subsurface/core/downloadfromdcthread.cpp

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#include "downloadfromdcthread.h"
#include "core/errorhelper.h"
#include "core/format.h"
#include "core/libdivecomputer.h"
#include "core/qthelper.h"
#include "core/range.h"
#include "core/uemis.h"
#include "core/settings/qPrefDiveComputer.h"
#include "core/divelist.h"
#if defined(Q_OS_ANDROID)
#include "core/subsurface-string.h"
#endif
QStringList vendorList;
QHash<QString, QStringList> productList;
static QHash<QString, QStringList> mobileProductList; // BT, BLE or FTDI supported DCs for mobile
QMap<QString, dc_descriptor_t *> descriptorLookup;
ConnectionListModel connectionListModel;
static void updateRememberedDCs()
{
QString current = qPrefDiveComputer::vendor() + " - " + qPrefDiveComputer::product() + " - " + qPrefDiveComputer::device();
QStringList dcs = {
qPrefDiveComputer::vendor1() + " - " + qPrefDiveComputer::product1() + " - " + qPrefDiveComputer::device1(),
qPrefDiveComputer::vendor2() + " - " + qPrefDiveComputer::product2() + " - " + qPrefDiveComputer::device2(),
qPrefDiveComputer::vendor3() + " - " + qPrefDiveComputer::product3() + " - " + qPrefDiveComputer::device3(),
qPrefDiveComputer::vendor4() + " - " + qPrefDiveComputer::product4() + " - " + qPrefDiveComputer::device4()
};
if (dcs.contains(current))
// already in the list
return;
// add the current one as the first remembered one and drop the 4th one
// don't get confused by 0-based and 1-based indices!
if (dcs[2] != " - ") {
qPrefDiveComputer::set_vendor4(qPrefDiveComputer::vendor3());
qPrefDiveComputer::set_product4(qPrefDiveComputer::product3());
qPrefDiveComputer::set_device4(qPrefDiveComputer::device3());
}
if (dcs[1] != " - ") {
qPrefDiveComputer::set_vendor3(qPrefDiveComputer::vendor2());
qPrefDiveComputer::set_product3(qPrefDiveComputer::product2());
qPrefDiveComputer::set_device3(qPrefDiveComputer::device2());
}
if (dcs[0] != " - ") {
qPrefDiveComputer::set_vendor2(qPrefDiveComputer::vendor1());
qPrefDiveComputer::set_product2(qPrefDiveComputer::product1());
qPrefDiveComputer::set_device2(qPrefDiveComputer::device1());
}
qPrefDiveComputer::set_vendor1(qPrefDiveComputer::vendor());
qPrefDiveComputer::set_product1(qPrefDiveComputer::product());
qPrefDiveComputer::set_device1(qPrefDiveComputer::device());
}
static QString transportStringTable[] = {
QStringLiteral("SERIAL"),
QStringLiteral("USB"),
QStringLiteral("USBHID"),
QStringLiteral("IRDA"),
QStringLiteral("BT"),
QStringLiteral("BLE"),
QStringLiteral("USBSTORAGE")
};
static QString getTransportString(unsigned int transport)
{
QString ts;
for (auto [i, s]: enumerated_range(transportStringTable)) {
if (transport & 1 << i)
ts += s + ", ";
}
ts.chop(2);
return ts;
}
DownloadThread::DownloadThread() : m_data(DCDeviceData::instance())
{
}
void DownloadThread::run()
{
auto internalData = m_data->internalData();
internalData->descriptor = descriptorLookup[m_data->vendor().toLower() + m_data->product().toLower()];
internalData->log = &log;
internalData->btname = m_data->devBluetoothName().toStdString();
if (!internalData->descriptor) {
report_info("No download possible when DC type is unknown");
return;
}
// get the list of transports that this device supports and filter depending on Bluetooth option
unsigned int transports = dc_descriptor_get_transports(internalData->descriptor);
if (internalData->bluetooth_mode)
transports &= (DC_TRANSPORT_BLE | DC_TRANSPORT_BLUETOOTH);
else
transports &= ~(DC_TRANSPORT_BLE | DC_TRANSPORT_BLUETOOTH);
if (transports == DC_TRANSPORT_USBHID)
internalData->devname = "";
report_info("Starting download from %s", qPrintable(getTransportString(transports)));
report_info("downloading %s dives", internalData->force_download ? "all" : "only new");
clear_divelog(&log);
Q_ASSERT(internalData->log != nullptr);
std::string errorText;
import_thread_cancelled = false;
error.clear();
if (internalData->vendor == "Uemis")
errorText = do_uemis_import(internalData);
else
errorText = do_libdivecomputer_import(internalData);
if (!errorText.empty()) {
error = format_string_std(errorText.c_str(), internalData->devname.c_str(),
internalData->vendor.c_str(), internalData->product.c_str());
report_info("Finishing download thread: %s", error.c_str());
} else {
if (!log.dives->nr)
error = tr("No new dives downloaded from dive computer").toStdString();
report_info("Finishing download thread: %d dives downloaded", log.dives->nr);
}
qPrefDiveComputer::set_vendor(internalData->vendor.c_str());
qPrefDiveComputer::set_product(internalData->product.c_str());
qPrefDiveComputer::set_device(internalData->devname.c_str());
qPrefDiveComputer::set_device_name(m_data->devBluetoothName());
updateRememberedDCs();
}
void fill_computer_list()
{
dc_iterator_t *iterator = NULL;
dc_descriptor_t *descriptor = NULL;
unsigned int transportMask = get_supported_transports(NULL);
dc_descriptor_iterator(&iterator);
while (dc_iterator_next(iterator, &descriptor) == DC_STATUS_SUCCESS) {
// mask out the transports that aren't supported
unsigned int transports = dc_descriptor_get_transports(descriptor) & transportMask;
if (transports == 0)
// none of the transports are available, skip
continue;
const char *vendor = dc_descriptor_get_vendor(descriptor);
const char *product = dc_descriptor_get_product(descriptor);
if (!vendorList.contains(vendor))
vendorList.append(vendor);
if (!productList[vendor].contains(product))
productList[vendor].append(product);
descriptorLookup[QString(vendor).toLower() + QString(product).toLower()] = descriptor;
}
dc_iterator_free(iterator);
for (const QString &vendor: vendorList) {
auto &l = productList[vendor];
std::sort(l.begin(), l.end());
}
#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 */
struct mydescriptor *mydescriptor = (struct mydescriptor *)malloc(sizeof(struct mydescriptor));
mydescriptor->vendor = "Uemis";
mydescriptor->product = "Zurich";
mydescriptor->type = DC_FAMILY_NULL;
mydescriptor->model = 0;
mydescriptor->transports = DC_TRANSPORT_USBSTORAGE;
if (!vendorList.contains("Uemis"))
vendorList.append("Uemis");
if (!productList["Uemis"].contains("Zurich"))
productList["Uemis"].push_back("Zurich");
// note: keys in the descriptorLookup are always lowercase
descriptorLookup["uemiszurich"] = (dc_descriptor_t *)mydescriptor;
#endif
std::sort(vendorList.begin(), vendorList.end());
}
void show_computer_list()
{
unsigned int transportMask = get_supported_transports(NULL);
report_info("Supported dive computers:");
for (const QString &vendor: vendorList) {
QString msg = vendor + ": ";
for (const QString &product: productList[vendor]) {
dc_descriptor_t *descriptor = descriptorLookup[vendor.toLower() + product.toLower()];
unsigned int transport = dc_descriptor_get_transports(descriptor) & transportMask;
QString transportString = getTransportString(transport);
msg += product + " (" + transportString + "), ";
}
msg.chop(2);
report_info("%s", qPrintable(msg));
}
}
DCDeviceData::DCDeviceData()
{
data.log = nullptr;
data.diveid = 0;
#if defined(BT_SUPPORT)
data.bluetooth_mode = true;
#else
data.bluetooth_mode = false;
#endif
data.force_download = false;
data.libdc_dump = false;
#if defined(SUBSURFACE_MOBILE)
data.libdc_log = true;
#else
data.libdc_log = false;
#endif
#if defined(Q_OS_ANDROID)
data.androidUsbDeviceDescriptor = nullptr;
#endif
data.sync_time = false;
}
DCDeviceData *DCDeviceData::instance()
{
static DCDeviceData self;
return &self;
}
QStringList DCDeviceData::getProductListFromVendor(const QString &vendor)
{
return productList[vendor];
}
int DCDeviceData::getMatchingAddress(const QString &vendor, const QString &product)
{
Q_UNUSED(vendor)
return connectionListModel.indexOf(product);
}
DCDeviceData *DownloadThread::data()
{
return m_data;
}
QString DCDeviceData::vendor() const
{
return QString::fromStdString(data.vendor);
}
QString DCDeviceData::product() const
{
return QString::fromStdString(data.product);
}
QString DCDeviceData::devName() const
{
return QString::fromStdString(data.devname);
}
QString DCDeviceData::devBluetoothName() const
{
return m_devBluetoothName;
}
QString DCDeviceData::descriptor() const
{
return QString();
}
bool DCDeviceData::bluetoothMode() const
{
return data.bluetooth_mode;
}
bool DCDeviceData::forceDownload() const
{
return data.force_download;
}
int DCDeviceData::diveId() const
{
return data.diveid;
}
bool DCDeviceData::syncTime() const
{
return data.sync_time;
}
void DCDeviceData::setVendor(const QString &vendor)
{
data.vendor = vendor.toStdString();
}
void DCDeviceData::setProduct(const QString &product)
{
data.product = product.toStdString();
}
void DCDeviceData::setDevName(const QString &devName)
{
// This is a workaround for bug #1002. A string of the form "devicename (deviceaddress)"
// or "deviceaddress (devicename)" may have found its way into the preferences.
// Try to fetch the address from such a string
// TODO: Remove this code in due course
if (data.bluetooth_mode) {
int idx1 = devName.indexOf('(');
int idx2 = devName.lastIndexOf(')');
if (idx1 >= 0 && idx2 >= 0 && idx2 > idx1) {
QString front = devName.left(idx1).trimmed();
QString back = devName.mid(idx1 + 1, idx2 - idx1 - 1);
QString newDevName = back.indexOf(':') >= 0 ? back : front;
qWarning() << "Found invalid bluetooth device" << devName << "corrected to" << newDevName << ".";
data.devname = newDevName.toStdString();
return;
}
}
data.devname = devName.toStdString();
}
#if defined(Q_OS_ANDROID)
void DCDeviceData::setUsbDevice(const android_usb_serial_device_descriptor &usbDescriptor)
{
androidUsbDescriptor = usbDescriptor;
data.androidUsbDeviceDescriptor = &androidUsbDescriptor;
}
#endif
void DCDeviceData::setDevBluetoothName(const QString &name)
{
m_devBluetoothName = name;
}
void DCDeviceData::setBluetoothMode(bool mode)
{
data.bluetooth_mode = mode;
}
void DCDeviceData::setForceDownload(bool force)
{
data.force_download = force;
}
void DCDeviceData::setDiveId(int diveId)
{
data.diveid = diveId;
}
void DCDeviceData::setSyncTime(bool syncTime)
{
data.sync_time = syncTime;
}
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()
{
#if defined(BT_SUPPORT)
QList<BTDiscovery::btVendorProduct> btDCs = BTDiscovery::instance()->getBtDcs();
// Pick the vendor of the first confirmed find of a DC (if any)
if (!btDCs.isEmpty())
return btDCs.first().vendorIdx;
#endif
return -1;
}
int DCDeviceData::getDetectedProductIndex(const QString &currentVendorText)
{
#if defined(BT_SUPPORT)
QList<BTDiscovery::btVendorProduct> 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 (!btDCs.isEmpty())
return btDCs.first().productIdx;
#endif
return -1;
}