#include "downloadfromdcthread.h" #include "core/libdivecomputer.h" #include QStringList vendorList; QHash productList; static QHash mobileProductList; // BT, BLE or FTDI supported DCs for mobile QMap descriptorLookup; static QString str_error(const char *fmt, ...) { va_list args; va_start(args, fmt); const QString str = QString().vsprintf(fmt, args); va_end(args); return str; } DownloadThread::DownloadThread() { m_data = DCDeviceData::instance(); } void DownloadThread::run() { auto internalData = m_data->internalData(); internalData->descriptor = descriptorLookup[m_data->vendor() + m_data->product()]; internalData->download_table = &downloadTable; #if defined(Q_OS_ANDROID) // on Android we either use BT or we download via FTDI cable if (!internalData->bluetooth_mode) internalData->devname = "ftdi"; #endif qDebug() << "Starting download from " << (internalData->bluetooth_mode ? "BT" : internalData->devname); downloadTable.nr = 0; qDebug() << "Starting the thread" << downloadTable.nr; dive_table.preexisting = dive_table.nr; Q_ASSERT(internalData->download_table != nullptr); const char *errorText; import_thread_cancelled = false; if (!strcmp(internalData->vendor, "Uemis")) errorText = do_uemis_import(internalData); else errorText = do_libdivecomputer_import(internalData); if (errorText) error = str_error(errorText, internalData->devname, internalData->vendor, internalData->product); qDebug() << "Finishing the thread" << errorText << "dives downloaded" << downloadTable.nr; } static void fill_supported_mobile_list() { /* currently no BLE devices added as BLE backend is not ready yet */ #if defined(Q_OS_ANDROID) /* BT, BLE and FTDI devices */ mobileProductList["Heinrichs Weikamp"] = QStringList({{"OSTC Sport"}, {"OSTC 2N"}, {"OSTC 3"}, {"OSTC 3+"}, {"OSTC 4"}}); mobileProductList["Shearwater"] = QStringList({{"Petrel"}, {"Petrel 2"}, {"Perdix"}}); mobileProductList["Suunto"] = QStringList({"EON Steel"}); #endif #if defined(Q_OS_IOS) /* BLE only, Qt does not support classic BT on iOS */ #endif } void fill_computer_list() { dc_iterator_t *iterator = NULL; dc_descriptor_t *descriptor = NULL; struct mydescriptor *mydescriptor; fill_supported_mobile_list(); dc_descriptor_iterator(&iterator); while (dc_iterator_next(iterator, &descriptor) == DC_STATUS_SUCCESS) { const char *vendor = dc_descriptor_get_vendor(descriptor); const char *product = dc_descriptor_get_product(descriptor); #if defined(Q_OS_ANDROID) || defined(Q_OS_IOS) if (!mobileProductList.contains(vendor)) continue; #endif if (!vendorList.contains(vendor)) vendorList.append(vendor); #if defined(Q_OS_ANDROID) || defined(Q_OS_IOS) if (!mobileProductList[vendor].contains(product)) continue; #endif if (!productList[vendor].contains(product)) productList[vendor].push_back(product); descriptorLookup[QString(vendor) + QString(product)] = descriptor; } dc_iterator_free(iterator); Q_FOREACH (QString vendor, vendorList) qSort(productList[vendor]); #if !defined(Q_OS_ANDROID) && !defined(Q_OS_IOS) /* currently suppress the Uemis Zurich on Q_OS_ANDROID and Q_OS_IOS, * as it is no BT device */ /* and add the Uemis Zurich which we are handling internally THIS IS A HACK as we magically have a data structure here that happens to match a data structure that is internal to libdivecomputer; this WILL BREAK if libdivecomputer changes the dc_descriptor struct... eventually the UEMIS code needs to move into libdivecomputer, I guess */ mydescriptor = (struct mydescriptor *)malloc(sizeof(struct mydescriptor)); mydescriptor->vendor = "Uemis"; mydescriptor->product = "Zurich"; mydescriptor->type = DC_FAMILY_NULL; mydescriptor->model = 0; if (!vendorList.contains("Uemis")) vendorList.append("Uemis"); if (!productList["Uemis"].contains("Zurich")) productList["Uemis"].push_back("Zurich"); descriptorLookup["UemisZurich"] = (dc_descriptor_t *)mydescriptor; #endif qSort(vendorList); #if defined(SUBSURFACE_MOBILE) && defined(BT_SUPPORT) vendorList.append(QObject::tr("Paired Bluetooth Devices")); #endif } DCDeviceData *DCDeviceData::m_instance = NULL; DCDeviceData::DCDeviceData(QObject *parent) : QObject(parent) { if (m_instance) { qDebug() << "already have an instance of DCDevieData"; return; } m_instance = this; memset(&data, 0, sizeof(data)); data.trip = nullptr; data.download_table = nullptr; data.diveid = 0; data.deviceid = 0; } DCDeviceData *DCDeviceData::instance() { if (!m_instance) m_instance = new DCDeviceData(); return m_instance; } QStringList DCDeviceData::getProductListFromVendor(const QString &vendor) { return productList[vendor]; } DCDeviceData * DownloadThread::data() { return m_data; } QString DCDeviceData::vendor() const { return data.vendor; } QString DCDeviceData::product() const { return data.product; } QString DCDeviceData::devName() const { return data.devname; } QString DCDeviceData::descriptor() const { return ""; } bool DCDeviceData::bluetoothMode() const { return data.bluetooth_mode; } bool DCDeviceData::forceDownload() const { return data.force_download; } bool DCDeviceData::createNewTrip() const { return data.create_new_trip; } int DCDeviceData::deviceId() const { return data.deviceid; } int DCDeviceData::diveId() const { return data.diveid; } void DCDeviceData::setVendor(const QString& vendor) { data.vendor = strdup(qPrintable(vendor)); } void DCDeviceData::setProduct(const QString& product) { data.product = strdup(qPrintable(product)); } void DCDeviceData::setDevName(const QString& devName) { data.devname = strdup(qPrintable(devName)); } void DCDeviceData::setBluetoothMode(bool mode) { data.bluetooth_mode = mode; } void DCDeviceData::setForceDownload(bool force) { data.force_download = force; } void DCDeviceData::setCreateNewTrip(bool create) { data.create_new_trip = create; } void DCDeviceData::setDeviceId(int deviceId) { data.deviceid = deviceId; } void DCDeviceData::setDiveId(int diveId) { data.diveid = diveId; } void DCDeviceData::setSaveDump(bool save) { data.libdc_dump = save; } bool DCDeviceData::saveDump() const { return data.libdc_dump; } void DCDeviceData::setSaveLog(bool saveLog) { data.libdc_log = saveLog; } bool DCDeviceData::saveLog() const { return data.libdc_log; } device_data_t* DCDeviceData::internalData() { return &data; } int DCDeviceData::getDetectedVendorIndex(const QString ¤tText) { #if defined(BT_SUPPORT) QList btDCs = BTDiscovery::instance()->getBtDcs(); QList btAllDevices = BTDiscovery::instance()->getBtAllDevices(); // Pick the vendor of the first confirmed find of a DC (if any), but // only return a true vendor, and not our virtual one if (!btDCs.isEmpty() && currentText != QObject::tr("Paired Bluetooth Devices")) { qDebug() << "getDetectedVendorIndex" << currentText << btDCs.first().vendorIdx; return btDCs.first().vendorIdx; } // When the above fails, just pick the (one and only) virtual vendor if (!btAllDevices.isEmpty() && currentText == QObject::tr("Paired Bluetooth Devices")) { qDebug() << "getDetectedVendorIndex" << currentText << btAllDevices.first().vendorIdx; return btAllDevices.first().vendorIdx; } #endif return -1; } int DCDeviceData::getDetectedProductIndex(const QString ¤tVendorText, const QString ¤tProductText) { #if defined(BT_SUPPORT) QList btDCs = BTDiscovery::instance()->getBtDcs(); // Display in the QML UI, the first found dive computer that is been // detected as a possible real dive computer (and not some other paired // BT device if (currentVendorText != QObject::tr("Paired Bluetooth Devices") && !btDCs.isEmpty()) { qDebug() << "getDetectedProductIndex" << btDCs.first().productIdx; return btDCs.first().productIdx; } // if the above fails, display the selected paired device if (currentVendorText == QObject::tr("Paired Bluetooth Devices")) { qDebug() << "getDetectedProductIndex" << productList[currentVendorText].indexOf(currentProductText); return productList[currentVendorText].indexOf(currentProductText); } #endif return -1; } QString DCDeviceData::getDetectedDeviceAddress(const QString ¤tVendorText, const QString ¤tProductText) { #if defined(BT_SUPPORT) QList btDCs = BTDiscovery::instance()->getBtDcs(); QList btAllDevices = BTDiscovery::instance()->getBtAllDevices(); // Pull the BT address from the first found dive computer that is been // detected as a possible real dive computer (and not some other paired // BT device if (currentVendorText != QObject::tr("Paired Bluetooth Devices") && !btDCs.isEmpty()) { QString btAddr = btDCs.first().btpdi.address.toString(); qDebug() << "getDetectedDeviceAddress" << btAddr; return btAddr; } // if the above fails, pull the BT address from the selected paired device // unsure being a dive computer if (currentVendorText == QObject::tr("Paired Bluetooth Devices")) { int i = productList[currentVendorText].indexOf(currentProductText); QString btAddr = btAllDevices[i].btpdi.address.toString(); qDebug() << "getDetectedDeviceAddress" << btAddr; return btAddr; } #endif return QString(); } QString DCDeviceData::getDeviceDescriptorVendor(const QString ¤tVendorText, const QString ¤tProductText) { #if defined(BT_SUPPORT) QList btDCs = BTDiscovery::instance()->getBtDcs(); QList btAllDevices = BTDiscovery::instance()->getBtAllDevices(); // Pull the vendor from the first found dive computer that is been // detected as a possible real dive computer (and not some other paired // BT device if (currentVendorText != QObject::tr("Paired Bluetooth Devices") && !btDCs.isEmpty()) { QString dcVendor = dc_descriptor_get_vendor(btDCs.first().dcDescriptor); qDebug() << "getDeviceDescriptorVendor" << dcVendor; return dcVendor; } // if the above fails, pull vendor from the selected paired device // unsure being a dive computer if (currentVendorText == QObject::tr("Paired Bluetooth Devices")) { int i = productList[currentVendorText].indexOf(currentProductText); QString dcVendor = dc_descriptor_get_vendor(btAllDevices[i].dcDescriptor); qDebug() << "getDeviceDescriptorVendor" << dcVendor; return dcVendor; } #endif return NULL; } QString DCDeviceData::getDeviceDescriptorProduct(const QString ¤tVendorText, const QString ¤tProductText) { #if defined(BT_SUPPORT) QList btDCs = BTDiscovery::instance()->getBtDcs(); QList btAllDevices = BTDiscovery::instance()->getBtAllDevices(); // Pull the product from the first found dive computer that is been // detected as a possible real dive computer (and not some other paired // BT device if (currentVendorText != QObject::tr("Paired Bluetooth Devices") && !btDCs.isEmpty()) { QString dcProduct = dc_descriptor_get_product(btDCs.first().dcDescriptor); qDebug() << "getDeviceDescriptorProduct" << dcProduct; return dcProduct; } // if the above fails, pull product from the selected paired device // unsure being a dive computer if (currentVendorText == QObject::tr("Paired Bluetooth Devices")) { int i = productList[currentVendorText].indexOf(currentProductText); QString dcProduct = dc_descriptor_get_product(btAllDevices[i].dcDescriptor); qDebug() << "getDeviceDescriptorProduct" << dcProduct; return dcProduct; } #endif return NULL; }