/************************************************************************************************** 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. **************************************************************************************************/ /************************************************************************************************** Filename: gapgattserver.c Revised: Revision: Description: GAP Attribute Server **************************************************************************************************/ /********************************************************************* * INCLUDES */ #include "bcomdef.h" #include "OSAL.h" #include "gap.h" #include "gapgattserver.h" #include "att.h" #include "gatt.h" #include "gatt_uuid.h" #include "gattservapp.h" /********************************************************************* * MACROS */ /********************************************************************* * CONSTANTS */ // Position of device name in attribute table #define GAP_DEVICE_NAME_POS 2 #define GAP_APPEARANCE_POS 4 #define GAP_PRIVACY_FLAG_POS 6 /********************************************************************* * TYPEDEFS */ /********************************************************************* * GLOBAL VARIABLES */ /********************************************************************* * EXTERNAL VARIABLES */ /********************************************************************* * EXTERNAL FUNCTIONS */ /********************************************************************* * LOCAL VARIABLES */ static const ggsAppCBs_t *ggs_AppCBs = NULL; #if defined ( TESTMODES ) static uint16 paramValue = 0; #endif /********************************************************************* * Profile Attributes - variables */ // GAP Service static CONST gattAttrType_t gapService = { ATT_BT_UUID_SIZE, gapServiceUUID }; // Device Name Characteristic Properties static uint8 deviceNameCharProps = GATT_PROP_READ; // Device Name attribute (0 - 248 octets) - extra octet for null-terminate char static uint8 deviceName[GAP_DEVICE_NAME_LEN+1] = { 0 }; // Appearance Characteristic Properties static uint8 appearanceCharProps = GATT_PROP_READ; // Appearance attribute (2-octet enumerated value as defined by Bluetooth Assigned Numbers document) static uint16 appearance = GAP_APPEARE_UNKNOWN; #if ( HOST_CONFIG & PERIPHERAL_CFG ) #if defined (GAP_PRIVACY) || defined (GAP_PRIVACY_RECONNECT) // Peripheral Privacy Flag Characteristic Properties static uint8 periPrivacyFlagCharProps = GATT_PROP_READ; // Peripheral Privacy Flag attribute (1 octet) static uint8 periPrivacyFlag = GAP_PRIVACY_DISABLED; #endif // GAP_PRIVACY || GAP_PRIVACY_RECONNECT #if defined (GAP_PRIVACY_RECONNECT) // Reconnection Address Characteristic Properties static uint8 reconnectAddrCharProps = GATT_PROP_WRITE; // Reconnection Address attribute (6 octets) static uint8 reconnectAddr[B_ADDR_LEN] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; #endif // GAP_PRIVACY_RECONNECT // Peripheral Preferred Connection Parameters Characteristic Properties static uint8 periConnParamCharProps = GATT_PROP_READ; // Peripheral Preferred Connection Parameters attribute (8 octets) static gapPeriConnectParams_t periConnParameters = { 80, 160, 0, 1000 }; #endif // PERIPHERAL_CFG /********************************************************************* * Profile Attributes - Table */ // GAP Attribute Table static gattAttribute_t gapAttrTbl[] = { // Generic Access Profile { { ATT_BT_UUID_SIZE, primaryServiceUUID }, /* type */ GATT_PERMIT_READ, /* permissions */ 0, /* handle */ (uint8 *)&gapService /* pValue */ }, // Characteristic Declaration { { ATT_BT_UUID_SIZE, characterUUID }, GATT_PERMIT_READ, 0, &deviceNameCharProps }, // Device Name attribute { { ATT_BT_UUID_SIZE, deviceNameUUID }, GATT_PERMIT_READ, 0, deviceName }, // Characteristic Declaration { { ATT_BT_UUID_SIZE, characterUUID }, GATT_PERMIT_READ, 0, &appearanceCharProps }, // Icon attribute { { ATT_BT_UUID_SIZE, appearanceUUID }, GATT_PERMIT_READ, 0, (uint8 *)&appearance }, #if ( HOST_CONFIG & PERIPHERAL_CFG ) #if defined (GAP_PRIVACY) || defined (GAP_PRIVACY_RECONNECT) // Characteristic Declaration { { ATT_BT_UUID_SIZE, characterUUID }, GATT_PERMIT_READ, 0, &periPrivacyFlagCharProps }, // Peripheral Privacy Flag attribute { { ATT_BT_UUID_SIZE, periPrivacyFlagUUID }, GATT_PERMIT_READ, 0, (uint8 *)&periPrivacyFlag }, #endif // GAP_PRIVACY || GAP_PRIVACY_RECONNECT #if defined (GAP_PRIVACY_RECONNECT) // Characteristic Declaration { { ATT_BT_UUID_SIZE, characterUUID }, GATT_PERMIT_READ, 0, &reconnectAddrCharProps }, // Reconnection Address attribute { { ATT_BT_UUID_SIZE, reconnectAddrUUID }, GATT_PERMIT_AUTHEN_WRITE, 0, reconnectAddr }, #endif // GAP_PRIVACY_RECONNECT // Characteristic Declaration { { ATT_BT_UUID_SIZE, characterUUID }, GATT_PERMIT_READ, 0, &periConnParamCharProps }, // Peripheral Preferred Connection Parameters attribute { { ATT_BT_UUID_SIZE, periConnParamUUID }, GATT_PERMIT_READ, 0, (uint8 *)&periConnParameters }, #endif // PERIPHERAL_CFG }; /********************************************************************* * LOCAL FUNCTIONS */ static void ggs_SetAttrWPermit( uint8 wPermit, uint8 *pPermissions, uint8 *pCharProps ); /********************************************************************* * PUBLIC FUNCTIONS */ // GGS Callback functions static uint8 ggs_ReadAttrCB( uint16 connHandle, gattAttribute_t *pAttr, uint8 *pValue, uint8 *pLen, uint16 offset, uint8 maxLen ); static bStatus_t ggs_WriteAttrCB( uint16 connHandle, gattAttribute_t *pAttr, uint8 *pValue, uint8 len, uint16 offset ); /********************************************************************* * PROFILE CALLBACKS */ // GAP Service Callbacks CONST gattServiceCBs_t gapServiceCBs = { ggs_ReadAttrCB, // Read callback function pointer ggs_WriteAttrCB, // Write callback function pointer NULL // Authorization callback function pointer }; /********************************************************************* * @fn GGS_SetParameter * * @brief Set a GAP GATT Server 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 GGS_SetParameter( uint8 param, uint8 len, void *value ) { bStatus_t ret = SUCCESS; switch ( param ) { case GGS_DEVICE_NAME_ATT: // Always leave room for null-terminate char if ( len <= GAP_DEVICE_NAME_LEN ) { VOID osal_memset( deviceName, 0, GAP_DEVICE_NAME_LEN+1 ); VOID osal_memcpy( deviceName, value, len ); } else { ret = bleInvalidRange; } break; case GGS_APPEARANCE_ATT: if ( len == sizeof ( uint16 ) ) { appearance = *((uint16*)value); } else { ret = bleInvalidRange; } break; #if ( HOST_CONFIG & PERIPHERAL_CFG ) #if defined (GAP_PRIVACY) || defined (GAP_PRIVACY_RECONNECT) case GGS_PERI_PRIVACY_FLAG_ATT: if ( len == sizeof ( uint8 ) ) { periPrivacyFlag = *((uint8*)value); } else { ret = bleInvalidRange; } break; case GGS_PERI_PRIVACY_FLAG_PROPS: if ( len == sizeof ( uint8 ) ) { periPrivacyFlagCharProps = *((uint8*)value); } else { ret = bleInvalidRange; } break; case GGS_W_PERMIT_PRIVACY_FLAG_ATT: if ( len == sizeof ( uint8 ) ) { uint8 wPermit = *(uint8 *)value; // Optionally Writeable with Authentication if ( !gattPermitWrite( wPermit ) ) { ggs_SetAttrWPermit( wPermit, &(gapAttrTbl[GAP_PRIVACY_FLAG_POS].permissions), gapAttrTbl[GAP_PRIVACY_FLAG_POS-1].pValue ); } else { ret = bleInvalidRange; } } else { ret = bleInvalidRange; } break; #endif // GAP_PRIVACY || GAP_PRIVACY_RECONNECT #if defined (GAP_PRIVACY_RECONNECT) case GGS_RECONNCT_ADDR_ATT: if ( len == B_ADDR_LEN ) { VOID osal_memcpy( reconnectAddr, value, len ); } else { ret = bleInvalidRange; } break; #endif // GAP_PRIVACY_RECONNECT case GGS_PERI_CONN_PARAM_ATT: if ( len == sizeof(gapPeriConnectParams_t) ) { periConnParameters = *((gapPeriConnectParams_t *)(value)); } else { ret = bleInvalidRange; } break; #endif // PERIPHERAL_CFG case GGS_W_PERMIT_DEVICE_NAME_ATT: if ( len == sizeof ( uint8 ) ) { // Optionally Writeable ggs_SetAttrWPermit( *(uint8 *)value, &(gapAttrTbl[GAP_DEVICE_NAME_POS].permissions), gapAttrTbl[GAP_DEVICE_NAME_POS-1].pValue ); } else { ret = bleInvalidRange; } break; case GGS_W_PERMIT_APPEARANCE_ATT: if ( len == sizeof ( uint8 ) ) { // Optionally Writeable ggs_SetAttrWPermit( *(uint8 *)value, &(gapAttrTbl[GAP_APPEARANCE_POS].permissions), gapAttrTbl[GAP_APPEARANCE_POS-1].pValue ); } else { ret = bleInvalidRange; } break; default: ret = INVALIDPARAMETER; break; } return ( ret ); } /********************************************************************* * @fn GGS_GetParameter * * @brief Get a GAP GATT Server parameter. * * @param param - Profile parameter ID * @param value - pointer to data to put. 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 GGS_GetParameter( uint8 param, void *value ) { bStatus_t ret = SUCCESS; switch ( param ) { case GGS_DEVICE_NAME_ATT: VOID osal_memcpy( value, deviceName, GAP_DEVICE_NAME_LEN ); break; case GGS_APPEARANCE_ATT: *((uint16*)value) = appearance; break; #if ( HOST_CONFIG & PERIPHERAL_CFG ) #if defined (GAP_PRIVACY) || defined (GAP_PRIVACY_RECONNECT) case GGS_PERI_PRIVACY_FLAG_ATT: *((uint8*)value) = periPrivacyFlag; break; case GGS_PERI_PRIVACY_FLAG_PROPS: *((uint8*)value) = periPrivacyFlagCharProps; break; #endif // GAP_PRIVACY || GAP_PRIVACY_RECONNECT #if defined (GAP_PRIVACY_RECONNECT) case GGS_RECONNCT_ADDR_ATT: VOID osal_memcpy( value, reconnectAddr, B_ADDR_LEN ); break; #endif // GAP_PRIVACY_RECONNECT case GGS_PERI_CONN_PARAM_ATT: *((gapPeriConnectParams_t *)(value)) = periConnParameters; break; #endif // PERIPHERAL_CFG default: ret = INVALIDPARAMETER; break; } return ( ret ); } /********************************************************************* * @fn GGS_SetParamValue * * @brief Set a GGS Parameter value. Use this function to change * the default GGS parameter values. * * @param value - new GGS param value * * @return void */ void GGS_SetParamValue( uint16 value ) { #if defined ( TESTMODES ) uint8 wpermit; paramValue = value; switch ( value ) { case GGS_TESTMODE_OFF: wpermit = 0; VOID GGS_SetParameter( GGS_W_PERMIT_DEVICE_NAME_ATT, sizeof( uint8 ), (void*)&wpermit ); VOID GGS_SetParameter( GGS_W_PERMIT_APPEARANCE_ATT, sizeof( uint8 ), (void*)&wpermit ); VOID GGS_SetParameter( GGS_W_PERMIT_PRIVACY_FLAG_ATT, sizeof( uint8 ), (void*)&wpermit ); break; case GGS_TESTMODE_W_PERMIT_DEVICE_NAME: wpermit = GATT_PERMIT_WRITE; VOID GGS_SetParameter( GGS_W_PERMIT_DEVICE_NAME_ATT, sizeof( uint8 ), (void*)&wpermit ); break; case GGS_TESTMODE_W_PERMIT_APPEARANCE: wpermit = GATT_PERMIT_WRITE; VOID GGS_SetParameter( GGS_W_PERMIT_APPEARANCE_ATT, sizeof( uint8 ), (void*)&wpermit ); break; case GGS_TESTMODE_W_PERMIT_PRIVACY_FLAG: wpermit = GATT_PERMIT_AUTHEN_WRITE; VOID GGS_SetParameter( GGS_W_PERMIT_PRIVACY_FLAG_ATT, sizeof( uint8 ), (void*)&wpermit ); break; default: break; } #else VOID value; #endif } /********************************************************************* * @fn GGS_GetParamValue * * @brief Get a GGS Parameter value. * * @param none * * @return GGS Parameter value */ uint16 GGS_GetParamValue( void ) { #if defined ( TESTMODES ) return ( paramValue ); #else return ( 0 ); #endif } /********************************************************************* * LOCAL FUNCTION PROTOTYPES */ /********************************************************************* * @fn GGS_AddService * * @brief Add function for the GAP GATT Service. * * @param services - services to add. This is a bit map and can * contain more than one service. * * @return SUCCESS: Service added successfully. * INVALIDPARAMETER: Invalid service field. * FAILURE: Not enough attribute handles available. * bleMemAllocError: Memory allocation error occurred. */ bStatus_t GGS_AddService( uint32 services ) { uint8 status = SUCCESS; if ( services & GAP_SERVICE ) { // Register GAP attribute list and CBs with GATT Server Server App status = GATTServApp_RegisterService( gapAttrTbl, GATT_NUM_ATTRS( gapAttrTbl ), &gapServiceCBs ); } return ( status ); } /****************************************************************************** * @fn GATTServApp_DelService * * @brief Delete function for the GAP GATT Service. * * @param services - services to delete. This is a bit map and can * contain more than one service. * * @return SUCCESS: Service deleted successfully. * FAILURE: Service not found. */ bStatus_t GGS_DelService( uint32 services ) { uint8 status = SUCCESS; if ( services & GAP_SERVICE ) { // Deregister GAP attribute list and CBs from GATT Server Application status = GATTServApp_DeregisterService( GATT_SERVICE_HANDLE( gapAttrTbl ), NULL ); } return ( status ); } /********************************************************************* * @fn GGS_RegisterAppCBs * * @brief Registers the application callback function. * * Note: Callback registration is needed only when the * Device Name is made writable. The application * will be notified when the Device Name is changed * over the air. * * @param appCallbacks - pointer to application callbacks. * * @return none */ void GGS_RegisterAppCBs( ggsAppCBs_t *appCallbacks ) { ggs_AppCBs = appCallbacks; } /********************************************************************* * @fn ggs_SetAttrWPermit * * @brief Update attribute Write access permissions and characteristic * properties for over-the-air write operations. * * @param wPermit - write acces permissions * @param pPermissions - pointer to attribute permissions * @param pCharProps - pointer to characteristic properties * * @return none */ static void ggs_SetAttrWPermit( uint8 wPermit, uint8 *pPermissions, uint8 *pCharProps ) { // Update attribute Write access permissions if ( gattPermitWrite( wPermit ) ) { *pPermissions |= GATT_PERMIT_WRITE; } else { *pPermissions &= ~GATT_PERMIT_WRITE; } if ( gattPermitAuthenWrite( wPermit ) ) { *pPermissions |= GATT_PERMIT_AUTHEN_WRITE; } else { *pPermissions &= ~GATT_PERMIT_AUTHEN_WRITE; } if ( gattPermitAuthorWrite( wPermit ) ) { *pPermissions |= GATT_PERMIT_AUTHOR_WRITE; } else { *pPermissions &= ~GATT_PERMIT_AUTHOR_WRITE; } // Update attribute Write characteristic properties if ( gattPermitWrite( wPermit ) || gattPermitAuthenWrite( wPermit ) || gattPermitAuthorWrite( wPermit ) ) { *pCharProps |= (GATT_PROP_WRITE_NO_RSP | GATT_PROP_WRITE); } else if ( wPermit == 0 ) { // Attribute not Writable *pCharProps &= ~(GATT_PROP_WRITE_NO_RSP | GATT_PROP_WRITE); } } /********************************************************************* * @fn ggs_ReadAttrCB * * @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 ggs_ReadAttrCB( uint16 connHandle, gattAttribute_t *pAttr, uint8 *pValue, uint8 *pLen, uint16 offset, uint8 maxLen ) { uint16 uuid; bStatus_t status = SUCCESS; VOID connHandle; // Not needed for now! // Make sure it's not a blob operation if ( offset > 0 ) { return ( ATT_ERR_ATTR_NOT_LONG ); } if ( pAttr->type.len == ATT_BT_UUID_SIZE ) { // 16-bit UUID uuid = BUILD_UINT16( pAttr->type.uuid[0], pAttr->type.uuid[1]); switch ( uuid ) { case DEVICE_NAME_UUID: { uint8 len = osal_strlen( (char *)(pAttr->pValue) ); // If the attribute value is longer than maxLen then maxLen // octets shall be included in this response. if ( len > maxLen ) { len = maxLen; } *pLen = len; VOID osal_memcpy( pValue, pAttr->pValue, len ); } break; case APPEARANCE_UUID: { uint16 value = *((uint16 *)(pAttr->pValue)); *pLen = 2; pValue[0] = LO_UINT16( value ); pValue[1] = HI_UINT16( value ); } break; case RECONNECT_ADDR_UUID: *pLen = B_ADDR_LEN; VOID osal_memcpy( pValue, pAttr->pValue, B_ADDR_LEN ); break; case PERI_PRIVACY_FLAG_UUID: *pLen = 1; *pValue = *pAttr->pValue; break; case PERI_CONN_PARAM_UUID: if ( pAttr->pValue != NULL ) { gapPeriConnectParams_t *pConnectParam = (gapPeriConnectParams_t *)(pAttr->pValue); *pLen = 8; pValue[0] = LO_UINT16( pConnectParam->intervalMin ); pValue[1] = HI_UINT16( pConnectParam->intervalMin ); pValue[2] = LO_UINT16( pConnectParam->intervalMax ); pValue[3] = HI_UINT16( pConnectParam->intervalMax ); pValue[4] = LO_UINT16( pConnectParam->latency ); pValue[5] = HI_UINT16( pConnectParam->latency ); pValue[6] = LO_UINT16( pConnectParam->timeout ); pValue[7] = HI_UINT16( pConnectParam->timeout ); } else { *pLen = 0; } break; default: // Should never get here! *pLen = 0; status = ATT_ERR_INVALID_HANDLE; break; } } else { // 128-bit UUID *pLen = 0; status = ATT_ERR_INVALID_HANDLE; } return ( status ); } /********************************************************************* * @fn ggs_ValidateWriteAttrCB * * @brief Validate and Write attribute data * * @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 ggs_WriteAttrCB( uint16 connHandle, gattAttribute_t *pAttr, uint8 *pValue, uint8 len, uint16 offset ) { bStatus_t status = SUCCESS; VOID connHandle; // Not needed for now! if ( pAttr->type.len == ATT_BT_UUID_SIZE ) { // 16-bit UUID uint16 uuid = BUILD_UINT16( pAttr->type.uuid[0], pAttr->type.uuid[1]); switch ( uuid ) { case DEVICE_NAME_UUID: // Validate the long value { uint8 curLen = osal_strlen( (char *)(pAttr->pValue) ); // If the value offset is greater than the current length of the // attribute value then an Error Response shall be sent with the // error code Invalid Offset. if ( offset <= curLen ) { // Always leave room for null-terminate char if ( ( offset + len ) > GAP_DEVICE_NAME_LEN ) { // Appliction error status = ATT_ERR_INVALID_VALUE_SIZE; } } else { status = ATT_ERR_INVALID_OFFSET; } } // Write the long value if ( status == SUCCESS ) { VOID osal_memcpy( &(pAttr->pValue[offset]), pValue, len ); offset += len; pAttr->pValue[offset] = '\0'; // Notify application if ( ggs_AppCBs && ggs_AppCBs->pfnAttrValueChange ) { ggs_AppCBs->pfnAttrValueChange( GGS_DEVICE_NAME_ID ); } } break; case APPEARANCE_UUID: // Validate the value if ( offset == 0 ) { if ( len != 2 ) { status = ATT_ERR_INVALID_VALUE_SIZE; } } else { status = ATT_ERR_ATTR_NOT_LONG; } // Write the value if ( status == SUCCESS ) { uint16 *pCurValue = (uint16 *)pAttr->pValue; *pCurValue = BUILD_UINT16( pValue[0], pValue[1] ); // Notify application if ( ggs_AppCBs && ggs_AppCBs->pfnAttrValueChange ) { ggs_AppCBs->pfnAttrValueChange( GGS_APPEARANCE_ID ); } } break; case RECONNECT_ADDR_UUID: // Validate the value - writable by a bonded device #if ( HOST_CONFIG & PERIPHERAL_CFG ) #if defined (GAP_PRIVACY) || defined (GAP_PRIVACY_RECONNECT) if ( periPrivacyFlag == GAP_PRIVACY_DISABLED ) { status = ATT_ERR_WRITE_NOT_PERMITTED; } else #endif // GAP_PRIVACY || GAP_PRIVACY_RECONNECT #endif // PERIPHERAL_CFG if ( offset == 0 ) { if ( len != B_ADDR_LEN ) { status = ATT_ERR_INVALID_VALUE_SIZE; } } else { status = ATT_ERR_ATTR_NOT_LONG; } // Write the value if ( status == SUCCESS ) { VOID osal_memcpy( pAttr->pValue, pValue, B_ADDR_LEN ); } break; case PERI_PRIVACY_FLAG_UUID: // Validate the value - writable by a bonded device #if ( HOST_CONFIG & PERIPHERAL_CFG ) #if defined (GAP_PRIVACY) || defined (GAP_PRIVACY_RECONNECT) if ( (periPrivacyFlagCharProps & GATT_PROP_WRITE) == 0 ) { status = ATT_ERR_WRITE_NOT_PERMITTED; } else #endif // GAP_PRIVACY || GAP_PRIVACY_RECONNECT #endif // PERIPHERAL_CFG if ( offset == 0 ) { if ( len == 1 ) { // Validate characteristic configuration bit field if ( ( *pValue != GAP_PRIVACY_DISABLED ) && ( *pValue != GAP_PRIVACY_ENABLED ) ) { status = ATT_ERR_INVALID_VALUE; } } else { status = ATT_ERR_INVALID_VALUE_SIZE; } } else { status = ATT_ERR_ATTR_NOT_LONG; } // Write the value if ( status == SUCCESS ) { *pAttr->pValue = *pValue; } break; default: // Should never get here! status = ATT_ERR_INVALID_HANDLE; } } else { // 128-bit UUID status = ATT_ERR_INVALID_HANDLE; } return ( status ); } /********************************************************************* *********************************************************************/