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path: root/examples/direct_bt_scanner00/dbt_scanner00.cpp
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/*
 * Author: Sven Gothel <sgothel@jausoft.com>
 * Copyright (c) 2020 Gothel Software e.K.
 * Copyright (c) 2020 ZAFENA AB
 *
 * Permission is hereby granted, free of charge, to any person obtaining
 * a copy of this software and associated documentation files (the
 * "Software"), to deal in the Software without restriction, including
 * without limitation the rights to use, copy, modify, merge, publish,
 * distribute, sublicense, and/or sell copies of the Software, and to
 * permit persons to whom the Software is furnished to do so, subject to
 * the following conditions:
 *
 * The above copyright notice and this permission notice shall be
 * included in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
 * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
 * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
 * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
 */

#include <direct_bt/DirectBT.hpp>
#include <cinttypes>

extern "C" {
    #include <unistd.h>
}

using namespace direct_bt;

/***
 * This C++ direct_bt scanner code
 * uses a more simple high-level approach via semantic GATT types (Service, Characteristic, ..)
 * without bothering with fine implementation details of GATTHandler.
 *
 * For a more technical and low-level approach see dbt_scanner01.cpp!
 */

std::shared_ptr<DBTDevice> deviceFound = nullptr;
std::mutex mtxDeviceFound;
std::condition_variable cvDeviceFound;

class MyAdapterStatusListener : public AdapterStatusListener {
    void adapterSettingsChanged(DBTAdapter const &a, const AdapterSetting oldmask, const AdapterSetting newmask,
                                const AdapterSetting changedmask, const uint64_t timestamp) override {
        fprintf(stderr, "****** Native Adapter SETTINGS_CHANGED: %s -> %s, changed %s\n",
                adapterSettingsToString(oldmask).c_str(),
                adapterSettingsToString(newmask).c_str(),
                adapterSettingsToString(changedmask).c_str());
        fprintf(stderr, "Status DBTAdapter:\n");
        fprintf(stderr, "%s\n", a.toString().c_str());
        (void)timestamp;
    }

    void discoveringChanged(DBTAdapter const &a, const bool enabled, const bool keepAlive, const uint64_t timestamp) override {
        fprintf(stderr, "****** DISCOVERING: enabled %d, keepAlive %d: %s\n", enabled, keepAlive, a.toString().c_str());
        (void)timestamp;
    }

    void deviceFound(std::shared_ptr<DBTDevice> device, const uint64_t timestamp) override {
        fprintf(stderr, "****** FOUND__: %s\n", device->toString().c_str());
        fprintf(stderr, "Status Adapter:\n");
        fprintf(stderr, "%s\n", device->getAdapter().toString().c_str());
        {
            std::unique_lock<std::mutex> lockRead(mtxDeviceFound); // RAII-style acquire and relinquish via destructor
            ::deviceFound = device;
            cvDeviceFound.notify_all(); // notify waiting getter
        }
        (void)timestamp;
    }
    void deviceUpdated(std::shared_ptr<DBTDevice> device, const uint64_t timestamp, const EIRDataType updateMask) override {
        fprintf(stderr, "****** UPDATED: %s of %s\n", eirDataMaskToString(updateMask).c_str(), device->toString().c_str());
        fprintf(stderr, "Status Adapter:\n");
        fprintf(stderr, "%s\n", device->getAdapter().toString().c_str());
        (void)timestamp;
    }
    void deviceConnectionChanged(std::shared_ptr<DBTDevice> device, const bool connected, const uint64_t timestamp) override {
        fprintf(stderr, "****** CONNECTION: connected %d: %s\n", connected, device->toString().c_str());
        fprintf(stderr, "Status Adapter:\n");
        fprintf(stderr, "%s\n", device->getAdapter().toString().c_str());
        (void)timestamp;
    }
};

static const uuid16_t _TEMPERATURE_MEASUREMENT(GattCharacteristicType::TEMPERATURE_MEASUREMENT);

class MyGATTEventListener : public SpecificGATTCharacteristicListener {
  public:

    MyGATTEventListener(const GATTCharacteristic * characteristicMatch)
    : SpecificGATTCharacteristicListener(characteristicMatch) {}

    void notificationReceived(GATTCharacteristicRef charDecl, std::shared_ptr<TROOctets> charValue, const uint64_t timestamp) override {
        const std::shared_ptr<DBTDevice> dev = charDecl->getDevice();
        const int64_t tR = getCurrentMilliseconds();
        fprintf(stderr, "****** GATT Notify (td %" PRIu64 " ms, dev-discovered %" PRIu64 " ms): From %s\n",
                (tR-timestamp), (tR-dev->ts_creation), dev->toString().c_str());
        if( nullptr != charDecl ) {
            fprintf(stderr, "****** decl %s\n", charDecl->toString().c_str());
        }
        fprintf(stderr, "****** rawv %s\n", charValue->toString().c_str());
    }

    void indicationReceived(GATTCharacteristicRef charDecl,
                            std::shared_ptr<TROOctets> charValue, const uint64_t timestamp,
                            const bool confirmationSent) override
    {
        const std::shared_ptr<DBTDevice> dev = charDecl->getDevice();
        const int64_t tR = getCurrentMilliseconds();
        fprintf(stderr, "****** GATT Indication (confirmed %d, td(msg %" PRIu64 " ms, dev-discovered %" PRIu64 " ms): From %s\n",
                confirmationSent, (tR-timestamp), (tR-dev->ts_creation), dev->toString().c_str());
        if( nullptr != charDecl ) {
            fprintf(stderr, "****** decl %s\n", charDecl->toString().c_str());
            if( _TEMPERATURE_MEASUREMENT == *charDecl->value_type ) {
                std::shared_ptr<TemperatureMeasurementCharateristic> temp = TemperatureMeasurementCharateristic::get(*charValue);
                if( nullptr != temp ) {
                    fprintf(stderr, "****** valu %s\n", temp->toString().c_str());
                }
            }
        }
        fprintf(stderr, "****** rawv %s\n", charValue->toString().c_str());
    }
};

int main(int argc, char *argv[])
{
    bool ok = true, foundDevice=false;
    int dev_id = 0; // default
    bool waitForEnter=false;
    EUI48 waitForDevice = EUI48_ANY_DEVICE;
    bool forever = false;

    /**
     * BT Core Spec v5.2:  Vol 3, Part A L2CAP Spec: 7.9 PRIORITIZING DATA OVER HCI
     *
     * In order for guaranteed channels to meet their guarantees,
     * L2CAP should prioritize traffic over the HCI transport in devices that support HCI.
     * Packets for Guaranteed channels should receive higher priority than packets for Best Effort channels.
     * ...
     * I have noticed that w/o HCI le_connect, overall communication takes twice as long!!!
     */
    bool doHCI_Connect = true;

    for(int i=1; i<argc; i++) {
        if( !strcmp("-wait", argv[i]) ) {
            waitForEnter = true;
        } else if( !strcmp("-forever", argv[i]) ) {
            forever = true;
        } else if( !strcmp("-dev_id", argv[i]) && argc > (i+1) ) {
            dev_id = atoi(argv[++i]);
        } else if( !strcmp("-skipConnect", argv[i]) ) {
            doHCI_Connect = false;
        } else if( !strcmp("-mac", argv[i]) && argc > (i+1) ) {
            std::string macstr = std::string(argv[++i]);
            waitForDevice = EUI48(macstr);
        }
    }
    fprintf(stderr, "dev_id %d\n", dev_id);
    fprintf(stderr, "doHCI_Connect %d\n", doHCI_Connect);
    fprintf(stderr, "waitForDevice: %s\n", waitForDevice.toString().c_str());

    if( waitForEnter ) {
        fprintf(stderr, "Press ENTER to continue\n");
        getchar();
    }

    DBTAdapter adapter(dev_id);
    if( !adapter.hasDevId() ) {
        fprintf(stderr, "Default adapter not available.\n");
        exit(1);
    }
    if( !adapter.isValid() ) {
        fprintf(stderr, "Adapter invalid.\n");
        exit(1);
    }
    fprintf(stderr, "Using adapter: device %s, address %s: %s\n",
        adapter.getName().c_str(), adapter.getAddressString().c_str(), adapter.toString().c_str());

    adapter.addStatusListener(std::shared_ptr<AdapterStatusListener>(new MyAdapterStatusListener()));

    const int64_t t0 = getCurrentMilliseconds();

    if( doHCI_Connect ) {
        std::shared_ptr<HCIComm> hci = adapter.openHCI();
        if( nullptr == hci || !hci->isOpen() ) {
            fprintf(stderr, "Couldn't open HCI from %s\n", adapter.toString().c_str());
            exit(1);
        }
    }

    while( ok && ( forever || !foundDevice ) ) {
        ok = adapter.startDiscovery(true /* keepAlive */);
        if( !ok) {
            perror("Adapter start discovery failed");
            goto out;
        }

        std::shared_ptr<DBTDevice> device = nullptr;
        {
            std::unique_lock<std::mutex> lockRead(mtxDeviceFound); // RAII-style acquire and relinquish via destructor
            while( nullptr == device ) { // FIXME deadlock, waiting forever!
                cvDeviceFound.wait(lockRead);
                if( nullptr != deviceFound ) {
                    foundDevice = deviceFound->getAddress() == waitForDevice; // match
                    if( foundDevice || ( EUI48_ANY_DEVICE == waitForDevice && deviceFound->isLEAddressType() ) ) {
                        // match or any LE device
                        device.swap(deviceFound); // take over deviceFound
                    }
                }
            }
        }
        adapter.stopDiscovery();

        if( ok && nullptr != device ) {
            const uint64_t t1 = getCurrentMilliseconds();

            //
            // HCI LE-Connect
            // (Without: Overall communication takes ~twice as long!!!)
            //
            if( doHCI_Connect ) {
                if( 0 == device->connectDefault() ) {
                    fprintf(stderr, "Connect: Failed %s\n", device->toString().c_str());
                } else {
                    fprintf(stderr, "Connect: Success\n");
                }
            } else {
                fprintf(stderr, "Connect: Skipped %s\n", device->toString().c_str());
            }

            //
            // GATT Service Processing
            //
            std::vector<GATTServiceRef> primServices = device->getGATTServices(); // implicit GATT connect...
            if( primServices.size() > 0 ) {
                const uint64_t t5 = getCurrentMilliseconds();
                {
                    const uint64_t td15 = t5 - t1; // discovered -> connect -> gatt complete
                    const uint64_t td05 = t5 - t0; // total
                    fprintf(stderr, "\n\n\n");
                    fprintf(stderr, "GATT primary-services completed\n");
                    fprintf(stderr, "  discovery-done to gatt complete %" PRIu64 " ms,\n"
                                    "  discovered to gatt complete %" PRIu64 " ms,\n"
                                    "  total %" PRIu64 " ms\n\n",
                                    td15, (t5 - device->getCreationTimestamp()), td05);
                }
                std::shared_ptr<GenericAccess> ga = device->getGATTGenericAccess();
                if( nullptr != ga ) {
                    fprintf(stderr, "  GenericAccess: %s\n\n", ga->toString().c_str());
                }
                {
                    std::shared_ptr<GATTHandler> gatt = device->getGATTHandler();
                    if( nullptr != gatt && gatt->isOpen() ) {
                        std::shared_ptr<DeviceInformation> di = gatt->getDeviceInformation(primServices);
                        if( nullptr != di ) {
                            fprintf(stderr, "  DeviceInformation: %s\n\n", di->toString().c_str());
                        }
                    }
                }

                for(size_t i=0; i<primServices.size(); i++) {
                    GATTService & primService = *primServices.at(i);
                    fprintf(stderr, "  [%2.2d] Service %s\n", (int)i, primService.toString().c_str());
                    fprintf(stderr, "  [%2.2d] Service Characteristics\n", (int)i);
                    std::vector<GATTCharacteristicRef> & serviceCharacteristics = primService.characteristicList;
                    for(size_t j=0; j<serviceCharacteristics.size(); j++) {
                        GATTCharacteristic & serviceChar = *serviceCharacteristics.at(j);
                        fprintf(stderr, "  [%2.2d.%2.2d] Decla: %s\n", (int)i, (int)j, serviceChar.toString().c_str());
                        if( serviceChar.hasProperties(GATTCharacteristic::PropertyBitVal::Read) ) {
                            POctets value(GATTHandler::ClientMaxMTU, 0);
                            if( serviceChar.readValue(value) ) {
                                fprintf(stderr, "  [%2.2d.%2.2d] Value: %s\n", (int)i, (int)j, value.toString().c_str());
                            }
                        }
                        bool cccdEnableResult[2];
                        bool cccdRet = serviceChar.configIndicationNotification(true /* enableNotification */, true /* enableIndication */, cccdEnableResult);
                        fprintf(stderr, "  [%2.2d.%2.2d] Config Notification(%d), Indication(%d): Result %d\n",
                                (int)i, (int)j, cccdEnableResult[0], cccdEnableResult[1], cccdRet);
                        if( cccdRet ) {
                            serviceChar.addCharacteristicListener( std::shared_ptr<GATTCharacteristicListener>( new MyGATTEventListener(&serviceChar) ) );
                        }
                    }
                }
                // FIXME sleep 1s for potential callbacks ..
                sleep(1);
            }
            device->disconnect(); // OK if not connected, also issues device->disconnectGATT() -> gatt->disconnect()
        } // if( ok && nullptr != device )
    }

out:
    adapter.closeHCI();
    return 0;
}