/////////////////////////////////////////////////////////////////////////////////// // Copyright (C) 2021, 2023 Jon Beniston, M7RCE // // Copyright (C) 2022-2023 Edouard Griffiths, F4EXB // // Copyright (C) 2022 CRD716 // // // // 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 as version 3 of the License, or // // (at your option) any later version. // // // // 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 V3 for more details. // // // // You should have received a copy of the GNU General Public License // // along with this program. If not, see . // /////////////////////////////////////////////////////////////////////////////////// #include #include #include #include #include #include "dsp/dspcommands.h" #include "util/message.h" #include "wavfilerecord.h" WavFileRecord::WavFileRecord(quint32 sampleRate, quint64 centerFrequency) : FileRecordInterface(), m_fileBase("test"), m_fileBaseIsFileName(false), m_sampleRate(sampleRate), m_centerFrequency(centerFrequency), m_recordOn(false), m_recordStart(false), m_byteCount(0), m_msShift(0), m_nbChannels(2) { setObjectName("WavFileRecord"); } WavFileRecord::WavFileRecord(const QString& fileBase) : FileRecordInterface(), m_fileBase(fileBase), m_fileBaseIsFileName(false), m_sampleRate(0), m_centerFrequency(0), m_recordOn(false), m_recordStart(false), m_byteCount(0), m_nbChannels(2) { setObjectName("WavFileRecord"); } WavFileRecord::~WavFileRecord() { stopRecording(); } void WavFileRecord::setFileName(const QString& fileBase) { if (!m_recordOn) { m_fileBase = fileBase; } } void WavFileRecord::genUniqueFileName(uint deviceUID, int istream) { if (istream < 0) { setFileName(QString("rec%1_%2.wav").arg(deviceUID).arg(QDateTime::currentDateTimeUtc().toString("yyyy-MM-ddTHH_mm_ss_zzz"))); } else { setFileName(QString("rec%1_%2_%3.wav").arg(deviceUID).arg(istream).arg(QDateTime::currentDateTimeUtc().toString("yyyy-MM-ddTHH_mm_ss_zzz"))); } } void WavFileRecord::feed(const SampleVector::const_iterator& begin, const SampleVector::const_iterator& end, bool positiveOnly) { (void) positiveOnly; if (!m_recordOn) { return; } if (begin < end) // if there is something to put out { if (m_recordStart) { writeHeader(); m_recordStart = false; } if (SDR_RX_SAMP_SZ == 16) { m_sampleFile.write(reinterpret_cast(&*(begin)), (end - begin)*sizeof(Sample)); m_byteCount += end - begin; } else { for (SampleVector::const_iterator it = begin; it != end; ++it) { // Convert from 24-bit to 16-bit int16_t samples[2]; samples[0] = std::min(32767, std::max(it->real() >> 8, -32768)); samples[1] = std::min(32767, std::max(it->imag() >> 8, -32768)); m_sampleFile.write(reinterpret_cast(&samples), 4); m_byteCount += 4; } } } } void WavFileRecord::write(qint16 lSample, qint16 rSample) { if (m_recordStart) { writeHeader(); m_recordStart = false; } m_sampleFile.write(reinterpret_cast(&lSample), 2); m_sampleFile.write(reinterpret_cast(&rSample), 2); m_byteCount += 4; } void WavFileRecord::writeMono(qint16 sample) { if (m_recordStart) { writeHeader(); m_recordStart = false; } m_sampleFile.write(reinterpret_cast(&sample), 2); m_byteCount += 2; } void WavFileRecord::writeMono(qint16 *samples, int nbSamples) { if (m_recordStart) { writeHeader(); m_recordStart = false; } m_sampleFile.write(reinterpret_cast(samples), 2*nbSamples); m_byteCount += 2*nbSamples; } void WavFileRecord::start() { } void WavFileRecord::stop() { stopRecording(); } bool WavFileRecord::startRecording() { if (m_recordOn) { stopRecording(); } #ifdef ANDROID if (!m_sampleFile.isOpen()) #else if (!m_sampleFile.is_open()) #endif { qDebug() << "WavFileRecord::startRecording"; #ifdef ANDROID // FIXME: No idea how to write to a file where the filename doesn't come from the file picker m_currentFileName = m_fileBase + ".wav"; m_sampleFile.setFileName(m_currentFileName); if (!m_sampleFile.open(QIODevice::ReadWrite)) { qWarning() << "WavFileRecord::startRecording: failed to open file: " << m_currentFileName << " error " << m_sampleFile.error(); return false; } #else if (m_fileBaseIsFileName) { m_currentFileName = m_fileBase + ".wav"; } else { m_currentFileName = m_fileBase + "_" + QDateTime::currentDateTimeUtc().toString("yyyy-MM-ddTHH_mm_ss_zzz") + ".wav"; // Don't use QString::arg on Android, as filename can contain %2 } m_sampleFile.open(m_currentFileName.toStdString().c_str(), std::ios::binary); if (!m_sampleFile.is_open()) { qWarning() << "WavFileRecord::startRecording: failed to open file: " << m_currentFileName; return false; } #endif m_recordOn = true; m_recordStart = true; m_byteCount = 0; } return true; } void addString(QByteArray& buffer, const QString& type, const QString text) { buffer.append(type.toUtf8(), 4); QByteArray s = text.toUtf8(); s.append('\0'); // Strings should be null terminated if (s.size() & 1) { s.append('\0'); } quint16 textSize = s.size(); buffer.append(textSize & 0xff); buffer.append((textSize >> 8) & 0xff); buffer.append((textSize >> 16) & 0xff); buffer.append((textSize >> 24) & 0xff); buffer.append(s, textSize); } void addTag(QByteArray& buffer, const QString& id, const QString text) { buffer.append(id.toUtf8(), 4); QByteArray s = text.toUtf8(); int size = s.size() + 1; buffer.append((size >> 24) & 0xff); // MSB first buffer.append((size >> 16) & 0xff); buffer.append((size >> 8) & 0xff); buffer.append(size & 0xff); buffer.append((char)0); // flags buffer.append((char)0); // flags buffer.append((char)0); // text encoding (0 ISO-8859-1, 1 Unicode) buffer.append(s); } void WavFileRecord::setMetaData(const QString& trackTitle, const QString& album, const QString& artist) { m_trackTitle = trackTitle; m_album = album; m_artist = artist; } bool WavFileRecord::hasMetaData() const { return !m_trackTitle.isEmpty() || !m_album.isEmpty() || !m_artist.isEmpty(); } void WavFileRecord::writeInfoList() { QByteArray meta; meta.append("INFO", 4); if (!m_trackTitle.isEmpty()) { addString(meta, "INAM", m_trackTitle); } if (!m_album.isEmpty()) { addString(meta, "IPRD", m_album); } if (!m_artist.isEmpty()) { addString(meta, "IART", m_artist); } struct Chunk list; list.m_id[0] = 'L'; list.m_id[1] = 'I'; list.m_id[2] = 'S'; list.m_id[3] = 'T'; list.m_size = meta.size(); m_sampleFile.write((char*)&list, sizeof(Chunk)); m_sampleFile.write((char*)meta.data(), meta.size()); } // ID3 v2.3 // https://mutagen-specs.readthedocs.io/en/latest/id3/id3v2.3.0.html void WavFileRecord::writeID3() { QByteArray meta; QByteArray textInfo; if (!m_artist.isEmpty()) { addTag(textInfo, "TPE1", m_artist); } if (!m_trackTitle.isEmpty()) { addTag(textInfo, "TIT2", m_trackTitle); } if (!m_album.isEmpty()) { addTag(textInfo, "TALB", m_album); } meta.append("ID3", 3); meta.append((char)3); // .3 version meta.append((char)0); // revision meta.append((char)0); // flags int textInfoSize = textInfo.size(); meta.append((textInfoSize >> 24) & 0xff); // MSB first meta.append((textInfoSize >> 16) & 0xff); meta.append((textInfoSize >> 8) & 0xff); meta.append(textInfoSize & 0xff); meta.append(textInfo); if (meta.size() & 1) { meta.append((char)0); } struct Chunk id3; id3.m_id[0] = 'i'; id3.m_id[1] = 'd'; id3.m_id[2] = '3'; id3.m_id[3] = ' '; id3.m_size = meta.size(); m_sampleFile.write((char*)&id3, sizeof(Chunk)); m_sampleFile.write((char*)meta.data(), meta.size()); } bool WavFileRecord::stopRecording() { #ifdef ANDROID if (m_sampleFile.isOpen()) #else if (m_sampleFile.is_open()) #endif { qDebug() << "WavFileRecord::stopRecording"; #ifdef ANDROID long dataSize = (long)m_sampleFile.size(); #else long dataSize = m_sampleFile.tellp(); #endif // Write meta data if (hasMetaData()) { writeInfoList(); writeID3(); } // Fix up chunk sizes #ifdef ANDROID long fileSize = (long)m_sampleFile.size(); m_sampleFile.seek(offsetof(Header, m_riffHeader.m_size)); #else long fileSize = m_sampleFile.tellp(); m_sampleFile.seekp(offsetof(Header, m_riffHeader.m_size)); #endif qint32 size = (fileSize - 8); m_sampleFile.write((char *)&size, 4); #ifdef ANDROID m_sampleFile.seek(offsetof(Header, m_dataHeader.m_size)); #else m_sampleFile.seekp(offsetof(Header, m_dataHeader.m_size)); #endif size = dataSize - sizeof(Header); m_sampleFile.write((char *)&size, 4); m_sampleFile.close(); m_recordOn = false; m_recordStart = false; #ifdef ANDROID #else if (m_sampleFile.bad()) { qWarning() << "WavFileRecord::stopRecording: an error occurred while writing to " << m_currentFileName; return false; } #endif } return true; } bool WavFileRecord::handleMessage(const Message& message) { if (DSPSignalNotification::match(message)) { DSPSignalNotification& notif = (DSPSignalNotification&) message; int sampleRate = notif.getSampleRate(); if ((sampleRate != (int)m_sampleRate) && m_recordOn) { qDebug() << "WavFileRecord::handleMessage: sample rate has changed. Creating a new .wav file"; stopRecording(); m_recordOn = true; } m_sampleRate = sampleRate; m_centerFrequency = notif.getCenterFrequency(); qDebug() << "WavFileRecord::handleMessage: DSPSignalNotification: m_inputSampleRate: " << m_sampleRate << " m_centerFrequency: " << m_centerFrequency; if (m_recordOn) { startRecording(); } return true; } else { return false; } } void WavFileRecord::writeHeader() { Header header; header.m_riffHeader.m_id[0] = 'R'; header.m_riffHeader.m_id[1] = 'I'; header.m_riffHeader.m_id[2] = 'F'; header.m_riffHeader.m_id[3] = 'F'; header.m_riffHeader.m_size = 0; // Needs to be fixed on close header.m_type[0] = 'W'; header.m_type[1] = 'A'; header.m_type[2] = 'V'; header.m_type[3] = 'E'; header.m_fmtHeader.m_id[0] = 'f'; header.m_fmtHeader.m_id[1] = 'm'; header.m_fmtHeader.m_id[2] = 't'; header.m_fmtHeader.m_id[3] = ' '; header.m_fmtHeader.m_size = 16; header.m_audioFormat = 1; // Linear PCM header.m_numChannels = m_nbChannels; // 2 for I/Q header.m_sampleRate = m_sampleRate; // We always use 16-bits regardless of SDR_RX_SAMP_SZ header.m_byteRate = m_sampleRate * m_nbChannels * 16 / 8; header.m_blockAlign = m_nbChannels * 16 / 8; header.m_bitsPerSample = 16; header.m_auxiHeader.m_id[0] = 'a'; header.m_auxiHeader.m_id[1] = 'u'; header.m_auxiHeader.m_id[2] = 'x'; header.m_auxiHeader.m_id[3] = 'i'; header.m_auxiHeader.m_size = sizeof(Auxi); QDateTime now = QDateTime::currentDateTime(); header.m_auxi.m_startTime.m_year = now.date().year(); header.m_auxi.m_startTime.m_month = now.date().month(); header.m_auxi.m_startTime.m_dayOfWeek = now.date().dayOfWeek(); header.m_auxi.m_startTime.m_day = now.date().day(); header.m_auxi.m_startTime.m_hour = now.time().hour(); header.m_auxi.m_startTime.m_minute = now.time().minute(); header.m_auxi.m_startTime.m_second = now.time().second(); header.m_auxi.m_startTime.m_milliseconds = now.time().msec(); header.m_auxi.m_stopTime.m_year = 0; // Needs to be fixed on close header.m_auxi.m_stopTime.m_month = 0; header.m_auxi.m_stopTime.m_dayOfWeek = 0; header.m_auxi.m_stopTime.m_day = 0; header.m_auxi.m_stopTime.m_hour = 0; header.m_auxi.m_stopTime.m_minute = 0; header.m_auxi.m_stopTime.m_second = 0; header.m_auxi.m_stopTime.m_milliseconds = 0; header.m_auxi.m_centerFreq = m_centerFrequency; header.m_auxi.m_adFrequency = m_sampleRate; header.m_auxi.m_ifFrequency = 0; header.m_auxi.m_bandwidth = 0; header.m_auxi.m_iqOffset = 0; header.m_auxi.m_unused2 = 0; header.m_auxi.m_unused3 = 0; header.m_auxi.m_unused4 = 0; header.m_auxi.m_unused5 = 0; memset(&header.m_auxi.m_nextFilename[0], 0, 96); header.m_dataHeader.m_size = sizeof(Auxi); header.m_dataHeader.m_id[0] = 'd'; header.m_dataHeader.m_id[1] = 'a'; header.m_dataHeader.m_id[2] = 't'; header.m_dataHeader.m_id[3] = 'a'; header.m_dataHeader.m_size = 0; // Needs to be fixed on close writeHeader(m_sampleFile, header); } bool WavFileRecord::readHeader(std::ifstream& sampleFile, Header& header, bool check) { memset(&header, 0, sizeof(Header)); sampleFile.read((char *) &header, 8+4+8+16); if (!sampleFile) { qDebug() << "WavFileRecord::readHeader: End of file without reading header"; return false; } if (check && !checkHeader(header)) { return false; } Chunk chunkHeader; bool gotData = false; while (!gotData) { sampleFile.read((char *) &chunkHeader, 8); if (!sampleFile) { qDebug() << "WavFileRecord::readHeader: End of file without reading data header"; return false; } if (!strncmp(chunkHeader.m_id, "auxi", 4)) { memcpy(&header.m_auxiHeader, &chunkHeader, sizeof(Chunk)); sampleFile.read((char *) &header.m_auxi, sizeof(Auxi)); if (!sampleFile) return false; } else if (!strncmp(chunkHeader.m_id, "data", 4)) { memcpy(&header.m_dataHeader, &chunkHeader, sizeof(Chunk)); gotData = true; } } return true; } bool WavFileRecord::readHeader(QFile& sampleFile, Header& header) { memset(&header, 0, sizeof(Header)); sampleFile.read((char *) &header, 8+4+8+16); if (!checkHeader(header)) { return false; } Chunk chunkHeader; bool gotData = false; while (!gotData) { if (sampleFile.read((char *) &chunkHeader, 8) != 8) { qDebug() << "WavFileRecord::readHeader: End of file without reading data header"; return false; } if (!strncmp(chunkHeader.m_id, "auxi", 4)) { memcpy(&header.m_auxiHeader, &chunkHeader, sizeof(Chunk)); if (sampleFile.read((char *) &header.m_auxi, sizeof(Auxi)) != sizeof(Auxi)) { return false; } } else if (!strncmp(chunkHeader.m_id, "data", 4)) { memcpy(&header.m_dataHeader, &chunkHeader, sizeof(Chunk)); gotData = true; } } return true; } bool WavFileRecord::checkHeader(Header& header) { if (strncmp(header.m_riffHeader.m_id, "RIFF", 4)) { qDebug() << "WavFileRecord::readHeader: No RIFF header"; return false; } if (strncmp(header.m_type, "WAVE", 4)) { qDebug() << "WavFileRecord::readHeader: No WAVE header"; return false; } if (strncmp(header.m_fmtHeader.m_id, "fmt ", 4)) { qDebug() << "WavFileRecord::readHeader: No fmt header"; return false; } if (header.m_audioFormat != 1) { qDebug() << "WavFileRecord::readHeader: Audio format is not PCM"; return false; } if (header.m_numChannels != 2) { qDebug() << "WavFileRecord::readHeader: Number of channels is not 2"; return false; } // FileInputWorker can't handle other bits sizes if (header.m_bitsPerSample != 16) { qDebug() << "WavFileRecord::readHeader: Number of bits per sample is not 16"; return false; } return true; } void WavFileRecord::writeHeader(std::ofstream& sampleFile, Header& header) { sampleFile.write((const char *) &header, sizeof(Header)); } void WavFileRecord::writeHeader(QFile& sampleFile, Header& header) { sampleFile.write((const char *) &header, sizeof(Header)); } bool WavFileRecord::getCenterFrequency(QString fileName, quint64& centerFrequency) { // Attempt to extract center frequency from filename QRegularExpression freqkRE("(([0-9]+)kHz)"); QRegularExpression freqRE("(([0-9]+)Hz)"); QRegularExpressionMatch freqkREMatch = freqkRE.match(fileName); QRegularExpressionMatch freqREMatch = freqRE.match(fileName); if (freqkREMatch.hasMatch()) { centerFrequency = freqkREMatch.capturedTexts()[2].toLongLong() * 1000LL; return true; } else if (freqREMatch.hasMatch()) { centerFrequency = freqREMatch.capturedTexts()[2].toLongLong(); return true; } return false; } bool WavFileRecord::getStartTime(QString fileName, QDateTime& startTime) { // Attempt to extract start time from filename QRegularExpression dateTimeRE("([12][0-9][0-9][0-9]).?([01][0-9]).?([0-3][0-9]).?([0-2][0-9]).?([0-5][0-9]).?([0-5][0-9])"); QRegularExpressionMatch match = dateTimeRE.match(fileName); if (match.hasMatch()) { startTime = QDateTime(QDate( match.capturedTexts()[1].toInt(), match.capturedTexts()[2].toInt(), match.capturedTexts()[3].toInt()), QTime( match.capturedTexts()[4].toInt(), match.capturedTexts()[5].toInt(), match.capturedTexts()[6].toInt())); return true; } return false; } QDateTime WavFileRecord::Header::getStartTime() const { return QDateTime(QDate(m_auxi.m_startTime.m_year, m_auxi.m_startTime.m_month, m_auxi.m_startTime.m_day), QTime(m_auxi.m_startTime.m_hour, m_auxi.m_startTime.m_minute, m_auxi.m_startTime.m_second, m_auxi.m_startTime.m_milliseconds)); }