/* * BLEServer.cpp * * Created on: Apr 16, 2017 * Author: kolban */ #include "sdkconfig.h" #if defined(CONFIG_BT_ENABLED) #include #include #include "GeneralUtils.h" #include "BLEDevice.h" #include "BLEServer.h" #include "BLEService.h" #include "BLEUtils.h" #include #include #include #include "esp32-hal-log.h" /** * @brief Construct a %BLE Server * * This class is not designed to be individually instantiated. Instead one should create a server by asking * the BLEDevice class. */ BLEServer::BLEServer() { m_appId = ESP_GATT_IF_NONE; m_gatts_if = ESP_GATT_IF_NONE; m_connectedCount = 0; m_connId = ESP_GATT_IF_NONE; m_pServerCallbacks = nullptr; } // BLEServer void BLEServer::createApp(uint16_t appId) { m_appId = appId; registerApp(appId); } // createApp /** * @brief Create a %BLE Service. * * With a %BLE server, we can host one or more services. Invoking this function causes the creation of a definition * of a new service. Every service must have a unique UUID. * @param [in] uuid The UUID of the new service. * @return A reference to the new service object. */ BLEService* BLEServer::createService(const char* uuid) { return createService(BLEUUID(uuid)); } /** * @brief Create a %BLE Service. * * With a %BLE server, we can host one or more services. Invoking this function causes the creation of a definition * of a new service. Every service must have a unique UUID. * @param [in] uuid The UUID of the new service. * @param [in] numHandles The maximum number of handles associated with this service. * @param [in] inst_id With multiple services with the same UUID we need to provide inst_id value different for each service. * @return A reference to the new service object. */ BLEService* BLEServer::createService(BLEUUID uuid, uint32_t numHandles, uint8_t inst_id) { log_v(">> createService - %s", uuid.toString().c_str()); m_semaphoreCreateEvt.take("createService"); // Check that a service with the supplied UUID does not already exist. if (m_serviceMap.getByUUID(uuid) != nullptr) { log_w("<< Attempt to create a new service with uuid %s but a service with that UUID already exists.", uuid.toString().c_str()); } BLEService* pService = new BLEService(uuid, numHandles); pService->m_instId = inst_id; m_serviceMap.setByUUID(uuid, pService); // Save a reference to this service being on this server. pService->executeCreate(this); // Perform the API calls to actually create the service. m_semaphoreCreateEvt.wait("createService"); log_v("<< createService"); return pService; } // createService /** * @brief Get a %BLE Service by its UUID * @param [in] uuid The UUID of the new service. * @return A reference to the service object. */ BLEService* BLEServer::getServiceByUUID(const char* uuid) { return m_serviceMap.getByUUID(uuid); } /** * @brief Get a %BLE Service by its UUID * @param [in] uuid The UUID of the new service. * @return A reference to the service object. */ BLEService* BLEServer::getServiceByUUID(BLEUUID uuid) { return m_serviceMap.getByUUID(uuid); } /** * @brief Retrieve the advertising object that can be used to advertise the existence of the server. * * @return An advertising object. */ BLEAdvertising* BLEServer::getAdvertising() { return BLEDevice::getAdvertising(); } uint16_t BLEServer::getConnId() { return m_connId; } /** * @brief Return the number of connected clients. * @return The number of connected clients. */ uint32_t BLEServer::getConnectedCount() { return m_connectedCount; } // getConnectedCount uint16_t BLEServer::getGattsIf() { return m_gatts_if; } /** * @brief Handle a GATT Server Event. * * @param [in] event * @param [in] gatts_if * @param [in] param * */ void BLEServer::handleGATTServerEvent(esp_gatts_cb_event_t event, esp_gatt_if_t gatts_if, esp_ble_gatts_cb_param_t* param) { log_v(">> handleGATTServerEvent: %s", BLEUtils::gattServerEventTypeToString(event).c_str()); switch(event) { // ESP_GATTS_ADD_CHAR_EVT - Indicate that a characteristic was added to the service. // add_char: // - esp_gatt_status_t status // - uint16_t attr_handle // - uint16_t service_handle // - esp_bt_uuid_t char_uuid // case ESP_GATTS_ADD_CHAR_EVT: { break; } // ESP_GATTS_ADD_CHAR_EVT case ESP_GATTS_MTU_EVT: updatePeerMTU(param->mtu.conn_id, param->mtu.mtu); break; // ESP_GATTS_CONNECT_EVT // connect: // - uint16_t conn_id // - esp_bd_addr_t remote_bda // case ESP_GATTS_CONNECT_EVT: { m_connId = param->connect.conn_id; addPeerDevice((void*)this, false, m_connId); if (m_pServerCallbacks != nullptr) { m_pServerCallbacks->onConnect(this); m_pServerCallbacks->onConnect(this, param); } m_connectedCount++; // Increment the number of connected devices count. break; } // ESP_GATTS_CONNECT_EVT // ESP_GATTS_CREATE_EVT // Called when a new service is registered as having been created. // // create: // * esp_gatt_status_t status // * uint16_t service_handle // * esp_gatt_srvc_id_t service_id // case ESP_GATTS_CREATE_EVT: { BLEService* pService = m_serviceMap.getByUUID(param->create.service_id.id.uuid, param->create.service_id.id.inst_id); // <--- very big bug for multi services with the same uuid m_serviceMap.setByHandle(param->create.service_handle, pService); m_semaphoreCreateEvt.give(); break; } // ESP_GATTS_CREATE_EVT // ESP_GATTS_DISCONNECT_EVT // // disconnect // - uint16_t conn_id // - esp_bd_addr_t remote_bda // - esp_gatt_conn_reason_t reason // // If we receive a disconnect event then invoke the callback for disconnects (if one is present). // we also want to start advertising again. case ESP_GATTS_DISCONNECT_EVT: { m_connectedCount--; // Decrement the number of connected devices count. if (m_pServerCallbacks != nullptr) { // If we have callbacks, call now. m_pServerCallbacks->onDisconnect(this); } startAdvertising(); //- do this with some delay from the loop() removePeerDevice(param->disconnect.conn_id, false); break; } // ESP_GATTS_DISCONNECT_EVT // ESP_GATTS_READ_EVT - A request to read the value of a characteristic has arrived. // // read: // - uint16_t conn_id // - uint32_t trans_id // - esp_bd_addr_t bda // - uint16_t handle // - uint16_t offset // - bool is_long // - bool need_rsp // case ESP_GATTS_READ_EVT: { break; } // ESP_GATTS_READ_EVT // ESP_GATTS_REG_EVT // reg: // - esp_gatt_status_t status // - uint16_t app_id // case ESP_GATTS_REG_EVT: { m_gatts_if = gatts_if; m_semaphoreRegisterAppEvt.give(); // Unlock the mutex waiting for the registration of the app. break; } // ESP_GATTS_REG_EVT // ESP_GATTS_WRITE_EVT - A request to write the value of a characteristic has arrived. // // write: // - uint16_t conn_id // - uint16_t trans_id // - esp_bd_addr_t bda // - uint16_t handle // - uint16_t offset // - bool need_rsp // - bool is_prep // - uint16_t len // - uint8_t* value // case ESP_GATTS_WRITE_EVT: { break; } case ESP_GATTS_OPEN_EVT: m_semaphoreOpenEvt.give(param->open.status); break; default: break; } // Invoke the handler for every Service we have. m_serviceMap.handleGATTServerEvent(event, gatts_if, param); log_v("<< handleGATTServerEvent"); } // handleGATTServerEvent /** * @brief Register the app. * * @return N/A */ void BLEServer::registerApp(uint16_t m_appId) { log_v(">> registerApp - %d", m_appId); m_semaphoreRegisterAppEvt.take("registerApp"); // Take the mutex, will be released by ESP_GATTS_REG_EVT event. ::esp_ble_gatts_app_register(m_appId); m_semaphoreRegisterAppEvt.wait("registerApp"); log_v("<< registerApp"); } // registerApp /** * @brief Set the server callbacks. * * As a %BLE server operates, it will generate server level events such as a new client connecting or a previous client * disconnecting. This function can be called to register a callback handler that will be invoked when these * events are detected. * * @param [in] pCallbacks The callbacks to be invoked. */ void BLEServer::setCallbacks(BLEServerCallbacks* pCallbacks) { m_pServerCallbacks = pCallbacks; } // setCallbacks /* * Remove service */ void BLEServer::removeService(BLEService* service) { service->stop(); service->executeDelete(); m_serviceMap.removeService(service); } /** * @brief Start advertising. * * Start the server advertising its existence. This is a convenience function and is equivalent to * retrieving the advertising object and invoking start upon it. */ void BLEServer::startAdvertising() { log_v(">> startAdvertising"); BLEDevice::startAdvertising(); log_v("<< startAdvertising"); } // startAdvertising /** * Allow to connect GATT server to peer device * Probably can be used in ANCS for iPhone */ bool BLEServer::connect(BLEAddress address) { esp_bd_addr_t addr; memcpy(&addr, address.getNative(), 6); // Perform the open connection request against the target BLE Server. m_semaphoreOpenEvt.take("connect"); esp_err_t errRc = ::esp_ble_gatts_open( getGattsIf(), addr, // address 1 // direct connection ); if (errRc != ESP_OK) { log_e("esp_ble_gattc_open: rc=%d %s", errRc, GeneralUtils::errorToString(errRc)); return false; } uint32_t rc = m_semaphoreOpenEvt.wait("connect"); // Wait for the connection to complete. log_v("<< connect(), rc=%d", rc==ESP_GATT_OK); return rc == ESP_GATT_OK; } // connect void BLEServerCallbacks::onConnect(BLEServer* pServer) { log_d("BLEServerCallbacks", ">> onConnect(): Default"); log_d("BLEServerCallbacks", "Device: %s", BLEDevice::toString().c_str()); log_d("BLEServerCallbacks", "<< onConnect()"); } // onConnect void BLEServerCallbacks::onConnect(BLEServer* pServer, esp_ble_gatts_cb_param_t* param) { log_d("BLEServerCallbacks", ">> onConnect(): Default"); log_d("BLEServerCallbacks", "Device: %s", BLEDevice::toString().c_str()); log_d("BLEServerCallbacks", "<< onConnect()"); } // onConnect void BLEServerCallbacks::onDisconnect(BLEServer* pServer) { log_d("BLEServerCallbacks", ">> onDisconnect(): Default"); log_d("BLEServerCallbacks", "Device: %s", BLEDevice::toString().c_str()); log_d("BLEServerCallbacks", "<< onDisconnect()"); } // onDisconnect /* multi connect support */ /* TODO do some more tweaks */ void BLEServer::updatePeerMTU(uint16_t conn_id, uint16_t mtu) { // set mtu in conn_status_t const std::map::iterator it = m_connectedServersMap.find(conn_id); if (it != m_connectedServersMap.end()) { it->second.mtu = mtu; std::swap(m_connectedServersMap[conn_id], it->second); } } std::map BLEServer::getPeerDevices(bool _client) { return m_connectedServersMap; } uint16_t BLEServer::getPeerMTU(uint16_t conn_id) { return m_connectedServersMap.find(conn_id)->second.mtu; } void BLEServer::addPeerDevice(void* peer, bool _client, uint16_t conn_id) { conn_status_t status = { .peer_device = peer, .connected = true, .mtu = 23 }; m_connectedServersMap.insert(std::pair(conn_id, status)); } void BLEServer::removePeerDevice(uint16_t conn_id, bool _client) { m_connectedServersMap.erase(conn_id); } /* multi connect support */ /** * Update connection parameters can be called only after connection has been established */ void BLEServer::updateConnParams(esp_bd_addr_t remote_bda, uint16_t minInterval, uint16_t maxInterval, uint16_t latency, uint16_t timeout) { esp_ble_conn_update_params_t conn_params; memcpy(conn_params.bda, remote_bda, sizeof(esp_bd_addr_t)); conn_params.latency = latency; conn_params.max_int = maxInterval; // max_int = 0x20*1.25ms = 40ms conn_params.min_int = minInterval; // min_int = 0x10*1.25ms = 20ms conn_params.timeout = timeout; // timeout = 400*10ms = 4000ms esp_ble_gap_update_conn_params(&conn_params); } void BLEServer::disconnect(uint16_t connId) { esp_ble_gatts_close(m_gatts_if, connId); } #endif // CONFIG_BT_ENABLED