/************************************************************************************************** Phyplus Microelectronics Limited confidential and proprietary. All rights reserved. IMPORTANT: All rights of this software belong to Phyplus Microelectronics Limited ("Phyplus"). Your use of this Software is limited to those specific rights granted under the terms of the business contract, the confidential agreement, the non-disclosure agreement and any other forms of agreements as a customer or a partner of Phyplus. You may not use this Software unless you agree to abide by the terms of these agreements. You acknowledge that the Software may not be modified, copied, distributed or disclosed unless embedded on a Phyplus Bluetooth Low Energy (BLE) integrated circuit, either as a product or is integrated into your products. Other than for the aforementioned purposes, you may not use, reproduce, copy, prepare derivative works of, modify, distribute, perform, display or sell this Software and/or its documentation for any purposes. YOU FURTHER ACKNOWLEDGE AND AGREE THAT THE SOFTWARE AND DOCUMENTATION ARE PROVIDED AS IS WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY, TITLE, NON-INFRINGEMENT AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL PHYPLUS OR ITS SUBSIDIARIES BE LIABLE OR OBLIGATED UNDER CONTRACT, NEGLIGENCE, STRICT LIABILITY, CONTRIBUTION, BREACH OF WARRANTY, OR OTHER LEGAL EQUITABLE THEORY ANY DIRECT OR INDIRECT DAMAGES OR EXPENSES INCLUDING BUT NOT LIMITED TO ANY INCIDENTAL, SPECIAL, INDIRECT, PUNITIVE OR CONSEQUENTIAL DAMAGES, LOST PROFITS OR LOST DATA, COST OF PROCUREMENT OF SUBSTITUTE GOODS, TECHNOLOGY, SERVICES, OR ANY CLAIMS BY THIRD PARTIES (INCLUDING BUT NOT LIMITED TO ANY DEFENSE THEREOF), OR OTHER SIMILAR COSTS. **************************************************************************************************/ /********************************************************************* * INCLUDES */ #include "bcomdef.h" #include "types.h" #include "OSAL.h" #include "linkdb.h" #include "att.h" #include "gatt.h" #include "gatt_uuid.h" #include "gatt_profile_uuid.h" #include "gattservapp.h" #include "peripheral.h" #include "hiddev.h" #include "battservice.h" /********************************************************************* * MACROS */ /********************************************************************* * CONSTANTS */ // ADC voltage levels #define BATT_ADC_LEVEL_3V 409 #define BATT_ADC_LEVEL_2V 273 #define BATT_LEVEL_VALUE_IDX 2 // Position of battery level in attribute array #define BATT_LEVEL_VALUE_CCCD_IDX 3 // Position of battery level CCCD in attribute array /********************************************************************* * TYPEDEFS */ /********************************************************************* * GLOBAL VARIABLES */ // Battery service CONST uint8 battServUUID[ATT_BT_UUID_SIZE] = { LO_UINT16(BATT_SERV_UUID), HI_UINT16(BATT_SERV_UUID) }; // Battery level characteristic CONST uint8 battLevelUUID[ATT_BT_UUID_SIZE] = { LO_UINT16(BATT_LEVEL_UUID), HI_UINT16(BATT_LEVEL_UUID) }; /********************************************************************* * EXTERNAL VARIABLES */ /********************************************************************* * EXTERNAL FUNCTIONS */ /********************************************************************* * LOCAL VARIABLES */ // Application callback static battServiceCB_t battServiceCB; #ifndef HID_VOICE_SPEC //static uint16 battMinLevel = BATT_ADC_LEVEL_2V; // For VDD/3 measurements //static uint16 battMaxLevel = BATT_ADC_LEVEL_3V; // For VDD/3 measurements #endif // Critical battery level setting static uint8 battCriticalLevel; // ADC channel to be used for reading /********************************************************************* * Profile Attributes - variables */ // Battery Service attribute static CONST gattAttrType_t battService = { ATT_BT_UUID_SIZE, battServUUID }; // Battery level characteristic static uint8 battLevelProps = GATT_PROP_READ | GATT_PROP_NOTIFY; static uint8 battLevel = 100; #ifdef HID_VOICE_SPEC // Characteristic Presentation Format of the Battery Level Characteristic. static gattCharFormat_t battLevelPresentation = { GATT_FORMAT_UINT8, /* format */ 0, /* exponent */ GATT_UNIT_PERCENTAGE_UUID, /* unit */ GATT_NS_BT_SIG, /* name space */ GATT_DESC_LENGTH_UUID /* desc */ }; #endif static gattCharCfg_t battLevelClientCharCfg[GATT_MAX_NUM_CONN]; // HID Report Reference characteristic descriptor, battery level static uint8 hidReportRefBattLevel[HID_REPORT_REF_LEN] = { HID_RPT_ID_BATT_LEVEL_IN, HID_REPORT_TYPE_INPUT }; /********************************************************************* * Profile Attributes - Table */ static gattAttribute_t battAttrTbl[] = { // Battery Service { { ATT_BT_UUID_SIZE, primaryServiceUUID }, /* type */ GATT_PERMIT_READ, /* permissions */ 0, /* handle */ (uint8 *)&battService /* pValue */ }, // Battery Level Declaration { { ATT_BT_UUID_SIZE, characterUUID }, GATT_PERMIT_READ, 0, &battLevelProps }, // Battery Level Value { { ATT_BT_UUID_SIZE, battLevelUUID }, GATT_PERMIT_READ, 0, &battLevel }, // Battery Level Client Characteristic Configuration { { ATT_BT_UUID_SIZE, clientCharCfgUUID }, GATT_PERMIT_READ | GATT_PERMIT_WRITE, 0, (uint8 *) &battLevelClientCharCfg }, // HID Report Reference characteristic descriptor, batter level input { { ATT_BT_UUID_SIZE, reportRefUUID }, GATT_PERMIT_READ, 0, hidReportRefBattLevel }, #ifdef HID_VOICE_SPEC // Characteristic Presentation format { { ATT_BT_UUID_SIZE, charFormatUUID }, GATT_PERMIT_READ, 0, (uint8_t *)&battLevelPresentation }, #endif }; /********************************************************************* * LOCAL FUNCTIONS */ static uint8 battReadAttrCB( uint16 connHandle, gattAttribute_t *pAttr, uint8 *pValue, uint8 *pLen, uint16 offset, uint8 maxLen ); static bStatus_t battWriteAttrCB( uint16 connHandle, gattAttribute_t *pAttr, uint8 *pValue, uint8 len, uint16 offset ); static void battNotifyCB( linkDBItem_t *pLinkItem ); static uint8 battMeasure( void ); static void battNotifyLevel( void ); /********************************************************************* * PROFILE CALLBACKS */ // Battery Service Callbacks CONST gattServiceCBs_t battCBs = { battReadAttrCB, // Read callback function pointer battWriteAttrCB, // Write callback function pointer NULL // Authorization callback function pointer }; /********************************************************************* * PUBLIC FUNCTIONS */ /********************************************************************* * @fn Batt_AddService * * @brief Initializes the Battery Service by registering * GATT attributes with the GATT server. * * @return Success or Failure */ bStatus_t Batt_AddService( void ) { uint8 status = SUCCESS; // Initialize Client Characteristic Configuration attributes GATTServApp_InitCharCfg( INVALID_CONNHANDLE, battLevelClientCharCfg ); // Register GATT attribute list and CBs with GATT Server App status = GATTServApp_RegisterService( battAttrTbl, GATT_NUM_ATTRS( battAttrTbl ), &battCBs ); return ( status ); } /********************************************************************* * @fn Batt_Register * * @brief Register a callback function with the Battery Service. * * @param pfnServiceCB - Callback function. * * @return None. */ extern void Batt_Register( battServiceCB_t pfnServiceCB ) { battServiceCB = pfnServiceCB; } /********************************************************************* * @fn Batt_SetParameter * * @brief Set a Battery Service parameter. * * @param param - Profile parameter ID * @param len - length of data to right * @param value - pointer to data to write. This is dependent on * the parameter ID and WILL be cast to the appropriate * data type (example: data type of uint16 will be cast to * uint16 pointer). * * @return bStatus_t */ bStatus_t Batt_SetParameter( uint8 param, uint8 len, void *value ) { bStatus_t ret = SUCCESS; switch ( param ) { case BATT_PARAM_CRITICAL_LEVEL: battCriticalLevel = *((uint8*)value); // If below the critical level and critical state not set, notify it if ( battLevel < battCriticalLevel ) { battNotifyLevel(); } break; default: ret = INVALIDPARAMETER; break; } return ( ret ); } /********************************************************************* * @fn Batt_GetParameter * * @brief Get a Battery Service parameter. * * @param param - Profile parameter ID * @param value - pointer to data to get. This is dependent on * the parameter ID and WILL be cast to the appropriate * data type (example: data type of uint16 will be cast to * uint16 pointer). * * @return bStatus_t */ bStatus_t Batt_GetParameter( uint8 param, void *value ) { bStatus_t ret = SUCCESS; switch ( param ) { case BATT_PARAM_LEVEL: *((uint8*)value) = battLevel; break; case BATT_PARAM_CRITICAL_LEVEL: *((uint8*)value) = battCriticalLevel; break; case BATT_PARAM_SERVICE_HANDLE: *((uint16*)value) = GATT_SERVICE_HANDLE( battAttrTbl ); break; case BATT_PARAM_BATT_LEVEL_IN_REPORT: { hidRptMap_t *pRpt = (hidRptMap_t *)value; pRpt->id = hidReportRefBattLevel[0]; pRpt->type = hidReportRefBattLevel[1]; pRpt->handle = battAttrTbl[BATT_LEVEL_VALUE_IDX].handle; pRpt->cccdHandle = battAttrTbl[BATT_LEVEL_VALUE_CCCD_IDX].handle; pRpt->mode = HID_PROTOCOL_MODE_REPORT; } break; default: ret = INVALIDPARAMETER; break; } return ( ret ); } /********************************************************************* * @fn Batt_MeasLevel * * @brief Measure the battery level and update the battery * level value in the service characteristics. If * the battery level-state characteristic is configured * for notification and the battery level has changed * since the last measurement, then a notification * will be sent. * * @return Success */ bStatus_t Batt_MeasLevel( void ) { uint8 level; level = battMeasure(); // If level has gone down if (level < battLevel) { // Update level battLevel = level; // Send a notification battNotifyLevel(); } return SUCCESS; } /********************************************************************* * @fn battReadAttrCB * * @brief Read an attribute. * * @param connHandle - connection message was received on * @param pAttr - pointer to attribute * @param pValue - pointer to data to be read * @param pLen - length of data to be read * @param offset - offset of the first octet to be read * @param maxLen - maximum length of data to be read * * @return Success or Failure */ static uint8 battReadAttrCB( uint16 connHandle, gattAttribute_t *pAttr, uint8 *pValue, uint8 *pLen, uint16 offset, uint8 maxLen ) { bStatus_t status = SUCCESS; // Make sure it's not a blob operation (no attributes in the profile are long) if ( offset > 0 ) { return ( ATT_ERR_ATTR_NOT_LONG ); } uint16 uuid = BUILD_UINT16( pAttr->type.uuid[0], pAttr->type.uuid[1] ); // Measure battery level if reading level if ( uuid == BATT_LEVEL_UUID ) { uint8 level; level = battMeasure(); // If level has gone down if (level < battLevel) { // Update level battLevel = level; } *pLen = 1; pValue[0] = battLevel; } else if ( uuid == GATT_REPORT_REF_UUID ) { *pLen = HID_REPORT_REF_LEN; osal_memcpy( pValue, pAttr->pValue, HID_REPORT_REF_LEN ); } else { status = ATT_ERR_ATTR_NOT_FOUND; } return ( status ); } /********************************************************************* * @fn battWriteAttrCB * * @brief Validate attribute data prior to a write operation * * @param connHandle - connection message was received on * @param pAttr - pointer to attribute * @param pValue - pointer to data to be written * @param len - length of data * @param offset - offset of the first octet to be written * * @return Success or Failure */ static bStatus_t battWriteAttrCB( uint16 connHandle, gattAttribute_t *pAttr, uint8 *pValue, uint8 len, uint16 offset ) { bStatus_t status = SUCCESS; uint16 uuid = BUILD_UINT16( pAttr->type.uuid[0], pAttr->type.uuid[1]); switch ( uuid ) { case GATT_CLIENT_CHAR_CFG_UUID: status = GATTServApp_ProcessCCCWriteReq( connHandle, pAttr, pValue, len, offset, GATT_CLIENT_CFG_NOTIFY ); if ( status == SUCCESS ) { uint16 charCfg = BUILD_UINT16( pValue[0], pValue[1] ); if ( battServiceCB ) { (*battServiceCB)( (charCfg == GATT_CFG_NO_OPERATION) ? BATT_LEVEL_NOTI_DISABLED : BATT_LEVEL_NOTI_ENABLED); } } break; default: status = ATT_ERR_ATTR_NOT_FOUND; break; } return ( status ); } /********************************************************************* * @fn battNotifyCB * * @brief Send a notification of the level state characteristic. * * @param connHandle - linkDB item * * @return None. */ static void battNotifyCB( linkDBItem_t *pLinkItem ) { if ( pLinkItem->stateFlags & LINK_CONNECTED ) { uint16 value = GATTServApp_ReadCharCfg( pLinkItem->connectionHandle, battLevelClientCharCfg ); if ( value & GATT_CLIENT_CFG_NOTIFY ) { attHandleValueNoti_t noti; noti.handle = battAttrTbl[BATT_LEVEL_VALUE_IDX].handle; noti.len = 1; noti.value[0] = battLevel; GATT_Notification( pLinkItem->connectionHandle, ¬i, FALSE ); } } } /********************************************************************* * @fn battMeasure * * @brief Measure the battery level with the ADC and return * it as a percentage 0-100%. * * @return Battery level. */ static uint8 battMeasure( void ) { uint8 percent; percent = 95; return percent; } /********************************************************************* * @fn battNotifyLevelState * * @brief Send a notification of the battery level state * characteristic if a connection is established. * * @return None. */ static void battNotifyLevel( void ) { // Execute linkDB callback to send notification linkDB_PerformFunc( battNotifyCB ); } /********************************************************************* * @fn Batt_HandleConnStatusCB * * @brief Battery Service link status change handler function. * * @param connHandle - connection handle * @param changeType - type of change * * @return none */ void Batt_HandleConnStatusCB( uint16 connHandle, uint8 changeType ) { // Make sure this is not loopback connection if ( connHandle != LOOPBACK_CONNHANDLE ) { // Reset Client Char Config if connection has dropped if ( ( changeType == LINKDB_STATUS_UPDATE_REMOVED ) || ( ( changeType == LINKDB_STATUS_UPDATE_STATEFLAGS ) && ( !linkDB_Up( connHandle ) ) ) ) { GATTServApp_InitCharCfg( connHandle, battLevelClientCharCfg ); } } } /********************************************************************* *********************************************************************/