subsurface/core/btdiscovery.cpp
Dirk Hohndel 6f46238fc4 Qt6: Bluetooth API changes
Use the explicit QBluetoothUuid instead of just QUuid and deal with new
constants and signal names.
At least with Qt6 we no longer need the ugly QOverload hack.

Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
2022-03-12 08:28:32 -08:00

505 lines
17 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include "btdiscovery.h"
#include "downloadfromdcthread.h"
#include "core/libdivecomputer.h"
#include <QTimer>
#include <QDebug>
#include <QLoggingCategory>
#include <QRegularExpression>
#include <QElapsedTimer>
#include <QCoreApplication>
extern QMap<QString, dc_descriptor_t *> descriptorLookup;
namespace {
QHash<QString, QBluetoothDeviceInfo> btDeviceInfo;
}
BTDiscovery *BTDiscovery::m_instance = NULL;
struct modelPattern {
uint16_t model;
const char *vendor;
const char *product;
};
static struct modelPattern model[] = {
{ 0x4552, "Oceanic", "Pro Plus X" },
{ 0x455A, "Aqualung", "i750TC" },
{ 0x4647, "Sherwood", "Sage" },
{ 0x4648, "Aqualung", "i300C" },
{ 0x4649, "Aqualung", "i200C" },
{ 0x4651, "Aqualung", "i770R" },
{ 0x4652, "Aqualung", "i550C" },
{ 0x4653, "Oceanic", "Geo 4.0" },
{ 0x4654, "Oceanic", "Veo 4.0" },
{ 0x4655, "Sherwood", "Wisdom 4" },
{ 0x4656, "Oceanic", "Pro Plus 4" },
{ 0x4743, "Aqualung", "i470TC" }
};
struct namePattern {
const char *prefix;
const char *vendor;
const char *product;
};
static struct namePattern name[] = {
// Shearwater dive computers
{ "Predator", "Shearwater", "Predator" },
// both the Petrel and Petrel 2 identify as "Petrel" as BT/BLE device
// but only the Petrel 2 is listed as available dive computer on iOS (which requires BLE support)
// so always pick the "Petrel 2" as product when seeing a Petrel
{ "Petrel", "Shearwater", "Petrel 2" },
{ "Perdix", "Shearwater", "Perdix" },
{ "Teric", "Shearwater", "Teric" },
{ "Peregrine", "Shearwater", "Peregrine" },
{ "NERD 2", "Shearwater", "NERD 2" },
{ "NERD", "Shearwater", "NERD" }, // order is important, test for the more specific one first
{ "Predator", "Shearwater", "Predator" },
// Suunto dive computers
{ "EON Steel", "Suunto", "EON Steel" },
{ "EON Core", "Suunto", "EON Core" },
{ "Suunto D5", "Suunto", "D5" },
// Scubapro dive computers
{ "G2", "Scubapro", "G2" },
{ "HUD", "Scubapro", "G2 HUD" },
{ "Aladin", "Scubapro", "Aladin Sport Matrix" },
{ "A1", "Scubapro", "Aladin A1" },
{ "A2", "Scubapro", "Aladin A2" },
// Mares dive computers
{ "Mares Genius", "Mares", "Genius" },
{ "Mares", "Mares", "Quad" }, // we actually don't know and just pick a common one - user needs to fix in UI
// Cress dive computers
{ "CARESIO_", "Cressi", "Cartesio" },
{ "GOA_", "Cressi", "Goa" },
// Deepblu dive computesr
{ "COSMIQ", "Deepblu", "Cosmiq+" },
// Oceans dive computers
{ "S1", "Oceans", "S1" },
// McLean dive computers
{ "McLean Extreme", "McLean", "Extreme" },
// Tecdiving dive computers
{ "DiveComputer", "Tecdiving", "DiveComputer.eu" }
};
static dc_descriptor_t *getDeviceType(QString btName)
// central function to convert a BT name to a Subsurface known vendor/model pair
{
QString vendor, product;
if (btName.startsWith("OSTC")) {
vendor = "Heinrichs Weikamp";
if (btName.mid(4,1) == "3") product = "OSTC Plus";
else if (btName.mid(4,2) == "s#") product = "OSTC Sport";
else if (btName.mid(4,2) == "s ") product = "OSTC Sport";
else if (btName.mid(4,2) == "4-") product = "OSTC 4";
else if (btName.mid(4,2) == "2-") product = "OSTC 2N";
else if (btName.mid(4,2) == "+ ") product = "OSTC 2";
// all BT/BLE enabled OSTCs are HW_FAMILY_OSTC_3, so when we do not know,
// just use a default product that allows the codoe to download from the
// user's dive computer
else product = "OSTC 2";
} else if (btName.contains(QRegularExpression("^DS\\d{6}"))) {
// The Ratio bluetooth name looks like the Pelagic ones,
// but that seems to be just happenstance.
vendor = "Ratio";
product = "iX3M GPS Easy"; // we don't know which of the GPS models, so set one
} else if (btName.contains(QRegularExpression("^IX5M\\d{6}"))) {
// The 2021 iX3M models (square buttons) report as iX5M,
// eventhough the physical model states iX3M.
vendor = "Ratio";
product = "iX3M GPS Easy"; // we don't know which of the GPS models, so set one
} else if (btName.contains(QRegularExpression("^[A-Z]{2}\\d{6}"))) {
// try the Pelagic/Aqualung name patterns
// the source of truth for this data is in libdivecomputer/src/descriptor.c
// we'd prefer to use the filter functions there but current design makes that really challenging
// The Pelagic dive computers (generally branded as Oceanic, Aqualung, or Sherwood)
// show up with a two-byte model code followed by six bytes of serial
// number. The model code matches the hex model (so "FQ" is 0x4651,
// where 'F' is 46h and 'Q' is 51h in ASCII).
for (uint16_t i = 0; i < sizeof(model) / sizeof(struct modelPattern); i++) {
QString pattern = QString("^%1%2\\d{6}$").arg(QChar(model[i].model >> 8)).arg(QChar(model[i].model & 0xFF));
if (btName.contains(QRegularExpression(pattern))) {
vendor = model[i].vendor;
product = model[i].product;
break;
}
}
} else { // finally try all the string prefix based ones
for (uint16_t i = 0; i < sizeof(name) / sizeof(struct namePattern); i++) {
if (btName.startsWith(name[i].prefix)) {
vendor = name[i].vendor;
product = name[i].product;
break;
}
}
}
// check if we found a known dive computer
if (!vendor.isEmpty() && !product.isEmpty()) {
dc_descriptor_t *lookup = descriptorLookup.value(vendor.toLower() + product.toLower());
if (!lookup)
qWarning("known dive computer %s not found in descriptorLookup", qPrintable(QString(vendor + product)));
return lookup;
}
return nullptr;
}
bool matchesKnownDiveComputerNames(QString btName)
{
return getDeviceType(btName) != nullptr;
}
BTDiscovery::BTDiscovery(QObject*) : m_btValid(false),
m_showNonDiveComputers(false),
discoveryAgent(nullptr)
{
if (m_instance) {
qDebug() << "trying to create an additional BTDiscovery object";
return;
}
m_instance = this;
#if defined(BT_SUPPORT)
QLoggingCategory::setFilterRules(QStringLiteral("qt.bluetooth* = true"));
BTDiscoveryReDiscover();
#endif
}
void BTDiscovery::showNonDiveComputers(bool show)
{
m_showNonDiveComputers = show;
}
void BTDiscovery::BTDiscoveryReDiscover()
{
#if !defined(Q_OS_IOS)
qDebug() << "BTDiscoveryReDiscover: localBtDevice.isValid()" << localBtDevice.isValid();
if (localBtDevice.isValid() &&
localBtDevice.hostMode() != QBluetoothLocalDevice::HostPoweredOff) {
btPairedDevices.clear();
qDebug() << "BTDiscoveryReDiscover: localDevice " + localBtDevice.name() + " is powered on, starting discovery";
#else
// for iOS we can't use the localBtDevice as iOS is BLE only
// we need to find some other way to test if Bluetooth is enabled, though
// for now just hard-code it
if (1) {
#endif
m_btValid = true;
if (discoveryAgent == nullptr) {
discoveryAgent = new QBluetoothDeviceDiscoveryAgent(this);
discoveryAgent->setLowEnergyDiscoveryTimeout(3 * 60 * 1000); // search for three minutes
connect(discoveryAgent, &QBluetoothDeviceDiscoveryAgent::deviceDiscovered, this, &BTDiscovery::btDeviceDiscovered);
connect(discoveryAgent, &QBluetoothDeviceDiscoveryAgent::finished, this, &BTDiscovery::btDeviceDiscoveryFinished);
connect(discoveryAgent, &QBluetoothDeviceDiscoveryAgent::canceled, this, &BTDiscovery::btDeviceDiscoveryFinished);
#if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)
connect(discoveryAgent, &QBluetoothDeviceDiscoveryAgent::errorOccurred,
#else
connect(discoveryAgent, QOverload<QBluetoothDeviceDiscoveryAgent::Error>::of(&QBluetoothDeviceDiscoveryAgent::error),
#endif
[this](QBluetoothDeviceDiscoveryAgent::Error error){
qDebug() << "device discovery received error" << discoveryAgent->errorString();
});
qDebug() << "discovery methods" << (int)QBluetoothDeviceDiscoveryAgent::supportedDiscoveryMethods();
}
#if defined(Q_OS_ANDROID)
// on Android, we cannot scan for classic devices - we just get the paired ones
qDebug() << "starting BLE discovery";
discoveryAgent->start(QBluetoothDeviceDiscoveryAgent::LowEnergyMethod);
getBluetoothDevices();
// and add the paired devices to the internal data
// So behaviour is same on Linux/Bluez stack and
// Android/Java stack with respect to discovery
for (int i = 0; i < btPairedDevices.length(); i++)
btDeviceDiscoveredMain(btPairedDevices[i], true);
#else
qDebug() << "starting BT/BLE discovery";
discoveryAgent->start();
for (int i = 0; i < btPairedDevices.length(); i++)
qDebug() << "Paired =" << btPairedDevices[i].name << btPairedDevices[i].address;
#endif
#if defined(Q_OS_IOS) || (defined(Q_OS_LINUX) && !defined(Q_OS_ANDROID))
QTimer timer;
timer.setSingleShot(true);
connect(&timer, &QTimer::timeout, discoveryAgent, &QBluetoothDeviceDiscoveryAgent::stop);
timer.start(3000);
#endif
} else {
qDebug() << "localBtDevice isn't valid or not connectable";
m_btValid = false;
}
}
BTDiscovery::~BTDiscovery()
{
m_instance = NULL;
#if defined(BT_SUPPORT)
delete discoveryAgent;
#endif
}
BTDiscovery *BTDiscovery::instance()
{
if (!m_instance)
m_instance = new BTDiscovery();
return m_instance;
}
#if defined(BT_SUPPORT)
extern void addBtUuid(QBluetoothUuid uuid);
extern QHash<QString, QStringList> productList;
extern QStringList vendorList;
QString btDeviceAddress(const QBluetoothDeviceInfo *device, bool isBle)
{
QString address = device->address().isNull() ?
device->deviceUuid().toString() : device->address().toString();
const char *prefix = isBle ? "LE:" : "";
return prefix + address;
}
QString markBLEAddress(const QBluetoothDeviceInfo *device)
{
QBluetoothDeviceInfo::CoreConfigurations flags = device->coreConfigurations();
bool isBle = flags == QBluetoothDeviceInfo::LowEnergyCoreConfiguration;
return btDeviceAddress(device, isBle);
}
void BTDiscovery::btDeviceDiscoveryFinished()
{
qDebug() << "BT/BLE finished discovery";
QList<QBluetoothDeviceInfo> devList = discoveryAgent->discoveredDevices();
for (QBluetoothDeviceInfo device: devList) {
qDebug() << device.name() << device.address().toString();
}
}
void BTDiscovery::btDeviceDiscovered(const QBluetoothDeviceInfo &device)
{
btPairedDevice this_d;
this_d.address = markBLEAddress(&device);
this_d.name = device.name();
btPairedDevices.append(this_d);
const auto serviceUuids = device.serviceUuids();
for (QBluetoothUuid id: serviceUuids) {
addBtUuid(id);
qDebug() << id.toByteArray();
}
#if defined(Q_OS_IOS) || defined(Q_OS_MACOS) || defined(Q_OS_WIN)
// on Windows, macOS and iOS we need to scan in order to be able to access a device;
// let's remember the information we scanned on this run so we can at least
// refer back to it and don't need to open the separate scanning dialog every
// time we try to download from a BT/BLE dive computer.
saveBtDeviceInfo(btDeviceAddress(&device, false), device);
#endif
btDeviceDiscoveredMain(this_d, false);
}
void BTDiscovery::btDeviceDiscoveredMain(const btPairedDevice &device, bool fromPaired)
{
btVendorProduct btVP;
QString newDevice;
dc_descriptor_t *newDC = getDeviceType(device.name);
if (newDC)
newDevice = dc_descriptor_get_product(newDC);
else
newDevice = device.name;
QString msg;
msg = QString("%1 device: '%2' [%3]: ").arg(fromPaired ? "Paired" : "Discovered new").arg(newDevice).arg(device.address);
if (newDC) {
QString vendor = dc_descriptor_get_vendor(newDC);
qDebug() << msg << "this could be a " + vendor;
btVP.btpdi = device;
btVP.dcDescriptor = newDC;
btVP.vendorIdx = vendorList.indexOf(vendor);
btVP.productIdx = productList[vendor].indexOf(newDevice);
btDCs << btVP;
connectionListModel.addAddress(newDevice + " " + device.address);
return;
}
// Do we want only devices we recognize as dive computers?
if (m_showNonDiveComputers) {
if (!newDevice.isEmpty())
newDevice += " ";
connectionListModel.addAddress(newDevice + device.address);
}
qDebug() << msg << "not recognized as dive computer";
}
QList<BTDiscovery::btVendorProduct> BTDiscovery::getBtDcs()
{
return btDCs;
}
bool BTDiscovery::btAvailable() const
{
return m_btValid;
}
// Android: As Qt is not able to pull the pairing data from a device, i
// a lengthy discovery process is needed to see what devices are paired. On
// https://forum.qt.io/topic/46075/solved-bluetooth-list-paired-devices
// user s.frings74 does, however, present a solution to this using JNI.
// Currently, this code is taken "as is".
#if defined(Q_OS_ANDROID)
void BTDiscovery::getBluetoothDevices()
{
struct BTDiscovery::btPairedDevice result;
// Query via Android Java API.
// returns a BluetoothAdapter
QAndroidJniObject adapter=QAndroidJniObject::callStaticObjectMethod("android/bluetooth/BluetoothAdapter","getDefaultAdapter","()Landroid/bluetooth/BluetoothAdapter;");
if (checkException("BluetoothAdapter.getDefaultAdapter()", &adapter)) {
return;
}
// returns a Set<BluetoothDevice>
QAndroidJniObject pairedDevicesSet=adapter.callObjectMethod("getBondedDevices","()Ljava/util/Set;");
if (checkException("BluetoothAdapter.getBondedDevices()", &pairedDevicesSet)) {
return;
}
jint size=pairedDevicesSet.callMethod<jint>("size");
checkException("Set<BluetoothDevice>.size()", &pairedDevicesSet);
if (size > 0) {
// returns an Iterator<BluetoothDevice>
QAndroidJniObject iterator=pairedDevicesSet.callObjectMethod("iterator","()Ljava/util/Iterator;");
if (checkException("Set<BluetoothDevice>.iterator()", &iterator)) {
return;
}
for (int i = 0; i < size; i++) {
// returns a BluetoothDevice
QAndroidJniObject dev=iterator.callObjectMethod("next","()Ljava/lang/Object;");
if (checkException("Iterator<BluetoothDevice>.next()", &dev)) {
continue;
}
jint btType = dev.callMethod<jint>("getType", "()I");
// 1 means Classic. 2 means BLE, 3 means dual stack
result.address = dev.callObjectMethod("getAddress","()Ljava/lang/String;").toString();
result.name = dev.callObjectMethod("getName", "()Ljava/lang/String;").toString();
if (btType & 1) { // DEVICE_TYPE_CLASSIC
qDebug() << "paired BT classic device type" << btType << "with address" << result.address;
btPairedDevices.append(result);
}
if (btType & 2) { // DEVICE_TYPE_LE
result.address = QString("LE:%1").arg(result.address);
qDebug() << "paired BLE device type" << btType << "with address" << result.address;
btPairedDevices.append(result);
}
}
}
}
bool BTDiscovery::checkException(const char* method, const QAndroidJniObject *obj)
{
static QAndroidJniEnvironment env;
bool result = false;
if (env->ExceptionCheck()) {
qCritical("Exception in %s", method);
env->ExceptionDescribe();
env->ExceptionClear();
result=true;
}
if (!(obj == NULL || obj->isValid())) {
qCritical("Invalid object returned by %s", method);
result=true;
}
return result;
}
#endif // Q_OS_ANDROID
void BTDiscovery::discoverAddress(QString address)
{
// if we have a discovery agent, check if we know about the address and if not
// make sure we are looking for it
// (if we don't have a discoveryAgent then likely BT is off or something else went wrong)
if (!discoveryAgent)
return;
// let's make sure there is no device name mixed in with the address
QString btAddress;
btAddress = extractBluetoothAddress(address);
if (!btDeviceInfo.keys().contains(address) && !discoveryAgent->isActive()) {
qDebug() << "restarting discovery agent";
discoveryAgent->start();
}
}
void BTDiscovery::stopAgent()
{
if (!discoveryAgent)
return;
qDebug() << "---> stopping the discovery agent";
discoveryAgent->stop();
}
bool isBluetoothAddress(const QString &address)
{
return extractBluetoothAddress(address) != QString();
}
QString extractBluetoothAddress(const QString &address)
{
QRegularExpression re("(LE:)*([0-9A-F]{2}:[0-9A-F]{2}:[0-9A-F]{2}:[0-9A-F]{2}:[0-9A-F]{2}:[0-9A-F]{2}|{[0-9A-F]{8}-[0-9A-F]{4}-[0-9A-F]{4}-[0-9A-F]{4}-[0-9A-F]{12}})",
QRegularExpression::CaseInsensitiveOption);
QRegularExpressionMatch m = re.match(address);
return m.captured(0);
}
QString extractBluetoothNameAddress(const QString &address, QString &name)
{
// sometimes our device text is of the form "name (address)", sometimes it's just "address"
// let's simply return the address
name = QString();
QString extractedAddress = extractBluetoothAddress(address);
if (extractedAddress == address.trimmed())
return address;
QRegularExpression re("^([^()]+)\\(([^)]*\\))$");
QRegularExpressionMatch m = re.match(address);
if (m.hasMatch()) {
name = m.captured(1).trimmed();
return extractedAddress;
}
qDebug() << "can't parse address" << address;
return QString();
}
void saveBtDeviceInfo(const QString &devaddr, QBluetoothDeviceInfo deviceInfo)
{
btDeviceInfo[devaddr] = deviceInfo;
}
QBluetoothDeviceInfo getBtDeviceInfo(const QString &devaddr)
{
if (btDeviceInfo.contains(devaddr)) {
BTDiscovery::instance()->stopAgent();
return btDeviceInfo[devaddr];
}
if(!btDeviceInfo.keys().contains(devaddr)) {
qDebug() << "still looking scan is still running, we should just wait for a few moments";
// wait for a maximum of 30 more seconds
// yes, that seems crazy, but on my Mac I see this take more than 20 seconds
QElapsedTimer timer;
timer.start();
do {
if (btDeviceInfo.keys().contains(devaddr)) {
BTDiscovery::instance()->stopAgent();
return btDeviceInfo[devaddr];
}
QCoreApplication::processEvents(QEventLoop::AllEvents, 100);
QThread::msleep(100);
} while (timer.elapsed() < 30000);
}
qDebug() << "notify user that we can't find" << devaddr;
return QBluetoothDeviceInfo();
}
#endif // BT_SUPPORT