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Another try to get the code format correct.

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This commit is contained in:
beegee-tokyo 2024-09-12 13:20:09 +08:00
parent ca8d2204ba
commit c4c85777d0
2 changed files with 719 additions and 834 deletions
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1097
src/mqtt/MQTT.cpp
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456
src/platform/nrf52/NRF52Bluetooth.cpp
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@ -32,23 +32,23 @@ static uint16_t connectionHandle;
class BluetoothPhoneAPI : public PhoneAPI
{
/**
* Subclasses can use this as a hook to provide custom notifications for their transport (i.e. bluetooth notifies)
*/
virtual void onNowHasData(uint32_t fromRadioNum) override
{
PhoneAPI::onNowHasData(fromRadioNum);
/**
* Subclasses can use this as a hook to provide custom notifications for their transport (i.e. bluetooth notifies)
*/
virtual void onNowHasData(uint32_t fromRadioNum) override
{
PhoneAPI::onNowHasData(fromRadioNum);
LOG_INFO("BLE notify fromNum\n");
fromNum.notify32(fromRadioNum);
}
LOG_INFO("BLE notify fromNum\n");
fromNum.notify32(fromRadioNum);
}
/// Check the current underlying physical link to see if the client is currently connected
virtual bool checkIsConnected() override
{
BLEConnection *connection = Bluefruit.Connection(connectionHandle);
return connection->connected();
}
/// Check the current underlying physical link to see if the client is currently connected
virtual bool checkIsConnected() override
{
BLEConnection *connection = Bluefruit.Connection(connectionHandle);
return connection->connected();
}
};
static BluetoothPhoneAPI *bluetoothPhoneAPI;
@ -56,12 +56,12 @@ static BluetoothPhoneAPI *bluetoothPhoneAPI;
void onConnect(uint16_t conn_handle)
{
// Get the reference to current connection
BLEConnection *connection = Bluefruit.Connection(conn_handle);
connectionHandle = conn_handle;
char central_name[32] = {0};
connection->getPeerName(central_name, sizeof(central_name));
LOG_INFO("BLE Connected to %s\n", central_name);
// Get the reference to current connection
BLEConnection *connection = Bluefruit.Connection(conn_handle);
connectionHandle = conn_handle;
char central_name[32] = {0};
connection->getPeerName(central_name, sizeof(central_name));
LOG_INFO("BLE Connected to %s\n", central_name);
}
/**
* Callback invoked when a connection is dropped
@ -70,261 +70,248 @@ void onConnect(uint16_t conn_handle)
*/
void onDisconnect(uint16_t conn_handle, uint8_t reason)
{
// FIXME - we currently assume only one active connection
LOG_INFO("BLE Disconnected, reason = 0x%x\n", reason);
// FIXME - we currently assume only one active connection
LOG_INFO("BLE Disconnected, reason = 0x%x\n", reason);
}
void onCccd(uint16_t conn_hdl, BLECharacteristic *chr, uint16_t cccd_value)
{
// Display the raw request packet
LOG_INFO("CCCD Updated: %u\n", cccd_value);
// Check the characteristic this CCCD update is associated with in case
// this handler is used for multiple CCCD records.
// Display the raw request packet
LOG_INFO("CCCD Updated: %u\n", cccd_value);
// Check the characteristic this CCCD update is associated with in case
// this handler is used for multiple CCCD records.
// According to the GATT spec: cccd value = 0x0001 means notifications are enabled
// and cccd value = 0x0002 means indications are enabled
// According to the GATT spec: cccd value = 0x0001 means notifications are enabled
// and cccd value = 0x0002 means indications are enabled
if (chr->uuid == fromNum.uuid || chr->uuid == logRadio.uuid)
{
auto result = cccd_value == 2 ? chr->indicateEnabled(conn_hdl) : chr->notifyEnabled(conn_hdl);
if (result)
{
LOG_INFO("Notify/Indicate enabled\n");
}
else
{
LOG_INFO("Notify/Indicate disabled\n");
}
}
if (chr->uuid == fromNum.uuid || chr->uuid == logRadio.uuid) {
auto result = cccd_value == 2 ? chr->indicateEnabled(conn_hdl) : chr->notifyEnabled(conn_hdl);
if (result) {
LOG_INFO("Notify/Indicate enabled\n");
} else {
LOG_INFO("Notify/Indicate disabled\n");
}
}
}
void startAdv(void)
{
// Advertising packet
Bluefruit.Advertising.addFlags(BLE_GAP_ADV_FLAGS_LE_ONLY_GENERAL_DISC_MODE);
// IncludeService UUID
// Bluefruit.ScanResponse.addService(meshBleService);
Bluefruit.ScanResponse.addTxPower();
Bluefruit.ScanResponse.addName();
// Include Name
// Bluefruit.Advertising.addName();
Bluefruit.Advertising.addService(meshBleService);
/* Start Advertising
* - Enable auto advertising if disconnected
* - Interval: fast mode = 20 ms, slow mode = 152.5 ms
* - Timeout for fast mode is 30 seconds
* - Start(timeout) with timeout = 0 will advertise forever (until connected)
*
* For recommended advertising interval
* https://developer.apple.com/library/content/qa/qa1931/_index.html
*/
Bluefruit.Advertising.restartOnDisconnect(true);
Bluefruit.Advertising.setInterval(32, 244); // in unit of 0.625 ms
Bluefruit.Advertising.setFastTimeout(30); // number of seconds in fast mode
Bluefruit.Advertising.start(0); // 0 = Don't stop advertising after n seconds. FIXME, we should stop advertising after X
// Advertising packet
Bluefruit.Advertising.addFlags(BLE_GAP_ADV_FLAGS_LE_ONLY_GENERAL_DISC_MODE);
// IncludeService UUID
// Bluefruit.ScanResponse.addService(meshBleService);
Bluefruit.ScanResponse.addTxPower();
Bluefruit.ScanResponse.addName();
// Include Name
// Bluefruit.Advertising.addName();
Bluefruit.Advertising.addService(meshBleService);
/* Start Advertising
* - Enable auto advertising if disconnected
* - Interval: fast mode = 20 ms, slow mode = 152.5 ms
* - Timeout for fast mode is 30 seconds
* - Start(timeout) with timeout = 0 will advertise forever (until connected)
*
* For recommended advertising interval
* https://developer.apple.com/library/content/qa/qa1931/_index.html
*/
Bluefruit.Advertising.restartOnDisconnect(true);
Bluefruit.Advertising.setInterval(32, 244); // in unit of 0.625 ms
Bluefruit.Advertising.setFastTimeout(30); // number of seconds in fast mode
Bluefruit.Advertising.start(0); // 0 = Don't stop advertising after n seconds. FIXME, we should stop advertising after X
}
// Just ack that the caller is allowed to read
static void authorizeRead(uint16_t conn_hdl)
{
ble_gatts_rw_authorize_reply_params_t reply = {.type = BLE_GATTS_AUTHORIZE_TYPE_READ};
reply.params.write.gatt_status = BLE_GATT_STATUS_SUCCESS;
sd_ble_gatts_rw_authorize_reply(conn_hdl, &reply);
ble_gatts_rw_authorize_reply_params_t reply = {.type = BLE_GATTS_AUTHORIZE_TYPE_READ};
reply.params.write.gatt_status = BLE_GATT_STATUS_SUCCESS;
sd_ble_gatts_rw_authorize_reply(conn_hdl, &reply);
}
/**
* client is starting read, pull the bytes from our API class
*/
void onFromRadioAuthorize(uint16_t conn_hdl, BLECharacteristic *chr, ble_gatts_evt_read_t *request)
{
if (request->offset == 0)
{
// If the read is long, we will get multiple authorize invocations - we only populate data on the first
size_t numBytes = bluetoothPhoneAPI->getFromRadio(fromRadioBytes);
// Someone is going to read our value as soon as this callback returns. So fill it with the next message in the queue
// or make empty if the queue is empty
fromRadio.write(fromRadioBytes, numBytes);
}
else
{
// LOG_INFO("Ignoring successor read\n");
}
authorizeRead(conn_hdl);
if (request->offset == 0) {
// If the read is long, we will get multiple authorize invocations - we only populate data on the first
size_t numBytes = bluetoothPhoneAPI->getFromRadio(fromRadioBytes);
// Someone is going to read our value as soon as this callback returns. So fill it with the next message in the queue
// or make empty if the queue is empty
fromRadio.write(fromRadioBytes, numBytes);
} else {
// LOG_INFO("Ignoring successor read\n");
}
authorizeRead(conn_hdl);
}
void onToRadioWrite(uint16_t conn_hdl, BLECharacteristic *chr, uint8_t *data, uint16_t len)
{
LOG_INFO("toRadioWriteCb data %p, len %u\n", data, len);
bluetoothPhoneAPI->handleToRadio(data, len);
LOG_INFO("toRadioWriteCb data %p, len %u\n", data, len);
bluetoothPhoneAPI->handleToRadio(data, len);
}
void setupMeshService(void)
{
bluetoothPhoneAPI = new BluetoothPhoneAPI();
meshBleService.begin();
// Note: You must call .begin() on the BLEService before calling .begin() on
// any characteristic(s) within that service definition.. Calling .begin() on
// a BLECharacteristic will cause it to be added to the last BLEService that
// was 'begin()'ed!
auto secMode =
config.bluetooth.mode == meshtastic_Config_BluetoothConfig_PairingMode_NO_PIN ? SECMODE_OPEN : SECMODE_ENC_NO_MITM;
fromNum.setProperties(CHR_PROPS_NOTIFY | CHR_PROPS_READ);
fromNum.setPermission(secMode, SECMODE_NO_ACCESS); // FIXME, secure this!!!
fromNum.setFixedLen(
0); // Variable len (either 0 or 4) FIXME consider changing protocol so it is fixed 4 byte len, where 0 means empty
fromNum.setMaxLen(4);
fromNum.setCccdWriteCallback(onCccd); // Optionally capture CCCD updates
// We don't yet need to hook the fromNum auth callback
// fromNum.setReadAuthorizeCallback(fromNumAuthorizeCb);
fromNum.write32(0); // Provide default fromNum of 0
fromNum.begin();
bluetoothPhoneAPI = new BluetoothPhoneAPI();
meshBleService.begin();
// Note: You must call .begin() on the BLEService before calling .begin() on
// any characteristic(s) within that service definition.. Calling .begin() on
// a BLECharacteristic will cause it to be added to the last BLEService that
// was 'begin()'ed!
auto secMode =
config.bluetooth.mode == meshtastic_Config_BluetoothConfig_PairingMode_NO_PIN ? SECMODE_OPEN : SECMODE_ENC_NO_MITM;
fromNum.setProperties(CHR_PROPS_NOTIFY | CHR_PROPS_READ);
fromNum.setPermission(secMode, SECMODE_NO_ACCESS); // FIXME, secure this!!!
fromNum.setFixedLen(
0); // Variable len (either 0 or 4) FIXME consider changing protocol so it is fixed 4 byte len, where 0 means empty
fromNum.setMaxLen(4);
fromNum.setCccdWriteCallback(onCccd); // Optionally capture CCCD updates
// We don't yet need to hook the fromNum auth callback
// fromNum.setReadAuthorizeCallback(fromNumAuthorizeCb);
fromNum.write32(0); // Provide default fromNum of 0
fromNum.begin();
fromRadio.setProperties(CHR_PROPS_READ);
fromRadio.setPermission(secMode, SECMODE_NO_ACCESS);
fromRadio.setMaxLen(sizeof(fromRadioBytes));
fromRadio.setReadAuthorizeCallback(
onFromRadioAuthorize,
false); // We don't call this callback via the adafruit queue, because we can safely run in the BLE context
fromRadio.setBuffer(fromRadioBytes, sizeof(fromRadioBytes)); // we preallocate our fromradio buffer so we won't waste space
// for two copies
fromRadio.begin();
fromRadio.setProperties(CHR_PROPS_READ);
fromRadio.setPermission(secMode, SECMODE_NO_ACCESS);
fromRadio.setMaxLen(sizeof(fromRadioBytes));
fromRadio.setReadAuthorizeCallback(
onFromRadioAuthorize,
false); // We don't call this callback via the adafruit queue, because we can safely run in the BLE context
fromRadio.setBuffer(fromRadioBytes, sizeof(fromRadioBytes)); // we preallocate our fromradio buffer so we won't waste space
// for two copies
fromRadio.begin();
toRadio.setProperties(CHR_PROPS_WRITE);
toRadio.setPermission(secMode, secMode); // FIXME secure this!
toRadio.setFixedLen(0);
toRadio.setMaxLen(512);
toRadio.setBuffer(toRadioBytes, sizeof(toRadioBytes));
// We don't call this callback via the adafruit queue, because we can safely run in the BLE context
toRadio.setWriteCallback(onToRadioWrite, false);
toRadio.begin();
toRadio.setProperties(CHR_PROPS_WRITE);
toRadio.setPermission(secMode, secMode); // FIXME secure this!
toRadio.setFixedLen(0);
toRadio.setMaxLen(512);
toRadio.setBuffer(toRadioBytes, sizeof(toRadioBytes));
// We don't call this callback via the adafruit queue, because we can safely run in the BLE context
toRadio.setWriteCallback(onToRadioWrite, false);
toRadio.begin();
logRadio.setProperties(CHR_PROPS_INDICATE | CHR_PROPS_NOTIFY | CHR_PROPS_READ);
logRadio.setPermission(secMode, SECMODE_NO_ACCESS);
logRadio.setMaxLen(512);
logRadio.setCccdWriteCallback(onCccd);
logRadio.write32(0);
logRadio.begin();
logRadio.setProperties(CHR_PROPS_INDICATE | CHR_PROPS_NOTIFY | CHR_PROPS_READ);
logRadio.setPermission(secMode, SECMODE_NO_ACCESS);
logRadio.setMaxLen(512);
logRadio.setCccdWriteCallback(onCccd);
logRadio.write32(0);
logRadio.begin();
}
static uint32_t configuredPasskey;
void NRF52Bluetooth::shutdown()
{
// Shutdown bluetooth for minimum power draw
LOG_INFO("Disable NRF52 bluetooth\n");
uint8_t connection_num = Bluefruit.connected();
if (connection_num)
{
for (uint8_t i = 0; i < connection_num; i++)
{
LOG_INFO("NRF52 bluetooth disconnecting handle %d\n", i);
Bluefruit.disconnect(i);
}
delay(100); // wait for ondisconnect;
}
Bluefruit.Advertising.stop();
// Shutdown bluetooth for minimum power draw
LOG_INFO("Disable NRF52 bluetooth\n");
uint8_t connection_num = Bluefruit.connected();
if (connection_num) {
for (uint8_t i = 0; i < connection_num; i++) {
LOG_INFO("NRF52 bluetooth disconnecting handle %d\n", i);
Bluefruit.disconnect(i);
}
delay(100); // wait for ondisconnect;
}
Bluefruit.Advertising.stop();
}
void NRF52Bluetooth::startDisabled()
{
// Setup Bluetooth
nrf52Bluetooth->setup();
// Shutdown bluetooth for minimum power draw
Bluefruit.Advertising.stop();
Bluefruit.setTxPower(-40); // Minimum power
LOG_INFO("Disabling NRF52 Bluetooth. (Workaround: tx power min, advertising stopped)\n");
// Setup Bluetooth
nrf52Bluetooth->setup();
// Shutdown bluetooth for minimum power draw
Bluefruit.Advertising.stop();
Bluefruit.setTxPower(-40); // Minimum power
LOG_INFO("Disabling NRF52 Bluetooth. (Workaround: tx power min, advertising stopped)\n");
}
bool NRF52Bluetooth::isConnected()
{
return Bluefruit.connected(connectionHandle);
return Bluefruit.connected(connectionHandle);
}
int NRF52Bluetooth::getRssi()
{
return 0; // FIXME figure out where to source this
return 0; // FIXME figure out where to source this
}
void NRF52Bluetooth::setup()
{
// Initialise the Bluefruit module
LOG_INFO("Initialize the Bluefruit nRF52 module\n");
Bluefruit.autoConnLed(false);
Bluefruit.configPrphBandwidth(BANDWIDTH_MAX);
Bluefruit.begin();
// Clear existing data.
Bluefruit.Advertising.stop();
Bluefruit.Advertising.clearData();
Bluefruit.ScanResponse.clearData();
if (config.bluetooth.mode != meshtastic_Config_BluetoothConfig_PairingMode_NO_PIN)
{
configuredPasskey = config.bluetooth.mode == meshtastic_Config_BluetoothConfig_PairingMode_FIXED_PIN
? config.bluetooth.fixed_pin
: random(100000, 999999);
auto pinString = std::to_string(configuredPasskey);
LOG_INFO("Bluetooth pin set to '%i'\n", configuredPasskey);
Bluefruit.Security.setPIN(pinString.c_str());
Bluefruit.Security.setIOCaps(true, false, false);
Bluefruit.Security.setPairPasskeyCallback(NRF52Bluetooth::onPairingPasskey);
Bluefruit.Security.setPairCompleteCallback(NRF52Bluetooth::onPairingCompleted);
Bluefruit.Security.setSecuredCallback(NRF52Bluetooth::onConnectionSecured);
meshBleService.setPermission(SECMODE_ENC_WITH_MITM, SECMODE_ENC_WITH_MITM);
}
else
{
Bluefruit.Security.setIOCaps(false, false, false);
meshBleService.setPermission(SECMODE_OPEN, SECMODE_OPEN);
}
// Set the advertised device name (keep it short!)
Bluefruit.setName(getDeviceName());
// Set the connect/disconnect callback handlers
Bluefruit.Periph.setConnectCallback(onConnect);
Bluefruit.Periph.setDisconnectCallback(onDisconnect);
// Initialise the Bluefruit module
LOG_INFO("Initialize the Bluefruit nRF52 module\n");
Bluefruit.autoConnLed(false);
Bluefruit.configPrphBandwidth(BANDWIDTH_MAX);
Bluefruit.begin();
// Clear existing data.
Bluefruit.Advertising.stop();
Bluefruit.Advertising.clearData();
Bluefruit.ScanResponse.clearData();
if (config.bluetooth.mode != meshtastic_Config_BluetoothConfig_PairingMode_NO_PIN) {
configuredPasskey = config.bluetooth.mode == meshtastic_Config_BluetoothConfig_PairingMode_FIXED_PIN
? config.bluetooth.fixed_pin
: random(100000, 999999);
auto pinString = std::to_string(configuredPasskey);
LOG_INFO("Bluetooth pin set to '%i'\n", configuredPasskey);
Bluefruit.Security.setPIN(pinString.c_str());
Bluefruit.Security.setIOCaps(true, false, false);
Bluefruit.Security.setPairPasskeyCallback(NRF52Bluetooth::onPairingPasskey);
Bluefruit.Security.setPairCompleteCallback(NRF52Bluetooth::onPairingCompleted);
Bluefruit.Security.setSecuredCallback(NRF52Bluetooth::onConnectionSecured);
meshBleService.setPermission(SECMODE_ENC_WITH_MITM, SECMODE_ENC_WITH_MITM);
} else {
Bluefruit.Security.setIOCaps(false, false, false);
meshBleService.setPermission(SECMODE_OPEN, SECMODE_OPEN);
}
// Set the advertised device name (keep it short!)
Bluefruit.setName(getDeviceName());
// Set the connect/disconnect callback handlers
Bluefruit.Periph.setConnectCallback(onConnect);
Bluefruit.Periph.setDisconnectCallback(onDisconnect);
#ifndef BLE_DFU_SECURE
bledfu.setPermission(SECMODE_ENC_WITH_MITM, SECMODE_ENC_WITH_MITM);
bledfu.begin(); // Install the DFU helper
bledfu.setPermission(SECMODE_ENC_WITH_MITM, SECMODE_ENC_WITH_MITM);
bledfu.begin(); // Install the DFU helper
#else
bledfusecure.setPermission(SECMODE_ENC_WITH_MITM, SECMODE_ENC_WITH_MITM); // add by WayenWeng
bledfusecure.begin(); // Install the DFU helper
bledfusecure.setPermission(SECMODE_ENC_WITH_MITM, SECMODE_ENC_WITH_MITM); // add by WayenWeng
bledfusecure.begin(); // Install the DFU helper
#endif
// Configure and Start the Device Information Service
LOG_INFO("Configuring the Device Information Service\n");
bledis.setModel(optstr(HW_VERSION));
bledis.setFirmwareRev(optstr(APP_VERSION));
bledis.begin();
// Start the BLE Battery Service and set it to 100%
LOG_INFO("Configuring the Battery Service\n");
blebas.begin();
blebas.write(0); // Unknown battery level for now
// Setup the Heart Rate Monitor service using
// BLEService and BLECharacteristic classes
LOG_INFO("Configuring the Mesh bluetooth service\n");
setupMeshService();
// Setup the advertising packet(s)
LOG_INFO("Setting up the advertising payload(s)\n");
startAdv();
LOG_INFO("Advertising\n");
// Configure and Start the Device Information Service
LOG_INFO("Configuring the Device Information Service\n");
bledis.setModel(optstr(HW_VERSION));
bledis.setFirmwareRev(optstr(APP_VERSION));
bledis.begin();
// Start the BLE Battery Service and set it to 100%
LOG_INFO("Configuring the Battery Service\n");
blebas.begin();
blebas.write(0); // Unknown battery level for now
// Setup the Heart Rate Monitor service using
// BLEService and BLECharacteristic classes
LOG_INFO("Configuring the Mesh bluetooth service\n");
setupMeshService();
// Setup the advertising packet(s)
LOG_INFO("Setting up the advertising payload(s)\n");
startAdv();
LOG_INFO("Advertising\n");
}
void NRF52Bluetooth::resumeAdvertising()
{
Bluefruit.Advertising.restartOnDisconnect(true);
Bluefruit.Advertising.setInterval(32, 244); // in unit of 0.625 ms
Bluefruit.Advertising.setFastTimeout(30); // number of seconds in fast mode
Bluefruit.Advertising.start(0);
Bluefruit.Advertising.restartOnDisconnect(true);
Bluefruit.Advertising.setInterval(32, 244); // in unit of 0.625 ms
Bluefruit.Advertising.setFastTimeout(30); // number of seconds in fast mode
Bluefruit.Advertising.start(0);
}
/// Given a level between 0-100, update the BLE attribute
void updateBatteryLevel(uint8_t level)
{
blebas.write(level);
blebas.write(level);
}
void NRF52Bluetooth::clearBonds()
{
LOG_INFO("Clearing bluetooth bonds!\n");
bond_print_list(BLE_GAP_ROLE_PERIPH);
bond_print_list(BLE_GAP_ROLE_CENTRAL);
Bluefruit.Periph.clearBonds();
Bluefruit.Central.clearBonds();
LOG_INFO("Clearing bluetooth bonds!\n");
bond_print_list(BLE_GAP_ROLE_PERIPH);
bond_print_list(BLE_GAP_ROLE_CENTRAL);
Bluefruit.Periph.clearBonds();
Bluefruit.Central.clearBonds();
}
void NRF52Bluetooth::onConnectionSecured(uint16_t conn_handle)
{
LOG_INFO("BLE connection secured\n");
LOG_INFO("BLE connection secured\n");
}
bool NRF52Bluetooth::onPairingPasskey(uint16_t conn_handle, uint8_t const passkey[6], bool match_request)
{
LOG_INFO("BLE pairing process started with passkey %.3s %.3s\n", passkey, passkey + 3);
powerFSM.trigger(EVENT_BLUETOOTH_PAIR);
LOG_INFO("BLE pairing process started with passkey %.3s %.3s\n", passkey, passkey + 3);
powerFSM.trigger(EVENT_BLUETOOTH_PAIR);
#if !defined(MESHTASTIC_EXCLUDE_SCREEN)
screen->startAlert([](OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y) -> void
{
screen->startAlert([](OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y) -> void {
char btPIN[16] = "888888";
snprintf(btPIN, sizeof(btPIN), "%06u", configuredPasskey);
int x_offset = display->width() / 2;
@ -347,35 +334,34 @@ bool NRF52Bluetooth::onPairingPasskey(uint16_t conn_handle, uint8_t const passke
String deviceName = "Name: ";
deviceName.concat(getDeviceName());
y_offset = display->height() == 64 ? y_offset + FONT_HEIGHT_LARGE - 6 : y_offset + FONT_HEIGHT_LARGE + 5;
display->drawString(x_offset + x, y_offset + y, deviceName); });
display->drawString(x_offset + x, y_offset + y, deviceName);
});
#endif
if (match_request)
{
uint32_t start_time = millis();
while (millis() < start_time + 30000)
{
if (!Bluefruit.connected(conn_handle))
break;
}
}
LOG_INFO("BLE passkey pairing: match_request=%i\n", match_request);
return true;
if (match_request) {
uint32_t start_time = millis();
while (millis() < start_time + 30000) {
if (!Bluefruit.connected(conn_handle))
break;
}
}
LOG_INFO("BLE passkey pairing: match_request=%i\n", match_request);
return true;
}
void NRF52Bluetooth::onPairingCompleted(uint16_t conn_handle, uint8_t auth_status)
{
if (auth_status == BLE_GAP_SEC_STATUS_SUCCESS)
LOG_INFO("BLE pairing success\n");
else
LOG_INFO("BLE pairing failed\n");
screen->endAlert();
if (auth_status == BLE_GAP_SEC_STATUS_SUCCESS)
LOG_INFO("BLE pairing success\n");
else
LOG_INFO("BLE pairing failed\n");
screen->endAlert();
}
void NRF52Bluetooth::sendLog(const uint8_t *logMessage, size_t length)
{
if (!isConnected() || length > 512)
return;
if (logRadio.indicateEnabled())
logRadio.indicate(logMessage, (uint16_t)length);
else
logRadio.notify(logMessage, (uint16_t)length);
if (!isConnected() || length > 512)
return;
if (logRadio.indicateEnabled())
logRadio.indicate(logMessage, (uint16_t)length);
else
logRadio.notify(logMessage, (uint16_t)length);
}