示例#1
0
/**
 * @return 0 if basic assumptions are validated. Non-zero returns are used to
 *     terminate the second-level python script early.
 */
unsigned verifyBasicAssumptions()
{
    if (ble.init()) {
        return 1;
    }

    /* Read in the MAC address of this peripheral. The corresponding central will be
     * commanded to co-ordinate with this address. */
    Gap::AddressType_t addressType;
    Gap::Address_t     address;
    if (ble.gap().getAddress(&addressType, address)) {
        return 1;
    } /* TODO: if this fails, then bail out with a useful report. */

    /* Check that the state is one of the valid values. */
    Gap::GapState_t state = ble.gap().getState();
    if ((state.connected == 1) || (state.advertising == 1)) {
        printf("{{failure}} ble.gap().getState() at line %u\r\n", __LINE__); /* writing out {{failure}} will halt the host test runner. */
        return 1;
    }

    const char *version = ble.getVersion();
    printf("%s\r\n", version);

    printf("{{success}}\r\n");
    return 0;
}
示例#2
0
/**
 * Test of the ble shutdown function. Reinitializes and makes sure it
 */
void shutdownTest(void)
{
    ASSERT_NO_FAILURE(ble.shutdown());
    ASSERT_NO_FAILURE(ble.init());
    ASSERT_NO_FAILURE(ble.gap().startAdvertising());
    printf("ASSERTIONS DONE\r\n");
}
示例#3
0
void app_start(int, char *[])
{
    ble.init();
    ble.onDisconnection(disconnectionCallback);

    /*
     * Load parameters from (platform specific) persistent storage. Parameters
     * can be set to non-default values while the URIBeacon is in configuration
     * mode (within the first 60 seconds of power-up). Thereafter, parameters
     * get copied out to persistent storage before switching to normal URIBeacon
     * operation.
     */
    bool fetchedFromPersistentStorage = loadURIBeaconConfigParams(&params);

    /* Initialize a URIBeaconConfig service providing config params, default URI, and power levels. */
    static URIBeaconConfigService::PowerLevels_t defaultAdvPowerLevels = {-20, -4, 0, 10}; // Values for ADV packets related to firmware levels
    uriBeaconConfig = new URIBeaconConfigService(ble, params, !fetchedFromPersistentStorage, "http://uribeacon.org", defaultAdvPowerLevels);
    if (!uriBeaconConfig->configuredSuccessfully()) {
        error("failed to accommodate URI");
    }

    // Setup auxiliary services to allow over-the-air firmware updates, etc
    DFUService *dfu = new DFUService(ble);
    DeviceInformationService *deviceInfo = new DeviceInformationService(ble, "ARM", "UriBeacon", "SN1", "hw-rev1", "fw-rev1", "soft-rev1");

    ble.startAdvertising(); /* Set the whole thing in motion. After this call a GAP central can scan the URIBeaconConfig
                             * service. This can then be switched to the normal URIBeacon functionality after a timeout. */

    /* Post a timeout callback to be invoked in ADVERTISEMENT_TIMEOUT_SECONDS to affect the switch to beacon mode. */
    minar::Scheduler::postCallback(timeout).delay(minar::milliseconds(CONFIG_ADVERTISEMENT_TIMEOUT_SECONDS * 1000));
}
示例#4
0
int main(void)
{

    ble.init();
    ble.onDisconnection(disconnectionCallback);
    ble.onDataWritten(WrittenHandler);  

   // setup advertising 
    ble.accumulateAdvertisingPayload(GapAdvertisingData::GENERIC_PHONE);
    ble.accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED | GapAdvertisingData::LE_GENERAL_DISCOVERABLE);
    ble.accumulateAdvertisingPayload(GapAdvertisingData::SHORTENED_LOCAL_NAME, (const uint8_t *)NAME, sizeof(NAME) - 1);
    ble.accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LIST_16BIT_SERVICE_IDS, (const uint8_t *)uart_base_uuid_rev, sizeof(uart_base_uuid));

    ble.setAdvertisingPayload();
    ble.setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED);
    ble.setActiveScan(false);
    ble.setAdvertisingInterval(100);

    ble.addService(uartService);
    ble.startAdvertising(); 

    while(1)
    {
        ble.waitForEvent(); 
    }
}
示例#5
0
int main(void)
{
    led1 = 1;
    Ticker ticker;
    ticker.attach(periodicCallback, 1); // blink LED every second

    ble.init();
    ble.gap().onDisconnection(disconnectionCallback);

    /* Setup primary service. */
    uint8_t hrmCounter = 100; // init HRM to 100bps
    HeartRateService hrService(ble, hrmCounter, HeartRateService::LOCATION_FINGER);

    /* Setup auxiliary service. */
    DeviceInformationService deviceInfo(ble, "ARM", "Model1", "SN1", "hw-rev1", "fw-rev1", "soft-rev1");

    /* Setup advertising. */
    ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED | GapAdvertisingData::LE_GENERAL_DISCOVERABLE);
    ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LIST_16BIT_SERVICE_IDS, (uint8_t *)uuid16_list, sizeof(uuid16_list));
    ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::GENERIC_HEART_RATE_SENSOR);
    ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LOCAL_NAME, (uint8_t *)DEVICE_NAME, sizeof(DEVICE_NAME));
    ble.gap().setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED);
    ble.gap().setAdvertisingInterval(1000); /* 1000ms */
    ble.gap().startAdvertising();

    // infinite loop
    while (1) {
        // check for trigger from periodicCallback()
        if (triggerSensorPolling && ble.getGapState().connected) {
            triggerSensorPolling = false;

            // Do blocking calls or whatever is necessary for sensor polling.
            // In our case, we simply update the HRM measurement.
            hrmCounter++;

            //  100 <= HRM bps <=175
            if (hrmCounter == 175) {
                hrmCounter = 100;
            }

            // update bps
            hrService.updateHeartRate(hrmCounter);
        } else {
            ble.waitForEvent(); // low power wait for event
        }
    }
}
示例#6
0
void app_start(int argc, char *argv[])
{
    ble.init(bleInitComplete);
}
示例#7
0
void app_start(int, char *[])
{
    buffer = (uint8_t*)malloc(24);
    memset(buffer, 0, 24);
    console.attach(serialHandler);
    printf("{{end}}\r\n");
    // setup buttons
    // button1.mode(PullUp);
    // Delay for initial pullup to take effect
    wait(.01);
    // button1.fall(button1ISR);

    // button2.mode(PullUp);
    // Delay for initial pullup to take effect
    wait(.01);
    // button2.fall(button2ISR);

    /*************************************************************************/
    /*************************************************************************/
    /* bluetooth le */
    ble.init();

    // security
    ble.securityManager().onSecuritySetupInitiated(securityInitiated);
    ble.securityManager().onSecuritySetupCompleted(securityCompleted);
    ble.securityManager().onLinkSecured(linkSecured);
    ble.securityManager().onSecurityContextStored(contextStored);
    ble.securityManager().onPasskeyDisplay(passkeyDisplay);

    // connection status handlers
    ble.gap().onConnection(whenConnected);
    ble.gap().onDisconnection(whenDisconnected);

    // set preferred connection parameters to lowest latency
    Gap::ConnectionParams_t fast;
    ble.gap().getPreferredConnectionParams(&fast);
    fast.minConnectionInterval = 16; // 20 ms
    fast.maxConnectionInterval = 32; // 40 ms
    fast.slaveLatency = 0;
    ble.gap().setPreferredConnectionParams(&fast);

    /* construct advertising beacon */
    ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED|GapAdvertisingData::LE_GENERAL_DISCOVERABLE);
    ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::SHORTENED_LOCAL_NAME, (const uint8_t *) DEVICE_NAME, sizeof(DEVICE_NAME) - 1);

    ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LIST_16BIT_SERVICE_IDS, uuid.getBaseUUID(), uuid.getLen());

    ble.gap().setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED);
    ble.gap().setAdvertisingInterval(200);

    // Apple uses device name instead of beacon name
    ble.gap().setDeviceName((const uint8_t*) DEVICE_NAME);

    // ble setup complete - start advertising
    ble.gap().startAdvertising();


    /*************************************************************************/
    /*************************************************************************/
    bts = new BlockTransferService();
    btc = new BlockTransferClient();
    watch = new Timer();

    bts->init(uuid, SecurityManager::SECURITY_MODE_ENCRYPTION_OPEN_LINK);

#if 0
    writeBlock.push_back(&writeBlockFragment2);
    writeBlock.push_back(&writeBlockFragment3);
    writeBlock.push_back(&writeBlockFragment4);
#endif

    // set callback functions
    bts->setWriteAuthorizationCallback(blockServerWriteHandler, &receiveBlock);
    bts->setReadAuthorizationCallback(blockServerReadHandler);


    printf("BlockTransfer: %s %s %d\r\n", __DATE__, __TIME__, MAX_INDEX_SET_SIZE);
}