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aca4a3a4fa
Some BT devices support both, classical and LE, modes. Users could
choose either by prepending or removing "LE:" in the device address
field. After commit d23bd46a1b
, the
device field is always disabled in Bluetooth mode.
Therefore, add a mode combo box to the Bluetooth device selection
dialog. In the default mode (auto), the old code path (based on
the Qt device flags) is used. The two other modes (force LE, force
classical) allow the user to force the preferred behavior.
This feature is meant as a stop-gap measure until a more refined
transport choice is implemented. Therefore, the value of the new
combo box is not saved in the settings, to avoid cluttering of
the preferences with soon to be obsolete entries.
Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
292 lines
8.8 KiB
C++
292 lines
8.8 KiB
C++
// SPDX-License-Identifier: GPL-2.0
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#include "btdiscovery.h"
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#include "downloadfromdcthread.h"
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#include "core/libdivecomputer.h"
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#include <QTimer>
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#include <QDebug>
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extern QMap<QString, dc_descriptor_t *> descriptorLookup;
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BTDiscovery *BTDiscovery::m_instance = NULL;
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static dc_descriptor_t *getDeviceType(QString btName)
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// central function to convert a BT name to a Subsurface known vendor/model pair
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{
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QString vendor, product;
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if (btName.startsWith("OSTC")) {
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vendor = "Heinrichs Weikamp";
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if (btName.mid(4,2) == "3#") product = "OSTC 3";
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else if (btName.mid(4,2) == "3+") product = "OSTC 3+";
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else if (btName.mid(4,2) == "s#") product = "OSTC Sport";
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else if (btName.mid(4,2) == "s ") product = "OSTC Sport";
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else if (btName.mid(4,2) == "4-") product = "OSTC 4";
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else if (btName.mid(4,2) == "2-") product = "OSTC 2N";
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// all OSTCs are HW_FAMILY_OSTC_3, so when we do not know,
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// just try this
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else product = "OSTC 3"; // all OSTCs are HW_FAMILY_OSTC_3
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}
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if (btName.startsWith("Petrel") || btName.startsWith("Perdix") || btName.startsWith("Predator")) {
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vendor = "Shearwater";
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if (btName.startsWith("Petrel")) product = "Petrel"; // or petrel 2?
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if (btName.startsWith("Perdix")) product = "Perdix";
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if (btName.startsWith("Predator")) product = "Predator";
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}
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if (btName.startsWith("EON Steel")) {
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vendor = "Suunto";
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product = "EON Steel";
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}
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if (btName.startsWith("G2") || btName.startsWith("Aladin")) {
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vendor = "Scubapro";
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if (btName.startsWith("G2")) product = "G2";
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if (btName.startsWith("Aladin")) product = "Aladin Sport Matrix";
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}
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if (!vendor.isEmpty() && !product.isEmpty())
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return(descriptorLookup.value(vendor + product));
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return(NULL);
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}
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BTDiscovery::BTDiscovery(QObject *parent)
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{
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Q_UNUSED(parent)
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if (m_instance) {
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qDebug() << "trying to create an additional BTDiscovery object";
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return;
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}
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m_instance = this;
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#if defined(BT_SUPPORT)
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BTDiscoveryReDiscover();
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#endif
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}
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void BTDiscovery::BTDiscoveryReDiscover()
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{
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#if !defined(Q_OS_IOS)
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if (localBtDevice.isValid() &&
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localBtDevice.hostMode() == QBluetoothLocalDevice::HostConnectable) {
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btPairedDevices.clear();
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qDebug() << "localDevice " + localBtDevice.name() + " is valid, starting discovery";
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#else
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// for iOS we can't use the localBtDevice as iOS is BLE only
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// we need to find some other way to test if Bluetooth is enabled, though
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// for now just hard-code it
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if (1) {
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#endif
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m_btValid = true;
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#if defined(Q_OS_IOS) || (defined(Q_OS_LINUX) && !defined(Q_OS_ANDROID))
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discoveryAgent = new QBluetoothDeviceDiscoveryAgent(this);
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connect(discoveryAgent, &QBluetoothDeviceDiscoveryAgent::deviceDiscovered, this, &BTDiscovery::btDeviceDiscovered);
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qDebug() << "starting BLE discovery";
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discoveryAgent->start();
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#endif
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#if defined(Q_OS_ANDROID)
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getBluetoothDevices();
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// and add the paired devices to the internal data
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// So behaviour is same on Linux/Bluez stack and
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// Android/Java stack with respect to discovery
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for (int i = 0; i < btPairedDevices.length(); i++) {
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btDeviceDiscoveredMain(btPairedDevices[i]);
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}
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#endif
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for (int i = 0; i < btPairedDevices.length(); i++) {
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qDebug() << "Paired =" << btPairedDevices[i].name << btPairedDevices[i].address;
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}
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#if defined(Q_OS_IOS) || (defined(Q_OS_LINUX) && !defined(Q_OS_ANDROID))
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QTimer timer;
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timer.setSingleShot(true);
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connect(&timer, &QTimer::timeout, discoveryAgent, &QBluetoothDeviceDiscoveryAgent::stop);
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timer.start(3000);
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#endif
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} else {
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qDebug() << "localBtDevice isn't valid or not connectable";
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m_btValid = false;
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}
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}
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BTDiscovery::~BTDiscovery()
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{
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m_instance = NULL;
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#if defined(BT_SUPPORT)
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free(discoveryAgent);
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#endif
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}
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BTDiscovery *BTDiscovery::instance()
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{
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if (!m_instance)
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m_instance = new BTDiscovery();
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return m_instance;
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}
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#if defined(BT_SUPPORT)
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#if defined(SSRF_CUSTOM_IO)
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extern void addBtUuid(QBluetoothUuid uuid);
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#endif
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extern QHash<QString, QStringList> productList;
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extern QStringList vendorList;
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QString btDeviceAddress(const QBluetoothDeviceInfo *device, bool isBle)
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{
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QString address = device->address().isNull() ?
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device->deviceUuid().toString() : device->address().toString();
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const char *prefix = isBle ? "LE:" : "";
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return prefix + address;
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}
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QString markBLEAddress(const QBluetoothDeviceInfo *device)
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{
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QBluetoothDeviceInfo::CoreConfigurations flags = device->coreConfigurations();
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bool isBle = flags == QBluetoothDeviceInfo::LowEnergyCoreConfiguration;
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return btDeviceAddress(device, isBle);
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}
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void BTDiscovery::btDeviceDiscovered(const QBluetoothDeviceInfo &device)
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{
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#if defined(SSRF_CUSTOM_IO)
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btPairedDevice this_d;
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this_d.address = markBLEAddress(&device);
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this_d.name = device.name();
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btPairedDevices.append(this_d);
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QList<QBluetoothUuid> serviceUuids = device.serviceUuids();
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foreach (QBluetoothUuid id, serviceUuids) {
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addBtUuid(id);
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qDebug() << id.toByteArray();
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}
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btDeviceDiscoveredMain(this_d);
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#endif
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}
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void BTDiscovery::btDeviceDiscoveredMain(const btPairedDevice &device)
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{
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btVendorProduct btVP;
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QString newDevice;
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dc_descriptor_t *newDC = getDeviceType(device.name);
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if (newDC)
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newDevice = dc_descriptor_get_product(newDC);
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else
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newDevice = device.name;
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qDebug() << "Found new device:" << newDevice << device.address;
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if (newDC) {
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QString vendor = dc_descriptor_get_vendor(newDC);
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qDebug() << "this could be a " + vendor + " " + newDevice;
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btVP.btpdi = device;
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btVP.dcDescriptor = newDC;
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btVP.vendorIdx = vendorList.indexOf(vendor);
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btVP.productIdx = productList[vendor].indexOf(newDevice);
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btDCs << btVP;
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connectionListModel.addAddress(device.address + " (" + newDevice + ")");
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return;
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}
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connectionListModel.addAddress(device.address);
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qDebug() << "Not recognized as dive computer";
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}
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QList<BTDiscovery::btVendorProduct> BTDiscovery::getBtDcs()
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{
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return btDCs;
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}
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bool BTDiscovery::btAvailable() const
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{
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return m_btValid;
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}
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// Android: As Qt is not able to pull the pairing data from a device, i
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// a lengthy discovery process is needed to see what devices are paired. On
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// https://forum.qt.io/topic/46075/solved-bluetooth-list-paired-devices
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// user s.frings74 does, however, present a solution to this using JNI.
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// Currently, this code is taken "as is".
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#if defined(Q_OS_ANDROID)
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void BTDiscovery::getBluetoothDevices()
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{
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struct BTDiscovery::btPairedDevice result;
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// Query via Android Java API.
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// returns a BluetoothAdapter
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QAndroidJniObject adapter=QAndroidJniObject::callStaticObjectMethod("android/bluetooth/BluetoothAdapter","getDefaultAdapter","()Landroid/bluetooth/BluetoothAdapter;");
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if (checkException("BluetoothAdapter.getDefaultAdapter()", &adapter)) {
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return;
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}
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// returns a Set<BluetoothDevice>
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QAndroidJniObject pairedDevicesSet=adapter.callObjectMethod("getBondedDevices","()Ljava/util/Set;");
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if (checkException("BluetoothAdapter.getBondedDevices()", &pairedDevicesSet)) {
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return;
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}
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jint size=pairedDevicesSet.callMethod<jint>("size");
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checkException("Set<BluetoothDevice>.size()", &pairedDevicesSet);
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if (size > 0) {
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// returns an Iterator<BluetoothDevice>
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QAndroidJniObject iterator=pairedDevicesSet.callObjectMethod("iterator","()Ljava/util/Iterator;");
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if (checkException("Set<BluetoothDevice>.iterator()", &iterator)) {
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return;
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}
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for (int i = 0; i < size; i++) {
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// returns a BluetoothDevice
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QAndroidJniObject dev=iterator.callObjectMethod("next","()Ljava/lang/Object;");
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if (checkException("Iterator<BluetoothDevice>.next()", &dev)) {
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continue;
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}
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jint btType = dev.callMethod<jint>("getType", "()I");
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result.address = dev.callObjectMethod("getAddress","()Ljava/lang/String;").toString();
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if (btType == 2) // DEVICE_TYPE_LE
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result.address = QString("LE:%1").arg(result.address);
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result.name = dev.callObjectMethod("getName", "()Ljava/lang/String;").toString();
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qDebug() << "paired Device type" << btType << "with address" << result.address;
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btPairedDevices.append(result);
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if (btType == 3) { // DEVICE_TYPE_DUAL
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result.address = QString("LE:%1").arg(result.address);
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qDebug() << "paired Device type" << btType << "with address" << result.address;
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btPairedDevices.append(result);
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}
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}
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}
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}
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bool BTDiscovery::checkException(const char* method, const QAndroidJniObject *obj)
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{
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static QAndroidJniEnvironment env;
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bool result = false;
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if (env->ExceptionCheck()) {
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qCritical("Exception in %s", method);
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env->ExceptionDescribe();
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env->ExceptionClear();
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result=true;
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}
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if (!(obj == NULL || obj->isValid())) {
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qCritical("Invalid object returned by %s", method);
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result=true;
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}
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return result;
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}
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#endif // Q_OS_ANDROID
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QHash<QString, QBluetoothDeviceInfo> btDeviceInfo;
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void saveBtDeviceInfo(const char* devaddr, QBluetoothDeviceInfo deviceInfo)
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{
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btDeviceInfo[devaddr] = deviceInfo;
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}
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QBluetoothDeviceInfo getBtDeviceInfo(const char* devaddr)
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{
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if (btDeviceInfo.contains(devaddr))
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return btDeviceInfo[devaddr];
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qDebug() << "need to scan for" << devaddr;
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return QBluetoothDeviceInfo();
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}
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#endif // BT_SUPPORT
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