;
2891 u16 overflow = MAX_UDP_PEERS;
2894 Find an unused peer id
2897 JMutexAutoLock lock(m_peers_mutex);
2898 bool out_of_ids = false;
2902 if(m_peers.find(peer_id_new) == m_peers.end())
2904 // Check for overflow
2905 if(peer_id_new == overflow){
2912 errorstream<<getDesc()<<" ran out of peer ids"<<std::endl;
2913 return PEER_ID_INEXISTENT;
2918 peer = new UDPPeer(peer_id_new, sender, this);
2920 m_peers[peer->id] = peer;
2923 m_next_remote_peer_id = (peer_id_new +1) % MAX_UDP_PEERS;
2925 LOG(dout_con<<getDesc()
2926 <<"createPeer(): giving peer_id="<<peer_id_new<<std::endl);
2928 ConnectionCommand cmd;
2929 SharedBuffer<u8> reply(4);
2930 writeU8(&reply[0], TYPE_CONTROL);
2931 writeU8(&reply[1], CONTROLTYPE_SET_PEER_ID);
2932 writeU16(&reply[2], peer_id_new);
2933 cmd.createPeer(peer_id_new,reply);
2934 this->putCommand(cmd);
2936 // Create peer addition event
2938 e.peerAdded(peer_id_new, sender);
2941 // We're now talking to a valid peer_id
2945 void Connection::PrintInfo(std::ostream &out)
2947 m_info_mutex.Lock();
2948 out<<getDesc()<<": ";
2949 m_info_mutex.Unlock();
2952 void Connection::PrintInfo()
2954 PrintInfo(dout_con);
2957 const std::string Connection::getDesc()
2959 return std::string("con(")+itos(m_udpSocket.GetHandle())+"/"+itos(m_peer_id)+")";
2962 void Connection::DisconnectPeer(u16 peer_id)
2964 ConnectionCommand discon;
2965 discon.disconnect_peer(peer_id);
2969 void Connection::sendAck(u16 peer_id, u8 channelnum, u16 seqnum) {
2971 assert(channelnum < CHANNEL_COUNT);
2973 LOG(dout_con<<getDesc()
2974 <<" Queuing ACK command to peer_id: " << peer_id <<
2975 " channel: " << (channelnum & 0xFF) <<
2976 " seqnum: " << seqnum << std::endl);
2978 ConnectionCommand c;
2979 SharedBuffer<u8> ack(4);
2980 writeU8(&ack[0], TYPE_CONTROL);
2981 writeU8(&ack[1], CONTROLTYPE_ACK);
2982 writeU16(&ack[2], seqnum);
2984 c.ack(peer_id, channelnum, ack);
2986 m_sendThread.Trigger();
2989 UDPPeer* Connection::createServerPeer(Address& address)
2991 if (getPeerNoEx(PEER_ID_SERVER) != 0)
2993 throw ConnectionException("Already connected to a server");
2996 UDPPeer *peer = new UDPPeer(PEER_ID_SERVER, address, this);
2999 JMutexAutoLock lock(m_peers_mutex);
3000 m_peers[peer->id] = peer;
3006 std::list<u16> Connection::getPeerIDs()
3008 std::list<u16> retval;
3010 JMutexAutoLock lock(m_peers_mutex);
3011 for(std::map<u16, Peer*>::iterator j = m_peers.begin();
3012 j != m_peers.end(); ++j)
3014 retval.push_back(j->first);