mirror of
https://github.com/subsurface/subsurface.git
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85392343fa
This tries to make our fingerprinting code work better, by avoiding using the "deviceid" field that has always been unreliable because we've calculated it multiple different ways, and even for the same version of subsurface, it ends up changing in the middle (ie we calculate one value initially, then re-calculate it when we have a proper serial number string). So instead, the fingerprinting code will look up and save the fingerprint file using purely "stable" information that is available early during the download: - the device model name (which is a string with vendor and product name separated by a space) - the DC_EVENT_DEVINFO 32-bit 'serial' number (which is not necessarily a real serial number at all, but hopefully at least a unique number for the particular product) but because the model name is not necessarily a good filename (think slashes and other possibly invalid characters), we hash that model name and use the resulting hex number in the fingerprint file name. This way the fingerprint file is unambiguous at load and save time, and depends purely on libdivecomputer data. But because we also need to verify that we have the actual _dive_ associated with that fingerprint, we also need to save the final deviceid and diveid when saving the fingerprint file, so that when we load it again we can look up the dive and verify that we have it before we use the fingerprint data. To do that, the fingerprint file itself contains not just the fingerprint data from libdivecomputer, but the last 8 bytes of the file are the (subsurface) deviceid and the diveid of the dive that is associated with the fingerprint. Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
408 lines
12 KiB
C++
408 lines
12 KiB
C++
#include "downloadfromdcthread.h"
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#include "core/libdivecomputer.h"
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#include "core/qthelper.h"
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#include "core/settings/qPrefDiveComputer.h"
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#include "core/divelist.h"
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#include <QDebug>
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#if defined(Q_OS_ANDROID)
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#include "core/subsurface-string.h"
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#endif
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QStringList vendorList;
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QHash<QString, QStringList> productList;
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static QHash<QString, QStringList> mobileProductList; // BT, BLE or FTDI supported DCs for mobile
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QMap<QString, dc_descriptor_t *> descriptorLookup;
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ConnectionListModel connectionListModel;
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static QString str_error(const char *fmt, ...)
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{
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va_list args;
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va_start(args, fmt);
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const QString str = QString::vasprintf(fmt, args);
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va_end(args);
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return str;
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}
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static void updateRememberedDCs()
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{
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QString current = qPrefDiveComputer::vendor() + " - " + qPrefDiveComputer::product() + " - " + qPrefDiveComputer::device();
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QStringList dcs = {
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qPrefDiveComputer::vendor1() + " - " + qPrefDiveComputer::product1() + " - " + qPrefDiveComputer::device1(),
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qPrefDiveComputer::vendor2() + " - " + qPrefDiveComputer::product2() + " - " + qPrefDiveComputer::device2(),
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qPrefDiveComputer::vendor3() + " - " + qPrefDiveComputer::product3() + " - " + qPrefDiveComputer::device3(),
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qPrefDiveComputer::vendor4() + " - " + qPrefDiveComputer::product4() + " - " + qPrefDiveComputer::device4()
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};
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if (dcs.contains(current))
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// already in the list
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return;
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// add the current one as the first remembered one and drop the 4th one
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// don't get confused by 0-based and 1-based indices!
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if (dcs[2] != " - ") {
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qPrefDiveComputer::set_vendor4(qPrefDiveComputer::vendor3());
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qPrefDiveComputer::set_product4(qPrefDiveComputer::product3());
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qPrefDiveComputer::set_device4(qPrefDiveComputer::device3());
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}
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if (dcs[1] != " - ") {
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qPrefDiveComputer::set_vendor3(qPrefDiveComputer::vendor2());
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qPrefDiveComputer::set_product3(qPrefDiveComputer::product2());
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qPrefDiveComputer::set_device3(qPrefDiveComputer::device2());
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}
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if (dcs[0] != " - ") {
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qPrefDiveComputer::set_vendor2(qPrefDiveComputer::vendor1());
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qPrefDiveComputer::set_product2(qPrefDiveComputer::product1());
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qPrefDiveComputer::set_device2(qPrefDiveComputer::device1());
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}
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qPrefDiveComputer::set_vendor1(qPrefDiveComputer::vendor());
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qPrefDiveComputer::set_product1(qPrefDiveComputer::product());
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qPrefDiveComputer::set_device1(qPrefDiveComputer::device());
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}
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#define NUMTRANSPORTS 7
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static QString transportStringTable[NUMTRANSPORTS] = {
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QStringLiteral("SERIAL"),
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QStringLiteral("USB"),
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QStringLiteral("USBHID"),
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QStringLiteral("IRDA"),
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QStringLiteral("BT"),
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QStringLiteral("BLE"),
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QStringLiteral("USBSTORAGE"),
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};
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static QString getTransportString(unsigned int transport)
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{
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QString ts;
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for (int i = 0; i < NUMTRANSPORTS; i++) {
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if (transport & 1 << i)
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ts += transportStringTable[i] + ", ";
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}
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ts.chop(2);
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return ts;
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}
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DownloadThread::DownloadThread() : downloadTable({ 0 }),
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diveSiteTable({ 0 }),
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m_data(DCDeviceData::instance())
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{
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}
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void DownloadThread::run()
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{
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auto internalData = m_data->internalData();
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internalData->descriptor = descriptorLookup[m_data->vendor().toLower() + m_data->product().toLower()];
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internalData->download_table = &downloadTable;
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internalData->sites = &diveSiteTable;
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internalData->devices = &deviceTable;
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internalData->btname = strdup(m_data->devBluetoothName().toUtf8());
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if (!internalData->descriptor) {
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qDebug() << "No download possible when DC type is unknown";
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return;
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}
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// get the list of transports that this device supports and filter depending on Bluetooth option
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unsigned int transports = dc_descriptor_get_transports(internalData->descriptor);
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if (internalData->bluetooth_mode)
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transports &= (DC_TRANSPORT_BLE | DC_TRANSPORT_BLUETOOTH);
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else
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transports &= ~(DC_TRANSPORT_BLE | DC_TRANSPORT_BLUETOOTH);
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if (transports == DC_TRANSPORT_USBHID)
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internalData->devname = "";
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qDebug() << "Starting download from " << getTransportString(transports);
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qDebug() << "downloading" << (internalData->force_download ? "all" : "only new") << "dives";
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clear_dive_table(&downloadTable);
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clear_dive_site_table(&diveSiteTable);
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clear_device_table(&deviceTable);
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Q_ASSERT(internalData->download_table != nullptr);
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const char *errorText;
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import_thread_cancelled = false;
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error.clear();
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if (!strcmp(internalData->vendor, "Uemis"))
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errorText = do_uemis_import(internalData);
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else
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errorText = do_libdivecomputer_import(internalData);
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if (errorText) {
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error = str_error(errorText, internalData->devname, internalData->vendor, internalData->product);
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qDebug() << "Finishing download thread:" << error;
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} else {
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if (!downloadTable.nr)
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error = tr("No new dives downloaded from dive computer");
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qDebug() << "Finishing download thread:" << downloadTable.nr << "dives downloaded";
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}
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qPrefDiveComputer::set_vendor(internalData->vendor);
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qPrefDiveComputer::set_product(internalData->product);
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qPrefDiveComputer::set_device(internalData->devname);
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qPrefDiveComputer::set_device_name(m_data->devBluetoothName());
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updateRememberedDCs();
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}
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void fill_computer_list()
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{
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dc_iterator_t *iterator = NULL;
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dc_descriptor_t *descriptor = NULL;
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unsigned int transportMask = get_supported_transports(NULL);
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dc_descriptor_iterator(&iterator);
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while (dc_iterator_next(iterator, &descriptor) == DC_STATUS_SUCCESS) {
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// mask out the transports that aren't supported
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unsigned int transports = dc_descriptor_get_transports(descriptor) & transportMask;
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if (transports == 0)
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// none of the transports are available, skip
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continue;
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const char *vendor = dc_descriptor_get_vendor(descriptor);
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const char *product = dc_descriptor_get_product(descriptor);
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if (!vendorList.contains(vendor))
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vendorList.append(vendor);
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if (!productList[vendor].contains(product))
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productList[vendor].append(product);
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descriptorLookup[QString(vendor).toLower() + QString(product).toLower()] = descriptor;
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}
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dc_iterator_free(iterator);
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Q_FOREACH (QString vendor, vendorList) {
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auto &l = productList[vendor];
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std::sort(l.begin(), l.end());
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}
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#if !defined(Q_OS_ANDROID) && !defined(Q_OS_IOS)
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/* currently suppress the Uemis Zurich on Q_OS_ANDROID and Q_OS_IOS,
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* as it is no BT device */
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/* and add the Uemis Zurich which we are handling internally
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THIS IS A HACK as we magically have a data structure here that
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happens to match a data structure that is internal to libdivecomputer;
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this WILL BREAK if libdivecomputer changes the dc_descriptor struct...
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eventually the UEMIS code needs to move into libdivecomputer, I guess */
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struct mydescriptor *mydescriptor = (struct mydescriptor *)malloc(sizeof(struct mydescriptor));
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mydescriptor->vendor = "Uemis";
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mydescriptor->product = "Zurich";
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mydescriptor->type = DC_FAMILY_NULL;
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mydescriptor->model = 0;
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mydescriptor->transports = DC_TRANSPORT_USBSTORAGE;
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if (!vendorList.contains("Uemis"))
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vendorList.append("Uemis");
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if (!productList["Uemis"].contains("Zurich"))
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productList["Uemis"].push_back("Zurich");
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// note: keys in the descriptorLookup are always lowercase
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descriptorLookup["uemiszurich"] = (dc_descriptor_t *)mydescriptor;
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#endif
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std::sort(vendorList.begin(), vendorList.end());
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}
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void show_computer_list()
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{
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unsigned int transportMask = get_supported_transports(NULL);
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qDebug() << "Supported dive computers:";
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Q_FOREACH (QString vendor, vendorList) {
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QString msg = vendor + ": ";
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Q_FOREACH (QString product, productList[vendor]) {
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dc_descriptor_t *descriptor = descriptorLookup[vendor.toLower() + product.toLower()];
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unsigned int transport = dc_descriptor_get_transports(descriptor) & transportMask;
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QString transportString = getTransportString(transport);
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msg += product + " (" + transportString + "), ";
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}
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msg.chop(2);
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qDebug() << msg;
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}
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}
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DCDeviceData::DCDeviceData()
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{
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memset(&data, 0, sizeof(data));
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data.download_table = nullptr;
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data.diveid = 0;
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#if defined(BT_SUPPORT)
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data.bluetooth_mode = true;
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#else
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data.bluetooth_mode = false;
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#endif
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data.force_download = false;
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data.libdc_dump = false;
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#if defined(SUBSURFACE_MOBILE)
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data.libdc_log = true;
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#else
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data.libdc_log = false;
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#endif
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#if defined(Q_OS_ANDROID)
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data.androidUsbDeviceDescriptor = nullptr;
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#endif
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}
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DCDeviceData *DCDeviceData::instance()
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{
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static DCDeviceData self;
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return &self;
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}
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QStringList DCDeviceData::getProductListFromVendor(const QString &vendor)
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{
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return productList[vendor];
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}
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int DCDeviceData::getMatchingAddress(const QString &vendor, const QString &product)
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{
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Q_UNUSED(vendor)
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return connectionListModel.indexOf(product);
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}
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DCDeviceData *DownloadThread::data()
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{
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return m_data;
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}
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QString DCDeviceData::vendor() const
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{
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return data.vendor;
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}
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QString DCDeviceData::product() const
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{
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return data.product;
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}
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QString DCDeviceData::devName() const
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{
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return data.devname;
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}
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QString DCDeviceData::devBluetoothName() const
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{
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return m_devBluetoothName;
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}
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QString DCDeviceData::descriptor() const
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{
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return "";
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}
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bool DCDeviceData::bluetoothMode() const
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{
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return data.bluetooth_mode;
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}
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bool DCDeviceData::forceDownload() const
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{
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return data.force_download;
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}
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int DCDeviceData::diveId() const
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{
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return data.diveid;
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}
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void DCDeviceData::setVendor(const QString &vendor)
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{
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data.vendor = copy_qstring(vendor);
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}
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void DCDeviceData::setProduct(const QString &product)
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{
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data.product = copy_qstring(product);
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}
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void DCDeviceData::setDevName(const QString &devName)
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{
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// This is a workaround for bug #1002. A string of the form "devicename (deviceaddress)"
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// or "deviceaddress (devicename)" may have found its way into the preferences.
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// Try to fetch the address from such a string
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// TODO: Remove this code in due course
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if (data.bluetooth_mode) {
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int idx1 = devName.indexOf('(');
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int idx2 = devName.lastIndexOf(')');
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if (idx1 >= 0 && idx2 >= 0 && idx2 > idx1) {
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QString front = devName.left(idx1).trimmed();
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QString back = devName.mid(idx1 + 1, idx2 - idx1 - 1);
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QString newDevName = back.indexOf(':') >= 0 ? back : front;
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qWarning() << "Found invalid bluetooth device" << devName << "corrected to" << newDevName << ".";
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data.devname = copy_qstring(newDevName);
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return;
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}
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}
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data.devname = copy_qstring(devName);
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}
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#if defined(Q_OS_ANDROID)
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void DCDeviceData::setUsbDevice(const android_usb_serial_device_descriptor &usbDescriptor)
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{
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androidUsbDescriptor = usbDescriptor;
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data.androidUsbDeviceDescriptor = &androidUsbDescriptor;
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}
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#endif
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void DCDeviceData::setDevBluetoothName(const QString &name)
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{
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m_devBluetoothName = name;
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}
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void DCDeviceData::setBluetoothMode(bool mode)
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{
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data.bluetooth_mode = mode;
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}
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void DCDeviceData::setForceDownload(bool force)
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{
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data.force_download = force;
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}
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void DCDeviceData::setDiveId(int diveId)
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{
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data.diveid = diveId;
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}
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void DCDeviceData::setSaveDump(bool save)
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{
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data.libdc_dump = save;
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}
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bool DCDeviceData::saveDump() const
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{
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return data.libdc_dump;
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}
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void DCDeviceData::setSaveLog(bool saveLog)
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{
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data.libdc_log = saveLog;
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}
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bool DCDeviceData::saveLog() const
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{
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return data.libdc_log;
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}
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device_data_t *DCDeviceData::internalData()
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{
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return &data;
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}
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int DCDeviceData::getDetectedVendorIndex()
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{
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#if defined(BT_SUPPORT)
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QList<BTDiscovery::btVendorProduct> btDCs = BTDiscovery::instance()->getBtDcs();
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// Pick the vendor of the first confirmed find of a DC (if any)
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if (!btDCs.isEmpty())
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return btDCs.first().vendorIdx;
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#endif
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return -1;
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}
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int DCDeviceData::getDetectedProductIndex(const QString ¤tVendorText)
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{
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#if defined(BT_SUPPORT)
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QList<BTDiscovery::btVendorProduct> btDCs = BTDiscovery::instance()->getBtDcs();
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// Display in the QML UI, the first found dive computer that is been
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// detected as a possible real dive computer (and not some other paired
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// BT device)
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if (!btDCs.isEmpty())
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return btDCs.first().productIdx;
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#endif
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return -1;
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}
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