/** * Bluetooth Classic Example * Scan for devices - asyncronously, print device as soon as found * query devices for SPP - SDP profile * connect to first device offering a SPP connection * * Example python server: * source: https://gist.github.com/ukBaz/217875c83c2535d22a16ba38fc8f2a91 * * Tested with Raspberry Pi onboard Wifi/BT, USB BT 4.0 dongles, USB BT 1.1 dongles, * 202202: does NOT work with USB BT 2.0 dongles when esp32 aduino lib is compiled with SSP support! * see https://github.com/espressif/esp-idf/issues/8394 * * use ESP_SPP_SEC_ENCRYPT|ESP_SPP_SEC_AUTHENTICATE in connect() if remote side requests 'RequireAuthentication': dbus.Boolean(True), * use ESP_SPP_SEC_NONE or ESP_SPP_SEC_ENCRYPT|ESP_SPP_SEC_AUTHENTICATE in connect() if remote side has Authentication: False */ #include #include #if !defined(CONFIG_BT_ENABLED) || !defined(CONFIG_BLUEDROID_ENABLED) #error Bluetooth is not enabled! Please run `make menuconfig` to and enable it #endif #if !defined(CONFIG_BT_SPP_ENABLED) #error Serial Bluetooth not available or not enabled. It is only available for the ESP32 chip. #endif BluetoothSerial SerialBT; #define BT_DISCOVER_TIME 10000 esp_spp_sec_t sec_mask=ESP_SPP_SEC_NONE; // or ESP_SPP_SEC_ENCRYPT|ESP_SPP_SEC_AUTHENTICATE to request pincode confirmation esp_spp_role_t role=ESP_SPP_ROLE_SLAVE; // or ESP_SPP_ROLE_MASTER // std::map btDeviceList; void setup() { Serial.begin(115200); if(! SerialBT.begin("ESP32test", true) ) { Serial.println("========== serialBT failed!"); abort(); } // SerialBT.setPin("1234"); // doesn't seem to change anything // SerialBT.enableSSP(); // doesn't seem to change anything Serial.println("Starting discoverAsync..."); BTScanResults* btDeviceList = SerialBT.getScanResults(); // maybe accessing from different threads! if (SerialBT.discoverAsync([](BTAdvertisedDevice* pDevice) { // BTAdvertisedDeviceSet*set = reinterpret_cast(pDevice); // btDeviceList[pDevice->getAddress()] = * set; Serial.printf(">>>>>>>>>>>Found a new device asynchronously: %s\n", pDevice->toString().c_str()); } ) ) { delay(BT_DISCOVER_TIME); Serial.print("Stopping discoverAsync... "); SerialBT.discoverAsyncStop(); Serial.println("discoverAsync stopped"); delay(5000); if(btDeviceList->getCount() > 0) { BTAddress addr; int channel=0; Serial.println("Found devices:"); for (int i=0; i < btDeviceList->getCount(); i++) { BTAdvertisedDevice *device=btDeviceList->getDevice(i); Serial.printf(" ----- %s %s %d\n", device->getAddress().toString().c_str(), device->getName().c_str(), device->getRSSI()); std::map channels=SerialBT.getChannels(device->getAddress()); Serial.printf("scanned for services, found %d\n", channels.size()); for(auto const &entry : channels) { Serial.printf(" channel %d (%s)\n", entry.first, entry.second.c_str()); } if(channels.size() > 0) { addr = device->getAddress(); channel=channels.begin()->first; } } if(addr) { Serial.printf("connecting to %s - %d\n", addr.toString().c_str(), channel); SerialBT.connect(addr, channel, sec_mask, role); } } else { Serial.println("Didn't find any devices"); } } else { Serial.println("Error on discoverAsync f.e. not workin after a \"connect\""); } } String sendData="Hi from esp32!\n"; void loop() { if(! SerialBT.isClosed() && SerialBT.connected()) { if( SerialBT.write((const uint8_t*) sendData.c_str(),sendData.length()) != sendData.length()) { Serial.println("tx: error"); } else { Serial.printf("tx: %s",sendData.c_str()); } if(SerialBT.available()) { Serial.print("rx: "); while(SerialBT.available()) { int c=SerialBT.read(); if(c >= 0) { Serial.print((char) c); } } Serial.println(); } } else { Serial.println("not connected"); } delay(1000); }