/* * Copyright (C) 2015,2016 Jonathan Naylor, G4KLX * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #include "DMRSlotType.h" #include "DMRShortLC.h" #include "DMRFullLC.h" #include "BPTC19696.h" #include "DMRSlot.h" #include "DMRCSBK.h" #include "Utils.h" #include "Sync.h" #include "CRC.h" #include "Log.h" #include #include #include unsigned int CDMRSlot::m_id = 0U; unsigned int CDMRSlot::m_colorCode = 0U; bool CDMRSlot::m_selfOnly = false; std::vector CDMRSlot::m_prefixes; std::vector CDMRSlot::m_blackList; std::vector CDMRSlot::m_dstBlackListSlot1; std::vector CDMRSlot::m_dstWhiteListSlot1; std::vector CDMRSlot::m_dstBlackListSlot2; std::vector CDMRSlot::m_dstWhiteListSlot2; CModem* CDMRSlot::m_modem = NULL; CDMRIPSC* CDMRSlot::m_network = NULL; CDisplay* CDMRSlot::m_display = NULL; bool CDMRSlot::m_duplex = true; CDMRLookup* CDMRSlot::m_lookup = NULL; unsigned char* CDMRSlot::m_idle = NULL; FLCO CDMRSlot::m_flco1; unsigned char CDMRSlot::m_id1 = 0U; bool CDMRSlot::m_voice1 = true; FLCO CDMRSlot::m_flco2; unsigned char CDMRSlot::m_id2 = 0U; bool CDMRSlot::m_voice2 = true; // #define DUMP_DMR CDMRSlot::CDMRSlot(unsigned int slotNo, unsigned int timeout) : m_slotNo(slotNo), m_queue(5000U, "DMR Slot"), m_rfState(RS_RF_LISTENING), m_netState(RS_NET_IDLE), m_rfEmbeddedLC(), m_netEmbeddedLC(), m_rfLC(NULL), m_netLC(NULL), m_rfDataHeader(), m_netDataHeader(), m_rfSeqNo(0U), m_netSeqNo(0U), m_rfN(0U), m_netN(0U), m_networkWatchdog(1000U, 0U, 1500U), m_rfTimeoutTimer(1000U, timeout), m_netTimeoutTimer(1000U, timeout), m_packetTimer(1000U, 0U, 300U), m_interval(), m_elapsed(), m_rfFrames(0U), m_netFrames(0U), m_netLost(0U), m_fec(), m_rfBits(0U), m_netBits(0U), m_rfErrs(0U), m_netErrs(0U), m_lastFrame(NULL), m_lastEMB(), m_fp(NULL) { m_lastFrame = new unsigned char[DMR_FRAME_LENGTH_BYTES + 2U]; m_interval.start(); } CDMRSlot::~CDMRSlot() { delete[] m_lastFrame; } void CDMRSlot::writeModem(unsigned char *data) { assert(data != NULL); if (data[0U] == TAG_LOST && m_rfState == RS_RF_AUDIO) { if (m_rfBits == 0U) m_rfBits = 1U; LogMessage("DMR Slot %u, RF transmission lost, %.1f seconds, BER: %.1f%%", m_slotNo, float(m_rfFrames) / 16.667F, float(m_rfErrs * 100U) / float(m_rfBits)); writeEndRF(true); return; } if (data[0U] == TAG_LOST && m_rfState == RS_RF_DATA) { LogMessage("DMR Slot %u, RF transmission lost", m_slotNo); writeEndRF(); return; } if (data[0U] == TAG_LOST) { m_rfState = RS_RF_LISTENING; return; } bool dataSync = (data[1U] & DMR_SYNC_DATA) == DMR_SYNC_DATA; bool audioSync = (data[1U] & DMR_SYNC_AUDIO) == DMR_SYNC_AUDIO; if (dataSync) { CDMRSlotType slotType; slotType.putData(data + 2U); unsigned char dataType = slotType.getDataType(); if (dataType == DT_VOICE_LC_HEADER) { if (m_rfState == RS_RF_AUDIO) return; CDMRFullLC fullLC; CDMRLC* lc = fullLC.decode(data + 2U, DT_VOICE_LC_HEADER); if (lc == NULL) return; unsigned int id; unsigned int did; id = lc->getSrcId(); if (!validateId(id)) { LogMessage("DMR Slot %u, invalid access attempt from %u (blacklisted)", m_slotNo, id); delete lc; return; } // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU did = lc->getDstId(); if (DstIdBlacklist(did,m_slotNo)) { LogMessage("DMR Slot %u, invalid access attempt to TG %u (TG blacklisted)", m_slotNo, did); delete lc; return; } did = lc->getDstId(); // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(did,m_slotNo,true)) { LogMessage("DMR Slot %u, invalid access attempt to TG %u (TG not in whitelist)", m_slotNo, did); delete lc; return; } m_rfLC = lc; // Store the LC for the embedded LC m_rfEmbeddedLC.setData(*m_rfLC); // Regenerate the LC data fullLC.encode(*m_rfLC, data + 2U, DT_VOICE_LC_HEADER); // Regenerate the Slot Type slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); data[0U] = TAG_DATA; data[1U] = 0x00U; m_rfTimeoutTimer.start(); m_rfFrames = 0U; m_rfSeqNo = 0U; m_rfBits = 1U; m_rfErrs = 0U; if (m_duplex) { writeQueueRF(data); writeQueueRF(data); writeQueueRF(data); } writeNetworkRF(data, DT_VOICE_LC_HEADER); m_rfState = RS_RF_AUDIO; std::string src = m_lookup->find(id); std::string dst = m_lookup->find(m_rfLC->getDstId()); if (m_netState == RS_NET_IDLE) { setShortLC(m_slotNo, m_rfLC->getDstId(), m_rfLC->getFLCO(), true); m_display->writeDMR(m_slotNo, src, m_rfLC->getFLCO() == FLCO_GROUP, dst, "R"); } LogMessage("DMR Slot %u, received RF voice header from %s to %s%s", m_slotNo, src.c_str(), m_rfLC->getFLCO() == FLCO_GROUP ? "TG " : "", dst.c_str()); } else if (dataType == DT_VOICE_PI_HEADER) { if (m_rfState != RS_RF_AUDIO) return; // Regenerate the Slot Type slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); // Regenerate the payload CBPTC19696 bptc; unsigned char payload[12U]; bptc.decode(data + 2U, payload); bptc.encode(payload, data + 2U); data[0U] = TAG_DATA; data[1U] = 0x00U; if (m_duplex) writeQueueRF(data); writeNetworkRF(data, DT_VOICE_PI_HEADER); } else if (dataType == DT_TERMINATOR_WITH_LC) { if (m_rfState != RS_RF_AUDIO) return; // Regenerate the LC data CDMRFullLC fullLC; fullLC.encode(*m_rfLC, data + 2U, DT_TERMINATOR_WITH_LC); // Regenerate the Slot Type slotType.getData(data + 2U); // Set the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); data[0U] = TAG_EOT; data[1U] = 0x00U; writeNetworkRF(data, DT_TERMINATOR_WITH_LC); writeNetworkRF(data, DT_TERMINATOR_WITH_LC); if (m_duplex) { writeQueueRF(data); writeQueueRF(data); writeQueueRF(data); } if (m_rfBits == 0U) m_rfBits = 1U; LogMessage("DMR Slot %u, received RF end of voice transmission, %.1f seconds, BER: %.1f%%", m_slotNo, float(m_rfFrames) / 16.667F, float(m_rfErrs * 100U) / float(m_rfBits)); writeEndRF(); } else if (dataType == DT_DATA_HEADER) { if (m_rfState == RS_RF_DATA) return; CDMRDataHeader dataHeader; bool valid = dataHeader.put(data + 2U); if (!valid) return; bool gi = dataHeader.getGI(); unsigned int srcId = dataHeader.getSrcId(); unsigned int dstId = dataHeader.getDstId(); if (!validateId(srcId)) { LogMessage("DMR Slot %u, invalid access attempt from %u", m_slotNo, srcId); return; } // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU if (DstIdBlacklist(dstId,m_slotNo)) { LogMessage("DMR Slot %u, invalid access attempt to TG %u (TG blacklisted)", m_slotNo, dstId); return; } // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(dstId,m_slotNo,true)) { LogMessage("DMR Slot %u, invalid access attempt to TG %u (TG not in whitelist)", m_slotNo, dstId); return; } m_rfFrames = dataHeader.getBlocks(); m_rfDataHeader = dataHeader; m_rfSeqNo = 0U; m_rfLC = new CDMRLC(gi ? FLCO_GROUP : FLCO_USER_USER, srcId, dstId); // Regenerate the data header dataHeader.get(data + 2U); // Regenerate the Slot Type slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); data[0U] = m_rfFrames == 0U ? TAG_EOT : TAG_DATA; data[1U] = 0x00U; if (m_duplex) writeQueueRF(data); writeNetworkRF(data, DT_DATA_HEADER); m_rfState = RS_RF_DATA; std::string src = m_lookup->find(srcId); std::string dst = m_lookup->find(dstId); if (m_netState == RS_NET_IDLE) { setShortLC(m_slotNo, dstId, gi ? FLCO_GROUP : FLCO_USER_USER, false); m_display->writeDMR(m_slotNo, src, gi, dst, "R"); } LogMessage("DMR Slot %u, received RF data header from %s to %s%s, %u blocks", m_slotNo, src.c_str(), gi ? "TG ": "", dst.c_str(), m_rfFrames); if (m_rfFrames == 0U) endOfRFData(); } else if (dataType == DT_CSBK) { CDMRCSBK csbk; bool valid = csbk.put(data + 2U); if (!valid) return; CSBKO csbko = csbk.getCSBKO(); if (csbko == CSBKO_BSDWNACT) return; bool gi = csbk.getGI(); unsigned int srcId = csbk.getSrcId(); unsigned int dstId = csbk.getDstId(); if (!validateId(srcId)) { LogMessage("DMR Slot %u, invalid access attempt from %u", m_slotNo, srcId); return; } // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU if (DstIdBlacklist(dstId,m_slotNo)) { LogMessage("DMR Slot %u, invalid access attempt to TG %u (TG blacklisted)", m_slotNo, dstId); return; } // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(dstId,m_slotNo,true)) { LogMessage("DMR Slot %u, invalid access attempt to TG %u (TG not in whitelist)", m_slotNo, dstId); return; } // Regenerate the CSBK data csbk.get(data + 2U); // Regenerate the Slot Type slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); m_rfSeqNo = 0U; data[0U] = TAG_DATA; data[1U] = 0x00U; if (m_duplex) writeQueueRF(data); writeNetworkRF(data, DT_CSBK, gi ? FLCO_GROUP : FLCO_USER_USER, srcId, dstId); std::string src = m_lookup->find(srcId); std::string dst = m_lookup->find(dstId); switch (csbko) { case CSBKO_UUVREQ: LogMessage("DMR Slot %u, received RF Unit to Unit Voice Service Request CSBK from %s to %s%s", m_slotNo, src.c_str(), gi ? "TG ": "", dst.c_str()); break; case CSBKO_UUANSRSP: LogMessage("DMR Slot %u, received RF Unit to Unit Voice Service Answer Response CSBK from %s to %s%s", m_slotNo, src.c_str(), gi ? "TG ": "", dst.c_str()); break; case CSBKO_NACKRSP: LogMessage("DMR Slot %u, received RF Negative Acknowledgment Response CSBK from %s to %s%s", m_slotNo, src.c_str(), gi ? "TG ": "", dst.c_str()); break; case CSBKO_PRECCSBK: LogMessage("DMR Slot %u, received RF Preamble CSBK from %s to %s%s", m_slotNo, src.c_str(), gi ? "TG ": "", dst.c_str()); break; default: LogWarning("DMR Slot %u, unhandled RF CSBK type - 0x%02X", m_slotNo, csbko); break; } } else if (dataType == DT_RATE_12_DATA || dataType == DT_RATE_34_DATA || dataType == DT_RATE_1_DATA) { if (m_rfState != RS_RF_DATA || m_rfFrames == 0U) return; // Regenerate the rate 1/2 payload if (dataType == DT_RATE_12_DATA) { CBPTC19696 bptc; unsigned char payload[12U]; bptc.decode(data + 2U, payload); bptc.encode(payload, data + 2U); } // Regenerate the Slot Type slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); m_rfFrames--; data[0U] = m_rfFrames == 0U ? TAG_EOT : TAG_DATA; data[1U] = 0x00U; if (m_duplex) writeQueueRF(data); writeNetworkRF(data, dataType); if (m_rfFrames == 0U) endOfRFData(); } } else if (audioSync) { if (m_rfState == RS_RF_AUDIO) { // Convert the Audio Sync to be from the BS CSync::addDMRAudioSync(data + 2U); unsigned int errors = 0U; unsigned char fid = m_rfLC->getFID(); if (fid == FID_ETSI || fid == FID_DMRA) { errors = m_fec.regenerateDMR(data + 2U); LogDebug("DMR Slot %u, audio sequence no. 0, errs: %u/141", m_slotNo, errors); m_rfErrs += errors; } m_rfBits += 141U; m_rfFrames++; data[0U] = TAG_DATA; data[1U] = 0x00U; if (m_duplex) writeQueueRF(data); writeNetworkRF(data, DT_VOICE_SYNC, errors); } else if (m_rfState == RS_RF_LISTENING) { m_rfState = RS_RF_LATE_ENTRY; } } else { if (m_rfState == RS_RF_AUDIO) { m_rfN = data[1U] & 0x0FU; // Regenerate the embedded LC unsigned char lcss = m_rfEmbeddedLC.getData(data + 2U, m_rfN); CDMREMB emb; emb.putData(data + 2U); // Regenerate the EMB emb.setColorCode(m_colorCode); emb.setLCSS(lcss); emb.getData(data + 2U); unsigned int errors = 0U; unsigned char fid = m_rfLC->getFID(); if (fid == FID_ETSI || fid == FID_DMRA) { errors = m_fec.regenerateDMR(data + 2U); LogDebug("DMR Slot %u, audio sequence no. %u, errs: %u/141", m_slotNo, m_rfN, errors); m_rfErrs += errors; } m_rfBits += 141U; m_rfFrames++; data[0U] = TAG_DATA; data[1U] = 0x00U; if (m_duplex) writeQueueRF(data); writeNetworkRF(data, DT_VOICE, errors); } else if (m_rfState == RS_RF_LATE_ENTRY) { CDMREMB emb; emb.putData(data + 2U); // If we haven't received an LC yet, then be strict on the color code unsigned char colorCode = emb.getColorCode(); if (colorCode != m_colorCode) return; CDMRLC* lc = m_rfEmbeddedLC.addData(data + 2U, emb.getLCSS()); if (lc != NULL) { unsigned int id = lc->getSrcId(); if (!validateId(id)) { LogMessage("DMR Slot %u, invalid access attempt from %u", m_slotNo, id); delete lc; return; } // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU unsigned int did; did = lc->getDstId(); if (DstIdBlacklist(did,m_slotNo)) { LogMessage("DMR Slot %u, invalid access attempt to TG %u (TG blacklisted)", m_slotNo, did); delete lc; return; } did = lc->getDstId(); // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(did,m_slotNo,true)) { LogMessage("DMR Slot %u, invalid access attempt to TG %u (TG not in whitelist)", m_slotNo, did); delete lc; return; } m_rfLC = lc; // Store the LC for the embedded LC m_rfEmbeddedLC.setData(*m_rfLC); // Create a dummy start frame to replace the received frame unsigned char start[DMR_FRAME_LENGTH_BYTES + 2U]; CSync::addDMRDataSync(data + 2U); CDMRFullLC fullLC; fullLC.encode(*m_rfLC, start + 2U, DT_VOICE_LC_HEADER); CDMRSlotType slotType; slotType.setColorCode(m_colorCode); slotType.setDataType(DT_VOICE_LC_HEADER); slotType.getData(start + 2U); start[0U] = TAG_DATA; start[1U] = 0x00U; m_rfTimeoutTimer.start(); m_rfFrames = 0U; m_rfSeqNo = 0U; m_rfBits = 1U; m_rfErrs = 0U; if (m_duplex) { writeQueueRF(start); writeQueueRF(start); writeQueueRF(start); } writeNetworkRF(start, DT_VOICE_LC_HEADER); m_rfN = data[1U] & 0x0FU; // Regenerate the embedded LC unsigned char lcss = m_rfEmbeddedLC.getData(data + 2U, m_rfN); // Regenerate the EMB emb.setLCSS(lcss); emb.getData(data + 2U); // Send the original audio frame out unsigned int errors = 0U; unsigned char fid = m_rfLC->getFID(); if (fid == FID_ETSI || fid == FID_DMRA) { errors = m_fec.regenerateDMR(data + 2U); LogDebug("DMR Slot %u, audio sequence no. %u, errs: %u/141", m_slotNo, m_rfN, errors); m_rfErrs += errors; } m_rfBits += 141U; m_rfFrames++; data[0U] = TAG_DATA; data[1U] = 0x00U; if (m_duplex) writeQueueRF(data); writeNetworkRF(data, DT_VOICE, errors); m_rfState = RS_RF_AUDIO; std::string src = m_lookup->find(m_rfLC->getSrcId()); std::string dst = m_lookup->find(m_rfLC->getDstId()); if (m_netState == RS_NET_IDLE) { setShortLC(m_slotNo, m_rfLC->getDstId(), m_rfLC->getFLCO(), true); m_display->writeDMR(m_slotNo, src, m_rfLC->getFLCO() == FLCO_GROUP, dst, "R"); } LogMessage("DMR Slot %u, received RF late entry from %s to %s%s", m_slotNo, src.c_str(), m_rfLC->getFLCO() == FLCO_GROUP ? "TG " : "", dst.c_str()); } } } } unsigned int CDMRSlot::readModem(unsigned char* data) { assert(data != NULL); if (m_queue.isEmpty()) return 0U; unsigned char len = 0U; m_queue.getData(&len, 1U); m_queue.getData(data, len); return len; } void CDMRSlot::endOfRFData() { LogMessage("DMR Slot %u, ended RF data transmission", m_slotNo); if (m_duplex) { unsigned char bytes[DMR_FRAME_LENGTH_BYTES + 2U]; CSync::addDMRDataSync(bytes + 2U); CDMRSlotType slotType; slotType.setDataType(DT_TERMINATOR_WITH_LC); slotType.setColorCode(m_colorCode); slotType.getData(bytes + 2U); m_rfDataHeader.getTerminator(bytes + 2U); bytes[0U] = TAG_EOT; bytes[1U] = 0x00U; writeQueueRF(bytes); writeQueueRF(bytes); writeQueueRF(bytes); } writeEndRF(); } void CDMRSlot::writeEndRF(bool writeEnd) { m_rfState = RS_RF_LISTENING; if (m_netState == RS_NET_IDLE) { setShortLC(m_slotNo, 0U); m_display->clearDMR(m_slotNo); } m_rfTimeoutTimer.stop(); m_rfFrames = 0U; m_rfErrs = 0U; m_rfBits = 0U; if (writeEnd) { if (m_netState == RS_NET_IDLE && m_duplex) { // Create a dummy start end frame unsigned char data[DMR_FRAME_LENGTH_BYTES + 2U]; CSync::addDMRDataSync(data + 2U); CDMRFullLC fullLC; fullLC.encode(*m_rfLC, data + 2U, DT_TERMINATOR_WITH_LC); CDMRSlotType slotType; slotType.setColorCode(m_colorCode); slotType.setDataType(DT_TERMINATOR_WITH_LC); slotType.getData(data + 2U); data[0U] = TAG_EOT; data[1U] = 0x00U; writeQueueRF(data); writeQueueRF(data); writeQueueRF(data); } } delete m_rfLC; m_rfLC = NULL; } void CDMRSlot::endOfNetData() { LogMessage("DMR Slot %u, ended network data transmission", m_slotNo); if (m_duplex) { unsigned char bytes[DMR_FRAME_LENGTH_BYTES + 2U]; CSync::addDMRDataSync(bytes + 2U); CDMRSlotType slotType; slotType.setDataType(DT_TERMINATOR_WITH_LC); slotType.setColorCode(m_colorCode); slotType.getData(bytes + 2U); m_netDataHeader.getTerminator(bytes + 2U); bytes[0U] = TAG_EOT; bytes[1U] = 0x00U; writeQueueNet(bytes); writeQueueNet(bytes); writeQueueNet(bytes); } writeEndNet(); } void CDMRSlot::writeEndNet(bool writeEnd) { m_netState = RS_NET_IDLE; setShortLC(m_slotNo, 0U); m_display->clearDMR(m_slotNo); m_networkWatchdog.stop(); m_netTimeoutTimer.stop(); m_packetTimer.stop(); m_netFrames = 0U; m_netLost = 0U; m_netErrs = 0U; m_netBits = 0U; if (writeEnd) { // Create a dummy start end frame unsigned char data[DMR_FRAME_LENGTH_BYTES + 2U]; CSync::addDMRDataSync(data + 2U); CDMRFullLC fullLC; fullLC.encode(*m_netLC, data + 2U, DT_TERMINATOR_WITH_LC); CDMRSlotType slotType; slotType.setColorCode(m_colorCode); slotType.setDataType(DT_TERMINATOR_WITH_LC); slotType.getData(data + 2U); data[0U] = TAG_EOT; data[1U] = 0x00U; writeQueueNet(data); writeQueueNet(data); writeQueueNet(data); } delete m_netLC; m_netLC = NULL; #if defined(DUMP_DMR) closeFile(); #endif } //add void CDMRSlot::writeNetwork (const CDMRData& dmrData) { if (m_rfState != RS_RF_LISTENING && m_netState == RS_NET_IDLE) return; m_networkWatchdog.start(); unsigned char dataType = dmrData.getDataType(); unsigned char data[DMR_FRAME_LENGTH_BYTES + 2U]; dmrData.getData(data + 2U); if (dataType == DT_VOICE_LC_HEADER) { if (m_netState == RS_NET_AUDIO) return; CDMRFullLC fullLC; m_netLC = fullLC.decode(data + 2U, DT_VOICE_LC_HEADER); if (m_netLC == NULL) { LogMessage("DMR Slot %u, bad LC received from the network", m_slotNo); return; } // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU unsigned int did; did = m_netLC->getDstId(); if (DstIdBlacklist(did,m_slotNo)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG blacklisted) dataType: %s", m_slotNo, did,dataType); return; } // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(did,m_slotNo,true)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG not in whitelist) dataType: %s", m_slotNo, did,dataType); return; } // Store the LC for the embedded LC m_netEmbeddedLC.setData(*m_netLC); // Regenerate the LC data fullLC.encode(*m_netLC, data + 2U, DT_VOICE_LC_HEADER); // Regenerate the Slot Type CDMRSlotType slotType; slotType.setColorCode(m_colorCode); slotType.setDataType(DT_VOICE_LC_HEADER); slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); data[0U] = TAG_DATA; data[1U] = 0x00U; m_netTimeoutTimer.start(); m_netFrames = 0U; m_netLost = 0U; m_netBits = 1U; m_netErrs = 0U; writeQueueNet(m_idle); writeQueueNet(m_idle); writeQueueNet(m_idle); writeQueueNet(m_idle); writeQueueNet(data); writeQueueNet(data); writeQueueNet(data); m_netState = RS_NET_AUDIO; setShortLC(m_slotNo, m_netLC->getDstId(), m_netLC->getFLCO(), true); std::string src = m_lookup->find(m_netLC->getSrcId()); std::string dst = m_lookup->find(m_netLC->getDstId()); m_display->writeDMR(m_slotNo, src, m_netLC->getFLCO() == FLCO_GROUP, dst, "N"); #if defined(DUMP_DMR) openFile(); writeFile(data); #endif LogMessage("DMR Slot %u, received network voice header from %s to %s%s", m_slotNo, src.c_str(), m_netLC->getFLCO() == FLCO_GROUP ? "TG " : "", dst.c_str()); } else if (dataType == DT_VOICE_PI_HEADER) { if (m_netState != RS_NET_AUDIO) return; // Regenerate the Slot Type CDMRSlotType slotType; slotType.setColorCode(m_colorCode); slotType.setDataType(DT_VOICE_PI_HEADER); slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); // Regenerate the payload CBPTC19696 bptc; unsigned char payload[12U]; bptc.decode(data + 2U, payload); bptc.encode(payload, data + 2U); data[0U] = TAG_DATA; data[1U] = 0x00U; // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU unsigned int did; did = m_netLC->getDstId(); if (DstIdBlacklist(did,m_slotNo)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG blacklisted) dataType: %s", m_slotNo, did,dataType); return; } // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(did,m_slotNo,true)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG not in whitelist) dataType: %s", m_slotNo, did,dataType); return; } writeQueueNet(data); #if defined(DUMP_DMR) writeFile(data); #endif } else if (dataType == DT_TERMINATOR_WITH_LC) { if (m_netState != RS_NET_AUDIO) return; // Regenerate the LC data CDMRFullLC fullLC; fullLC.encode(*m_netLC, data + 2U, DT_TERMINATOR_WITH_LC); // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU unsigned int did; did = m_netLC->getDstId(); if (DstIdBlacklist(did,m_slotNo)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG blacklisted) dataType: %s", m_slotNo, did,dataType); return; } // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(did,m_slotNo,true)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG not in whitelist) dataType: %s", m_slotNo, did,dataType); return; } // Regenerate the Slot Type CDMRSlotType slotType; slotType.setColorCode(m_colorCode); slotType.setDataType(DT_TERMINATOR_WITH_LC); slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); data[0U] = TAG_EOT; data[1U] = 0x00U; writeQueueNet(data); writeQueueNet(data); writeQueueNet(data); #if defined(DUMP_DMR) writeFile(data); closeFile(); #endif // We've received the voice header and terminator haven't we? m_netFrames += 2U; if (m_netBits == 0U) m_netBits = 1U; LogMessage("DMR Slot %u, received network end of voice transmission, %.1f seconds, %u%% packet loss, BER: %.1f%%", m_slotNo, float(m_netFrames) / 16.667F, (m_netLost * 100U) / m_netFrames, float(m_netErrs * 100U) / float(m_netBits)); writeEndNet(); } else if (dataType == DT_DATA_HEADER) { if (m_netState == RS_NET_DATA) return; CDMRDataHeader dataHeader; bool valid = dataHeader.put(data + 2U); if (!valid) { LogMessage("DMR Slot %u, unable to decode the network data header", m_slotNo); return; } m_netFrames = dataHeader.getBlocks(); m_netDataHeader = dataHeader; bool gi = dataHeader.getGI(); unsigned int srcId = dataHeader.getSrcId(); unsigned int dstId = dataHeader.getDstId(); m_netLC = new CDMRLC(gi ? FLCO_GROUP : FLCO_USER_USER, srcId, dstId); // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU unsigned int did; did = m_netLC->getDstId(); if (DstIdBlacklist(did,m_slotNo)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG blacklisted) dataType: %s", m_slotNo, did,dataType); return; } // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(did,m_slotNo,true)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG not in whitelist) dataType: %s", m_slotNo, did,dataType); return; } // Regenerate the data header dataHeader.get(data + 2U); // Regenerate the Slot Type CDMRSlotType slotType; slotType.setColorCode(m_colorCode); slotType.setDataType(DT_DATA_HEADER); slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); data[0U] = m_netFrames == 0U ? TAG_EOT : TAG_DATA; data[1U] = 0x00U; // Put a small delay into starting transmission writeQueueNet(m_idle); writeQueueNet(m_idle); writeQueueNet(data); m_netState = RS_NET_DATA; setShortLC(m_slotNo, dstId, gi ? FLCO_GROUP : FLCO_USER_USER, false); std::string src = m_lookup->find(srcId); std::string dst = m_lookup->find(dstId); m_display->writeDMR(m_slotNo, src, gi, dst, "N"); LogMessage("DMR Slot %u, received network data header from %s to %s%s, %u blocks", m_slotNo, src.c_str(), gi ? "TG ": "", dst.c_str(), m_netFrames); if (m_netFrames == 0U) endOfNetData(); } else if (dataType == DT_VOICE_SYNC) { if (m_netState == RS_NET_IDLE) { m_netLC = new CDMRLC(dmrData.getFLCO(), dmrData.getSrcId(), dmrData.getDstId()); // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU unsigned int did; did = m_netLC->getDstId(); if (DstIdBlacklist(did,m_slotNo)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG blacklisted) dataType: %s", m_slotNo, did,dataType); return; } // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(did,m_slotNo,true)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG not in whitelist) dataType: %s", m_slotNo, did,dataType); return; } m_netTimeoutTimer.start(); writeQueueNet(m_idle); writeQueueNet(m_idle); writeQueueNet(m_idle); writeQueueNet(m_idle); // Create a dummy start frame unsigned char start[DMR_FRAME_LENGTH_BYTES + 2U]; CSync::addDMRDataSync(start + 2U); CDMRFullLC fullLC; fullLC.encode(*m_netLC, start + 2U, DT_VOICE_LC_HEADER); CDMRSlotType slotType; slotType.setColorCode(m_colorCode); slotType.setDataType(DT_VOICE_LC_HEADER); slotType.getData(start + 2U); start[0U] = TAG_DATA; start[1U] = 0x00U; writeQueueRF(start); writeQueueRF(start); writeQueueRF(start); #if defined(DUMP_DMR) openFile(); #endif m_netFrames = 0U; m_netLost = 0U; m_netBits = 1U; m_netErrs = 0U; m_netState = RS_NET_AUDIO; setShortLC(m_slotNo, m_netLC->getDstId(), m_netLC->getFLCO(), true); std::string src = m_lookup->find(m_netLC->getSrcId()); std::string dst = m_lookup->find(m_netLC->getDstId()); m_display->writeDMR(m_slotNo, src, m_netLC->getFLCO() == FLCO_GROUP, dst, "N"); LogMessage("DMR Slot %u, received network late entry from %s to %s%s", m_slotNo, src.c_str(), m_netLC->getFLCO() == FLCO_GROUP ? "TG " : "", dst.c_str()); } if (m_netState == RS_NET_AUDIO) { unsigned char fid = m_netLC->getFID(); if (fid == FID_ETSI || fid == FID_DMRA) m_netErrs += m_fec.regenerateDMR(data + 2U); m_netBits += 141U; data[0U] = TAG_DATA; data[1U] = 0x00U; // Initialise the lost packet data if (m_netFrames == 0U) { ::memcpy(m_lastFrame, data, DMR_FRAME_LENGTH_BYTES + 2U); m_netSeqNo = dmrData.getSeqNo(); m_netN = dmrData.getN(); m_elapsed.start(); m_netLost = 0U; } else { insertSilence(data, dmrData.getSeqNo()); } // Convert the Audio Sync to be from the BS CSync::addDMRAudioSync(data + 2U); writeQueueNet(data); m_packetTimer.start(); m_netFrames++; // Save details in case we need to infill data m_netSeqNo = dmrData.getSeqNo(); m_netN = dmrData.getN(); #if defined(DUMP_DMR) writeFile(data); #endif } } else if (dataType == DT_VOICE) { if (m_netState != RS_NET_AUDIO) return; // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU unsigned int did; did = m_netLC->getDstId(); if (DstIdBlacklist(did,m_slotNo)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG blacklisted) dataType: %s", m_slotNo, did,dataType); return; } // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(did,m_slotNo,true)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG not in whitelist) dataType: %s", m_slotNo, did,dataType); return; } unsigned char fid = m_netLC->getFID(); if (fid == FID_ETSI || fid == FID_DMRA) m_netErrs += m_fec.regenerateDMR(data + 2U); m_netBits += 141U; // Regenerate the embedded LC unsigned char lcss = m_netEmbeddedLC.getData(data + 2U, dmrData.getN()); // Change the color code in the EMB m_lastEMB.putData(data + 2U); m_lastEMB.setColorCode(m_colorCode); m_lastEMB.setLCSS(lcss); m_lastEMB.getData(data + 2U); data[0U] = TAG_DATA; data[1U] = 0x00U; // Initialise the lost packet data if (m_netFrames == 0U) { ::memcpy(m_lastFrame, data, DMR_FRAME_LENGTH_BYTES + 2U); m_netSeqNo = dmrData.getSeqNo(); m_netN = dmrData.getN(); m_elapsed.start(); m_netLost = 0U; } else { insertSilence(data, dmrData.getSeqNo()); } writeQueueNet(data); m_packetTimer.start(); m_netFrames++; // Save details in case we need to infill data m_netSeqNo = dmrData.getSeqNo(); m_netN = dmrData.getN(); #if defined(DUMP_DMR) writeFile(data); #endif } else if (dataType == DT_CSBK) { CDMRCSBK csbk; bool valid = csbk.put(data + 2U); if (!valid) { LogMessage("DMR Slot %u, unable to decode the network CSBK", m_slotNo); return; } CSBKO csbko = csbk.getCSBKO(); if (csbko == CSBKO_BSDWNACT) return; bool gi = csbk.getGI(); unsigned int srcId = csbk.getSrcId(); unsigned int dstId = csbk.getDstId(); // add check for valid dst id (e.g. TG) //AKA - the BlockTheNet modification ;-) // - G7RZU unsigned int did; did = dstId; if (DstIdBlacklist(did,m_slotNo)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG blacklisted) dataType: %s", m_slotNo, did,dataType); return; } // true sets allow greater than 4k. Need to add boolean in conf for this later. if (!DstIdWhitelist(did,m_slotNo,true)) { LogMessage("DMR Network Slot %u, invalid traffic to TG %u (TG not in whitelist) dataType: %s", m_slotNo, did,dataType); return; } // Regenerate the CSBK data csbk.get(data + 2U); // Regenerate the Slot Type CDMRSlotType slotType; slotType.putData(data + 2U); slotType.setColorCode(m_colorCode); slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); data[0U] = TAG_DATA; data[1U] = 0x00U; writeQueueNet(data); #if defined(DUMP_DMR) openFile(); writeFile(data); closeFile(); #endif std::string src = m_lookup->find(srcId); std::string dst = m_lookup->find(dstId); switch (csbko) { case CSBKO_UUVREQ: LogMessage("DMR Slot %u, received network Unit to Unit Voice Service Request CSBK from %s to %s%s", m_slotNo, src.c_str(), gi ? "TG ": "", dst.c_str()); break; case CSBKO_UUANSRSP: LogMessage("DMR Slot %u, received network Unit to Unit Voice Service Answer Response CSBK from %s to %s%s", m_slotNo, src.c_str(), gi ? "TG ": "", dst.c_str()); break; case CSBKO_NACKRSP: LogMessage("DMR Slot %u, received network Negative Acknowledgment Response CSBK from %s to %s%s", m_slotNo, src.c_str(), gi ? "TG ": "", dst.c_str()); break; case CSBKO_PRECCSBK: LogMessage("DMR Slot %u, received network Preamble CSBK from %s to %s%s", m_slotNo, src.c_str(), gi ? "TG ": "", dst.c_str()); break; default: LogWarning("DMR Slot %u, unhandled network CSBK type - 0x%02X", m_slotNo, csbko); break; } } else if (dataType == DT_RATE_12_DATA || dataType == DT_RATE_34_DATA || dataType == DT_RATE_1_DATA) { if (m_netState != RS_NET_DATA || m_netFrames == 0U) return; // Regenerate the rate 1/2 payload if (dataType == DT_RATE_12_DATA) { CBPTC19696 bptc; unsigned char payload[12U]; bptc.decode(data + 2U, payload); bptc.encode(payload, data + 2U); } // Regenerate the Slot Type CDMRSlotType slotType; slotType.putData(data + 2U); slotType.setColorCode(m_colorCode); slotType.getData(data + 2U); // Convert the Data Sync to be from the BS CSync::addDMRDataSync(data + 2U); m_netFrames--; data[0U] = m_netFrames == 0U ? TAG_EOT : TAG_DATA; data[1U] = 0x00U; #if defined(DUMP_DMR) writeFile(data); #endif writeQueueNet(data); if (m_netFrames == 0U) endOfNetData(); } else { // Unhandled data type LogWarning("DMR Slot %u, unhandled network data type - 0x%02X", m_slotNo, dataType); } } void CDMRSlot::clock() { unsigned int ms = m_interval.elapsed(); m_interval.start(); m_rfTimeoutTimer.clock(ms); m_netTimeoutTimer.clock(ms); if (m_netState == RS_NET_AUDIO || m_netState == RS_NET_DATA) { m_networkWatchdog.clock(ms); if (m_networkWatchdog.hasExpired()) { if (m_netState == RS_NET_AUDIO) { // We've received the voice header haven't we? m_netFrames += 1U; if (m_netBits == 0U) m_netBits = 1U; LogMessage("DMR Slot %u, network watchdog has expired, %.1f seconds, %u%% packet loss, BER: %.1f%%", m_slotNo, float(m_netFrames) / 16.667F, (m_netLost * 100U) / m_netFrames, float(m_netErrs * 100U) / float(m_netBits)); writeEndNet(true); #if defined(DUMP_DMR) closeFile(); #endif } else { LogMessage("DMR Slot %u, network watchdog has expired", m_slotNo); writeEndNet(); #if defined(DUMP_DMR) closeFile(); #endif } } } if (m_netState == RS_NET_AUDIO) { m_packetTimer.clock(ms); if (m_packetTimer.isRunning() && m_packetTimer.hasExpired()) { unsigned int elapsed = m_elapsed.elapsed(); unsigned int frames = elapsed / DMR_SLOT_TIME; if (frames > m_netFrames) { unsigned int count = frames - m_netFrames; if (count > 3U) { LogDebug("DMR Slot %u, lost audio for 300ms filling in, elapsed: %ums, expected: %u, received: %u", m_slotNo, elapsed, frames, m_netFrames); insertSilence(count - 1U); } } m_packetTimer.start(); } } } void CDMRSlot::writeQueueRF(const unsigned char *data) { assert(data != NULL); if (m_netState != RS_NET_IDLE) return; unsigned char len = DMR_FRAME_LENGTH_BYTES + 2U; unsigned int space = m_queue.freeSpace(); if (space < (len + 1U)) { LogError("DMR Slot %u, overflow in the DMR slot RF queue", m_slotNo); return; } m_queue.addData(&len, 1U); // If the timeout has expired, replace the audio with idles to keep the slot busy if (m_rfTimeoutTimer.isRunning() && m_rfTimeoutTimer.hasExpired()) m_queue.addData(m_idle, len); else m_queue.addData(data, len); } void CDMRSlot::writeNetworkRF(const unsigned char* data, unsigned char dataType, FLCO flco, unsigned int srcId, unsigned int dstId, unsigned char errors) { assert(data != NULL); if (m_netState != RS_NET_IDLE) return; if (m_network == NULL) return; // Don't send to the network if the timeout has expired if (m_rfTimeoutTimer.isRunning() && m_rfTimeoutTimer.hasExpired()) return; CDMRData dmrData; dmrData.setSlotNo(m_slotNo); dmrData.setDataType(dataType); dmrData.setSrcId(srcId); dmrData.setDstId(dstId); dmrData.setFLCO(flco); dmrData.setN(m_rfN); dmrData.setSeqNo(m_rfSeqNo); dmrData.setBER(errors); m_rfSeqNo++; dmrData.setData(data + 2U); m_network->write(dmrData); } void CDMRSlot::writeNetworkRF(const unsigned char* data, unsigned char dataType, unsigned char errors) { assert(data != NULL); assert(m_rfLC != NULL); writeNetworkRF(data, dataType, m_rfLC->getFLCO(), m_rfLC->getSrcId(), m_rfLC->getDstId(), errors); } void CDMRSlot::writeQueueNet(const unsigned char *data) { assert(data != NULL); unsigned char len = DMR_FRAME_LENGTH_BYTES + 2U; unsigned int space = m_queue.freeSpace(); if (space < (len + 1U)) { LogError("DMR Slot %u, overflow in the DMR slot RF queue", m_slotNo); return; } m_queue.addData(&len, 1U); // If the timeout has expired, replace the audio with idles to keep the slot busy if (m_netTimeoutTimer.isRunning() && m_netTimeoutTimer.hasExpired()) m_queue.addData(m_idle, len); else m_queue.addData(data, len); } void CDMRSlot::init(unsigned int id, unsigned int colorCode, bool selfOnly, const std::vector& prefixes, const std::vector& blackList, const std::vector& DstIdBlacklistSlot1, const std::vector& DstIdWhitelistSlot1, const std::vector& DstIdBlacklistSlot2, const std::vector& DstIdWhitelistSlot2, CModem* modem, CDMRIPSC* network, CDisplay* display, bool duplex, CDMRLookup* lookup) { assert(id != 0U); assert(modem != NULL); assert(display != NULL); assert(lookup != NULL); m_id = id; m_colorCode = colorCode; m_selfOnly = selfOnly; m_prefixes = prefixes; m_blackList = blackList; m_dstBlackListSlot1 = DstIdBlacklistSlot1; m_dstWhiteListSlot1 = DstIdWhitelistSlot1; m_dstBlackListSlot2 = DstIdBlacklistSlot2; m_dstWhiteListSlot2 = DstIdWhitelistSlot2; m_modem = modem; m_network = network; m_display = display; m_duplex = duplex; m_lookup = lookup; m_idle = new unsigned char[DMR_FRAME_LENGTH_BYTES + 2U]; ::memcpy(m_idle, DMR_IDLE_DATA, DMR_FRAME_LENGTH_BYTES + 2U); // Generate the Slot Type for the Idle frame CDMRSlotType slotType; slotType.setColorCode(colorCode); slotType.setDataType(DT_IDLE); slotType.getData(m_idle + 2U); } bool CDMRSlot::validateId(unsigned int id) { if (m_selfOnly) { return id == m_id; } else { if (std::find(m_blackList.begin(), m_blackList.end(), id) != m_blackList.end()) return false; unsigned int prefix = id / 10000U; if (prefix == 0U || prefix > 999U) return false; if (m_prefixes.size() == 0U) return true; return std::find(m_prefixes.begin(), m_prefixes.end(), prefix) != m_prefixes.end(); } } //is dst id blacklisted? bool CDMRSlot::DstIdBlacklist(unsigned int did, unsigned int slot) { if (slot == 1) { if (std::find(m_dstBlackListSlot1.begin(), m_dstBlackListSlot1.end(), did) != m_dstBlackListSlot1.end()) return true; } else { if (std::find(m_dstBlackListSlot2.begin(), m_dstBlackListSlot2.end(), did) != m_dstBlackListSlot2.end()) return true; } return false; } bool CDMRSlot::DstIdWhitelist(unsigned int did, unsigned int slot, bool gt4k) { if (slot == 1) { if(m_dstWhiteListSlot1.size() == 0) return true; // No reflectors on slot1, so we only allow all IDs over 10000 unless specifically whitelisted if(gt4k) { if (std::find(m_dstWhiteListSlot1.begin(), m_dstWhiteListSlot1.end(), did) != m_dstWhiteListSlot1.end() || did >= 10000) { return true; } } else { if (std::find(m_dstWhiteListSlot1.begin(), m_dstWhiteListSlot1.end(), did) != m_dstWhiteListSlot1.end()) return true; } } else { if(m_dstWhiteListSlot2.size() == 0) return true; //On slot2 we allow reflector control IDs, but not secondary TG IDs unless specifically listed if(gt4k) { if (std::find(m_dstWhiteListSlot2.begin(), m_dstWhiteListSlot2.end(), did) != m_dstWhiteListSlot2.end() || did >= 4000) { //if dstId in secondary TG range if(did > 5000 && did < 10000) return false; return true; } } else { if (std::find(m_dstWhiteListSlot2.begin(), m_dstWhiteListSlot2.end(), did) != m_dstWhiteListSlot2.end()) return true; } } return false; } void CDMRSlot::setShortLC(unsigned int slotNo, unsigned int id, FLCO flco, bool voice) { assert(m_modem != NULL); switch (slotNo) { case 1U: m_id1 = 0U; m_flco1 = flco; m_voice1 = voice; if (id != 0U) { unsigned char buffer[3U]; buffer[0U] = (id << 16) & 0xFFU; buffer[1U] = (id << 8) & 0xFFU; buffer[2U] = (id << 0) & 0xFFU; m_id1 = CCRC::crc8(buffer, 3U); } break; case 2U: m_id2 = 0U; m_flco2 = flco; m_voice2 = voice; if (id != 0U) { unsigned char buffer[3U]; buffer[0U] = (id << 16) & 0xFFU; buffer[1U] = (id << 8) & 0xFFU; buffer[2U] = (id << 0) & 0xFFU; m_id2 = CCRC::crc8(buffer, 3U); } break; default: LogError("Invalid slot number passed to setShortLC - %u", slotNo); return; } unsigned char lc[5U]; lc[0U] = 0x01U; lc[1U] = 0x00U; lc[2U] = 0x00U; lc[3U] = 0x00U; if (m_id1 != 0U) { lc[2U] = m_id1; if (m_voice1) { if (m_flco1 == FLCO_GROUP) lc[1U] |= 0x80U; else lc[1U] |= 0x90U; } else { if (m_flco1 == FLCO_GROUP) lc[1U] |= 0xB0U; else lc[1U] |= 0xA0U; } } if (m_id2 != 0U) { lc[3U] = m_id2; if (m_voice2) { if (m_flco2 == FLCO_GROUP) lc[1U] |= 0x08U; else lc[1U] |= 0x09U; } else { if (m_flco2 == FLCO_GROUP) lc[1U] |= 0x0BU; else lc[1U] |= 0x0AU; } } lc[4U] = CCRC::crc8(lc, 4U); unsigned char sLC[9U]; CDMRShortLC shortLC; shortLC.encode(lc, sLC); m_modem->writeDMRShortLC(sLC); } bool CDMRSlot::openFile() { if (m_fp != NULL) return true; time_t t; ::time(&t); struct tm* tm = ::localtime(&t); char name[100U]; ::sprintf(name, "DMR_%u_%04d%02d%02d_%02d%02d%02d.ambe", m_slotNo, tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday, tm->tm_hour, tm->tm_min, tm->tm_sec); m_fp = ::fopen(name, "wb"); if (m_fp == NULL) return false; ::fwrite("DMR", 1U, 3U, m_fp); return true; } bool CDMRSlot::writeFile(const unsigned char* data) { if (m_fp == NULL) return false; ::fwrite(data, 1U, DMR_FRAME_LENGTH_BYTES + 2U, m_fp); return true; } void CDMRSlot::closeFile() { if (m_fp != NULL) { ::fclose(m_fp); m_fp = NULL; } } void CDMRSlot::insertSilence(const unsigned char* data, unsigned char seqNo) { assert(data != NULL); // Check to see if we have any spaces to fill? unsigned char seq = m_netSeqNo + 1U; if (seq == seqNo) { // Just copy the data, nothing else to do here ::memcpy(m_lastFrame, data, DMR_FRAME_LENGTH_BYTES + 2U); return; } unsigned int oldSeqNo = m_netSeqNo + 1U; unsigned int newSeqNo = seqNo; unsigned int count; if (newSeqNo > oldSeqNo) count = newSeqNo - oldSeqNo; else count = (256U + newSeqNo) - oldSeqNo; if (count < 10U) insertSilence(count); ::memcpy(m_lastFrame, data, DMR_FRAME_LENGTH_BYTES + 2U); } void CDMRSlot::insertSilence(unsigned int count) { unsigned char data[DMR_FRAME_LENGTH_BYTES + 2U]; ::memcpy(data, m_lastFrame, 2U); // The control data ::memcpy(data + 2U, m_lastFrame + 24U + 2U, 9U); // Copy the last audio block to the first ::memcpy(data + 24U + 2U, data + 2U, 9U); // Copy the last audio block to the last ::memcpy(data + 9U + 2U, data + 2U, 5U); // Copy the last audio block to the middle (1/2) ::memcpy(data + 19U + 2U, data + 4U + 2U, 5U); // Copy the last audio block to the middle (2/2) unsigned char n = (m_netN + 1U) % 6U; unsigned char seqNo = m_netSeqNo + 1U; unsigned char fid = m_netLC->getFID(); for (unsigned int i = 0U; i < count; i++) { // Only use our silence frame if its AMBE audio data if (fid == FID_ETSI || fid == FID_DMRA) { if (i > 0U) ::memcpy(data, DMR_SILENCE_DATA, DMR_FRAME_LENGTH_BYTES + 2U); } if (n == 0U) { CSync::addDMRAudioSync(data + 2U); } else { unsigned char lcss = m_netEmbeddedLC.getData(data + 2U, n); m_lastEMB.setColorCode(m_colorCode); m_lastEMB.setLCSS(lcss); m_lastEMB.getData(data + 2U); } writeQueueNet(data); m_netSeqNo = seqNo; m_netN = n; m_netFrames++; m_netLost++; seqNo++; n = (n + 1U) % 6U; } }