/* mbed Microcontroller Library * Copyright (c) 2006-2013 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef MBED_BLE_HEART_RATE_SERVICE_H__ #define MBED_BLE_HEART_RATE_SERVICE_H__ #include "ble/BLE.h" /** * BLE Heart Rate Service. * * @par purpose * * Fitness applications use the heart rate service to expose the heart * beat per minute measured by a heart rate sensor. * * Clients can read the intended location of the sensor and the last heart rate * value measured. Additionally, clients can subscribe to server initiated * updates of the heart rate value measured by the sensor. The service delivers * these updates to the subscribed client in a notification packet. * * The subscription mechanism is useful to save power; it avoids unecessary data * traffic between the client and the server, which may be induced by polling the * value of the heart rate measurement characteristic. * * @par usage * * When this class is instantiated, it adds a heart rate service in the GattServer. * The service contains the location of the sensor and the initial value measured * by the sensor. * * Application code can invoke updateHeartRate() when a new heart rate measurement * is acquired; this function updates the value of the heart rate measurement * characteristic and notifies the new value to subscribed clients. * * @note You can find specification of the heart rate service here: * https://www.bluetooth.com/specifications/gatt * * @attention The service does not expose information related to the sensor * contact, the accumulated energy expanded or the interbeat intervals. * * @attention The heart rate profile limits the number of instantiations of the * heart rate services to one. */ class HeartRateService { public: /** * Intended location of the heart rate sensor. */ enum BodySensorLocation { /** * Other location. */ LOCATION_OTHER = 0, /** * Chest. */ LOCATION_CHEST = 1, /** * Wrist. */ LOCATION_WRIST = 2, /** * Finger. */ LOCATION_FINGER, /** * Hand. */ LOCATION_HAND, /** * Earlobe. */ LOCATION_EAR_LOBE, /** * Foot. */ LOCATION_FOOT, }; public: /** * Construct and initialize a heart rate service. * * The construction process adds a GATT heart rate service in @p _ble * GattServer, sets the value of the heart rate measurement characteristic * to @p hrmCounter and the value of the body sensor location characteristic * to @p location. * * @param[in] _ble BLE device that hosts the heart rate service. * @param[in] hrmCounter Heart beats per minute measured by the heart rate * sensor. * @param[in] location Intended location of the heart rate sensor. */ HeartRateService(BLE &_ble, uint16_t hrmCounter, BodySensorLocation location) : ble(_ble), valueBytes(hrmCounter), hrmRate( GattCharacteristic::UUID_HEART_RATE_MEASUREMENT_CHAR, valueBytes.getPointer(), valueBytes.getNumValueBytes(), HeartRateValueBytes::MAX_VALUE_BYTES, GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_NOTIFY ), hrmLocation( GattCharacteristic::UUID_BODY_SENSOR_LOCATION_CHAR, reinterpret_cast(&location) ) { setupService(); } /** * Update the heart rate that the service exposes. * * The server sends a notification of the new value to clients that have * subscribed to updates of the heart rate measurement characteristic; clients * reading the heart rate measurement characteristic after the update obtain * the updated value. * * @param[in] hrmCounter Heart rate measured in BPM. * * @attention This function must be called in the execution context of the * BLE stack. */ void updateHeartRate(uint16_t hrmCounter) { valueBytes.updateHeartRate(hrmCounter); ble.gattServer().write( hrmRate.getValueHandle(), valueBytes.getPointer(), valueBytes.getNumValueBytes() ); } protected: /** * Construct and add to the GattServer the heart rate service. */ void setupService(void) { GattCharacteristic *charTable[] = { &hrmRate, &hrmLocation }; GattService hrmService( GattService::UUID_HEART_RATE_SERVICE, charTable, sizeof(charTable) / sizeof(GattCharacteristic*) ); ble.gattServer().addService(hrmService); } protected: /* * Heart rate measurement value. */ struct HeartRateValueBytes { /* 1 byte for the Flags, and up to two bytes for heart rate value. */ static const unsigned MAX_VALUE_BYTES = 3; static const unsigned FLAGS_BYTE_INDEX = 0; static const unsigned VALUE_FORMAT_BITNUM = 0; static const uint8_t VALUE_FORMAT_FLAG = (1 << VALUE_FORMAT_BITNUM); HeartRateValueBytes(uint16_t hrmCounter) : valueBytes() { updateHeartRate(hrmCounter); } void updateHeartRate(uint16_t hrmCounter) { if (hrmCounter <= 255) { valueBytes[FLAGS_BYTE_INDEX] &= ~VALUE_FORMAT_FLAG; valueBytes[FLAGS_BYTE_INDEX + 1] = hrmCounter; } else { valueBytes[FLAGS_BYTE_INDEX] |= VALUE_FORMAT_FLAG; valueBytes[FLAGS_BYTE_INDEX + 1] = (uint8_t)(hrmCounter & 0xFF); valueBytes[FLAGS_BYTE_INDEX + 2] = (uint8_t)(hrmCounter >> 8); } } uint8_t *getPointer(void) { return valueBytes; } const uint8_t *getPointer(void) const { return valueBytes; } unsigned getNumValueBytes(void) const { if (valueBytes[FLAGS_BYTE_INDEX] & VALUE_FORMAT_FLAG) { return 1 + sizeof(uint16_t); } else { return 1 + sizeof(uint8_t); } } private: uint8_t valueBytes[MAX_VALUE_BYTES]; }; protected: BLE &ble; HeartRateValueBytes valueBytes; GattCharacteristic hrmRate; ReadOnlyGattCharacteristic hrmLocation; }; #endif /* #ifndef MBED_BLE_HEART_RATE_SERVICE_H__*/