mirror of
https://github.com/rofafor/vdr-plugin-femon.git
synced 2023-10-10 13:36:53 +02:00
253 lines
7.1 KiB
C
253 lines
7.1 KiB
C
/*
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* receiver.c: Frontend Status Monitor plugin for the Video Disk Recorder
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*
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* See the README file for copyright information and how to reach the author.
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*
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*/
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#include <unistd.h>
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#include "config.h"
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#include "log.h"
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#include "tools.h"
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#include "receiver.h"
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cFemonReceiver::cFemonReceiver(const cChannel *channelP, int aTrackP, int dTrackP)
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: cReceiver(channelP),
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cThread("femon receiver"),
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mutexM(),
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sleepM(),
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activeM(false),
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detectH264M(this),
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detectMpegM(this, this),
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detectAacM(this),
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detectLatmM(this),
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detectAc3M(this),
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videoBufferM(KILOBYTE(512), TS_SIZE, false, "Femon video"),
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videoTypeM(channelP ? channelP->Vtype(): 0),
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videoPidM(channelP ? channelP->Vpid() : 0),
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videoPacketCountM(0),
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videoBitRateM(0.0),
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videoValidM(false),
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audioBufferM(KILOBYTE(256), TS_SIZE, false, "Femon audio"),
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audioPidM(channelP ? channelP->Apid(aTrackP) : 0),
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audioPacketCountM(0),
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audioBitRateM(0.0),
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audioValidM(false),
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ac3BufferM(KILOBYTE(256), TS_SIZE, false, "Femon AC3"),
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ac3PidM(channelP ? channelP->Dpid(dTrackP) : 0),
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ac3PacketCountM(0),
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ac3BitRateM(0),
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ac3ValidM(false)
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{
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debug1("%s (, %d, %d)", __PRETTY_FUNCTION__, aTrackP, dTrackP);
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SetPids(NULL);
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AddPid(videoPidM);
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AddPid(audioPidM);
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AddPid(ac3PidM);
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videoBufferM.SetTimeouts(0, 100);
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audioBufferM.SetTimeouts(0, 100);
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ac3BufferM.SetTimeouts(0, 100);
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videoInfoM.codec = VIDEO_CODEC_INVALID;
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videoInfoM.format = VIDEO_FORMAT_INVALID;
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videoInfoM.scan = VIDEO_SCAN_INVALID;
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videoInfoM.aspectRatio = VIDEO_ASPECT_RATIO_INVALID;
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videoInfoM.width = 0;
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videoInfoM.height = 0;
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videoInfoM.frameRate = 0;
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videoInfoM.bitrate = AUDIO_BITRATE_INVALID;
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audioInfoM.codec = AUDIO_CODEC_UNKNOWN;
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audioInfoM.bitrate = AUDIO_BITRATE_INVALID;
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audioInfoM.samplingFrequency = AUDIO_SAMPLING_FREQUENCY_INVALID;
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audioInfoM.channelMode = AUDIO_CHANNEL_MODE_INVALID;
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ac3InfoM.bitrate = AUDIO_BITRATE_INVALID;
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ac3InfoM.samplingFrequency = AUDIO_SAMPLING_FREQUENCY_INVALID;
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ac3InfoM.bitstreamMode = AUDIO_BITSTREAM_MODE_INVALID;
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ac3InfoM.audioCodingMode = AUDIO_CODING_MODE_INVALID;
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ac3InfoM.dolbySurroundMode = AUDIO_DOLBY_SURROUND_MODE_INVALID;
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ac3InfoM.centerMixLevel = AUDIO_CENTER_MIX_LEVEL_INVALID;
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ac3InfoM.surroundMixLevel = AUDIO_SURROUND_MIX_LEVEL_INVALID;
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ac3InfoM.dialogLevel = 0;
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ac3InfoM.lfe = false;
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}
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cFemonReceiver::~cFemonReceiver(void)
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{
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debug1("%s", __PRETTY_FUNCTION__);
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Deactivate();
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}
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void cFemonReceiver::Deactivate(void)
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{
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debug1("%s", __PRETTY_FUNCTION__);
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Detach();
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if (activeM) {
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activeM = false;
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sleepM.Signal();
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if (Running())
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Cancel(3);
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}
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}
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void cFemonReceiver::Activate(bool onP)
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{
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debug1("%s (%d)", __PRETTY_FUNCTION__, onP);
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if (onP)
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Start();
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else
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Deactivate();
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}
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void cFemonReceiver::Receive(const uchar *dataP, int lengthP)
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{
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// TS packet length: TS_SIZE
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if (Running() && (*dataP == TS_SYNC_BYTE) && (lengthP == TS_SIZE)) {
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int len, pid = TsPid(dataP);
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if (pid == videoPidM) {
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++videoPacketCountM;
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len = videoBufferM.Put(dataP, lengthP);
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if (len != lengthP) {
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videoBufferM.ReportOverflow(lengthP - len);
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videoBufferM.Clear();
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}
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}
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else if (pid == audioPidM) {
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++audioPacketCountM;
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len = audioBufferM.Put(dataP, lengthP);
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if (len != lengthP) {
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audioBufferM.ReportOverflow(lengthP - len);
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audioBufferM.Clear();
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}
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}
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else if (pid == ac3PidM) {
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++ac3PacketCountM;
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len = ac3BufferM.Put(dataP, lengthP);
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if (len != lengthP) {
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ac3BufferM.ReportOverflow(lengthP - len);
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ac3BufferM.Clear();
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}
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}
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}
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}
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void cFemonReceiver::Action(void)
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{
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debug1("%s", __PRETTY_FUNCTION__);
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cTimeMs calcPeriod(0);
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activeM = true;
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while (Running() && activeM) {
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uint8_t *Data;
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double timeout;
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int len, Length;
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bool processed = false;
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// process available video data
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while ((Data = videoBufferM.Get(Length))) {
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if (!activeM || (Length < TS_SIZE))
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break;
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Length = TS_SIZE;
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if (*Data != TS_SYNC_BYTE) {
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for (int i = 1; i < Length; ++i) {
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if (Data[i] == TS_SYNC_BYTE) {
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Length = i;
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break;
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}
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}
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videoBufferM.Del(Length);
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continue;
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}
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processed = true;
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if (TsPayloadStart(Data)) {
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while (const uint8_t *p = videoAssemblerM.GetPes(len)) {
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if (videoTypeM == 0x1B) { // MPEG4
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if (detectH264M.processVideo(p, len)) {
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videoValidM = true;
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break;
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}
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}
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else {
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if (detectMpegM.processVideo(p, len)) {
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videoValidM = true;
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break;
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}
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}
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}
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videoAssemblerM.Reset();
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}
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videoAssemblerM.PutTs(Data, Length);
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videoBufferM.Del(Length);
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}
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// process available audio data
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while ((Data = audioBufferM.Get(Length))) {
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if (!activeM || (Length < TS_SIZE))
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break;
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Length = TS_SIZE;
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if (*Data != TS_SYNC_BYTE) {
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for (int i = 1; i < Length; ++i) {
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if (Data[i] == TS_SYNC_BYTE) {
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Length = i;
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break;
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}
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}
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audioBufferM.Del(Length);
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continue;
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}
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processed = true;
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if (const uint8_t *p = audioAssemblerM.GetPes(len)) {
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if (detectAacM.processAudio(p, len) || detectLatmM.processAudio(p, len) || detectMpegM.processAudio(p, len))
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audioValidM = true;
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audioAssemblerM.Reset();
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}
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audioAssemblerM.PutTs(Data, Length);
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audioBufferM.Del(Length);
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}
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// process available dolby data
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while ((Data = ac3BufferM.Get(Length))) {
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if (!activeM || (Length < TS_SIZE))
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break;
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Length = TS_SIZE;
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if (*Data != TS_SYNC_BYTE) {
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for (int i = 1; i < Length; ++i) {
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if (Data[i] == TS_SYNC_BYTE) {
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Length = i;
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break;
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}
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}
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ac3BufferM.Del(Length);
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continue;
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}
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processed = true;
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if (const uint8_t *p = ac3AssemblerM.GetPes(len)) {
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if (detectAc3M.processAudio(p, len))
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ac3ValidM = true;
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ac3AssemblerM.Reset();
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}
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ac3AssemblerM.PutTs(Data, Length);
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ac3BufferM.Del(Length);
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}
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// calculate bitrates
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timeout = double(calcPeriod.Elapsed());
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if (activeM && (timeout >= (100.0 * FemonConfig.GetCalcInterval()))) {
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// TS packet 188 bytes - 4 byte header; MPEG standard defines 1Mbit = 1000000bit
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// PES headers should be compensated!
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videoBitRateM = (1000.0 * 8.0 * 184.0 * videoPacketCountM) / timeout;
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videoPacketCountM = 0;
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audioBitRateM = (1000.0 * 8.0 * 184.0 * audioPacketCountM) / timeout;
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audioPacketCountM = 0;
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ac3BitRateM = (1000.0 * 8.0 * 184.0 * ac3PacketCountM) / timeout;
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ac3PacketCountM = 0;
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calcPeriod.Set(0);
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}
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if (!processed)
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sleepM.Wait(10); // to avoid busy loop and reduce cpu load
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}
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}
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