/* * Frontend Status Monitor plugin for the Video Disk Recorder * * See the README file for copyright information and how to reach the author. * */ #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include "femonreceiver.h" #include "femonosd.h" #include "femontools.h" static cString getCA(int value) { // http://www.dvb.org/index.php?id=174 // http://en.wikipedia.org/wiki/Conditional_access_system switch (value) { case 0x0000: return cString::sprintf("%s (%X)", trVDR("Free To Air"), value); // Reserved case 0x0001 ... 0x009F: case 0x00A2 ... 0x00FF: return cString::sprintf("%s (%X)", tr("Fixed"), value); // Standardized systems case 0x00A0 ... 0x00A1: return cString::sprintf("%s (%X)", tr("Analog"), value); // Analog signals case 0x0100 ... 0x01FF: return cString::sprintf("SECA Mediaguard (%X)", value); // Canal Plus case 0x0464: return cString::sprintf("EuroDec (%X)", value); // EuroDec case 0x0500 ... 0x05FF: return cString::sprintf("Viaccess (%X)", value); // France Telecom case 0x0600 ... 0x06FF: return cString::sprintf("Irdeto (%X)", value); // Irdeto case 0x0900 ... 0x09FF: return cString::sprintf("NDS Videoguard (%X)", value); // News Datacom case 0x0B00 ... 0x0BFF: return cString::sprintf("Conax (%X)", value); // Norwegian Telekom case 0x0D00 ... 0x0DFF: return cString::sprintf("CryptoWorks (%X)", value); // Philips case 0x0E00 ... 0x0EFF: return cString::sprintf("PowerVu (%X)", value); // Scientific Atlanta case 0x1000: return cString::sprintf("RAS (%X)", value); // Tandberg Television case 0x1200 ... 0x12FF: return cString::sprintf("NagraVision (%X)", value); // BellVu Express case 0x1700 ... 0x17FF: return cString::sprintf("BetaCrypt (%X)", value); // BetaTechnik case 0x1800 ... 0x18FF: return cString::sprintf("NagraVision (%X)", value); // Kudelski SA case 0x22F0: return cString::sprintf("Codicrypt (%X)", value); // Scopus Network Technologies case 0x2600: return cString::sprintf("BISS (%X)", value); // European Broadcasting Union case 0x4347: return cString::sprintf("CryptOn (%X)", value); // CryptOn case 0x4800: return cString::sprintf("Accessgate (%X)", value); // Telemann case 0x4900: return cString::sprintf("China Crypt (%X)", value); // CryptoWorks case 0x4A10: return cString::sprintf("EasyCas (%X)", value); // EasyCas case 0x4A20: return cString::sprintf("AlphaCrypt (%X)", value); // AlphaCrypt case 0x4A70: return cString::sprintf("DreamCrypt (%X)", value); // Dream Multimedia case 0x4A60: return cString::sprintf("SkyCrypt (%X)", value); // @Sky case 0x4A61: return cString::sprintf("Neotioncrypt (%X)", value); // Neotion case 0x4A62: return cString::sprintf("SkyCrypt (%X)", value); // @Sky case 0x4A63: return cString::sprintf("Neotion SHL (%X)", value); // Neotion case 0x4A64 ... 0x4A6F: return cString::sprintf("SkyCrypt (%X)", value); // @Sky case 0x4A80: return cString::sprintf("ThalesCrypt (%X)", value); // TPS case 0x4AA1: return cString::sprintf("KeyFly (%X)", value); // SIDSA case 0x4ABF: return cString::sprintf("DG-Crypt (%X)", value); // Beijing Compunicate Technology Inc. case 0x4AD0 ... 0x4AD1: return cString::sprintf("X-Crypt (%X)", value); // XCrypt Inc. case 0x4AD4: return cString::sprintf("OmniCrypt (%X)", value); // Widevine Technologies, Inc. case 0x4AE0: return cString::sprintf("RossCrypt (%X)", value); // Digi Raum Electronics Co. Ltd. case 0x5500: return cString::sprintf("Z-Crypt (%X)", value); // Digi Raum Electronics Co. Ltd. case 0x5501: return cString::sprintf("Griffin (%X)", value); // Griffin default: break; } return cString::sprintf("%X", value); } static const char *getUserString(int Value, const tDvbParameterMap *Map) { const tDvbParameterMap *map = Map; while (map && map->userValue != -1) { if (map->driverValue == Value) return map->userString ? trVDR(map->userString) : "---"; map++; } return "---"; } cDvbDevice *getDvbDevice(cDevice* device) { cDvbDevice *dev = dynamic_cast(device); #ifdef __DYNAMIC_DEVICE_PROBE if (!dev && device && device->HasSubDevice()) dev = dynamic_cast(device->SubDevice()); #endif return dev; } cString getFrontendInfo(cDvbDevice *device) { struct dvb_frontend_info value; fe_status_t status; cString info = ""; uint16_t signal = 0; uint16_t snr = 0; uint32_t ber = 0; uint32_t unc = 0; cChannel *channel = Channels.GetByNumber(cDevice::CurrentChannel()); if (!device) return info; int fe = open(*cString::sprintf(FRONTEND_DEVICE, device->Adapter(), device->Frontend()), O_RDONLY | O_NONBLOCK); if (fe < 0) return info; info = cString::sprintf("CARD:%d\nSTRG:%d\nQUAL:%d", device->CardIndex(), device->SignalStrength(), device->SignalQuality()); if (ioctl(fe, FE_GET_INFO, &value) >= 0) info = cString::sprintf("%s\nTYPE:%d\nNAME:%s", *info, value.type, *device->DeviceName()); if (ioctl(fe, FE_READ_STATUS, &status) >= 0) info = cString::sprintf("%s\nSTAT:%02X", *info, status); if (ioctl(fe, FE_READ_SIGNAL_STRENGTH, &signal) >= 0) info = cString::sprintf("%s\nSGNL:%04X", *info, signal); if (ioctl(fe, FE_READ_SNR, &snr) >= 0) info = cString::sprintf("%s\nSNRA:%04X", *info, snr); if (ioctl(fe, FE_READ_BER, &ber) >= 0) info = cString::sprintf("%s\nBERA:%08X", *info, ber); if (ioctl(fe, FE_READ_UNCORRECTED_BLOCKS, &unc) >= 0) info = cString::sprintf("%s\nUNCB:%08X", *info, unc); close(fe); if (cFemonOsd::Instance()) info = cString::sprintf("%s\nVIBR:%.0f\nAUBR:%.0f\nDDBR:%.0f", *info, cFemonOsd::Instance()->GetVideoBitrate(), cFemonOsd::Instance()->GetAudioBitrate(), cFemonOsd::Instance()->GetDolbyBitrate()); if (channel) info = cString::sprintf("%s\nCHAN:%s", *info, *channel->ToText()); return info; } cString getFrontendName(cDvbDevice *device) { if (!device) return NULL; return (cString::sprintf("%s on device #%d", *device->DeviceName(), device->CardIndex())); } cString getFrontendStatus(cDvbDevice *device) { fe_status_t value; if (!device) return NULL; int fe = open(*cString::sprintf(FRONTEND_DEVICE, device->Adapter(), device->Frontend()), O_RDONLY | O_NONBLOCK); if (fe < 0) return NULL; memset(&value, 0, sizeof(value)); ioctl(fe, FE_READ_STATUS, &value); close(fe); return (cString::sprintf("Status %s:%s:%s:%s:%s on device #%d", (value & FE_HAS_LOCK) ? "LOCKED" : "-", (value & FE_HAS_SIGNAL) ? "SIGNAL" : "-", (value & FE_HAS_CARRIER) ? "CARRIER" : "-", (value & FE_HAS_VITERBI) ? "VITERBI" : "-", (value & FE_HAS_SYNC) ? "SYNC" : "-", device->CardIndex())); } uint16_t getSignal(cDvbDevice *device) { uint16_t value = 0; if (!device) return (value); int fe = open(*cString::sprintf(FRONTEND_DEVICE, device->Adapter(), device->Frontend()), O_RDONLY | O_NONBLOCK); if (fe < 0) return (value); ioctl(fe, FE_READ_SIGNAL_STRENGTH, &value); close(fe); return (value); } uint16_t getSNR(cDvbDevice *device) { uint16_t value = 0; if (!device) return (value); int fe = open(*cString::sprintf(FRONTEND_DEVICE, device->Adapter(), device->Frontend()), O_RDONLY | O_NONBLOCK); if (fe < 0) return (value); ioctl(fe, FE_READ_SNR, &value); close(fe); return (value); } uint32_t getBER(cDvbDevice *device) { uint32_t value = 0; if (!device) return (value); int fe = open(*cString::sprintf(FRONTEND_DEVICE, device->Adapter(), device->Frontend()), O_RDONLY | O_NONBLOCK); if (fe < 0) return (value); ioctl(fe, FE_READ_BER, &value); close(fe); return (value); } uint32_t getUNC(cDvbDevice *device) { uint32_t value = 0; if (!device) return (value); int fe = open(*cString::sprintf(FRONTEND_DEVICE, device->Adapter(), device->Frontend()), O_RDONLY | O_NONBLOCK); if (fe < 0) return (value); ioctl(fe, FE_READ_UNCORRECTED_BLOCKS, &value); close(fe); return (value); } cString getApids(const cChannel *channel) { int value = 0; cString apids = cString::sprintf("%d", channel->Apid(value)); while (channel->Apid(++value) && (value < MAXAPIDS)) apids = cString::sprintf("%s, %d", *apids, channel->Apid(value)); return apids; } cString getDpids(const cChannel *channel) { int value = 0; cString dpids = cString::sprintf("%d", channel->Dpid(value)); while (channel->Dpid(++value) && (value < MAXDPIDS)) dpids = cString::sprintf("%s, %d", *dpids, channel->Dpid(value)); return dpids; } cString getSpids(const cChannel *channel) { int value = 0; cString spids = cString::sprintf("%d", channel->Spid(value)); while (channel->Spid(++value) && (value < MAXSPIDS)) spids = cString::sprintf("%s, %d", *spids, channel->Spid(value)); return spids; } cString getCAids(const cChannel *channel) { int value = 0; cString caids = cString::sprintf("%s", *getCA(channel->Ca(value))); while (channel->Ca(++value) && (value < MAXCAIDS)) caids = cString::sprintf("%s, %s", *caids, *getCA(channel->Ca(value))); return caids; } cString getVideoStream(int value) { if (value != 0) return cString::sprintf("#%d", value); return cString::sprintf("---"); } cString getAudioStream(int value, const cChannel *channel) { int pid = 0; if (IS_AUDIO_TRACK(value)) pid = int(value - ttAudioFirst); if (channel && channel->Apid(pid)) { if (channel->Alang(pid)) return cString::sprintf("#%d (%s)", channel->Apid(pid), channel->Alang(pid)); else return cString::sprintf("#%d", channel->Apid(pid)); } return cString::sprintf("---"); } cString getAC3Stream(int value, const cChannel *channel) { int pid = 0; if (IS_DOLBY_TRACK(value)) pid = int(value - ttDolbyFirst); if (channel && channel->Dpid(pid)) { if (channel->Dlang(pid)) return cString::sprintf("#%d (%s)", channel->Dpid(pid), channel->Dlang(pid)); else return cString::sprintf("#%d", channel->Dpid(pid)); } return cString::sprintf("---"); } cString getVideoCodec(int value) { switch (value) { case VIDEO_CODEC_MPEG2: return cString::sprintf("%s", tr("MPEG-2")); case VIDEO_CODEC_H264: return cString::sprintf("%s", tr("H.264")); default: break; } return cString::sprintf("---"); } cString getAudioCodec(int value) { switch (value) { case AUDIO_CODEC_MPEG1_I: return cString::sprintf("%s", tr("MPEG-1 Layer I")); case AUDIO_CODEC_MPEG1_II: return cString::sprintf("%s", tr("MPEG-1 Layer II")); case AUDIO_CODEC_MPEG1_III: return cString::sprintf("%s", tr("MPEG-1 Layer III")); case AUDIO_CODEC_MPEG2_I: return cString::sprintf("%s", tr("MPEG-2 Layer I")); case AUDIO_CODEC_MPEG2_II: return cString::sprintf("%s", tr("MPEG-2 Layer II")); case AUDIO_CODEC_MPEG2_III: return cString::sprintf("%s", tr("MPEG-2 Layer III")); case AUDIO_CODEC_HEAAC: return cString::sprintf("%s", tr("HE-AAC")); case AUDIO_CODEC_LATM: return cString::sprintf("%s", tr("LATM")); default: break; } return cString::sprintf("---"); } cString getAudioChannelMode(int value) { switch (value) { case AUDIO_CHANNEL_MODE_STEREO: return cString::sprintf("%s", tr("stereo")); case AUDIO_CHANNEL_MODE_JOINT_STEREO: return cString::sprintf("%s", tr("joint Stereo")); case AUDIO_CHANNEL_MODE_DUAL: return cString::sprintf("%s", tr("dual")); case AUDIO_CHANNEL_MODE_SINGLE: return cString::sprintf("%s", tr("mono")); default: break; } return cString::sprintf("---"); } cString getCoderate(int value) { return cString::sprintf("%s", getUserString(value, CoderateValues)); } cString getTransmission(int value) { return cString::sprintf("%s", getUserString(value, TransmissionValues)); } cString getBandwidth(int value) { return cString::sprintf("%s", getUserString(value, BandwidthValues)); } cString getInversion(int value) { return cString::sprintf("%s", getUserString(value, InversionValues)); } cString getHierarchy(int value) { return cString::sprintf("%s", getUserString(value, HierarchyValues)); } cString getGuard(int value) { return cString::sprintf("%s", getUserString(value, GuardValues)); } cString getModulation(int value) { return cString::sprintf("%s", getUserString(value, ModulationValues)); } cString getTerrestrialSystem(int value) { return cString::sprintf("%s", getUserString(value, SystemValuesTerr)); } cString getSatelliteSystem(int value) { return cString::sprintf("%s", getUserString(value, SystemValuesSat)); } cString getRollOff(int value) { return cString::sprintf("%s", getUserString(value, RollOffValues)); } cString getResolution(int width, int height, int scan) { if ((width > 0) && (height > 0)) { switch (scan) { case VIDEO_SCAN_INTERLACED: return cString::sprintf("%dx%d %s", width, height, tr("interlaced")); case VIDEO_SCAN_PROGRESSIVE: return cString::sprintf("%dx%d %s", width, height, tr("progressive")); default: return cString::sprintf("%dx%d", width, height); } } return cString::sprintf("---"); } cString getAspectRatio(int value) { switch (value) { case VIDEO_ASPECT_RATIO_RESERVED: return cString::sprintf("%s", tr("reserved")); case VIDEO_ASPECT_RATIO_EXTENDED: return cString::sprintf("%s", tr("extended")); case VIDEO_ASPECT_RATIO_1_1: return cString::sprintf("1:1"); case VIDEO_ASPECT_RATIO_4_3: return cString::sprintf("4:3"); case VIDEO_ASPECT_RATIO_16_9: return cString::sprintf("16:9"); case VIDEO_ASPECT_RATIO_2_21_1: return cString::sprintf("2.21:1"); case VIDEO_ASPECT_RATIO_12_11: return cString::sprintf("12:11"); case VIDEO_ASPECT_RATIO_10_11: return cString::sprintf("10:11"); case VIDEO_ASPECT_RATIO_16_11: return cString::sprintf("16:11"); case VIDEO_ASPECT_RATIO_40_33: return cString::sprintf("40:33"); case VIDEO_ASPECT_RATIO_24_11: return cString::sprintf("24:11"); case VIDEO_ASPECT_RATIO_20_11: return cString::sprintf("20:11"); case VIDEO_ASPECT_RATIO_32_11: return cString::sprintf("32:11"); case VIDEO_ASPECT_RATIO_80_33: return cString::sprintf("80:33"); case VIDEO_ASPECT_RATIO_18_11: return cString::sprintf("18:11"); case VIDEO_ASPECT_RATIO_15_11: return cString::sprintf("15:11"); case VIDEO_ASPECT_RATIO_64_33: return cString::sprintf("64:33"); case VIDEO_ASPECT_RATIO_160_99: return cString::sprintf("160:99"); case VIDEO_ASPECT_RATIO_3_2: return cString::sprintf("3:2"); case VIDEO_ASPECT_RATIO_2_1: return cString::sprintf("2:1"); default: break; } return cString::sprintf("---"); } cString getVideoFormat(int value) { switch (value) { case VIDEO_FORMAT_UNKNOWN: return cString::sprintf("%s", tr("unknown")); case VIDEO_FORMAT_RESERVED: return cString::sprintf("%s", tr("reserved")); case VIDEO_FORMAT_COMPONENT: return cString::sprintf("%s", tr("component")); case VIDEO_FORMAT_PAL: return cString::sprintf("%s", tr("PAL")); case VIDEO_FORMAT_NTSC: return cString::sprintf("%s", tr("NTSC")); case VIDEO_FORMAT_SECAM: return cString::sprintf("%s", tr("SECAM")); case VIDEO_FORMAT_MAC: return cString::sprintf("%s", tr("MAC")); default: break; } return cString::sprintf("---"); } cString getFrameRate(double value) { if (value > 0) return cString::sprintf("%.2f %s", value, tr("Hz")); return cString::sprintf("---"); } cString getAC3BitStreamMode(int value, int coding) { switch (value) { case AUDIO_BITSTREAM_MODE_CM: return cString::sprintf("%s", tr("Complete Main (CM)")); case AUDIO_BITSTREAM_MODE_ME: return cString::sprintf("%s", tr("Music and Effects (ME)")); case AUDIO_BITSTREAM_MODE_VI: return cString::sprintf("%s", tr("Visually Impaired (VI)")); case AUDIO_BITSTREAM_MODE_HI: return cString::sprintf("%s", tr("Hearing Impaired (HI)")); case AUDIO_BITSTREAM_MODE_D: return cString::sprintf("%s", tr("Dialogue (D)")); case AUDIO_BITSTREAM_MODE_C: return cString::sprintf("%s", tr("Commentary (C)")); case AUDIO_BITSTREAM_MODE_E: return cString::sprintf("%s", tr("Emergency (E)")); case AUDIO_BITSTREAM_MODE_VO_KAR: return cString::sprintf("%s", (coding == 1) ? tr("Voice Over (VO)") : tr("Karaoke")); default: break; } return cString::sprintf("---"); } cString getAC3AudioCodingMode(int value, int stream) { if (stream != 7) { switch (value) { case AUDIO_CODING_MODE_1_1: return cString::sprintf("1+1 - %s, %s", tr("Ch1"), tr("Ch2")); case AUDIO_CODING_MODE_1_0: return cString::sprintf("1/0 - %s", tr("C")); case AUDIO_CODING_MODE_2_0: return cString::sprintf("2/0 - %s, %s", tr("L"), tr("R")); case AUDIO_CODING_MODE_3_0: return cString::sprintf("3/0 - %s, %s, %s", tr("L"), tr("C"), tr("R")); case AUDIO_CODING_MODE_2_1: return cString::sprintf("2/1 - %s, %s, %s", tr("L"), tr("R"), tr("S")); case AUDIO_CODING_MODE_3_1: return cString::sprintf("3/1 - %s, %s, %s, %s", tr("L"), tr("C"), tr("R"), tr("S")); case AUDIO_CODING_MODE_2_2: return cString::sprintf("2/2 - %s, %s, %s, %s", tr("L"), tr("R"), tr("SL"), tr("SR")); case AUDIO_CODING_MODE_3_2: return cString::sprintf("3/2 - %s, %s, %s, %s, %s", tr("L"), tr("C"), tr("R"), tr("SL"), tr("SR")); default: break; } } return cString::sprintf("---"); } cString getAC3CenterMixLevel(int value) { switch (value) { case AUDIO_CENTER_MIX_LEVEL_MINUS_3dB: return cString::sprintf("-3.0 %s", tr("dB")); case AUDIO_CENTER_MIX_LEVEL_MINUS_4_5dB: return cString::sprintf("-4.5 %s", tr("dB")); case AUDIO_CENTER_MIX_LEVEL_MINUS_6dB: return cString::sprintf("-6.0 %s", tr("dB")); case AUDIO_CENTER_MIX_LEVEL_RESERVED: return cString::sprintf("%s", tr("reserved")); default: break; } return cString::sprintf("---"); } cString getAC3SurroundMixLevel(int value) { switch (value) { case AUDIO_SURROUND_MIX_LEVEL_MINUS_3dB: return cString::sprintf("-3 %s", tr("dB")); case AUDIO_SURROUND_MIX_LEVEL_MINUS_6dB: return cString::sprintf("-6 %s", tr("dB")); case AUDIO_SURROUND_MIX_LEVEL_0_dB: return cString::sprintf("0 %s", tr("dB")); case AUDIO_SURROUND_MIX_LEVEL_RESERVED: return cString::sprintf("%s", tr("reserved")); default: break; } return cString::sprintf("---"); } cString getAC3DolbySurroundMode(int value) { switch (value) { case AUDIO_DOLBY_SURROUND_MODE_NOT_INDICATED: return cString::sprintf("%s", tr("not indicated")); case AUDIO_DOLBY_SURROUND_MODE_NOT_DOLBYSURROUND: return cString::sprintf("%s", trVDR("no")); case AUDIO_DOLBY_SURROUND_MODE_DOLBYSURROUND: return cString::sprintf("%s", trVDR("yes")); case AUDIO_DOLBY_SURROUND_MODE_RESERVED: return cString::sprintf("%s", tr("reserved")); default: break; } return cString::sprintf("---"); } cString getAC3DialogLevel(int value) { if (value > 0) return cString::sprintf("-%d %s", value, tr("dB")); return cString::sprintf("---"); } cString getFrequencyMHz(int value) { while (value > 20000) value /= 1000; return cString::sprintf("%d %s", value, tr("MHz")); } cString getAudioSamplingFreq(int value) { switch (value) { case AUDIO_SAMPLING_FREQUENCY_INVALID: return cString::sprintf("---"); case AUDIO_SAMPLING_FREQUENCY_RESERVED: return cString::sprintf("%s", tr("reserved")); default: break; } return cString::sprintf("%d %s", value, tr("Hz")); } cString getAudioBitrate(double value, double stream) { switch ((int)stream) { case AUDIO_BITRATE_INVALID: return cString::sprintf("---"); case AUDIO_BITRATE_RESERVED: return cString::sprintf("%s (%s)", tr("reserved"), *getBitrateKbits(value)); case AUDIO_BITRATE_FREE: return cString::sprintf("%s (%s)", tr("free"), *getBitrateKbits(value)); default: break; } return cString::sprintf("%s (%s)", *getBitrateKbits(stream), *getBitrateKbits(value)); } cString getVideoBitrate(double value, double stream) { return cString::sprintf("%s (%s)", *getBitrateMbits(stream), *getBitrateMbits(value)); } cString getBitrateMbits(double value) { if (value > 0) return cString::sprintf("%.2f %s", value / 1000000.0, tr("Mbit/s")); return cString::sprintf("---"); } cString getBitrateKbits(double value) { if (value > 0) return cString::sprintf("%.0f %s", value / 1000.0, tr("kbit/s")); return cString::sprintf("---"); } // --- cFemonBitStream ------------------------------------------------------- uint32_t cFemonBitStream::GetUeGolomb() { int n = 0; while (!GetBit() && (n < 32)) n++; return (n ? ((1 << n) - 1) + GetBits(n) : 0); } int32_t cFemonBitStream::GetSeGolomb() { uint32_t r = GetUeGolomb() + 1; return ((r & 1) ? -(r >> 1) : (r >> 1)); } void cFemonBitStream::SkipGolomb() { int n = 0; while (!GetBit() && (n < 32)) n++; SkipBits(n); }