/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * vim: set ts=8 sts=4 et sw=4 tw=99: * * SleepLib PRS1 Loader Implementation * * Copyright (c) 2011-2014 Mark Watkins * * This file is subject to the terms and conditions of the GNU General Public * License. See the file COPYING in the main directory of the Linux * distribution for more details. */ #include #include #include #include #include #include #include #include #include #include "SleepLib/schema.h" #include "prs1_loader.h" #include "SleepLib/session.h" #include "SleepLib/calcs.h" const int PRS1_MAGIC_NUMBER = 2; //const int PRS1_SUMMARY_FILE=1; //const int PRS1_EVENT_FILE=2; //const int PRS1_WAVEFORM_FILE=5; //******************************************************************************************** /// IMPORTANT!!! //******************************************************************************************** // Please INCREMENT the prs1_data_version in prs1_loader.h when making changes to this loader // that change loader behaviour or modify channels. //******************************************************************************************** extern QProgressBar *qprogress; QHash ModelMap; #define PRS1_CRC_CHECK #ifdef PRS1_CRC_CHECK typedef quint16 crc_t; static const crc_t crc_table[256] = { 0x0000, 0x1189, 0x2312, 0x329b, 0x4624, 0x57ad, 0x6536, 0x74bf, 0x8c48, 0x9dc1, 0xaf5a, 0xbed3, 0xca6c, 0xdbe5, 0xe97e, 0xf8f7, 0x1081, 0x0108, 0x3393, 0x221a, 0x56a5, 0x472c, 0x75b7, 0x643e, 0x9cc9, 0x8d40, 0xbfdb, 0xae52, 0xdaed, 0xcb64, 0xf9ff, 0xe876, 0x2102, 0x308b, 0x0210, 0x1399, 0x6726, 0x76af, 0x4434, 0x55bd, 0xad4a, 0xbcc3, 0x8e58, 0x9fd1, 0xeb6e, 0xfae7, 0xc87c, 0xd9f5, 0x3183, 0x200a, 0x1291, 0x0318, 0x77a7, 0x662e, 0x54b5, 0x453c, 0xbdcb, 0xac42, 0x9ed9, 0x8f50, 0xfbef, 0xea66, 0xd8fd, 0xc974, 0x4204, 0x538d, 0x6116, 0x709f, 0x0420, 0x15a9, 0x2732, 0x36bb, 0xce4c, 0xdfc5, 0xed5e, 0xfcd7, 0x8868, 0x99e1, 0xab7a, 0xbaf3, 0x5285, 0x430c, 0x7197, 0x601e, 0x14a1, 0x0528, 0x37b3, 0x263a, 0xdecd, 0xcf44, 0xfddf, 0xec56, 0x98e9, 0x8960, 0xbbfb, 0xaa72, 0x6306, 0x728f, 0x4014, 0x519d, 0x2522, 0x34ab, 0x0630, 0x17b9, 0xef4e, 0xfec7, 0xcc5c, 0xddd5, 0xa96a, 0xb8e3, 0x8a78, 0x9bf1, 0x7387, 0x620e, 0x5095, 0x411c, 0x35a3, 0x242a, 0x16b1, 0x0738, 0xffcf, 0xee46, 0xdcdd, 0xcd54, 0xb9eb, 0xa862, 0x9af9, 0x8b70, 0x8408, 0x9581, 0xa71a, 0xb693, 0xc22c, 0xd3a5, 0xe13e, 0xf0b7, 0x0840, 0x19c9, 0x2b52, 0x3adb, 0x4e64, 0x5fed, 0x6d76, 0x7cff, 0x9489, 0x8500, 0xb79b, 0xa612, 0xd2ad, 0xc324, 0xf1bf, 0xe036, 0x18c1, 0x0948, 0x3bd3, 0x2a5a, 0x5ee5, 0x4f6c, 0x7df7, 0x6c7e, 0xa50a, 0xb483, 0x8618, 0x9791, 0xe32e, 0xf2a7, 0xc03c, 0xd1b5, 0x2942, 0x38cb, 0x0a50, 0x1bd9, 0x6f66, 0x7eef, 0x4c74, 0x5dfd, 0xb58b, 0xa402, 0x9699, 0x8710, 0xf3af, 0xe226, 0xd0bd, 0xc134, 0x39c3, 0x284a, 0x1ad1, 0x0b58, 0x7fe7, 0x6e6e, 0x5cf5, 0x4d7c, 0xc60c, 0xd785, 0xe51e, 0xf497, 0x8028, 0x91a1, 0xa33a, 0xb2b3, 0x4a44, 0x5bcd, 0x6956, 0x78df, 0x0c60, 0x1de9, 0x2f72, 0x3efb, 0xd68d, 0xc704, 0xf59f, 0xe416, 0x90a9, 0x8120, 0xb3bb, 0xa232, 0x5ac5, 0x4b4c, 0x79d7, 0x685e, 0x1ce1, 0x0d68, 0x3ff3, 0x2e7a, 0xe70e, 0xf687, 0xc41c, 0xd595, 0xa12a, 0xb0a3, 0x8238, 0x93b1, 0x6b46, 0x7acf, 0x4854, 0x59dd, 0x2d62, 0x3ceb, 0x0e70, 0x1ff9, 0xf78f, 0xe606, 0xd49d, 0xc514, 0xb1ab, 0xa022, 0x92b9, 0x8330, 0x7bc7, 0x6a4e, 0x58d5, 0x495c, 0x3de3, 0x2c6a, 0x1ef1, 0x0f78 }; crc_t CRC16(const unsigned char *data, size_t data_len) { crc_t crc = 0; unsigned int tbl_idx; while (data_len--) { tbl_idx = (crc ^ *data) & 0xff; crc = (crc_table[tbl_idx] ^ (crc >> 8)) & 0xffff; data++; } return crc & 0xffff; } #endif PRS1::PRS1(Profile *p, MachineID id): CPAP(p, id) { m_class = prs1_class_name; } PRS1::~PRS1() { } /*! \struct WaveHeaderList \brief Used in PRS1 Waveform Parsing */ struct WaveHeaderList { quint16 interleave; quint8 sample_format; WaveHeaderList(quint16 i, quint8 f) { interleave = i; sample_format = f; } }; PRS1Loader::PRS1Loader() { //genCRCTable(); m_buffer = nullptr; } PRS1Loader::~PRS1Loader() { } Machine *PRS1Loader::CreateMachine(QString serial, Profile *profile) { if (!profile) { return nullptr; } qDebug() << "Create Machine " << serial; QList ml = profile->GetMachines(MT_CPAP); bool found = false; QList::iterator i; Machine *m = nullptr; for (i = ml.begin(); i != ml.end(); i++) { if (((*i)->GetClass() == STR_MACH_PRS1) && ((*i)->properties[STR_PROP_Serial] == serial)) { PRS1List[serial] = *i; //static_cast(*i); found = true; m = *i; break; } } if (!found) { m = new PRS1(profile, 0); } m->properties[STR_PROP_Brand] = "Philips Respironics"; m->properties[STR_PROP_Series] = "System One"; if (found) { return m; } PRS1List[serial] = m; profile->AddMachine(m); m->properties[STR_PROP_Serial] = serial; m->properties[STR_PROP_DataVersion] = QString::number(prs1_data_version); QString path = "{" + STR_GEN_DataFolder + "}/" + m->GetClass() + "_" + serial + "/"; m->properties[STR_PROP_Path] = path; m->properties[STR_PROP_BackupPath] = path + "Backup/"; return m; } bool isdigit(QChar c) { if ((c >= '0') && (c <= '9')) { return true; } return false; } const QString PR_STR_PSeries = "P-Series"; // Tests path to see if it has (what looks like) a valid PRS1 folder structure bool PRS1Loader::Detect(const QString & path) { QString newpath = path; newpath.replace("\\", "/"); if (!newpath.endsWith("/" + PR_STR_PSeries)) { newpath = path + "/" + PR_STR_PSeries; } QDir dir(newpath); if ((!dir.exists() || !dir.isReadable())) { return false; } qDebug() << "PRS1Loader::Detect path=" << newpath; QFile lastfile(newpath+"/last.txt"); if (!lastfile.exists()) { return false; } if (!lastfile.open(QIODevice::ReadOnly)) { qDebug() << "PRS1Loader: last.txt exists but I couldn't open it!"; return false; } QString last = lastfile.readLine(64); last = last.trimmed(); lastfile.close(); QFile f(newpath+"/"+last); if (!f.exists()) { qDebug() << "in PRS1Loader::Detect():" << last << "does not exist, despite last.txt saying it does"; return false; } // newpath is a valid path return true; } int PRS1Loader::Open(QString &path, Profile *profile) { QString newpath; path = path.replace("\\", "/"); if (path.endsWith("/" + PR_STR_PSeries)) { newpath = path; } else { newpath = path + "/" + PR_STR_PSeries; } qDebug() << "PRS1Loader::Open path=" << newpath; QDir dir(newpath); if ((!dir.exists() || !dir.isReadable())) { return 0; } dir.setFilter(QDir::NoDotAndDotDot | QDir::Dirs | QDir::Files | QDir::Hidden | QDir::NoSymLinks); dir.setSorting(QDir::Name); QFileInfoList flist = dir.entryInfoList(); QList SerialNumbers; QList::iterator sn; for (int i = 0; i < flist.size(); i++) { QFileInfo fi = flist.at(i); QString filename = fi.fileName(); if ((filename[0] == 'P') && (isdigit(filename[1])) && (isdigit(filename[2]))) { SerialNumbers.push_back(filename); } else if (filename.toLower() == "last.txt") { // last.txt points to the current serial number QString file = fi.canonicalFilePath(); QFile f(file); if (!fi.isReadable()) { qDebug() << "PRS1Loader: last.txt exists but I couldn't read it!"; continue; } if (!f.open(QIODevice::ReadOnly)) { qDebug() << "PRS1Loader: last.txt exists but I couldn't open it!"; continue; } last = f.readLine(64); last = last.trimmed(); f.close(); } } if (SerialNumbers.empty()) { return 0; } m_buffer = new unsigned char [max_load_buffer_size]; //allocate once and reuse. Machine *m; for (sn = SerialNumbers.begin(); sn != SerialNumbers.end(); sn++) { QString s = *sn; m = CreateMachine(s, profile); try { if (m) { OpenMachine(m, newpath + "/" + (*sn), profile); } } catch (OneTypePerDay e) { profile->DelMachine(m); PRS1List.erase(PRS1List.find(s)); QMessageBox::warning(nullptr, QObject::tr("Import Error"), QObject::tr("This Machine Record cannot be imported in this profile.\nThe Day records overlap with already existing content."), QMessageBox::Ok); delete m; } } delete [] m_buffer; return PRS1List.size(); } bool PRS1Loader::ParseProperties(Machine *m, QString filename) { QFile f(filename); if (!f.open(QIODevice::ReadOnly)) { return false; } QString line; QHash prop; QString s = f.readLine(); QChar sep = '='; QString key, value; while (!f.atEnd()) { key = s.section(sep, 0, 0); //BeforeFirst(sep); if (key == s) { continue; } value = s.section(sep, 1).trimmed(); //AfterFirst(sep).Strip(); if (value == s) { continue; } prop[key] = value; s = f.readLine(); } bool ok; QString pt = prop["ProductType"]; int i = pt.toInt(&ok, 16); if (ok) { if (ModelMap.find(i) != ModelMap.end()) { m->properties[STR_PROP_Model] = ModelMap[i]; } } if (prop["SerialNumber"] != m->properties[STR_PROP_Serial]) { qDebug() << "Serial Number in PRS1 properties.txt doesn't match directory structure"; } else { prop.erase(prop.find("SerialNumber")); } // already got it stored. for (QHash::iterator i = prop.begin(); i != prop.end(); i++) { m->properties[i.key()] = i.value(); } f.close(); return true; } int PRS1Loader::OpenMachine(Machine *m, QString path, Profile *profile) { qDebug() << "Opening PRS1 " << path; QDir dir(path); if (!dir.exists() || (!dir.isReadable())) { return 0; } dir.setFilter(QDir::NoDotAndDotDot | QDir::Dirs | QDir::Files | QDir::Hidden | QDir::NoSymLinks); dir.setSorting(QDir::Name); QFileInfoList flist = dir.entryInfoList(); QString filename; if (qprogress) { qprogress->setValue(0); } QStringList paths; for (int i = 0; i < flist.size(); i++) { QFileInfo fi = flist.at(i); filename = fi.fileName(); if ((filename[0].toLower() == 'p') && (isdigit(filename[1]))) { // p0, p1, p2.. etc.. folders contain the session data paths.push_back(fi.canonicalFilePath()); } else if (filename.toLower() == "properties.txt") { ParseProperties(m, fi.canonicalFilePath()); } else if (filename.toLower() == "e") { // Error files.. // Reminder: I have been given some info about these. should check it over. } } QString modelstr = m->properties["ModelNumber"]; if (modelstr.endsWith("P")) modelstr.chop(1); bool ok; int model = modelstr.toInt(&ok); if (ok) { // Assumption is made here all PRS1 machines less than 450P are not data capable.. this could be wrong one day. if ((model < 450)) { QMessageBox::information(NULL, QObject::tr("Non Data Capable Machine"), QString(QObject::tr("Your Philips Respironics CPAP machine (Model %1) is unfortunately not a data capable model.")+"\n\n"+ QObject::tr("I'm sorry to report that SleepyHead can only track hours of use for this machine.")). arg(m->properties["ModelNumber"]),QMessageBox::Ok); } if ((model % 100) >= 60) { // 60 series machine warning?? } } else { // model number didn't parse.. Meh... } SessionID sid; long ext; QHash sessfiles; int size = paths.size(); int cnt = 0; new_sessions.clear(); // this hash is used by OpenFile // for each p0/p1/p2/etc... folder for (auto p = paths.begin(); p != paths.end(); p++) { dir.setPath(*p); if (!dir.exists() || !dir.isReadable()) { continue; } flist = dir.entryInfoList(); // Scan for individual session files for (int i = 0; i < flist.size(); i++) { QFileInfo fi = flist.at(i); QString ext_s = fi.fileName().section(".", -1); QString session_s = fi.fileName().section(".", 0, -2); ext = ext_s.toLong(&ok); if (!ok) { // not a numerical extension continue; } sid = session_s.toLong(&ok); if (!ok) { // not a numerical session ID continue; } if (m->SessionExists(sid)) { // Skip already imported session continue; } if ((ext == 1) || (ext == 0)) { // Open just the summary files first round and create a session record if succesful OpenFile(m, fi.canonicalFilePath()); } else { // and keep the rest of the names for next stage sessfiles[sid].push_back(fi.canonicalFilePath()); } } } cnt = 0; size = new_sessions.size(); // Scan through new sessions and parse event and waveform data // NOTE: this function could be multithreaded. for (auto it = new_sessions.begin(); it != new_sessions.end(); ++it) { sid = it.key(); if (sessfiles.contains(sid)) { for (int j = 0; j < sessfiles[sid].size(); j++) { QString name = sessfiles[sid][j]; if (name.endsWith(".002")) { // Parse event data OpenFile(m, name); } else if (name.endsWith(".005")) { // Parse Flow Rate Waveform (and mask pressure if available) data OpenWaveforms(sid, name); } } } // sessions are fully loaded here.. // Update the progress bar.. this could be done better by an emit if MachineLoader was a QObject and an // event loop was running. if ((++cnt % 10) == 0) { if (qprogress) { qprogress->setValue(0.0 + (float(cnt) / float(size) * 100.0)); } QApplication::processEvents(); } } // strictly can do this in the above loop, but this is cautionary cnt = 0; // Scan through parsed sessions, do a little cleanup and add to machine object for (auto it = new_sessions.begin(); it != new_sessions.end(); ++it) { Session *sess = it.value(); if ((sess->length()) <= 0) { //const double ignore_thresh=300.0/3600.0;// Ignore useless sessions under 5 minute //if (sess->hours()<=ignore_thresh) { qDebug() << "Ignoring empty session" << sess->session(); SessionID id = sess->session(); delete sess; new_sessions[id] = nullptr; continue; } if (sess->count(CPAP_IPAP) > 0) { //sess->summaryCPAP_Mode]!=MODE_ASV) if (sess->settings[CPAP_Mode].toInt() != (int)MODE_ASV) { sess->settings[CPAP_Mode] = MODE_BIPAP; } if (sess->settings[CPAP_PresReliefType].toInt() != PR_NONE) { sess->settings[CPAP_PresReliefType] = PR_BIFLEX; } EventDataType min = sess->settings[CPAP_PressureMin].toDouble(); EventDataType max = sess->settings[CPAP_PressureMax].toDouble(); sess->settings[CPAP_EPAP] = min; sess->settings[CPAP_IPAP] = max; sess->settings[CPAP_PS] = max - min; sess->settings.erase(sess->settings.find(CPAP_PressureMin)); sess->settings.erase(sess->settings.find(CPAP_PressureMax)); sess->m_valuesummary.erase(sess->m_valuesummary.find(CPAP_Pressure)); sess->m_wavg.erase(sess->m_wavg.find(CPAP_Pressure)); sess->m_min.erase(sess->m_min.find(CPAP_Pressure)); sess->m_max.erase(sess->m_max.find(CPAP_Pressure)); sess->m_gain.erase(sess->m_gain.find(CPAP_Pressure)); } else { if (!sess->settings.contains(CPAP_Pressure) && !sess->settings.contains(CPAP_PressureMin)) { sess->settings[CPAP_BrokenSummary] = true; //sess->set_last(sess->first()); if (sess->Min(CPAP_Pressure) == sess->Max(CPAP_Pressure)) { sess->settings[CPAP_Mode] = MODE_CPAP; // no ramp } else { sess->settings[CPAP_Mode] = MODE_UNKNOWN; } //sess->Set("FlexMode",PR_UNKNOWN); } } if (sess->settings[CPAP_Mode].toInt() == (int)MODE_CPAP) { //sess->settings[CPAP_PressureMax]=sess->settings[CPAP_PressureMin]; } // set session saved flag so machine::Save() knows it needs saving sess->SetChanged(true); // Add session to machine record m->AddSession(sess, profile); // Update the progress bar if ((++cnt % 10) == 0) { //if (qprogress) qprogress->setValue(33.0+(float(cnt)/float(size)*33.0)); QApplication::processEvents(); } } m->properties[STR_PROP_DataVersion] = QString::number(prs1_data_version); m->properties[STR_PROP_LastImported] = QDateTime::currentDateTime().toString(Qt::ISODate); // Save any new sessions to disk in our format, updating summaries as it goes.. m->Save(); // Set progress bar to completed. if (qprogress) { qprogress->setValue(100); } // Return number of newly added sessions return cnt; } //struct PRS1SummaryR5 { // quint8 unknown1; // quint8 unknown2; // quint8 unknown3; // quint8 pressure_min; // quint8 pressure_max; // quint8 unknown; // quint32 flags; //};// __attribute__((packed)); // Family 0 = xPAP // Family 5 = ASV bool PRS1Loader::ParseSummary(Machine *mach, qint32 sequence, quint32 timestamp, unsigned char *data, quint16 size, int family, int familyVersion) { if (mach->SessionExists(sequence)) { qDebug() << "sessionexists exit"; return false; } if (size < 44 - 16) { qDebug() << "size exit"; return false; } Session *session = new Session(mach, sequence); session->really_set_first(qint64(timestamp) * 1000L); EventDataType max, min; ////////////////////////////////////////////////////////////////////////////////////////// // ASV Codes (Family 5) Recheck 17/10/2013 // These are all confirmed off Encore reports //cpapmax=EventDataType(data[0x02])/10.0; // Max Pressure in ASV machines //minepap=EventDataType(data[0x03])/10.0; // Min EPAP //maxepap=EventDataType(data[0x04])/10.0; // Max EPAP //minps=EventDataType(data[0x05])/10.0 // Min Pressure Support //maxps=EventDataType(data[0x06])/10.0 // Max Pressure Support //duration=data[0x1B] | data[0x1C] << 8) // Session length in seconds //epap90=EventDataType(data[0x21])/10.0; // EPAP 90% //epapavg=EventDataType(data[0x22])/10.0; // EPAP Average //ps90=EventDataType(data[0x23])/10.0; // Pressure Support 90% //psavg=EventDataType(data[0x24])/10.0; // Pressure Support Average //TODO: minpb=data[0x] | data[0x] << 8; // Minutes in PB //TODO: minleak=data[0x] | data[0x] << 8; // Minutes in Large Leak //TODO: oa_cnt=data[0x] | data[0x] << 8; // Obstructive events count //ca_cnt=data[0x2d] | data[0x2e] << 8; // Clear Airway Events count //h_cnt=data[0x2f] | data[0x30] << 8; // Hypopnea events count //fl_cnt=data[0x33] | data[0x34] << 8; // Flow Limitation events count //avg_leak=EventDataType(data[0x35]); // Average Leak //avgptb=EventDataType(data[0x36]); // Average Patient Triggered Breaths % //avgbreathrate=EventDataType(data[0x37]); // Average Breaths Per Minute //avgminvent=EventDataType(data[0x38]); // Average Minute Ventilation //avg_tidalvol=EventDataType(data[0x39])*10.0; // Average Tidal Volume ////////////////////////////////////////////////////////////////////////////////////////// min = float(data[0x03]) / 10.0; // Min EPAP max = float(data[0x04]) / 10.0; // Max EPAP int offset = 0; if (family == 5) { //data[0x05]!=0) { // This is a time value for ASV stuff offset = 4; // non zero adds 4 extra fields.. } else if (family == 0 && familyVersion >= 4) { offset = 2; } // Minutes. Convert to seconds/hours here? session->settings[CPAP_RampTime] = (int)data[offset + 0x06]; session->settings[CPAP_RampPressure] = (EventDataType)data[offset + 0x07] / 10.0; if (max > 0) { // Ignoring bipap until we see some more data during import session->settings[CPAP_Mode] = (family == 5) ? (int)MODE_ASV : (int)MODE_APAP; session->settings[CPAP_PressureMin] = (EventDataType)min; session->settings[CPAP_PressureMax] = (EventDataType)max; } else { session->settings[CPAP_Mode] = (int)MODE_CPAP; session->settings[CPAP_Pressure] = (EventDataType)min; } // This is incorrect.. if (data[offset + 0x08] & 0x80) { // Flex Setting if (data[offset + 0x08] & 0x08) { if (max > 0) { if (family == 5) { session->settings[CPAP_PresReliefType] = (int)PR_BIFLEX; } else { session->settings[CPAP_PresReliefType] = (int)PR_AFLEX; } } else { session->settings[CPAP_PresReliefType] = (int)PR_CFLEXPLUS; } } else { session->settings[CPAP_PresReliefType] = (int)PR_CFLEX; } } else { session->settings[CPAP_PresReliefType] = (int)PR_NONE; } session->settings[CPAP_PresReliefMode] = (int)PM_FullTime; // only has one mode session->settings[CPAP_PresReliefSet] = (int)(data[offset + 0x08] & 7); session->settings[PRS1_SysLock] = (data[offset + 0x0a] & 0x80) == 0x80; session->settings[PRS1_HoseDiam] = ((data[offset + 0x0a] & 0x08) ? "15mm" : "22mm"); session->settings[PRS1_AutoOff] = (data[offset + 0x0c] & 0x10) == 0x10; session->settings[PRS1_MaskAlert] = (data[offset + 0x0c] & 0x08) == 0x08; session->settings[PRS1_ShowAHI] = (data[offset + 0x0c] & 0x04) == 0x04; if (family == 0 && familyVersion >= 4) { if ((data[offset + 0x0a] & 0x04) == 0x04) { // heated tubing off session->settings[CPAP_HumidSetting] = (int)data[offset + 0x09] & 0x0f; } else { session->settings[CPAP_HumidSetting] = (int)(data[offset + 0x09] & 0x30) >> 4; } session->settings[PRS1_SysOneResistSet] = (int)(data[offset + 0x0b] & 0x38) >> 3; /* These should be added to channels, if they are correct(?) */ /* for now, leave commented out */ /* session->settings[PRS1_HeatedTubing]=(data[offset+0x0a]&0x04)!=0x04; session->settings[PRS1_HeatedTubingConnected]=(data[offset+0x0b]&0x01)==0x01; session->settings[PRS1_HeatedTubingTemp]=(int)(data[offset+0x09]&0x80)>>5 + (data[offset+0x0a]&0x03); */ } else { session->settings[CPAP_HumidSetting] = (int)data[offset + 0x09] & 0x0f; session->settings[PRS1_HumidStatus] = (data[offset + 0x09] & 0x80) == 0x80; session->settings[PRS1_SysOneResistStat] = (data[offset + 0x0a] & 0x40) == 0x40; session->settings[PRS1_SysOneResistSet] = (int)data[offset + 0x0a] & 7; } // up to this point appears to be correct, everything after is pretty much crap // Summary files vary too much between Families/versions unsigned duration; if (size < 59) { // duration = data[offset + 0x12] | (data[offset + 0x13] << 8); // duration *= 2; // session->really_set_last(qint64(timestamp + duration) * 1000L); if (max > 0) { session->setMin(CPAP_Pressure, min); session->setMax(CPAP_Pressure, max); //session->setWavg(CPAP_Pressure,min); } } else { // 0X28 & 0X29 is length on r5 // if (family == 0 && familyVersion >= 4) { // offset += 12; // } // on some 60 series it's one off. or was the original 60 series patch wrong? // I verified this comment below against several data samples compared with encore reports. //duration=data[0x1B] | data[0x1C] << 8) // Session length in seconds // duration = data[offset + 0x14] | (data[offset + 0x15] << 8); // if (!duration) { // qDebug() << "!duration exit"; // delete session; // return false; // } // session->really_set_last(qint64(timestamp + duration) * 1000L); // float hours = float(duration) / 3600.0; // Not using these because sometimes this summary is broken. //EventDataType minp,maxp,avgp,p90p; //minp=float(data[offset+0x16])/10.0; //maxp=float(data[offset+0x17])/10.0; //p90p=float(data[offset+0x18])/10.0; //avgp=float(data[offset+0x19])/10.0; // Nope.. positions are too variant between models.. calculate the hard way during machine->Save().. // short minp = data[offset + 0x16]; // short maxp = data[offset + 0x17]; // short medp = data[offset + 0x19]; // short p90p = data[offset + 0x18]; // if (family < 5) { // if (minp > 0) { session->setMin(CPAP_Pressure, EventDataType(minp) * 0.10); } // if (maxp > 0) { session->setMax(CPAP_Pressure, EventDataType(maxp) * 0.10); } // if (medp > 0) { session->setWavg(CPAP_Pressure, EventDataType(medp) * 0.10); } // ?? // session->m_gain[CPAP_Pressure] = 0.1; // session->m_valuesummary[CPAP_Pressure][minp] = 5; // session->m_valuesummary[CPAP_Pressure][medp] = 46; // session->m_valuesummary[CPAP_Pressure][p90p] = 44; // session->m_valuesummary[CPAP_Pressure][maxp] = 5; // } // if (p90p>0) { // session->set90p(CPAP_Pressure,p90p); // } // I can't rely on the position of any of this! // int oc, cc, hc, rc, fc; // session->setCount(CPAP_Obstructive, oc = (int)data[offset + 0x1C] | (data[offset + 0x1D] << 8)); // session->setCount(CPAP_ClearAirway, cc = (int)data[offset + 0x20] | (data[offset + 0x21] << 8)); // session->setCount(CPAP_Hypopnea, hc = (int)data[offset + 0x2A] | (data[offset + 0x2B] << 8)); // session->setCount(CPAP_RERA, rc = (int)data[offset + 0x2E] | (data[offset + 0x2F] << 8)); // session->setCount(CPAP_FlowLimit, fc = (int)data[offset + 0x30] | (data[offset + 0x31] << 8)); // session->setCph(CPAP_Obstructive, float(oc / hours)); // session->setCph(CPAP_ClearAirway, float(cc / hours)); // session->setCph(CPAP_Hypopnea, float(hc / hours)); // session->setCph(CPAP_RERA, float(rc / hours)); // session->setCph(CPAP_FlowLimit, float(fc / hours)); } // Set recommended Graph values.. session->setPhysMax(CPAP_LeakTotal, 120); session->setPhysMin(CPAP_LeakTotal, 0); session->setPhysMax(CPAP_Pressure, 25); session->setPhysMin(CPAP_Pressure, 4); session->setPhysMax(CPAP_IPAP, 25); session->setPhysMin(CPAP_IPAP, 4); session->setPhysMax(CPAP_EPAP, 25); session->setPhysMin(CPAP_EPAP, 4); session->setPhysMax(CPAP_PS, 25); session->setPhysMin(CPAP_PS, 0); new_sessions[sequence] = session; return true; } bool PRS1Loader::Parse002v5(qint32 sequence, quint32 timestamp, unsigned char *buffer, quint16 size,int familyVersion) { if (!new_sessions.contains(sequence)) { qDebug() << "contains squence exit"; return false; } Session *session = new_sessions[sequence]; ChannelID Codes[] = { PRS1_00, PRS1_01, CPAP_Pressure, CPAP_EPAP, CPAP_PressurePulse, CPAP_Obstructive, CPAP_ClearAirway, CPAP_Hypopnea, PRS1_08, CPAP_FlowLimit, PRS1_0A, CPAP_CSR, PRS1_0C, CPAP_VSnore, PRS1_0E, PRS1_0F, PRS1_10, // Large leak apparently CPAP_LeakTotal, PRS1_12 }; int ncodes = sizeof(Codes) / sizeof(ChannelID); EventList *Code[0x20] = {nullptr}; EventList *OA = session->AddEventList(CPAP_Obstructive, EVL_Event); EventList *HY = session->AddEventList(CPAP_Hypopnea, EVL_Event); EventList *CSR = session->AddEventList(CPAP_CSR, EVL_Event); EventList *LEAK = session->AddEventList(CPAP_LeakTotal, EVL_Event); EventList *SNORE = session->AddEventList(CPAP_Snore, EVL_Event); EventList *IPAP = session->AddEventList(CPAP_IPAP, EVL_Event, 0.1); EventList *EPAP = session->AddEventList(CPAP_EPAP, EVL_Event, 0.1); EventList *PS = session->AddEventList(CPAP_PS, EVL_Event, 0.1); EventList *IPAPLo = session->AddEventList(CPAP_IPAPLo, EVL_Event, 0.1); EventList *IPAPHi = session->AddEventList(CPAP_IPAPHi, EVL_Event, 0.1); EventList *RR = session->AddEventList(CPAP_RespRate, EVL_Event); EventList *PTB = session->AddEventList(CPAP_PTB, EVL_Event); EventList *MV = session->AddEventList(CPAP_MinuteVent, EVL_Event); EventList *TV = session->AddEventList(CPAP_TidalVolume, EVL_Event, 10); EventList *CA = nullptr; //session->AddEventList(CPAP_ClearAirway, EVL_Event); EventList *VS = nullptr, * FL = nullptr; //,* RE=nullptr,* VS2=nullptr; //EventList * PRESSURE=nullptr; //EventList * PP=nullptr; EventDataType data[10];//,tmp; //qint64 start=timestamp; qint64 t = qint64(timestamp) * 1000L; session->updateFirst(t); qint64 tt; int pos = 0; int cnt = 0; short delta;//,duration; QDateTime d; bool badcode = false; unsigned char lastcode3 = 0, lastcode2 = 0, lastcode = 0, code = 0; int lastpos = 0, startpos = 0, lastpos2 = 0, lastpos3 = 0; while (pos < size) { lastcode3 = lastcode2; lastcode2 = lastcode; lastcode = code; lastpos3 = lastpos2; lastpos2 = lastpos; lastpos = startpos; startpos = pos; code = buffer[pos++]; if (code >= ncodes) { qDebug() << "Illegal PRS1 code " << hex << int(code) << " appeared at " << hex << startpos; qDebug() << "1: (" << int(lastcode) << hex << lastpos << ")"; qDebug() << "2: (" << int(lastcode2) << hex << lastpos2 << ")"; qDebug() << "3: (" << int(lastcode3) << hex << lastpos3 << ")"; return false; } if (code == 0) { } else if (code != 0x12) { delta = buffer[pos]; //duration=buffer[pos+1]; //delta=buffer[pos+1] << 8 | buffer[pos]; pos += 2; t += qint64(delta) * 1000L; } ChannelID cpapcode = Codes[(int)code]; //EventDataType PS; tt = t; cnt++; int fc = 0; switch (code) { case 0x00: // Unknown (ASV Pressure value) // offset? data[0] = buffer[pos++]; fc++; if (!buffer[pos - 1]) { // WTH??? data[1] = buffer[pos++]; fc++; } if (!buffer[pos - 1]) { data[2] = buffer[pos++]; fc++; } break; case 0x01: // Unknown if (!Code[1]) { if (!(Code[1] = session->AddEventList(cpapcode, EVL_Event, 0.1))) { return false; } } Code[1]->AddEvent(t, 0); break; case 0x02: // Pressure ??? data[0] = buffer[pos++]; // if (!Code[2]) { // if (!(Code[2]=session->AddEventList(cpapcode,EVL_Event,0.1))) return false; // } // Code[2]->AddEvent(t,data[0]); break; case 0x04: // Pressure Pulse?? data[0] = buffer[pos++]; if (!Code[3]) { if (!(Code[3] = session->AddEventList(cpapcode, EVL_Event))) { return false; } } Code[3]->AddEvent(t, data[0]); break; case 0x05: //code=CPAP_Obstructive; data[0] = buffer[pos++]; tt -= qint64(data[0]) * 1000L; // Subtract Time Offset OA->AddEvent(tt, data[0]); break; case 0x06: //code=CPAP_ClearAirway; data[0] = buffer[pos++]; tt -= qint64(data[0]) * 1000L; // Subtract Time Offset if (!CA) { if (!(CA = session->AddEventList(cpapcode, EVL_Event))) { return false; } } CA->AddEvent(tt, data[0]); break; case 0x07: //code=CPAP_Hypopnea; data[0] = buffer[pos++]; tt -= qint64(data[0]) * 1000L; // Subtract Time Offset HY->AddEvent(tt, data[0]); break; case 0x08: // ??? data[0] = buffer[pos++]; tt -= qint64(data[0]) * 1000L; // Subtract Time Offset qDebug() << "Code 8 found at " << hex << pos - 1 << " " << tt; if (!Code[10]) { if (!(Code[10] = session->AddEventList(cpapcode, EVL_Event))) { return false; } } //???? //data[1]=buffer[pos++]; // ??? Code[10]->AddEvent(tt, data[0]); pos++; break; case 0x09: // ASV Codes //code=CPAP_FlowLimit; data[0] = buffer[pos++]; tt -= qint64(data[0]) * 1000L; // Subtract Time Offset if (!FL) { if (!(FL = session->AddEventList(cpapcode, EVL_Event))) { return false; } } FL->AddEvent(tt, data[0]); break; case 0x0a: data[0] = buffer[pos++]; tt -= qint64(data[0]) * 1000L; // Subtract Time Offset if (!Code[7]) { if (!(Code[7] = session->AddEventList(cpapcode, EVL_Event))) { return false; } } Code[7]->AddEvent(tt, data[0]); break; case 0x0b: // Cheyne Stokes data[0] = ((unsigned char *)buffer)[pos + 1] << 8 | ((unsigned char *)buffer)[pos]; //data[0]*=2; pos += 2; data[1] = ((unsigned char *)buffer)[pos]; //|buffer[pos+1] << 8 pos += 1; //tt-=delta; tt -= qint64(data[1]) * 1000L; if (!CSR) { if (!(CSR = session->AddEventList(cpapcode, EVL_Event))) { qDebug() << "!CSR addeventlist exit"; return false; } } CSR->AddEvent(tt, data[0]); break; case 0x0c: data[0] = buffer[pos++]; tt -= qint64(data[0]) * 1000L; // Subtract Time Offset qDebug() << "Code 12 found at " << hex << pos - 1 << " " << tt; if (!Code[8]) { if (!(Code[8] = session->AddEventList(cpapcode, EVL_Event))) { return false; } } Code[8]->AddEvent(tt, data[0]); pos += 2; break; case 0x0d: // All the other ASV graph stuff. IPAP->AddEvent(t, data[0] = buffer[pos++]); // 00=IAP data[4] = buffer[pos++]; IPAPLo->AddEvent(t, data[4]); // 01=IAP Low data[5] = buffer[pos++]; IPAPHi->AddEvent(t, data[5]); // 02=IAP High LEAK->AddEvent(t, buffer[pos++]); // 03=LEAK RR->AddEvent(t, buffer[pos++]); // 04=Breaths Per Minute PTB->AddEvent(t, buffer[pos++]); // 05=Patient Triggered Breaths MV->AddEvent(t, buffer[pos++]); // 06=Minute Ventilation //tmp=buffer[pos++] * 10.0; TV->AddEvent(t, buffer[pos++]); // 07=Tidal Volume SNORE->AddEvent(t, data[2] = buffer[pos++]); // 08=Snore if (data[2] > 0) { if (!VS) { if (!(VS = session->AddEventList(CPAP_VSnore, EVL_Event))) { qDebug() << "!VS eventlist exit"; return false; } } VS->AddEvent(t, 0); //data[2]); // VSnore } EPAP->AddEvent(t, data[1] = buffer[pos++]); // 09=EPAP data[2] = data[0] - data[1]; PS->AddEvent(t, data[2]); // Pressure Support if (familyVersion >= 1) { data[0] = buffer[pos++]; } break; case 0x03: // BIPAP Pressure qDebug() << "0x03 Observed in ASV data!!????"; data[0] = buffer[pos++]; data[1] = buffer[pos++]; // data[0]/=10.0; // data[1]/=10.0; // session->AddEvent(new Event(t,CPAP_EAP, 0, data, 1)); // session->AddEvent(new Event(t,CPAP_IAP, 0, &data[1], 1)); break; case 0x11: // Not Leak Rate qDebug() << "0x11 Observed in ASV data!!????"; //if (!Code[24]) { // Code[24]=new EventList(cpapcode,EVL_Event); //} //Code[24]->AddEvent(t,buffer[pos++]); break; case 0x0e: // Unknown qDebug() << "0x0E Observed in ASV data!!????"; data[0] = buffer[pos++]; // << 8) | buffer[pos]; //session->AddEvent(new Event(t,cpapcode, 0, data, 1)); break; case 0x10: // Unknown qDebug() << "0x10 Observed in ASV data!!????"; data[0] = buffer[pos++]; // << 8) | buffer[pos]; data[1] = buffer[pos++]; data[2] = buffer[pos++]; //session->AddEvent(new Event(t,cpapcode, 0, data, 3)); break; case 0x0f: qDebug() << "0x0f Observed in ASV data!!????"; data[0] = buffer[pos + 1] << 8 | buffer[pos]; pos += 2; data[1] = buffer[pos]; //|buffer[pos+1] << 8 pos += 1; tt -= qint64(data[1]) * 1000L; //session->AddEvent(new Event(tt,cpapcode, 0, data, 2)); break; case 0x12: // Summary qDebug() << "0x12 Observed in ASV data!!????"; data[0] = buffer[pos++]; data[1] = buffer[pos++]; data[2] = buffer[pos + 1] << 8 | buffer[pos]; pos += 2; //session->AddEvent(new Event(t,cpapcode, 0, data,3)); break; default: // ERROR!!! qWarning() << "Some new fandangled PRS1 code detected " << hex << int(code) << " at " << pos - 1; badcode = true; break; } if (badcode) { break; } } session->updateLast(t); session->m_cnt.clear(); session->m_cph.clear(); session->settings[CPAP_IPAPLo] = session->Min(CPAP_IPAPLo); session->settings[CPAP_IPAPHi] = session->Max(CPAP_IPAPHi); session->settings[CPAP_PSMax] = session->Max(CPAP_IPAPHi) - session->Min(CPAP_EPAP); session->settings[CPAP_PSMin] = session->Min(CPAP_IPAPLo) - session->Min(CPAP_EPAP); session->m_valuesummary[CPAP_Pressure].clear(); session->m_valuesummary.erase(session->m_valuesummary.find(CPAP_Pressure)); return true; } bool PRS1Loader::Parse002(qint32 sequence, quint32 timestamp, unsigned char *buffer, quint16 size, int family, int familyVersion) { if (!new_sessions.contains(sequence)) { return false; } unsigned char code; EventList *Code[0x20] = {0}; EventDataType data[10]; int cnt = 0; short delta; int tdata; quint64 pos; qint64 t = qint64(timestamp) * 1000L, tt; Session *session = new_sessions[sequence]; session->updateFirst(t); EventList *OA = session->AddEventList(CPAP_Obstructive, EVL_Event); EventList *HY = session->AddEventList(CPAP_Hypopnea, EVL_Event); EventList *CSR = session->AddEventList(CPAP_CSR, EVL_Event); EventList *LEAK = session->AddEventList(CPAP_LeakTotal, EVL_Event); EventList *SNORE = session->AddEventList(CPAP_Snore, EVL_Event); EventList *CA = nullptr; //session->AddEventList(CPAP_ClearAirway, EVL_Event); EventList *VS = nullptr; EventList *VS2 = nullptr; EventList *FL = nullptr; EventList *RE = nullptr; EventList *PRESSURE = nullptr; EventList *EPAP = nullptr; EventList *IPAP = nullptr; EventList *PS = nullptr; EventList *PP = nullptr; //session->AddEventList(CPAP_VSnore, EVL_Event); //EventList * VS=session->AddEventList(CPAP_Obstructive, EVL_Event); unsigned char lastcode3 = 0, lastcode2 = 0, lastcode = 0; int lastpos = 0, startpos = 0, lastpos2 = 0, lastpos3 = 0; for (pos = 0; pos < size;) { lastcode3 = lastcode2; lastcode2 = lastcode; lastcode = code; lastpos3 = lastpos2; lastpos2 = lastpos; lastpos = startpos; startpos = pos; code = buffer[pos++]; if (code > 0x12) { qDebug() << "Illegal PRS1 code " << hex << int(code) << " appeared at " << hex << startpos; qDebug() << "1: (" << hex << int(lastcode) << hex << lastpos << ")"; qDebug() << "2: (" << hex << int(lastcode2) << hex << lastpos2 << ")"; qDebug() << "3: (" << hex << int(lastcode3) << hex << lastpos3 << ")"; return false; } if (code != 0x12) { delta = buffer[pos + 1] << 8 | buffer[pos]; pos += 2; t += qint64(delta) * 1000L; tt = t; } cnt++; switch (code) { case 0x00: // Unknown 00 if (!Code[0]) { if (!(Code[0] = session->AddEventList(PRS1_00, EVL_Event))) { return false; } } Code[0]->AddEvent(t, buffer[pos++]); if (family == 0 && familyVersion >= 4) { pos++; } break; case 0x01: // Unknown if (!Code[1]) { if (!(Code[1] = session->AddEventList(PRS1_01, EVL_Event))) { return false; } } Code[1]->AddEvent(t, 0); if (family == 0 && familyVersion >= 4) { if (!PRESSURE) { PRESSURE = session->AddEventList(CPAP_Pressure, EVL_Event, 0.1); if (!PRESSURE) { return false; } } PRESSURE->AddEvent(t, buffer[pos++]); } break; case 0x02: // Pressure if (family == 0 && familyVersion >= 4) { // BiPAP Pressure if (!EPAP) { if (!(EPAP = session->AddEventList(CPAP_EPAP, EVL_Event, 0.1))) { return false; } if (!(IPAP = session->AddEventList(CPAP_IPAP, EVL_Event, 0.1))) { return false; } if (!(PS = session->AddEventList(CPAP_PS, EVL_Event, 0.1))) { return false; } } EPAP->AddEvent(t, data[0] = buffer[pos++]); IPAP->AddEvent(t, data[1] = buffer[pos++]); PS->AddEvent(t, data[1] - data[0]); } else { if (!PRESSURE) { PRESSURE = session->AddEventList(CPAP_Pressure, EVL_Event, 0.1); if (!PRESSURE) { return false; } } PRESSURE->AddEvent(t, buffer[pos++]); } break; case 0x03: // BIPAP Pressure if (!EPAP) { if (!(EPAP = session->AddEventList(CPAP_EPAP, EVL_Event, 0.1))) { return false; } if (!(IPAP = session->AddEventList(CPAP_IPAP, EVL_Event, 0.1))) { return false; } if (!(PS = session->AddEventList(CPAP_PS, EVL_Event, 0.1))) { return false; } } EPAP->AddEvent(t, data[0] = buffer[pos++]); IPAP->AddEvent(t, data[1] = buffer[pos++]); PS->AddEvent(t, data[1] - data[0]); break; case 0x04: // Pressure Pulse if (!PP) { if (!(PP = session->AddEventList(CPAP_PressurePulse, EVL_Event))) { return false; } } PP->AddEvent(t, buffer[pos++]); break; case 0x05: // RERA data[0] = buffer[pos++]; tt = t - (qint64(data[0]) * 1000L); if (!RE) { if (!(RE = session->AddEventList(CPAP_RERA, EVL_Event))) { return false; } } RE->AddEvent(tt, data[0]); break; case 0x06: // Obstructive Apoanea data[0] = buffer[pos++]; tt = t - (qint64(data[0]) * 1000L); OA->AddEvent(tt, data[0]); break; case 0x07: // Clear Airway data[0] = buffer[pos++]; tt = t - (qint64(data[0]) * 1000L); if (!CA) { if (!(CA = session->AddEventList(CPAP_ClearAirway, EVL_Event))) { return false; } } CA->AddEvent(tt, data[0]); break; case 0x0a: // Hypopnea data[0] = buffer[pos++]; tt = t - (qint64(data[0]) * 1000L); HY->AddEvent(tt, data[0]); break; case 0x0c: // Flow Limitation data[0] = buffer[pos++]; tt = t - (qint64(data[0]) * 1000L); if (!FL) { if (!(FL = session->AddEventList(CPAP_FlowLimit, EVL_Event))) { return false; } } FL->AddEvent(tt, data[0]); break; case 0x0b: // Hypopnea related code data[0] = buffer[pos++]; data[1] = buffer[pos++]; if (!Code[12]) { if (!(Code[12] = session->AddEventList(PRS1_0B, EVL_Event))) { return false; } } // FIXME Code[12]->AddEvent(t, data[0]); break; case 0x0d: // Vibratory Snore if (!VS) { if (!(VS = session->AddEventList(CPAP_VSnore, EVL_Event))) { return false; } } VS->AddEvent(t, 0); break; case 0x11: // Leak Rate & Snore Graphs data[0] = buffer[pos++]; data[1] = buffer[pos++]; LEAK->AddEvent(t, data[0]); SNORE->AddEvent(t, data[1]); if (data[1] > 0) { if (!VS2) { if (!(VS2 = session->AddEventList(CPAP_VSnore2, EVL_Event))) { return false; } } VS2->AddEvent(t, data[1]); } if (family == 0 && familyVersion >= 4) { pos++; } break; case 0x0e: // Unknown data[0] = ((char *)buffer)[pos++]; data[1] = buffer[pos++]; //(buffer[pos+1] << 8) | buffer[pos]; //data[0]/=10.0; //pos+=2; data[2] = buffer[pos++]; if (!Code[17]) { if (!(Code[17] = session->AddEventList(PRS1_0E, EVL_Event))) { return false; } } tdata = unsigned(data[1]) << 8 | unsigned(data[0]); Code[17]->AddEvent(t, tdata); //qDebug() << hex << data[0] << data[1] << data[2]; //session->AddEvent(new Event(t,cpapcode, 0, data, 3)); //tt-=data[1]*1000; //session->AddEvent(new Event(t,CPAP_CSR, data, 2)); break; case 0x10: // Unknown, Large Leak data[0] = buffer[pos + 1] << 8 | buffer[pos]; pos += 2; data[1] = buffer[pos++]; if (!Code[20]) { if (!(Code[20] = session->AddEventList(PRS1_10, EVL_Event))) { return false; } } tt = t - qint64(data[1]) * 1000L; Code[20]->AddEvent(tt, data[0]); break; case 0x0f: // Cheyne Stokes Respiration data[0] = buffer[pos + 1] << 8 | buffer[pos]; pos += 2; data[1] = buffer[pos++]; tt = t - qint64(data[1]) * 1000L; CSR->AddEvent(tt, data[0]); break; case 0x12: // Summary data[0] = buffer[pos++]; data[1] = buffer[pos++]; data[2] = buffer[pos + 1] << 8 | buffer[pos]; pos += 2; if (!Code[24]) { if (!(Code[24] = session->AddEventList(PRS1_12, EVL_Event))) { return false; } } Code[24]->AddEvent(t, data[0]); break; default: // ERROR!!! qWarning() << "Some new fandangled PRS1 code detected in" << sequence << hex << int(code) << " at " << pos - 1; return false; } } session->updateLast(t); session->m_cnt.clear(); session->m_cph.clear(); session->m_lastchan.clear(); session->m_firstchan.clear(); session->m_valuesummary[CPAP_Pressure].clear(); session->m_valuesummary.erase(session->m_valuesummary.find(CPAP_Pressure)); return true; } //bool PRS1Loader::ParseWaveform(qint32 sequence, quint32 timestamp, unsigned char *data, quint16 size, quint16 duration, quint16 num_signals, quint16 interleave, quint8 sample_format) //{ // Q_UNUSED(interleave) // Q_UNUSED(sample_format) // // this whole function is currently unused.. // if (!new_sessions.contains(sequence)) // return false; // qint64 t=qint64(timestamp)*1000L; // Session *session=new_sessions[sequence]; // if (num_signals==1) { // session->updateFirst(t); // double d=duration*1000; // EventDataType rate=d / EventDataType(size); // EventList *ev=session->AddEventList(CPAP_FlowRate,EVL_Waveform,1.0,0.00,0,0,rate); // ev->AddWaveform(t,(char *)data,size,qint64(duration)*1000L); // session->updateLast(t+qint64(duration)*1000L); // } // return true; //} bool PRS1Loader::OpenFile(Machine *mach, QString filename) { int sequence, family, familyVersion; quint32 timestamp; qint64 pos; unsigned char ext, sum, htype; unsigned char *header, *data; int chunk, hl; quint16 size, datasize, c16, crc; // waveform stuff vector whl; quint16 interleave, duration, num_signals; quint8 sample_format; QFile f(filename); if (!f.exists()) { return false; } if (!f.open(QIODevice::ReadOnly)) { return false; } qint64 filesize = f.size(); if (filesize > max_load_buffer_size) { qWarning() << "Waveform too big, increase max_load_buffer_size in PRS1Loader sourcecode" << filename; return false; } if (f.read((char *)m_buffer, filesize) < filesize) { qDebug() << "Couldn't read full file" << filename; return false; } pos = 0; bool wasfaulty = false, faulty = false; for (chunk = 0; pos < filesize; ++chunk, pos += size) { header = &m_buffer[pos]; if (header[0] != PRS1_MAGIC_NUMBER) { if (chunk == 0) { qDebug() << "Invalid magic number" << filename; } return false; break; } size = (header[2] << 8) | header[1]; htype = header[3]; // 00 = normal // 01=waveform // could be a bool? Q_UNUSED(htype); family = header[4]; // == 5 familyVersion = header[5]; ext = header[6]; sequence = (header[10] << 24) | (header[9] << 16) | (header[8] << 8) | header[7]; timestamp = (header[14] << 24) | (header[13] << 16) | (header[12] << 8) | header[11]; qDebug() << "family: " << family << " familyversion: " << familyVersion; if (ext == 5) { duration = header[0xf] | header[0x10] << 8; // block duration in seconds Q_UNUSED(duration); num_signals = header[0x12] | header[0x13] << 8; if (num_signals > 2) { qWarning() << "More than 2 Waveforms in " << filename; return false; } long pos2 = 0x14 + (num_signals - 1) * 3; // add the in reverse... for (int i = 0; i < num_signals; i++) { interleave = header[pos2] | header[pos2 + 1] << 8; sample_format = header[pos2 + 2]; whl.push_back(WaveHeaderList(interleave, sample_format)); pos2 -= 3; } hl = 15 + 6 + (num_signals * 3); } else { hl = 16; } wasfaulty = faulty; sum = 0; for (int i = 0; i < hl - 1; i++) { sum += header[i]; } unsigned char c8 = header[hl - 1]; if (sum != c8) { if (chunk == 0) { qDebug() << "File" << filename << "has faulty header at" << pos; if ((size > 0) && (pos + size < filesize) && (header[size] == 2)) { faulty = true; continue; } return (chunk != 0); } break; } datasize = size - hl - 2; data = &header[hl]; #ifdef PRS1_CRC_CHECK c16 = CRC16(data, datasize); crc = (data[datasize + 1] << 8) | data[datasize]; if (crc != c16) { qDebug() << "File" << filename << "failed CRC check at chunk" << chunk << "wanted" << crc << "got" << c16; faulty = true; continue; } #endif if (wasfaulty) { qDebug() << "Managed to continue with next block"; } qDebug() << "Loading" << QDir::toNativeSeparators(filename) << sequence << timestamp << size; //if (ext==0) ParseCompliance(data,size); if (ext <= 1) { ParseSummary(mach, sequence, timestamp, data, datasize, family, familyVersion); } else if (ext == 2) { if (family == 5) { if (!Parse002v5(sequence, timestamp, data, datasize, familyVersion)) { qDebug() << "in file: " << QDir::toNativeSeparators(filename); } } else { Parse002(sequence, timestamp, data, datasize, family, familyVersion); } } else if (ext == 5) { // too messy to do here.. //ParseWaveform(mach,sequence,timestamp,data,datasize,duration,num_signals,interleave,sample_format); } } return true; } bool PRS1Loader::OpenWaveforms(SessionID sid, QString filename) { if (sid == 1532) { int i=5; } Session *session = new_sessions[sid]; //int sequence,seconds,br,htype,version,numsignals; QFile file(filename); if (!file.open(QIODevice::ReadOnly)) { qWarning() << "Couldn't open waveform file" << filename; return false; } int pos, br, size = file.size(); if (size > max_load_buffer_size) { qWarning() << "Waveform too big, increase max_load_buffer_size in PRS1Loader sourcecode" << filename; return false; } br = file.read((char *)m_buffer, size); if (br < size) { qWarning() << "Couldn't read waveform data.. Disk error?" << filename; return false; } // Look at the initial header and assume this header size for the lot. if ((m_buffer[0] != 2) || (m_buffer[6] != 0x05)) { qWarning() << "Not correct waveform format" << filename; return false; } //quint8 version=m_buffer[4]; quint32 start = m_buffer[0xb] | m_buffer[0xc] << 8 | m_buffer[0xd] << 16 | m_buffer[0x0e] << 24; session->updateFirst(qint64(start) * 1000L); quint16 num_signals = m_buffer[0x12] | m_buffer[0x13] << 8; if (num_signals > 2) { qWarning() << "More than 2 Waveforms in " << filename; return false; } pos = 0x14 + (num_signals - 1) * 3; vector whl; // add the signals to whl in reverse... for (int i = 0; i < num_signals; i++) { quint16 interleave = m_buffer[pos] | m_buffer[pos + 1] << 8; quint8 sample_format = m_buffer[pos + 2]; whl.push_back(WaveHeaderList(interleave, sample_format)); pos -= 3; } int hl = 15 + 5 + (num_signals * 3); quint16 duration, length = 0; quint32 timestamp, lasttimestamp; pos = 0; int block = 0; lasttimestamp = start; duration = 0; int corrupt = 0; char waveform[2][500000]; // eek. That's a lot of Stack. int wlength[2]; qint64 wdur[2]; //EventList *evl[num_signals]; for (int i = 0; i < num_signals; i++) { wlength[i] = 0; wdur[i] = 0; //evl[i]=nullptr; //waveform[i].resize(500000); } //SampleFormat *wf[num_signals]; //EventList *FlowData=EventList(CPAP_FlowRate, EVL_Waveform,1,0,-128,128); //EventList *MaskData=EventList(CPAP_MaskPressure, EVL_Waveform,1,0,-128,128); //QString FlowRate=CPAP_FlowRate; //QString MaskPressure="MaskPressure"; ChannelID wc[2] = {CPAP_FlowRate, CPAP_MaskPressure}; unsigned char sum8; // additive checksum do { timestamp = m_buffer[pos + 0xb] | m_buffer[pos + 0xc] << 8 | m_buffer[pos + 0xd] << 16 | m_buffer[pos + 0x0e] << 24; // Calculate header checksum sum8 = 0; for (int i = 0; i < hl; i++) { sum8 += m_buffer[pos + i]; } if (m_buffer[pos + hl] != sum8) { if (block == 0) { qDebug() << "Faulty Header Checksum, aborting" << filename; return false; } if (++corrupt > 3) { qDebug() << "3 Faulty Waveform Headers in a row.. Aborting" << filename; return false; } qDebug() << "Faulty Header Checksum, skipping block" << block; pos += length; continue; } else { int diff = timestamp - (lasttimestamp + duration); if (block == 1) { if (diff > 0) { start -= diff; } } length = m_buffer[pos + 0x1] | m_buffer[pos + 0x2] << 8; // block length in bytes duration = m_buffer[pos + 0xf] | m_buffer[pos + 0x10] << 8; // block duration in seconds if (diff < 0) { qDebug() << "Padding waveform to keep sync" << block; //diff=qAbs(diff); for (int i = 0; i < num_signals; i++) { for (int j = 0; j < diff; j++) { for (int k = 0; k < whl[i].interleave; k++) { waveform[i][wlength[i]++] = 0; } } wdur[i] += diff; } } else if ((diff > 0) && (wlength[0] > 0)) { qDebug() << "Timestamp resync" << block << diff << corrupt << duration << timestamp - lasttimestamp << filename; for (int i = 0; i < num_signals; i++) { double rate = (double(wdur[i]) * 1000.0) / double(wlength[i]); double gain; if (i == 1) { gain = 0.1; } else { gain = 1; } EventList *a = session->AddEventList(wc[i], EVL_Waveform, gain, 0, 0, 0, rate); //EventList *a=new EventList(wc[i],EVL_Waveform,gain,0,0,0,rate); //session->machine()->registerChannel(wc[i]); if (whl[i].sample_format) { a->AddWaveform(qint64(start) * 1000L, (unsigned char *)waveform[i], wlength[i], qint64(wdur[i]) * 1000L); } else { a->AddWaveform(qint64(start) * 1000L, (char *)waveform[i], wlength[i], qint64(wdur[i]) * 1000L); } if (wc[i] == CPAP_FlowRate) { a->setMax(120); a->setMin(-120); } else if (wc[i] == CPAP_MaskPressure) { //int v=ceil(a->Max()/5); //a->setMax(v*5); //v=floor(a->Min()/5); //a->setMin(v*5); } session->updateLast((start + qint64(wdur[i])) * 1000L); wlength[i] = 0; wdur[i] = 0; } start = timestamp; corrupt = 0; } } pos += hl + 1; //qDebug() << (duration*num_signals*whl[0].interleave) << duration; if (num_signals == 1) { // no interleave.. this is much quicker. int bs = duration * whl[0].interleave; memcpy((char *) & (waveform[0])[wlength[0]], (char *)&m_buffer[pos], bs); wlength[0] += bs; pos += bs; } else { for (int i = 0; i < duration; i++) { for (int s = 0; s < num_signals; s++) { memcpy((char *) & (waveform[s])[wlength[s]], (char *)&m_buffer[pos], whl[s].interleave); wlength[s] += whl[s].interleave; pos += whl[s].interleave; } } } for (int i = 0; i < num_signals; i++) { wdur[i] += duration; } pos += 2; block++; lasttimestamp = timestamp; } while (pos < size); for (int i = 0; i < num_signals; i++) { double rate = (double(wdur[i]) * 1000.0) / double(wlength[i]); double gain; if (i == 1) { gain = 0.1; } else { gain = 1; } EventList *a = session->AddEventList(wc[i], EVL_Waveform, gain, 0, 0, 0, rate); if (whl[i].sample_format) { a->AddWaveform(qint64(start) * 1000L, (unsigned char *)waveform[i], wlength[i], qint64(wdur[i]) * 1000L); } else { a->AddWaveform(qint64(start) * 1000L, (char *)waveform[i], wlength[i], qint64(wdur[i]) * 1000L); } if (wc[i] == CPAP_FlowRate) { a->setMax(120); a->setMin(-120); } else if (wc[i] == CPAP_MaskPressure) { } session->updateLast((start + qint64(wdur[i])) * 1000L); } // lousy family 5 check to see if already has RespRate return true; } void InitModelMap() { ModelMap[0x34] = "RemStar Pro with C-Flex+"; // 450/460P ModelMap[0x35] = "RemStar Auto with A-Flex"; // 550/560P ModelMap[0x36] = "RemStar BiPAP Pro with Bi-Flex"; ModelMap[0x37] = "RemStar BiPAP Auto with Bi-Flex"; ModelMap[0x38] = "RemStar Plus :("; // 150/250P/260P ModelMap[0x41] = "BiPAP autoSV Advanced"; } bool initialized = false; void PRS1Loader::Register() { if (initialized) { return; } qDebug() << "Registering PRS1Loader"; RegisterLoader(new PRS1Loader()); InitModelMap(); initialized = true; }