#include "Limelight-internal.h" #include "PlatformSockets.h" #include "PlatformThreads.h" #include "LinkedBlockingQueue.h" #include "RtpReorderQueue.h" static AUDIO_RENDERER_CALLBACKS callbacks; static PCONNECTION_LISTENER_CALLBACKS listenerCallbacks; static IP_ADDRESS remoteHost; static SOCKET rtpSocket = INVALID_SOCKET; static LINKED_BLOCKING_QUEUE packetQueue; static RTP_REORDER_QUEUE rtpReorderQueue; static PLT_THREAD udpPingThread; static PLT_THREAD receiveThread; static PLT_THREAD decoderThread; #define RTP_PORT 48000 #define MAX_PACKET_SIZE 100 typedef struct _QUEUED_AUDIO_PACKET { // data must remain at the front char data[MAX_PACKET_SIZE]; int size; union { RTP_QUEUE_ENTRY rentry; LINKED_BLOCKING_QUEUE_ENTRY lentry; } q; } QUEUED_AUDIO_PACKET, *PQUEUED_AUDIO_PACKET; /* Initialize the audio stream */ void initializeAudioStream(IP_ADDRESS host, PAUDIO_RENDERER_CALLBACKS arCallbacks, PCONNECTION_LISTENER_CALLBACKS clCallbacks) { memcpy(&callbacks, arCallbacks, sizeof(callbacks)); remoteHost = host; listenerCallbacks = clCallbacks; LbqInitializeLinkedBlockingQueue(&packetQueue, 30); RtpqInitializeQueue(&rtpReorderQueue, RTPQ_DEFAULT_MAX_SIZE, RTPQ_DEFUALT_QUEUE_TIME); } static void freePacketList(PLINKED_BLOCKING_QUEUE_ENTRY entry) { PLINKED_BLOCKING_QUEUE_ENTRY nextEntry; while (entry != NULL) { nextEntry = entry->flink; // The entry is stored within the data allocation free(entry->data); entry = nextEntry; } } /* Tear down the audio stream once we're done with it */ void destroyAudioStream(void) { callbacks.release(); freePacketList(LbqDestroyLinkedBlockingQueue(&packetQueue)); RtpqCleanupQueue(&rtpReorderQueue); } static void UdpPingThreadProc(void *context) { /* Ping in ASCII */ char pingData[] = { 0x50, 0x49, 0x4E, 0x47 }; struct sockaddr_in saddr; SOCK_RET err; memset(&saddr, 0, sizeof(saddr)); saddr.sin_family = AF_INET; saddr.sin_port = htons(RTP_PORT); memcpy(&saddr.sin_addr, &remoteHost, sizeof(remoteHost)); /* Send PING every 500 milliseconds */ while (!PltIsThreadInterrupted(&udpPingThread)) { err = sendto(rtpSocket, pingData, sizeof(pingData), 0, (struct sockaddr*)&saddr, sizeof(saddr)); if (err != sizeof(pingData)) { Limelog("UDP ping thread terminating #1\n"); listenerCallbacks->connectionTerminated(LastSocketError()); return; } PltSleepMs(500); } } static int queuePacketToLbq(PQUEUED_AUDIO_PACKET *packet) { int err; err = LbqOfferQueueItem(&packetQueue, packet, &(*packet)->q.lentry); if (err == LBQ_SUCCESS) { // The LBQ owns the buffer now *packet = NULL; } else if (err == LBQ_BOUND_EXCEEDED) { Limelog("Audio packet queue overflow\n"); freePacketList(LbqFlushQueueItems(&packetQueue)); } else if (err == LBQ_INTERRUPTED) { Limelog("Receive thread terminating #3\n"); free(*packet); return 0; } return 1; } static void ReceiveThreadProc(void* context) { PRTP_PACKET rtp; PQUEUED_AUDIO_PACKET packet; int queueStatus; packet = NULL; while (!PltIsThreadInterrupted(&receiveThread)) { if (packet == NULL) { packet = (PQUEUED_AUDIO_PACKET) malloc(sizeof(*packet)); if (packet == NULL) { Limelog("Receive thread terminating\n"); listenerCallbacks->connectionTerminated(-1); return; } } packet->size = (int) recv(rtpSocket, &packet->data[0], MAX_PACKET_SIZE, 0); if (packet->size <= 0) { Limelog("Receive thread terminating #2\n"); free(packet); listenerCallbacks->connectionTerminated(LastSocketError()); return; } if (packet->size < sizeof(RTP_PACKET)) { // Runt packet continue; } rtp = (PRTP_PACKET) &packet->data[0]; if (rtp->packetType != 97) { // Not audio continue; } queueStatus = RtpqAddPacket(&rtpReorderQueue, (PRTP_PACKET) packet, &packet->q.rentry); if (queueStatus == RTPQ_RET_HANDLE_IMMEDIATELY) { if (!queuePacketToLbq(&packet)) { // An exit signal was received return; } } else { if (queueStatus != RTPQ_RET_REJECTED) { // The queue consumed our packet, so we must allocate a new one packet = NULL; } if (queueStatus == RTPQ_RET_QUEUED_PACKETS_READY) { // If packets are ready, pull them and send them to the decoder while ((packet = (PQUEUED_AUDIO_PACKET) RtpqGetQueuedPacket(&rtpReorderQueue)) != NULL) { if (!queuePacketToLbq(&packet)) { // An exit signal was received return; } } } } } } static void DecoderThreadProc(void* context) { PRTP_PACKET rtp; int err; PQUEUED_AUDIO_PACKET packet; unsigned short lastSeq = 0; while (!PltIsThreadInterrupted(&decoderThread)) { err = LbqWaitForQueueElement(&packetQueue, (void**) &packet); if (err != LBQ_SUCCESS) { Limelog("Decoder thread terminating\n"); return; } rtp = (PRTP_PACKET) &packet->data[0]; rtp->sequenceNumber = htons(rtp->sequenceNumber); if (lastSeq != 0 && (unsigned short) (lastSeq + 1) != rtp->sequenceNumber) { Limelog("Received OOS audio data (expected %d, but got %d)\n", lastSeq + 1, rtp->sequenceNumber); callbacks.decodeAndPlaySample(NULL, 0); } lastSeq = rtp->sequenceNumber; callbacks.decodeAndPlaySample((char *) (rtp + 1), packet->size - sizeof(*rtp)); free(packet); } } void stopAudioStream(void) { callbacks.stop(); PltInterruptThread(&udpPingThread); PltInterruptThread(&receiveThread); PltInterruptThread(&decoderThread); if (rtpSocket != INVALID_SOCKET) { closesocket(rtpSocket); rtpSocket = INVALID_SOCKET; } PltJoinThread(&udpPingThread); PltJoinThread(&receiveThread); PltJoinThread(&decoderThread); PltCloseThread(&udpPingThread); PltCloseThread(&receiveThread); PltCloseThread(&decoderThread); } int startAudioStream(void) { int err; callbacks.init(); rtpSocket = bindUdpSocket(); if (rtpSocket == INVALID_SOCKET) { return LastSocketError(); } err = PltCreateThread(UdpPingThreadProc, NULL, &udpPingThread); if (err != 0) { return err; } err = PltCreateThread(ReceiveThreadProc, NULL, &receiveThread); if (err != 0) { return err; } err = PltCreateThread(DecoderThreadProc, NULL, &decoderThread); if (err != 0) { return err; } callbacks.start(); return 0; }