/*********************************************************************
* @fn HidDev_Init
*
* @brief Initialization function for the Hid Dev Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void HidDev_Init( uint8 task_id )
{
hidDevTaskId = task_id;
// Setup the GAP Bond Manager
{
uint8 syncWL = TRUE;
// If a bond is created, the HID Device should write the address of the
// HID Host in the HID Device controller's white list and set the HID
// Device controller's advertising filter policy to 'process scan and
// connection requests only from devices in the White List'.
VOID GAPBondMgr_SetParameter( GAPBOND_AUTO_SYNC_WL, sizeof( uint8 ), &syncWL );
}
// Set up services
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
DevInfo_AddService( );
Batt_AddService( );
ScanParam_AddService( );
// Register for Battery service callback
Batt_Register( hidDevBattCB );
// Register for Scan Parameters service callback
ScanParam_Register( hidDevScanParamCB );
// Setup a delayed profile startup
osal_set_event( hidDevTaskId, START_DEVICE_EVT );
}
/*********************************************************************
* @fn SimpleBLECentral_Init
*
* @brief Initialization function for the Simple BLE Central App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notification).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SimpleBLECentral_Init( uint8 task_id )
{
simpleBLETaskId = task_id;
// 串口初始化
NPI_InitTransport(uart_NpiSerialCallback);
//NPI_WriteTransport("SimpleBLECentral_Init\r\n", 23);
Get_IMEI();
//halSleep(100);
//Get_Test();
// Setup Central Profile
{
uint8 scanRes = DEFAULT_MAX_SCAN_RES;
GAPCentralRole_SetParameter ( GAPCENTRALROLE_MAX_SCAN_RES, sizeof( uint8 ), &scanRes );
}
// Setup GAP
GAP_SetParamValue( TGAP_GEN_DISC_SCAN, DEFAULT_SCAN_DURATION );
GAP_SetParamValue( TGAP_LIM_DISC_SCAN, DEFAULT_SCAN_DURATION );
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, (uint8 *) simpleBLEDeviceName );
// Setup the GAP Bond Manager
{
uint32 passkey = DEFAULT_PASSCODE;
uint8 pairMode = DEFAULT_PAIRING_MODE;
uint8 mitm = DEFAULT_MITM_MODE;
uint8 ioCap = DEFAULT_IO_CAPABILITIES;
uint8 bonding = DEFAULT_BONDING_MODE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof( uint8 ), &bonding );
}
// Initialize GATT Client
VOID GATT_InitClient();
// Register to receive incoming ATT Indications/Notifications
GATT_RegisterForInd( simpleBLETaskId );
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
// Register for all key events - This app will handle all key events
RegisterForKeys( simpleBLETaskId );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// Setup a delayed profile startup
osal_set_event( simpleBLETaskId, START_DEVICE_EVT );
}
/*********************************************************************
* @fn BlueBasic_Init
*
* @brief Initialization function for the Blue Basic App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void BlueBasic_Init( uint8 task_id )
{
blueBasic_TaskID = task_id;
#ifdef ENABLE_BLE_CONSOLE
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, 0, sizeof(consoleAdvert), (void*)consoleAdvert );
#endif
// Set advertising interval
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MIN, DEFAULT_ADVERTISING_INTERVAL );
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MAX, DEFAULT_ADVERTISING_INTERVAL );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MIN, DEFAULT_ADVERTISING_INTERVAL );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MAX, DEFAULT_ADVERTISING_INTERVAL );
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
#ifdef ENABLE_FAKE_OAD_PROFILE
GATTServApp_RegisterService(oadProfile, GATT_NUM_ATTRS(oadProfile), NULL);
#endif
DevInfo_AddService(); // Device Information Service
#if defined FEATURE_OAD
VOID OADTarget_AddService(); // OAD Profile
#endif
// Enable clock divide on halt
// This reduces active current while radio is active and CC254x MCU
// is halted
#ifdef ENABLE_BLE_CONSOLE
// See: http://e2e.ti.com/support/wireless_connectivity/f/538/p/169944/668822.aspx#664740
HCI_EXT_ClkDivOnHaltCmd(HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT);
#endif
// Overlap enabled
HCI_EXT_OverlappedProcessingCmd(HCI_EXT_ENABLE_OVERLAPPED_PROCESSING);
// Setup a delayed profile startup
osal_set_event( blueBasic_TaskID, BLUEBASIC_START_DEVICE_EVT );
}
/*********************************************************************
* @fn SoftCmd_Init
*
* @brief Initialization function for the Soft Command App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SoftCmd_Init( uint8 task_id )
{
softCmdTaskId = task_id;
// Setup the GAP Peripheral Role Profile
{
uint8 advEnable = FALSE;
uint16 advertOffTime = 0;
uint8 updateRequest = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 minInterval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 maxInterval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 slaveLatency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 connTimeout = DEFAULT_DESIRED_CONN_TIMEOUT;
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &advEnable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &advertOffTime );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &updateRequest );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &minInterval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &maxInterval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &slaveLatency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &connTimeout );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( softCmdScanData ), softCmdScanData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( softCmdAdvData ), softCmdAdvData );
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, softCmdDeviceName );
// Setup the GAP Bond Manager
{
uint32 passkey = DEFAULT_PASSCODE;
uint8 pairMode = DEFAULT_PAIRING_MODE;
uint8 mitm = DEFAULT_MITM_MODE;
uint8 ioCap = DEFAULT_IO_CAPABILITIES;
uint8 bonding = DEFAULT_BONDING_MODE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof( uint8 ), &bonding );
}
// Setup Battery Characteristic Values
{
uint8 critical = DEFAULT_BATT_CRITICAL_LEVEL;
uint8 state = DEFAULT_BATT_STATE;
Batt_SetParameter( BATT_PARAM_CRITICAL_LEVEL, sizeof (uint8 ), &critical );
Batt_SetParameter( BATT_PARAM_STATE, sizeof (uint8 ), &state );
}
// Initialize GATT Client
VOID GATT_InitClient();
// Initialize Services
GGS_AddService( GATT_ALL_SERVICES );
GATTServApp_AddService( GATT_ALL_SERVICES );
CmdEnum_AddService( );
Batt_AddService( );
// Register for Battery service callback;
Batt_Register( softCmdBattCB );
// Register for all key events - This app will handle all key events
RegisterForKeys( softCmdTaskId );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// For keyfob board set GPIO pins into a power-optimized state
// Note that there is still some leakage current from the buzzer,
// accelerometer, LEDs, and buttons on the PCB.
P0SEL = 0; // Configure Port 0 as GPIO
P1SEL = 0; // Configure Port 1 as GPIO
P2SEL = 0; // Configure Port 2 as GPIO
P0DIR = 0xFC; // Port 0 pins P0.0 and P0.1 as input (buttons),
// all others (P0.2-P0.7) as output
P1DIR = 0xFF; // All port 1 pins (P1.0-P1.7) as output
P2DIR = 0x1F; // All port 1 pins (P2.0-P2.4) as output
P0 = 0x03; // All pins on port 0 to low except for P0.0 and P0.1 (buttons)
P1 = 0; // All pins on port 1 to low
P2 = 0; // All pins on port 2 to low
// Setup a delayed profile startup
osal_set_event( softCmdTaskId, START_DEVICE_EVT );
}
/*********************************************************************
* @fn SimpleBLECentral_Init
*
* @brief Initialization function for the Simple BLE Central App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notification).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SimpleBLECentral_Init( uint8 task_id )
{
simpleBLETaskId = task_id;
HalAdcInit();
LCD_WRITE_STRING( "CentralHop 1", HAL_LCD_LINE_1 );
//////////////////////////////////////////////////////////////////
// Broadcaster
// Setup the GAP Broadcaster Role Profile
{
#if defined( CC2540_MINIDK )
// For the CC2540DK-MINI keyfob, device doesn't start advertising until button is pressed
uint8 initial_advertising_enable = FALSE;
#else
// For other hardware platforms, device starts advertising upon initialization
uint8 initial_advertising_enable = TRUE;
#endif
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
//uint8 advType = GAP_ADTYPE_ADV_NONCONN_IND; // use non-connectable advertisements
uint8 advType = GAP_ADTYPE_ADV_SCAN_IND; // use scannable unidirected advertisements
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_ADV_EVENT_TYPE, sizeof( uint8 ), &advType );
}
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MAX, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MAX, advInt );
}
//////////////////////////////////////////////////////////////
// Central
// Setup Central Profile
{
uint8 scanRes = DEFAULT_MAX_SCAN_RES;
GAPCentralRole_SetParameter ( GAPCENTRALROLE_MAX_SCAN_RES, sizeof( uint8 ), &scanRes );
}
// Setup GAP
GAP_SetParamValue( TGAP_GEN_DISC_SCAN, DEFAULT_SCAN_DURATION );
GAP_SetParamValue( TGAP_LIM_DISC_SCAN, DEFAULT_SCAN_DURATION );
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, (uint8 *) simpleBLEDeviceName );
// Setup the GAP Bond Manager
{
uint32 passkey = DEFAULT_PASSCODE;
uint8 pairMode = DEFAULT_PAIRING_MODE;
uint8 mitm = DEFAULT_MITM_MODE;
uint8 ioCap = DEFAULT_IO_CAPABILITIES;
uint8 bonding = DEFAULT_BONDING_MODE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof( uint8 ), &bonding );
}
// Initialize GATT Client
VOID GATT_InitClient();
// Register to receive incoming ATT Indications/Notifications
GATT_RegisterForInd( simpleBLETaskId );
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
// Register for all key events - This app will handle all key events
RegisterForKeys( simpleBLETaskId );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// Setup a delayed profile startup
osal_set_event( simpleBLETaskId, START_DEVICE_EVT );
}
/*********************************************************************
* @fn SimpleBLEPeripheral_Init
*
* @brief Initialization function for the Simple BLE Peripheral App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SimpleBLEPeripheral_Init( uint8 task_id )
{
uint8 read_tmp[6] = {0};
uint8 ret8;
simpleBLEPeripheral_TaskID = task_id;
if(osal_snv_read(0xfe,1,&gMP)!=NV_OPER_FAILED){
advertData[29]=gMP;
}
// 如果该段内存未曾写入过数据, 直接读,会返回 NV_OPER_FAILED ,
// 我们利用这个特点作为第一次烧录后的运行, 从而设置参数的出厂设置
ret8 = osal_snv_read(admin_flash_start_addr , sizeof(read_tmp), read_tmp);//admin pwd
if(NV_OPER_FAILED == ret8)
{
osal_memset(read_tmp, '0', sizeof(read_tmp));
ret8 = osal_snv_write(admin_flash_start_addr, sizeof(read_tmp), read_tmp);
if(ret8 == NV_OPER_FAILED)
return;
ret8 = osal_snv_read(admin_flash_start_addr , sizeof(read_tmp), read_tmp);
if(ret8 == NV_OPER_FAILED)
return;
}
ret8 = osal_snv_read(user_flash_start_addr , sizeof(read_tmp), read_tmp);//user pwd
if(NV_OPER_FAILED == ret8)
{
osal_memset(read_tmp, '1', sizeof(read_tmp));
ret8 = osal_snv_write(user_flash_start_addr, sizeof(read_tmp), read_tmp);
if(ret8 == NV_OPER_FAILED)
return;
ret8 = osal_snv_read(user_flash_start_addr , sizeof(read_tmp), read_tmp);
if(ret8 == NV_OPER_FAILED)
return;
}
ret8 = osal_snv_read(ssid_flash_start_addr , sizeof(read_tmp), read_tmp);//ssid
if(NV_OPER_FAILED == ret8)
{
osal_memcpy(read_tmp, ssid, 6);
ret8 = osal_snv_write(ssid_flash_start_addr, sizeof(read_tmp), read_tmp);
if(ret8 == NV_OPER_FAILED)
return;
ret8 = osal_snv_read(ssid_flash_start_addr , sizeof(read_tmp), read_tmp);
if(ret8 == NV_OPER_FAILED)
return;
}
else//update ssid from flash
{
ret8 = osal_snv_read(ssid_flash_start_addr , sizeof(read_tmp), read_tmp);
if(ret8 != NV_OPER_FAILED)
{
osal_memcpy(scanRspData + 2, read_tmp, 6);
osal_memcpy(attDeviceName, read_tmp, 6);
GAP_UpdateAdvertisingData( simpleBLEPeripheral_TaskID, FALSE, sizeof( scanRspData ), scanRspData );
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
}
}
ret8 = osal_snv_read(dead_date_flash_start_addr , sizeof(read_tmp), read_tmp);//dead date
if(NV_OPER_FAILED == ret8)
{
osal_memset(read_tmp, '0', sizeof(read_tmp));
ret8 = osal_snv_write(dead_date_flash_start_addr, sizeof(read_tmp), read_tmp);
if(ret8 == NV_OPER_FAILED)
return;
ret8 = osal_snv_read(dead_date_flash_start_addr , sizeof(read_tmp), read_tmp);
if(ret8 == NV_OPER_FAILED)
return;
}
ret8 = osal_snv_read(carlock_id_flash_start_addr , sizeof(read_tmp), read_tmp);//lock id
if(NV_OPER_FAILED == ret8)
{
osal_memset(read_tmp, '0', sizeof(read_tmp));
ret8 = osal_snv_write(carlock_id_flash_start_addr, sizeof(read_tmp), read_tmp);
if(ret8 == NV_OPER_FAILED)
return;
ret8 = osal_snv_read(carlock_id_flash_start_addr , sizeof(read_tmp), read_tmp);
if(ret8 == NV_OPER_FAILED)
return;
}
uint8 use_lock_times[2] = {0};
ret8 = osal_snv_read(use_lock_times_start_addr , sizeof(use_lock_times), use_lock_times);//use times
if(NV_OPER_FAILED == ret8)
{
osal_memset(use_lock_times, 0, sizeof(use_lock_times));
ret8 = osal_snv_write(use_lock_times_start_addr, sizeof(use_lock_times), use_lock_times);
if(ret8 == NV_OPER_FAILED)
return;
ret8 = osal_snv_read(use_lock_times_start_addr , sizeof(use_lock_times), use_lock_times);
if(ret8 == NV_OPER_FAILED)
return;
}
// Setup the GAP
VOID GAP_SetParamValue( TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL );
// Setup the GAP Peripheral Role Profile
{
#if defined( CC2540_MINIDK )
// For the CC2540DK-MINI keyfob, device doesn't start advertising until button is pressed
uint8 initial_advertising_enable = FALSE;
#else
// For other hardware platforms, device starts advertising upon initialization
uint8 initial_advertising_enable = TRUE;
#endif
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanRspData ), scanRspData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MAX, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MAX, advInt );
}
// Setup the GAP Bond Manager //设定绑定的管理员
{
uint32 passkey = 0; // passkey "000000" //配对密码
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
//uint8 pairMode = GAPBOND_PAIRING_MODE_INITIATE; //需要将 pairMode 设置为 GAPBOND_PAIRING_MODE_INITIATE,
//才能在连接的时候产生配对请求
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY; //只有显示密码的能力
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );//把passkey的地址里面的值拷贝到 gapBond_Passcode变量
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );//同理把pairMode地址里面的值拷贝到gapBond_PairingMode
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );//同理
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );//同理
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding ); //同理
}
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
DevInfo_AddService(); // Device Information Service
SimpleProfile_AddService( GATT_ALL_SERVICES ); // Simple GATT Profile
#if defined FEATURE_OAD
VOID OADTarget_AddService(); // OAD Profile
#endif
// Setup the SimpleProfile Characteristic Values
{
uint8 charValue1[SIMPLEPROFILE_CHAR1_LEN] = {0};
uint8 charValue2[SIMPLEPROFILE_CHAR2_LEN] = {0};
uint8 charValue3[SIMPLEPROFILE_CHAR3_LEN] = {0};
uint8 charValue4[SIMPLEPROFILE_CHAR4_LEN] = {0};
uint8 charValue5[SIMPLEPROFILE_CHAR5_LEN] = {0};
uint8 charValue6[SIMPLEPROFILE_CHAR6_LEN] = {0};
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR1, SIMPLEPROFILE_CHAR1_LEN, charValue1 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR2, SIMPLEPROFILE_CHAR2_LEN, charValue2 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR3, SIMPLEPROFILE_CHAR3_LEN, charValue3 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR4, SIMPLEPROFILE_CHAR4_LEN, charValue4 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR5, SIMPLEPROFILE_CHAR5_LEN, charValue5 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR6, SIMPLEPROFILE_CHAR6_LEN, charValue6 );
}
// Register callback with SimpleGATTprofile
VOID SimpleProfile_RegisterAppCBs( &simpleBLEPeripheral_SimpleProfileCBs );
// Enable clock divide on halt
// This reduces active current while radio is active and CC254x MCU
// is halted
HCI_EXT_ClkDivOnHaltCmd( HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT );
#if defined ( DC_DC_P0_7 )
// Enable stack to toggle bypass control on TPS62730 (DC/DC converter)
HCI_EXT_MapPmIoPortCmd( HCI_EXT_PM_IO_PORT_P0, HCI_EXT_PM_IO_PORT_PIN7 );
#endif // defined ( DC_DC_P0_7 )
// P2INP |= 0x03; // Configure Port 0 ,1,as pull-down 20K
// P0INP &= ~0x03; // Configure Port 0 ,1,as pull-down 20K
P0INP |= 0xC0; // Configure Port 6 ,7,as 3-state
P0SEL &= ~0x3C; // Configure Port 0 as GPIO
P0DIR |= 0x3C; // Port 0 pins P0.0 , P0.1 , P0.6 , P0.7
// as input (AD0, AD1 ,X1,X2)
// all others (P0.4-P0.7) as output
P1SEL |= 0xE0; // P1_5, P1_6, and P1_7 are peripherals
P1SEL &= ~0x10; // P1_4 is GPIO (SSN)
P1DIR |= 0x13; // SPI
// all others (P1.0-P1.5) as output
P2SEL = 0X00; // Configure Port 2 as GPIO
P2DIR = 0x01; // All port 1 pins (P2.0) as output
P0 &= ~0x24; // All pins on port 0 to low except for P0.0 and P0.1 (buttons)
P1 &= ~0x03; // All pins on port 1 to low
P2 |= 0x07; // All pins on port 2 to low
//init batter check
batter_control(1);
//init Hmc5883
Hmc5883_Init(HMC5883_ADDR);
Hmc5883_WriteReg(0x00, HMC5883_CTROL_REG, 3);
Hmc5883InitGetVector(); //init the vector sum for power up
//show battery
show_bat_by_leds();
//rf470m init
LSD_RF_Init(frefunction1);
//Setup a delayed profile startup
osal_set_event( simpleBLEPeripheral_TaskID, SBP_START_DEVICE_EVT );
//启动看门狗, 定是1000ms, 1000ms内需要喂狗, 否则就重启了
// HAL_SYSTEM_WATCH_DOG_1000MS();
}
/*********************************************************************
* @fn SimpleBLEPeripheral_Init
*
* @brief Initialization function for the Simple BLE Peripheral App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void Biscuit_Init( uint8 task_id )
{
biscuit_TaskID = task_id;
// Setup the GAP
VOID GAP_SetParamValue( TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL );
// Setup the GAP Peripheral Role Profile
{
// Device starts advertising upon initialization
uint8 initial_advertising_enable = TRUE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanRspData ), scanRspData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MAX, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MAX, advInt );
}
// Setup the GAP Bond Manager
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
}
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
//DevInfo_AddService(); // Device Information Service
TXRX_AddService( GATT_ALL_SERVICES ); // Simple GATT Profile
#if defined FEATURE_OAD
VOID OADTarget_AddService(); // OAD Profile
#endif
#if defined( CC2540_MINIDK )
// Register for all key events - This app will handle all key events
RegisterForKeys( biscuit_TaskID );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// For keyfob board set GPIO pins into a power-optimized state
// Note that there is still some leakage current from the buzzer,
// accelerometer, LEDs, and buttons on the PCB.
P0SEL = 0; // Configure Port 0 as GPIO
P1SEL = 0; // Configure Port 1 as GPIO
P2SEL = 0; // Configure Port 2 as GPIO
P0DIR = 0xFC; // Port 0 pins P0.0 and P0.1 as input (buttons),
// all others (P0.2-P0.7) as output
P1DIR = 0xFF; // All port 1 pins (P1.0-P1.7) as output
P2DIR = 0x1F; // All port 1 pins (P2.0-P2.4) as output
P0 = 0x03; // All pins on port 0 to low except for P0.0 and P0.1 (buttons)
P1 = 0; // All pins on port 1 to low
P2 = 0; // All pins on port 2 to low
#endif // #if defined( CC2540_MINIDK )
P1SEL &= 0xEF; // Configure P1_5(RX) as GPIO
P1DIR |= 0x10; // RGB IO Output
P1_4 = 0;
// Register callback with TXRXService
VOID TXRX_RegisterAppCBs( &biscuit_TXRXServiceCBs );
// Enable clock divide on halt
// This reduces active current while radio is active and CC254x MCU
// is halted
// HCI_EXT_ClkDivOnHaltCmd( HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT );
// Setup a delayed profile startup
osal_set_event( biscuit_TaskID, SBP_START_DEVICE_EVT );
}
/*********************************************************************
* @fn SimpleBLEPeripheral_Init
*
* @brief Initialization function for the Simple BLE Peripheral App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SimpleBLEPeripheral_Init( uint8 task_id )
{
HCI_EXT_SetTxPowerCmd(LL_EXT_TX_POWER_MINUS_6_DBM);
simpleBLEPeripheral_TaskID = task_id;
if(osal_snv_read(0xfe,1,&gMP)!=NV_OPER_FAILED){
advertData[29]=gMP;
}
// Setup the GAP
VOID GAP_SetParamValue( TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL );//连接间隙
// Setup the GAP Peripheral Role Profile
{
#if defined( CC2540_MINIDK )
// For the CC2540DK-MINI keyfob, device doesn't start advertising until button is pressed
uint8 initial_advertising_enable = FALSE;
#else
// For other hardware platforms, device starts advertising upon initialization
uint8 initial_advertising_enable = TRUE;
#endif
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
uint16 desired_rssi_rate=DEFAULT_DESIRED_REEI_RATE;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
//GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanRspData ), scanRspData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter(GAPROLE_RSSI_READ_RATE,sizeof(uint16),&desired_rssi_rate);//设定RSSI的参数值
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MAX, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MAX, advInt );
}
// Setup the GAP Bond Manager
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
}
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
DevInfo_AddService(); // Device Information Service
SimpleProfile_AddService( GATT_ALL_SERVICES ); // Simple GATT Profile
#if defined FEATURE_OAD
VOID OADTarget_AddService(); // OAD Profile
#endif
// Setup the SimpleProfile Characteristic Values
{
uint8 charValue1 = 1;
uint8 charValue2 = 0;
uint8 charValue3 = 3;
uint8 charValue4 = 4;
uint8 charValue5[SIMPLEPROFILE_CHAR5_LEN] = { 1, 2, 3, 4, 5 };
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR1, sizeof ( uint8 ), &gMP );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR2, sizeof ( uint8 ), &charValue2 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR3, sizeof ( uint8 ), &charValue3 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR4, sizeof ( uint8 ), &charValue4 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR5, SIMPLEPROFILE_CHAR5_LEN, charValue5 );
}
#if defined( CC2540_MINIDK )
SK_AddService( GATT_ALL_SERVICES ); // Simple Keys Profile
// Register for all key events - This app will handle all key events
RegisterForKeys( simpleBLEPeripheral_TaskID );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// For keyfob board set GPIO pins into a power-optimized state
// Note that there is still some leakage current from the buzzer,
// accelerometer, LEDs, and buttons on the PCB.
P0SEL = 0; // Configure Port 0 as GPIO
P1SEL = 0; // Configure Port 1 as GPIO
P2SEL = 0; // Configure Port 2 as GPIO
P0DIR = 0xFC; // Port 0 pins P0.0 and P0.1 as input (buttons),
// all others (P0.2-P0.7) as output
P1DIR = 0xFF; // All port 1 pins (P1.0-P1.7) as output
P2DIR = 0x1F; // All port 1 pins (P2.0-P2.4) as output
P0 = 0x03; // All pins on port 0 to low except for P0.0 and P0.1 (buttons)
P1 = 0; // All pins on port 1 to low
P2 = 0; // All pins on port 2 to low
#endif // #if defined( CC2540_MINIDK )
#if (defined HAL_LCD) && (HAL_LCD == TRUE)
#if defined FEATURE_OAD
#if defined (HAL_IMAGE_A)
HalLcdWriteStringValue( "BLE Peri-A", OAD_VER_NUM( _imgHdr.ver ), 16, HAL_LCD_LINE_1 );
#else
HalLcdWriteStringValue( "BLE Peri-B", OAD_VER_NUM( _imgHdr.ver ), 16, HAL_LCD_LINE_1 );
#endif // HAL_IMAGE_A
#else
HalLcdWriteString( "iBeacon", HAL_LCD_LINE_1 );
#endif // FEATURE_OAD
#endif // (defined HAL_LCD) && (HAL_LCD == TRUE)
// Register callback with SimpleGATTprofile
VOID SimpleProfile_RegisterAppCBs( &simpleBLEPeripheral_SimpleProfileCBs );
// Enable clock divide on halt
// This reduces active current while radio is active and CC254x MCU
// is halted
HCI_EXT_ClkDivOnHaltCmd( HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT );
#if defined ( DC_DC_P0_7 )
// Enable stack to toggle bypass control on TPS62730 (DC/DC converter)
HCI_EXT_MapPmIoPortCmd( HCI_EXT_PM_IO_PORT_P0, HCI_EXT_PM_IO_PORT_PIN7 );
#endif // defined ( DC_DC_P0_7 )
// Setup a delayed profile startup
osal_set_event( simpleBLEPeripheral_TaskID, SBP_START_DEVICE_EVT );
}
/*********************************************************************
* @fn glucCollCentral_Init
*
* @brief Initialization function for the Glucose Collector App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notification).
*
*
* @return none
*/
static void glucCollCentral_Init()
{
// ******************************************************************
// N0 STACK API CALLS CAN OCCUR BEFORE THIS CALL TO ICall_registerApp
// ******************************************************************
// Register the current thread as an ICall dispatcher application
// so that the application can send and receive messages.
ICall_registerApp(&selfEntity, &sem);
// Set device's Sleep Clock Accuracy
//HCI_EXT_SetSCACmd(40);
// Save the taskId
glucCollTaskId = selfEntity;
// Create an RTOS queue for message from profile to be sent to app.
appMsgQueue = Util_constructQueue(&appMsg);
Board_openLCD();
// Create clock objects for discovery and procedure timeout
Util_constructClock(&discoveryClock, glucCollCentral_clockHandler,
DEFAULT_SVC_DISCOVERY_DELAY, 0, false,
GLUCOLL_START_DISCOVERY_EVT);
Util_constructClock(&procTimeoutClock, glucCollCentral_clockHandler,
GLUCOSE_PROCEDURE_TIMEOUT, 0, false,
GLUCOLL_PROCEDURE_TIMEOUT_EVT);
// Setup Central Profile
{
uint8_t scanRes = DEFAULT_MAX_SCAN_RES;
GAPCentralRole_SetParameter (GAPCENTRALROLE_MAX_SCAN_RES, sizeof(uint8_t),
&scanRes);
}
// Setup GAP
GAP_SetParamValue(TGAP_GEN_DISC_SCAN, DEFAULT_SCAN_DURATION);
GAP_SetParamValue(TGAP_LIM_DISC_SCAN, DEFAULT_SCAN_DURATION);
GGS_SetParameter(GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN,
(uint8_t *)glucCollDeviceName);
// Setup the GAP Bond Manager
{
uint32_t passkey = DEFAULT_PASSCODE;
uint8_t pairMode = DEFAULT_PAIRING_MODE;
uint8_t mitm = DEFAULT_MITM_MODE;
uint8_t ioCap = DEFAULT_IO_CAPABILITIES;
uint8_t bonding = DEFAULT_BONDING_MODE;
GAPBondMgr_SetParameter(GAPBOND_DEFAULT_PASSCODE, sizeof(uint32_t), &passkey);
GAPBondMgr_SetParameter(GAPBOND_PAIRING_MODE, sizeof(uint8_t), &pairMode);
GAPBondMgr_SetParameter(GAPBOND_MITM_PROTECTION, sizeof(uint8_t), &mitm);
GAPBondMgr_SetParameter(GAPBOND_IO_CAPABILITIES, sizeof(uint8_t), &ioCap);
GAPBondMgr_SetParameter(GAPBOND_BONDING_ENABLED, sizeof(uint8_t), &bonding);
}
// Initialize GATT Client
VOID GATT_InitClient();
// Register to receive incoming ATT Indications/Notifications
GATT_RegisterForInd(glucCollTaskId);
// Initialize GATT attributes
GGS_AddService(GATT_ALL_SERVICES); // GAP
GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
// Register for all key events - This app will handle all key events
Board_initKeys(glucCollCentral_keyChangeHandler);
// Register with bond manager after starting device
GAPBondMgr_Register((gapBondCBs_t *)&glucCollBondCB);
// Start the Device
VOID GAPCentralRole_StartDevice((gapCentralRoleCB_t *)&glucCollRoleCB);
}
static void SimplePropBeacon_init(void)
{
// ******************************************************************
// N0 STACK API CALLS CAN OCCUR BEFORE THIS CALL TO ICall_registerApp
// ******************************************************************
// Register the current thread as an ICall dispatcher application
// so that the application can send and receive messages.
ICall_registerApp(&selfEntity, &sem);
#ifdef USE_RCOSC
RCOSC_enableCalibration();
#endif // USE_RCOSC
// Create an RTOS queue for message from profile to be sent to app.
appMsgQueue = Util_constructQueue(&appMsg);
dispHandle = Display_open(Display_Type_LCD, NULL);
// Setup the GAP
GAP_SetParamValue(TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL);
// Setup the GAP Peripheral Role Profile
{
uint8_t initialAdvertEnable = TRUE;
uint8_t initialNonConnAdvEnable = TRUE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16_t advertOffTime = 0;
uint8_t enableUpdateRequest = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16_t desiredMinInterval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16_t desiredMaxInterval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16_t desiredSlaveLatency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16_t desiredConnTimeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter(GAPROLE_ADVERT_ENABLED, sizeof(uint8_t),
&initialAdvertEnable);
GAPRole_SetParameter(GAPROLE_ADV_NONCONN_ENABLED, sizeof(uint8_t),
&initialNonConnAdvEnable);
GAPRole_SetParameter(GAPROLE_ADVERT_OFF_TIME, sizeof(uint16_t),
&advertOffTime);
GAPRole_SetParameter(GAPROLE_SCAN_RSP_DATA, sizeof(scanRspData),
scanRspData);
GAPRole_SetParameter(GAPROLE_PARAM_UPDATE_ENABLE, sizeof(uint8_t),
&enableUpdateRequest);
GAPRole_SetParameter(GAPROLE_MIN_CONN_INTERVAL, sizeof(uint16_t),
&desiredMinInterval);
GAPRole_SetParameter(GAPROLE_MAX_CONN_INTERVAL, sizeof(uint16_t),
&desiredMaxInterval);
GAPRole_SetParameter(GAPROLE_SLAVE_LATENCY, sizeof(uint16_t),
&desiredSlaveLatency);
GAPRole_SetParameter(GAPROLE_TIMEOUT_MULTIPLIER, sizeof(uint16_t),
&desiredConnTimeout);
}
// Set the GAP Characteristics
GGS_SetParameter(GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName);
// Register an event for adv completion
HCI_EXT_AdvEventNoticeCmd(selfEntity, SPB_ADV_COMPLETE_EVT);
// Setup the GAP Bond Manager
{
uint32_t passkey = 0; // passkey "000000"
uint8_t pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8_t mitm = TRUE;
uint8_t ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8_t bonding = TRUE;
GAPBondMgr_SetParameter(GAPBOND_DEFAULT_PASSCODE, sizeof(uint32_t),
&passkey);
GAPBondMgr_SetParameter(GAPBOND_PAIRING_MODE, sizeof(uint8_t), &pairMode);
GAPBondMgr_SetParameter(GAPBOND_MITM_PROTECTION, sizeof(uint8_t), &mitm);
GAPBondMgr_SetParameter(GAPBOND_IO_CAPABILITIES, sizeof(uint8_t), &ioCap);
GAPBondMgr_SetParameter(GAPBOND_BONDING_ENABLED, sizeof(uint8_t), &bonding);
}
// Initialize GATT attributes
GGS_AddService(GATT_ALL_SERVICES); // GAP
GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
DevInfo_AddService(); // Device Information Service
// Start the Device
VOID GAPRole_StartDevice(&SimplePropBeacon_gapRoleCBs);
// Start Bond Manager
VOID GAPBondMgr_Register(&SimplePropBeacon_BondMgrCBs);
// Register with GAP for HCI/Host messages
GAP_RegisterForMsgs(selfEntity);
// Register for GATT local events and ATT Responses pending for transmission
GATT_RegisterForMsgs(selfEntity);
}
/*******************************************************************************
* @fn SensorTag_init
*
* @brief Called during initialization and contains application
* specific initialization (ie. hardware initialization/setup,
* table initialization, power up notification, etc), and
* profile initialization/setup.
*
* @param none
*
* @return none
*/
static void SensorTag_init(void)
{
//uint8_t selfTestMap;
// Setup I2C for sensors
//bspI2cInit();
// Handling of buttons, LED, relay
hGpioPin = PIN_open(&pinGpioState, SensortagAppPinTable);
PIN_registerIntCb(hGpioPin, SensorTag_callback);
// ***************************************************************************
// N0 STACK API CALLS CAN OCCUR BEFORE THIS CALL TO ICall_registerApp
// ***************************************************************************
// Register the current thread as an ICall dispatcher application
// so that the application can send and receive messages.
ICall_registerApp(&selfEntity, &sem);
// Create an RTOS queue for message from profile to be sent to app.
appMsgQueue = Util_constructQueue(&appMsg);
// Create one-shot clocks for internal periodic events.
Util_constructClock(&periodicClock, SensorTag_clockHandler,
ST_PERIODIC_EVT_PERIOD, 0, false, ST_PERIODIC_EVT);
// Setup the GAP
GAP_SetParamValue(TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL);
// Setup the GAP Peripheral Role Profile
{
// For all hardware platforms, device starts advertising upon initialization
uint8_t initialAdvertEnable = TRUE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16_t advertOffTime = 0;
uint8_t enableUpdateRequest = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16_t desiredMinInterval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16_t desiredMaxInterval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16_t desiredSlaveLatency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16_t desiredConnTimeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter(GAPROLE_ADVERT_ENABLED, sizeof(uint8_t),
&initialAdvertEnable);
GAPRole_SetParameter(GAPROLE_ADVERT_OFF_TIME, sizeof(uint16_t),
&advertOffTime);
//Returns 18, but this seems to be normal
GAPRole_SetParameter(GAPROLE_SCAN_RSP_DATA, sizeof(scanRspData),
scanRspData);
//Returns 18
GAPRole_SetParameter(GAPROLE_ADVERT_DATA, sizeof(advertData), advertData);
GAPRole_SetParameter(GAPROLE_PARAM_UPDATE_ENABLE, sizeof(uint8_t),
&enableUpdateRequest);
GAPRole_SetParameter(GAPROLE_MIN_CONN_INTERVAL, sizeof(uint16_t),
&desiredMinInterval);
GAPRole_SetParameter(GAPROLE_MAX_CONN_INTERVAL, sizeof(uint16_t),
&desiredMaxInterval);
GAPRole_SetParameter(GAPROLE_SLAVE_LATENCY, sizeof(uint16_t),
&desiredSlaveLatency);
GAPRole_SetParameter(GAPROLE_TIMEOUT_MULTIPLIER, sizeof(uint16_t),
&desiredConnTimeout);
}
// Set the GAP Characteristics
GGS_SetParameter(GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN,
(void*)attDeviceName);
#ifdef FEATURE_OAD
// Register connection parameter update
GAPRole_RegisterAppCBs( ¶mUpdateCB);
#endif
// Set advertising interval
{
uint16_t advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MAX, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MAX, advInt);
}
// Initialize GATT attributes
GGS_AddService(GATT_ALL_SERVICES); // GAP
GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
DevInfo_AddService(); // Device Information Service
// Add application specific device information
SensorTag_setDeviceInfo();
#ifdef FACTORY_IMAGE
// Check if a factory image exists and apply current image if necessary
//if (!SensorTag_hasFactoryImage())
//{
// SensorTag_saveFactoryImage();
//}
#endif
#ifdef FEATURE_REGISTER_SERVICE
//Register_addService(); // Generic register access
//
#endif
#ifdef FEATURE_LCD
SensorTagDisplay_init(); // Display service DevPack LCD
#endif
#ifdef FEATURE_OAD
SensorTagConnectionControl_init(); // Connection control to
// support OAD for iOs/Android
OAD_addService(); // OAD Profile
OAD_register((oadTargetCBs_t *)&simpleBLEPeripheral_oadCBs);
hOadQ = Util_constructQueue(&oadQ);
#endif
// Start the Device
GAPRole_StartDevice(&SensorTag_gapRoleCBs);
// Start Bond Manager
GAPBondMgr_Register(NULL);
// Enable interrupt handling for keys and relay
PIN_registerIntCb(hGpioPin, SensorTag_callback);
}
void FanInit(uint8 taskId)
{
fanTaskId = taskId;
FanControlInit(taskId, scanResponseData + 2);
// Setup the GAP Peripheral Role Profile
{
uint8 initial_advertising_enable = TRUE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter(GAPROLE_ADVERT_ENABLED, sizeof(uint8), &initial_advertising_enable);
GAPRole_SetParameter(GAPROLE_ADVERT_OFF_TIME, sizeof(uint16), &gapRole_AdvertOffTime);
GAPRole_SetParameter(GAPROLE_SCAN_RSP_DATA, sizeof(scanResponseData), scanResponseData);
{
GAPRole_SetParameter(GAPROLE_ADVERT_DATA, sizeof(advertisementData), advertisementData);
}
GAPRole_SetParameter(GAPROLE_PARAM_UPDATE_ENABLE, sizeof(uint8), &enable_update_request);
GAPRole_SetParameter(GAPROLE_MIN_CONN_INTERVAL, sizeof(uint16), &desired_min_interval);
GAPRole_SetParameter(GAPROLE_MAX_CONN_INTERVAL, sizeof(uint16), &desired_max_interval);
GAPRole_SetParameter(GAPROLE_SLAVE_LATENCY, sizeof(uint16), &desired_slave_latency);
GAPRole_SetParameter(GAPROLE_TIMEOUT_MULTIPLIER, sizeof(uint16), &desired_conn_timeout);
}
GGS_SetParameter(GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, scanResponseData + 2);
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MAX, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MAX, advInt);
}
// Setup the GAP Bond Manager
{
uint32 passkey = 0x00; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter(GAPBOND_DEFAULT_PASSCODE, sizeof(uint32), &passkey);
GAPBondMgr_SetParameter(GAPBOND_PAIRING_MODE, sizeof(uint8), &pairMode);
GAPBondMgr_SetParameter(GAPBOND_MITM_PROTECTION, sizeof(uint8), &mitm);
GAPBondMgr_SetParameter(GAPBOND_IO_CAPABILITIES, sizeof(uint8), &ioCap);
GAPBondMgr_SetParameter(GAPBOND_BONDING_ENABLED, sizeof(uint8), &bonding);
}
// Initialize GATT attributes
GGS_AddService(GATT_ALL_SERVICES); // GAP
GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
DevInfo_AddService(); // Device Information Service
FanProfileAddService(GATT_ALL_SERVICES);
#if defined FEATURE_OAD
OADTarget_AddService(); // OAD Profile
#endif
Batt_AddService();
// Enable clock divide on halt.
// This reduces active current while radio is active and CC254x MCU is halted.
HCI_EXT_ClkDivOnHaltCmd(HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT);
#if defined(DC_DC_P0_7)
// Enable stack to toggle bypass control on TPS62730 (DC/DC converter)
HCI_EXT_MapPmIoPortCmd( HCI_EXT_PM_IO_PORT_P0, HCI_EXT_PM_IO_PORT_PIN7 );
#endif
// Setup a delayed profile startup
osal_set_event(fanTaskId, FAN_START_DEVICE_EVT);
};
/*********************************************************************
* @fn PIRSensor_Init
*
* @brief Initialization function for the Simple BLE Peripheral App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void PIRSensor_Init( uint8 task_id )
{
PIRSensor_TaskID = task_id;
// Setup the GAP
VOID GAP_SetParamValue( TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL );
// Setup the GAP Peripheral Role Profile
{
#if defined( CC2540_MINIDK )
// For the CC2540DK-MINI keyfob, device doesn't start advertising until button is pressed
uint8 initial_advertising_enable = FALSE;
#else
// For other hardware platforms, device starts advertising upon initialization
uint8 initial_advertising_enable = TRUE;
#endif
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanRspData ), scanRspData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MAX, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MAX, advInt );
}
// Setup the GAP Bond Manager
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
}
// Add services
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
DevInfo_AddService(); // Device Information Service
Pir_AddService( GATT_ALL_SERVICES );
Ain_AddService( GATT_ALL_SERVICES ); // Analog Input Service
#if defined FEATURE_OAD
VOID OADTarget_AddService(); // OAD Profile
#endif
// Setup the Seensor Profile Characteristic Values
resetCharacteristicValues();
// Initialise sensor drivers
HalPirInit();
// Register callback with SimpleGATTprofile
VOID Ain_RegisterAppCBs( &PIRSensor_AinCBs );
// Enable clock divide on halt
// This reduces active current while radio is active and CC254x MCU
// is halted
// HCI_EXT_ClkDivOnHaltCmd( HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT );
// Setup a delayed profile startup
osal_set_event( PIRSensor_TaskID, SBP_START_DEVICE_EVT );
HalLedSet (HAL_LED_1, HAL_LED_MODE_ON);
}
/*********************************************************************
* @fn trainingTag_init
*
* @brief Called during initialization and contains application
* specific initialization (ie. hardware initialization/setup,
* table initialization, power up notification, etc), and
* profile initialization/setup.
*
* @param None.
*
* @return None.
*/
static void trainingTag_init(void)
{
// ******************************************************************
// N0 STACK API CALLS CAN OCCUR BEFORE THIS CALL TO ICall_registerApp
// ******************************************************************
// Register the current thread as an ICall dispatcher application
// so that the application can send and receive messages.
ICall_registerApp(&selfEntity, &sem);
// Hard code the BD Address till CC2650 board gets its own IEEE address
// uint8 bdAddress[B_ADDR_LEN] = { 0xF0, 0xEE, 0xDD, 0xCC, 0xBB, 0xAA };
// HCI_EXT_SetBDADDRCmd(bdAddress);
// Set device's Sleep Clock Accuracy
//HCI_EXT_SetSCACmd(40);
// Create an RTOS queue for message from profile to be sent to app.
appMsgQueue = Util_constructQueue(&appMsg);
// Create one-shot clocks for internal periodic events.
Util_constructClock(&periodicClock, trainingTag_clockHandler,
TTG_PERIODIC_EVT_PERIOD, 0, false, TTG_PERIODIC_EVT);
// Setup the GAP
GAP_SetParamValue(TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL);
// Setup the GAP Peripheral Role Profile
{
// For all hardware platforms, device starts advertising upon initialization
uint8_t initialAdvertEnable = TRUE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16_t advertOffTime = 0;
uint8_t enableUpdateRequest = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16_t desiredMinInterval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16_t desiredMaxInterval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16_t desiredSlaveLatency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16_t desiredConnTimeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter(GAPROLE_ADVERT_ENABLED, sizeof(uint8_t),
&initialAdvertEnable);
GAPRole_SetParameter(GAPROLE_ADVERT_OFF_TIME, sizeof(uint16_t),
&advertOffTime);
GAPRole_SetParameter(GAPROLE_SCAN_RSP_DATA, sizeof(scanRspData),
scanRspData);
GAPRole_SetParameter(GAPROLE_ADVERT_DATA, sizeof(advertData), advertData);
GAPRole_SetParameter(GAPROLE_PARAM_UPDATE_ENABLE, sizeof(uint8_t),
&enableUpdateRequest);
GAPRole_SetParameter(GAPROLE_MIN_CONN_INTERVAL, sizeof(uint16_t),
&desiredMinInterval);
GAPRole_SetParameter(GAPROLE_MAX_CONN_INTERVAL, sizeof(uint16_t),
&desiredMaxInterval);
GAPRole_SetParameter(GAPROLE_SLAVE_LATENCY, sizeof(uint16_t),
&desiredSlaveLatency);
GAPRole_SetParameter(GAPROLE_TIMEOUT_MULTIPLIER, sizeof(uint16_t),
&desiredConnTimeout);
}
// Set the GAP Characteristics
GGS_SetParameter(GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName);
// Set advertising interval
{
uint16_t advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MAX, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MAX, advInt);
}
// Setup the GAP Bond Manager
{
uint32_t passkey = 0; // passkey "000000"
uint8_t pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8_t mitm = TRUE;
uint8_t ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8_t bonding = TRUE;
GAPBondMgr_SetParameter(GAPBOND_DEFAULT_PASSCODE, sizeof(uint32_t),
&passkey);
GAPBondMgr_SetParameter(GAPBOND_PAIRING_MODE, sizeof(uint8_t), &pairMode);
GAPBondMgr_SetParameter(GAPBOND_MITM_PROTECTION, sizeof(uint8_t), &mitm);
GAPBondMgr_SetParameter(GAPBOND_IO_CAPABILITIES, sizeof(uint8_t), &ioCap);
GAPBondMgr_SetParameter(GAPBOND_BONDING_ENABLED, sizeof(uint8_t), &bonding);
}
// Initialize GATT attributes
GGS_AddService(GATT_ALL_SERVICES); // GAP
GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
DevInfo_AddService(); // Device Information Service
SimpleProfile_AddService(GATT_ALL_SERVICES); // Simple GATT Profile
SunlightService_AddService();
// Setup the SimpleProfile Characteristic Values
{
uint8_t charValue1 = 1;
uint8_t charValue2 = 2;
uint8_t charValue3 = 3;
uint8_t charValue4 = 4;
uint8_t charValue5[SIMPLEPROFILE_CHAR5_LEN] = { 1, 2, 3, 4, 5 };
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR1, sizeof(uint8_t),
&charValue1);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR2, sizeof(uint8_t),
&charValue2);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR3, sizeof(uint8_t),
&charValue3);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR4, sizeof(uint8_t),
&charValue4);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR5, SIMPLEPROFILE_CHAR5_LEN,
charValue5);
}
// Register callback with SimpleGATTprofile
SimpleProfile_RegisterAppCBs(&trainingTag_simpleProfileCBs);
// Start the Device
VOID GAPRole_StartDevice(&trainingTag_gapRoleCBs);
// Start Bond Manager
VOID GAPBondMgr_Register(&trainingTag_BondMgrCBs);
System_printf("BLE Peripheral\r\n");
}
/*********************************************************************
* @fn Thermometer_init
*
* @brief Initialization function for the Thermometer App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notification ...).
*
* @param None.
*
* @return None.
*/
void Thermometer_init(void)
{
// ******************************************************************
// N0 STACK API CALLS CAN OCCUR BEFORE THIS CALL TO ICall_registerApp
// ******************************************************************
// Register the current thread as an ICall dispatcher application
// so that the application can send and receive messages.
ICall_registerApp(&selfEntity, &sem);
// Hard code the DB Address till CC2650 board gets its own IEEE address.
//uint8_t bdAddress[B_ADDR_LEN] = { 0x22, 0x22, 0x22, 0x22, 0x22, 0x22 };
//HCI_EXT_SetBDADDRCmd(bdAddress);
// Set device's Sleep Clock Accuracy
//HCI_EXT_SetSCACmd(40);
// Create an RTOS queue for message from profile to be sent to app.
appMsgQueue = Util_constructQueue(&appMsg);
// Setup clocks.
Util_constructClock(&startDiscoveryClock, Thermometer_clockHandler,
DEFAULT_DISCOVERY_DELAY, 0, false,
THERMOMETER_START_DISC_EVT);
Util_constructClock(&disconnectClock, Thermometer_clockHandler,
DEFAULT_TERMINATE_DELAY, 0, false,
THERMOMETER_DISCONNECT_EVT);
Util_constructClock(&perMeasClock, Thermometer_clockHandler,
DEFAULT_THERMOMETER_MEAS_DELAY, 0, false,
THERMOMETER_PERIODIC_MEAS_EVT);
Util_constructClock(&perIMeasClock, Thermometer_clockHandler,
DEFAULT_THERMOMETER_IMEAS_DELAY, 0, false,
THERMOMETER_PERIODIC_IMEAS_EVT);
// Initialize keys on the SRF06.
Board_initKeys(Thermometer_keyPressHandler);
// Setup the GAP Peripheral Role Profile.
{
// Device doesn't start advertising until button is pressed.
uint8_t initial_advertising_enable = FALSE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE.
uint16_t gapRole_AdvertOffTime = 0;
uint8_t enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16_t desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16_t desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16_t desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16_t desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters.
GAPRole_SetParameter(GAPROLE_ADVERT_ENABLED, sizeof(uint8_t),
&initial_advertising_enable);
GAPRole_SetParameter(GAPROLE_ADVERT_OFF_TIME, sizeof(uint16_t),
&gapRole_AdvertOffTime);
GAPRole_SetParameter(GAPROLE_SCAN_RSP_DATA, sizeof (scanResponseData),
scanResponseData);
GAPRole_SetParameter(GAPROLE_ADVERT_DATA, sizeof(advertData),
advertData);
GAPRole_SetParameter(GAPROLE_PARAM_UPDATE_ENABLE, sizeof(uint8_t),
&enable_update_request);
GAPRole_SetParameter(GAPROLE_MIN_CONN_INTERVAL, sizeof(uint16_t),
&desired_min_interval);
GAPRole_SetParameter(GAPROLE_MAX_CONN_INTERVAL, sizeof(uint16_t),
&desired_max_interval);
GAPRole_SetParameter(GAPROLE_SLAVE_LATENCY, sizeof(uint16_t),
&desired_slave_latency);
GAPRole_SetParameter(GAPROLE_TIMEOUT_MULTIPLIER, sizeof(uint16_t),
&desired_conn_timeout);
}
// Set the GAP Characteristics.
GGS_SetParameter(GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName);
// Setup the GAP Bond Manager.
{
uint32_t passkey = 0; // passkey "000000"
uint8_t pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8_t mitm = FALSE;
uint8_t ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8_t bonding = TRUE;
GAPBondMgr_SetParameter(GAPBOND_DEFAULT_PASSCODE, sizeof (uint32_t),
&passkey);
GAPBondMgr_SetParameter(GAPBOND_PAIRING_MODE, sizeof(uint8_t), &pairMode);
GAPBondMgr_SetParameter(GAPBOND_MITM_PROTECTION, sizeof(uint8_t), &mitm);
GAPBondMgr_SetParameter(GAPBOND_IO_CAPABILITIES, sizeof(uint8_t), &ioCap);
GAPBondMgr_SetParameter(GAPBOND_BONDING_ENABLED, sizeof(uint8_t), &bonding);
}
// Initialize GATT Client.
VOID GATT_InitClient();
// Register to receive incoming ATT Indications/Notifications.
GATT_RegisterForInd(selfEntity);
// Initialize GATT attributes.
GGS_AddService(GATT_ALL_SERVICES); // GAP
GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
// Add Thermometer services.
Thermometer_AddService(GATT_ALL_SERVICES);
// Add device info services.
DevInfo_AddService();
// Register for Thermometer service callback.
Thermometer_Register (Thermometer_serviceCB);
// Setup the Thermometer Characteristic Values.
{
uint8_t thermometerSite = THERMOMETER_TYPE_MOUTH;
thermometerIRange_t thermometerIRange= {4,60000};
Thermometer_SetParameter(THERMOMETER_TYPE, sizeof(uint8_t),
&thermometerSite);
Thermometer_SetParameter(THERMOMETER_IRANGE, sizeof(thermometerIRange_t),
&thermometerIRange);
}
// Initialize measurement storage table
memset(thStoreMeas, 0, (sizeof(attHandleValueInd_t) * TH_STORE_MAX));
// Start the Device.
VOID GAPRole_StartDevice(&thermometer_PeripheralCBs);
// Register with bond manager after starting device.
VOID GAPBondMgr_Register((gapBondCBs_t *)&thermometer_BondMgrCBs);
}
/*********************************************************************
* @fn HeartRate_Init
*
* @brief Initialization function for the Heart Rate App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void HeartRate_Init( uint8 task_id )
{
heartRate_TaskID = task_id;
// Setup the GAP Peripheral Role Profile
{
// For the CC2540DK-MINI keyfob, device doesn't start advertising until button is pressed
uint8 initial_advertising_enable = FALSE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanData ), scanData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
// Setup the GAP Bond Manager
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = FALSE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
}
// Setup the Heart Rate Characteristic Values
{
uint8 sensLoc = HEARTRATE_SENS_LOC_WRIST;
HeartRate_SetParameter( HEARTRATE_SENS_LOC, sizeof ( uint8 ), &sensLoc );
}
// Setup Battery Characteristic Values
{
uint8 critical = DEFAULT_BATT_CRITICAL_LEVEL;
Batt_SetParameter( BATT_PARAM_CRITICAL_LEVEL, sizeof (uint8 ), &critical );
}
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
HeartRate_AddService( GATT_ALL_SERVICES );
DevInfo_AddService( );
Batt_AddService( );
// Register for Heart Rate service callback
HeartRate_Register( heartRateCB );
// Register for Battery service callback;
Batt_Register ( heartRateBattCB );
// Register for all key events - This app will handle all key events
RegisterForKeys( heartRate_TaskID );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// For keyfob board set GPIO pins into a power-optimized state
// Note that there is still some leakage current from the buzzer,
// accelerometer, LEDs, and buttons on the PCB.
P0SEL = 0; // Configure Port 0 as GPIO
P1SEL = 0; // Configure Port 1 as GPIO
P2SEL = 0; // Configure Port 2 as GPIO
P0DIR = 0xFC; // Port 0 pins P0.0 and P0.1 as input (buttons),
// all others (P0.2-P0.7) as output
P1DIR = 0xFF; // All port 1 pins (P1.0-P1.7) as output
P2DIR = 0x1F; // All port 1 pins (P2.0-P2.4) as output
P0 = 0x03; // All pins on port 0 to low except for P0.0 and P0.1 (buttons)
P1 = 0; // All pins on port 1 to low
P2 = 0; // All pins on port 2 to low
// Setup a delayed profile startup
osal_set_event( heartRate_TaskID, START_DEVICE_EVT );
}
/*********************************************************************
* @fn TimeApp_Init
*
* @brief Initialization function for the Time App App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void TimeApp_Init( uint8 task_id )
{
timeAppTaskId = task_id;
// Setup the GAP Peripheral Role Profile
{
uint8 advEnable = FALSE;
uint16 advertOffTime = 0;
uint8 updateRequest = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 minInterval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 maxInterval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 slaveLatency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 connTimeout = DEFAULT_DESIRED_CONN_TIMEOUT;
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &advEnable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &advertOffTime );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &updateRequest );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &minInterval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &maxInterval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &slaveLatency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &connTimeout );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( timeAppScanData ), timeAppScanData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( timeAppAdvData ), timeAppAdvData );
}
// Setup GAP
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, timeAppDeviceName );
// Setup the GAP Bond Manager
{
uint32 passkey = DEFAULT_PASSCODE;
uint8 pairMode = DEFAULT_PAIRING_MODE;
uint8 mitm = DEFAULT_MITM_MODE;
uint8 ioCap = DEFAULT_IO_CAPABILITIES;
uint8 bonding = DEFAULT_BONDING_MODE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof( uint8 ), &bonding );
}
// Initialize GATT Client
VOID GATT_InitClient();
// Register to receive incoming ATT Indications/Notifications
GATT_RegisterForInd( timeAppTaskId );
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
// Register for all key events - This app will handle all key events
RegisterForKeys( timeAppTaskId );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// If key pressed on startup clear all stored bonds
if ( HalKeyRead() & HAL_KEY_CENTER )
{
GAPBondMgr_SetParameter( GAPBOND_ERASE_ALLBONDS, 0, 0 );
}
// Start clock update timer
osal_start_timerEx( timeAppTaskId, CLOCK_UPDATE_EVT, DEFAULT_CLOCK_UPDATE_PERIOD );
// Setup a delayed profile startup
osal_set_event( timeAppTaskId, START_DEVICE_EVT );
}
/*********************************************************************
* @fn SimpleBLEPeripheral_Init
*
* @brief Initialization function for the Simple BLE Peripheral App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void Biscuit_Init( uint8 task_id )
{
biscuit_TaskID = task_id;
// Setup the GAP
VOID GAP_SetParamValue( TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL );
// Setup the GAP Peripheral Role Profile
{
// Device starts advertising upon initialization
uint8 initial_advertising_enable = TRUE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parametersuint8 initial_advertising_enable = TRUE;
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanRspData ), scanRspData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
i2c_init();
// Set the GAP Characteristics
uint8 nameFlag = eeprom_read(4);
uint8 nameLen = eeprom_read(5);
if( (nameFlag!=1) || (nameLen>20) ) // First time power up after burning firmware
{
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
uint8 len = strlen( (char const *)attDeviceName );
TXRX_SetParameter( DEV_NAME_CHAR, len, attDeviceName );
eeprom_write(4, 1);
eeprom_write(5, len);
for(uint8 i=0; i<len; i++)
{
eeprom_write(i+8, attDeviceName[i]);
}
}
else
{
uint8 devName[GAP_DEVICE_NAME_LEN];
for(uint8 i=0; i<nameLen; i++)
{
devName[i] = eeprom_read(i+8);
}
devName[nameLen] = '\0';
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, devName );
TXRX_SetParameter( DEV_NAME_CHAR, nameLen, devName );
}
uint8 LocalName[GAP_DEVICE_NAME_LEN];
nameLen = eeprom_read(5);
for(uint8 i=0; i<nameLen; i++)
{
LocalName[i] = eeprom_read(i+8);
}
advertData[3] = nameLen + 1;
osal_memcpy(&advertData[5], LocalName, nameLen);
osal_memset(&advertData[nameLen+5], 0, 31-5-nameLen);
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MAX, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MAX, advInt );
}
// Setup the GAP Bond Manager
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
}
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
//DevInfo_AddService(); // Device Information Service
TXRX_AddService( GATT_ALL_SERVICES ); // Simple GATT Profile
#if defined FEATURE_OAD
VOID OADTarget_AddService(); // OAD Profile
#endif
#if defined( CC2540_MINIDK )
// Register for all key events - This app will handle all key events
RegisterForKeys( biscuit_TaskID );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// For keyfob board set GPIO pins into a power-optimized state
// Note that there is still some leakage current from the buzzer,
// accelerometer, LEDs, and buttons on the PCB.
P0SEL = 0; // Configure Port 0 as GPIO
P1SEL = 0; // Configure Port 1 as GPIO
P2SEL = 0; // Configure Port 2 as GPIO
P0DIR = 0xFC; // Port 0 pins P0.0 and P0.1 as input (buttons),
// all others (P0.2-P0.7) as output
P1DIR = 0xFF; // All port 1 pins (P1.0-P1.7) as output
P2DIR = 0x1F; // All port 1 pins (P2.0-P2.4) as output
P0 = 0x03; // All pins on port 0 to low except for P0.0 and P0.1 (buttons)
P1 = 0; // All pins on port 1 to low
P2 = 0; // All pins on port 2 to low
#endif // #if defined( CC2540_MINIDK )
// Register callback with TXRXService
VOID TXRX_RegisterAppCBs( &biscuit_TXRXServiceCBs );
// Enable clock divide on halt
// This reduces active current while radio is active and CC254x MCU
// is halted
// HCI_EXT_ClkDivOnHaltCmd( HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT );
// Initialize serial interface
P1SEL = 0x30;
P1DIR |= 0x02;
P1_1 = 1;
PERCFG |= 1;
NPI_InitTransport(dataHandler);
uint8 flag, baud;
uint8 value;
flag = eeprom_read(0);
baud = eeprom_read(1);
if( flag!=1 || baud>4 ) // First time power up after burning firmware
{
U0GCR &= 0xE0; // Default baudrate 57600
U0GCR |= 0x0A;
U0BAUD = 216;
value = 3;
eeprom_write(0, 1);
eeprom_write(1, 3);
}
else
{
switch(baud)
{
case 0: //9600
{
U0GCR &= 0xE0;
U0GCR |= 0x08;
U0BAUD = 59;
value = 0;
break;
}
case 1: //19200
{
U0GCR &= 0xE0;
U0GCR |= 0x09;
U0BAUD = 59;
value = 1;
break;
}
case 2: //38400
{
U0GCR &= 0xE0;
U0GCR |= 0x0A;
U0BAUD = 59;
value = 2;
break;
}
case 3: //57600
{
U0GCR &= 0xE0;
U0GCR |= 0x0A;
U0BAUD = 216;
value = 3;
break;
}
case 4: //115200
{
U0GCR &= 0xE0;
U0GCR |= 0x0B;
U0BAUD = 216;
value = 4;
break;
}
default:
break;
}
}
TXRX_SetParameter( BAUDRATE_CHAR, 1, &value );
uint8 flag2, txpwr;
flag2 = eeprom_read(2);
txpwr = eeprom_read(3);
if( flag2!=1 || txpwr>3 ) // First time power up after burning firmware
{
HCI_EXT_SetTxPowerCmd( HCI_EXT_TX_POWER_0_DBM );
txpwr = HCI_EXT_TX_POWER_0_DBM;
eeprom_write(2, 1);
eeprom_write(3, HCI_EXT_TX_POWER_0_DBM);
}
else
{
HCI_EXT_SetTxPowerCmd( txpwr );
}
TXRX_SetParameter( TX_POWER_CHAR, 1, &txpwr );
// Setup a delayed profile startup
osal_set_event( biscuit_TaskID, SBP_START_DEVICE_EVT );
}
/*********************************************************************
* @fn HostTestApp_init
*
* @brief Called during initialization and contains application
* specific initialization (ie. hardware initialization/setup,
* table initialization, power up notification, etc), and
* profile initialization/setup.
*
* @param none
*
* @return none
*/
static void HostTestApp_init(void)
{
// Register the current thread as an ICall dispatcher application
// so that the application can send and receive messages.
ICall_registerApp(&selfEntity, &sem);
// Set device's Sleep Clock Accuracy
//HCI_EXT_SetSCACmd(40);
Board_openLCD();
// Register for unprocessed HCI/Host event messages
GAP_RegisterForMsgs(selfEntity);
// Initialize GATT Client
VOID GATT_InitClient();
// Get build revision
VOID Util_buildRevision(&buildRev);
#if !defined ( GATT_DB_OFF_CHIP )
#if defined ( GATT_QUAL )
VOID GATTQual_AddService( GATT_ALL_SERVICES ); // Includes GAP and GATT Services
#else
// Add our services to GATT Server
VOID GGS_AddService( GATT_ALL_SERVICES );
VOID GATTServApp_AddService( GATT_ALL_SERVICES );
#if defined ( GATT_TEST )
VOID GATTTest_AddService( GATT_ALL_SERVICES );
#endif
#endif
// Set device name
if ((buildRev.hostInfo & CENTRAL_CFG) && (buildRev.hostInfo & PERIPHERAL_CFG))
{
memcpy(deviceName, "TI BLE All", 10);
}
else if (buildRev.hostInfo & CENTRAL_CFG)
{
memcpy(deviceName, "TI BLE Central", 14);
}
else if (buildRev.hostInfo & PERIPHERAL_CFG)
{
memcpy(deviceName, "TI BLE Peripheral", 17);
}
else
{
memcpy(deviceName, "TI BLE Unknown", 14);
}
VOID GGS_SetParameter(GGS_DEVICE_NAME_ATT, strlen((char *)deviceName), deviceName);
VOID GGS_SetParameter(GGS_APPEARANCE_ATT, sizeof(uint16), (void*)&appearance);
#endif // GATT_DB_OFF_CHIP
LCD_WRITE_STRING("TI BLEv2.0", LCD_PAGE0);
LCD_WRITE_STRING("HostTestApp", LCD_PAGE1);
// Display Host build configuration
if ((buildRev.hostInfo & CENTRAL_CFG) && (buildRev.hostInfo & PERIPHERAL_CFG))
{
LCD_WRITE_STRING("All", LCD_PAGE2);
}
else if ((buildRev.hostInfo & CENTRAL_CFG) &&
(buildRev.hostInfo & BROADCASTER_CFG))
{
LCD_WRITE_STRING("Cent+Bcast", LCD_PAGE2);
}
else if ((buildRev.hostInfo & PERIPHERAL_CFG) &&
(buildRev.hostInfo & OBSERVER_CFG))
{
LCD_WRITE_STRING("Peri+Observ", LCD_PAGE2);
}
else if (buildRev.hostInfo & CENTRAL_CFG)
{
LCD_WRITE_STRING("Central", LCD_PAGE2);
}
else if (buildRev.hostInfo & PERIPHERAL_CFG)
{
LCD_WRITE_STRING("Peripheral", LCD_PAGE2);
}
else
{
LCD_WRITE_STRING_VALUE("Unknown build cfg", buildRev.hostInfo, 10, LCD_PAGE2);
}
}
/*********************************************************************
* @fn SimpleBLEPeripheral_Init
*
* @brief Initialization function for the Simple BLE Peripheral App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SimpleBLEPeripheral_Init( uint8 task_id )
{
simpleBLEPeripheral_TaskID = task_id;
// Setup the GAP
VOID GAP_SetParamValue( TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL );
// Setup the GAP Peripheral Role Profile
{
//first turn off advertisement
uint8 initial_advertising_enable = TRUE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanRspData ), scanRspData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MAX, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MAX, advInt );
}
// Setup the GAP Bond Manager
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
}
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
DevInfo_AddService(); // Device Information Service
SimpleProfile_AddService( GATT_ALL_SERVICES ); // Simple GATT Profile
#if defined FEATURE_OAD
VOID OADTarget_AddService(); // OAD Profile
#endif
// Setup the SimpleProfile Characteristic Values
{
uint8 charValue1[SIMPLEPROFILE_CHAR1_LEN] = dB_DevID(0x0001) ;
uint8 charValue2[SIMPLEPROFILE_CHAR2_LEN] ={0};
//uint8 charValue3 = 3;
uint8 charValue4 = 4;
uint8 charValue5[SIMPLEPROFILE_CHAR5_LEN] = {0};
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR1, SIMPLEPROFILE_CHAR1_LEN, charValue1 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR2, SIMPLEPROFILE_CHAR2_LEN, charValue2 );
//SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR3, sizeof ( uint8 ), &charValue3 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR4, sizeof ( uint8 ), &charValue4 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR5, SIMPLEPROFILE_CHAR5_LEN, charValue5 );
}
#if defined (SERIAL_INTERFACE)
UART_SEND_STRING( "BLE Peripheral\r\n", 16 );
#endif
#if (defined HAL_LCD) && (HAL_LCD == TRUE)
#if defined FEATURE_OAD
#if defined (HAL_IMAGE_A)
HalLcdWriteStringValue( "BLE Peri-A", OAD_VER_NUM( _imgHdr.ver ), 16, HAL_LCD_LINE_1 );
#else
HalLcdWriteStringValue( "BLE Peri-B", OAD_VER_NUM( _imgHdr.ver ), 16, HAL_LCD_LINE_1 );
#endif // HAL_IMAGE_A
#else
HalLcdWriteString( "BLE Peripheral", HAL_LCD_LINE_1 );
#endif // FEATURE_OAD
#endif // (defined HAL_LCD) && (HAL_LCD == TRUE)
// Register callback with SimpleGATTprofile
VOID SimpleProfile_RegisterAppCBs( &simpleBLEPeripheral_SimpleProfileCBs );
// Enable clock divide on halt
// This reduces active current while radio is active and CC254x MCU
// is halted
HCI_EXT_ClkDivOnHaltCmd( HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT );
// Setup a delayed profile startup
osal_set_event( simpleBLEPeripheral_TaskID, SBP_START_DEVICE_EVT );
//call in order to allow more CPU time for driver
HCI_EXT_HaltDuringRfCmd(HCI_EXT_HALT_DURING_RF_DISABLE);
// << Wayne >> << Clock >> ++
// Start clock update timer
osal_start_timerEx( simpleBLEPeripheral_TaskID, SBP_CLOCK_UPDATE_EVT, DEFAULT_CLOCK_UPDATE_PERIOD );
// << Wayne >> << Clock >> --
//
}
/*********************************************************************
* @fn SensorTag_Init
*
* @brief Initialization function for the Simple BLE Peripheral App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SensorTag_Init( uint8 task_id )
{
sensorTag_TaskID = task_id;
// Setup the GAP
VOID GAP_SetParamValue( TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL );
// Setup the GAP Peripheral Role Profile
{
// Device starts advertising upon initialization
uint8 initial_advertising_enable = FALSE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanRspData ), scanRspData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, sizeof(attDeviceName), attDeviceName );
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MAX, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MAX, advInt );
}
// Setup the GAP Bond Manager
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
}
// Add services
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
DevInfo_AddService(); // Device Information Service
IRTemp_AddService (GATT_ALL_SERVICES ); // IR Temperature Service
Accel_AddService (GATT_ALL_SERVICES ); // Accelerometer Service
Humidity_AddService (GATT_ALL_SERVICES ); // Humidity Service
Magnetometer_AddService( GATT_ALL_SERVICES ); // Magnetometer Service
Barometer_AddService( GATT_ALL_SERVICES ); // Barometer Service
Gyro_AddService( GATT_ALL_SERVICES ); // Gyro Service
SK_AddService( GATT_ALL_SERVICES ); // Simple Keys Profile
Test_AddService( GATT_ALL_SERVICES ); // Test Profile
CcService_AddService( GATT_ALL_SERVICES ); // Connection Control Service
#if defined FEATURE_OAD
VOID OADTarget_AddService(); // OAD Profile
#endif
// Setup the Seensor Profile Characteristic Values
resetCharacteristicValues();
// Register for all key events - This app will handle all key events
RegisterForKeys( sensorTag_TaskID );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// Initialise sensor drivers
HALIRTempInit();
HalHumiInit();
HalMagInit();
HalAccInit();
HalBarInit();
HalGyroInit();
// Register callbacks with profile
VOID IRTemp_RegisterAppCBs( &sensorTag_IrTempCBs );
VOID Magnetometer_RegisterAppCBs( &sensorTag_MagnetometerCBs );
VOID Accel_RegisterAppCBs( &sensorTag_AccelCBs );
VOID Humidity_RegisterAppCBs( &sensorTag_HumidCBs );
VOID Barometer_RegisterAppCBs( &sensorTag_BarometerCBs );
VOID Gyro_RegisterAppCBs( &sensorTag_GyroCBs );
VOID Test_RegisterAppCBs( &sensorTag_TestCBs );
VOID CcService_RegisterAppCBs( &sensorTag_ccCBs );
VOID GAPRole_RegisterAppCBs( ¶mUpdateCB );
// Enable clock divide on halt
// This reduces active current while radio is active and CC254x MCU
// is halted
HCI_EXT_ClkDivOnHaltCmd( HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT );
// Setup a delayed profile startup
osal_set_event( sensorTag_TaskID, ST_START_DEVICE_EVT );
}
/*********************************************************************
* @fn SimpleBLEPeripheral_Init
*
* @brief Initialization function for the Simple BLE Peripheral App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SimpleBLEPeripheral_Init( uint8 task_id )
{
simpleBLEPeripheral_TaskID = task_id;
// Setup the GAP
VOID GAP_SetParamValue( TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL );
// Setup the GAP Peripheral Role Profile
{
#if defined( CC2540_MINIDK )
// For the CC2540DK-MINI keyfob, device doesn't start advertising until button is pressed
uint8 initial_advertising_enable = FALSE;
#else
// For other hardware platforms, device starts advertising upon initialization
uint8 initial_advertising_enable = TRUE;
#endif
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanRspData ), scanRspData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
//ÉèÖÃRSSI »ñÈ¡ËÙÂÊ
uint16 rssi_rate = RSSI_RATE;
GAPRole_SetParameter(GAPROLE_RSSI_READ_RATE,sizeof(uint16),&rssi_rate);
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_LIM_DISC_ADV_INT_MAX, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MIN, advInt );
GAP_SetParamValue( TGAP_GEN_DISC_ADV_INT_MAX, advInt );
}
// Setup the GAP Bond Manager
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
}
// Initialize GATT attributes Ìí¼ÓÁË4¸öService ·þÎñ
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
DevInfo_AddService(); // Device Information Service
SimpleProfile_AddService( GATT_ALL_SERVICES ); // Simple GATT Profile ankiÐèÒªÐ޸ĵķþÎñ
#if defined FEATURE_OAD
VOID OADTarget_AddService(); // OAD Profile
#endif
// Setup the SimpleProfile Characteristic Values
{
//³õʼ»¯±àÒë½øÈ¥µÄµÆ¹âÑÕÉ«
uint8 charValue1[20] = {0, 1,255,100,100,255,255,255, 20,1,1,255,1,200, 20,100,100,20,100,10};
uint8 charValue2[20] = {20,1,1,20,1,1,20,1,250,20,1,250,20,1,250,20,1,250,1};
uint8 charValue3 = 3;
uint8 charValue4 = 4;
uint8 charValue5[SIMPLEPROFILE_CHAR5_LEN] = { 1, 2, 3, 4, 5 };
#if (defined HAL_LCD) && (HAL_LCD == TRUE)
//´ÓÎļþÖжÁÈ¡
uint8 wirteTag = osal_snv_read(0x80,20,charValue1);
osal_snv_read(0x95,20,charValue2);
if( wirteTag == SUCCESS){
HalLcdWriteStringValue("read Ok",(uint16)wirteTag,10, HAL_LCD_LINE_6 );
}else{
HalLcdWriteStringValue("read failed",(uint16)wirteTag,10, HAL_LCD_LINE_6 );
//½øÐгõʼ»¯
wirteTag = osal_snv_write(0x80,20,charValue1);
osal_snv_write(0x95,20,charValue1);
if(wirteTag == SUCCESS){
HalLcdWriteStringValue( "init", (uint16)wirteTag, 10, HAL_LCD_LINE_7 );
}else{
HalLcdWriteStringValue("init failed", (uint16)wirteTag,10, HAL_LCD_LINE_7 );
}
}
#else
if( osal_snv_read(0x80,20,charValue1) != SUCCESS){
//½øÐгõʼ»¯
//osal_snv_write(0x80,20,charValue1);
//HalLcdWriteStringValue( "rece:", osal_snv_write(0x80,20,charValue1), 10, HAL_LCD_LINE_8 );
osal_snv_write(0x95,20,charValue2);
}
#endif // (defined HAL_LCD) && (HAL_LCD == TRUE)
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR1, 20, &charValue1 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR2, 20, &charValue2 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR3, sizeof ( uint8 ), &charValue3 );
//Ç°Ãæ3¾äÖ»ÊǶԶÔÏóÖµµÄÉèÖã¬Õâ¾ä´úÂë ½øÐÐÁË£¬ServiceµÄcharacteristicÉèÖã¬Process Client Characteristis Configuration Change
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR4, sizeof ( uint8 ), &charValue4 );
SimpleProfile_SetParameter( SIMPLEPROFILE_CHAR5, SIMPLEPROFILE_CHAR5_LEN, charValue5 );
}
#if defined( CC2540_MINIDK )
SK_AddService( GATT_ALL_SERVICES ); // Simple Keys Profile
// Register for all key events - This app will handle all key events¡£ ×¢²á°´Å¥Ê¼þ£¬OSAL´¦Àí°´Å¥Ê¼þ
RegisterForKeys( simpleBLEPeripheral_TaskID );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
#endif // #if defined( CC2540_MINIDK )
#if (defined HAL_LCD) && (HAL_LCD == TRUE)
#if defined FEATURE_OAD
#if defined (HAL_IMAGE_A)
HalLcdWriteStringValue( "BLE Peri-A", OAD_VER_NUM( _imgHdr.ver ), 16, HAL_LCD_LINE_1 );
#else
HalLcdWriteStringValue( "BLE Peri-B", OAD_VER_NUM( _imgHdr.ver ), 16, HAL_LCD_LINE_1 );
#endif // HAL_IMAGE_A
#else
HalLcdWriteString( "BLE Peripheral", HAL_LCD_LINE_1 );
#endif // FEATURE_OAD
#endif // (defined HAL_LCD) && (HAL_LCD == TRUE)
// Register callback with SimpleGATTprofile
// ¸Ã»Øµ÷±» simpleProfile_WriteAttrCB ·½·¨´¥·¢£¬simpleProfileCBs °üº¬´Ë·½·¨£¬ÔÚSimpleProfile_AddService µÄʱºò×¢²áµ½GATTÐÒéÕ»·þÎñÖÐ
//Öµ¸Ä±äÖ®ºó£¬Í¨Öª PROFILES--->SimpleProfileCBs.simpleProfile_WriteAttrCB È»ºóÔÙ֪ͨAPP--->simpleBLEPeripheral_SimpleProfileCBs
VOID SimpleProfile_RegisterAppCBs( &simpleBLEPeripheral_SimpleProfileCBs );
// Enable clock divide on halt
// This reduces active current while radio is active and CC254x MCU
// is halted
//²»É¾³ý PWM²»Îȶ¨
//HCI_EXT_ClkDivOnHaltCmd( HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT );
#if defined ( DC_DC_P0_7 )
// Enable stack to toggle bypass control on TPS62730 (DC/DC converter)
HCI_EXT_MapPmIoPortCmd( HCI_EXT_PM_IO_PORT_P0, HCI_EXT_PM_IO_PORT_PIN7 );
#endif // defined ( DC_DC_P0_7 )
// Setup a delayed profile startup ·¢ÆðBLEÁ¬½Ó³õʼ»¯Ïà¹Ø·þÎñ¡£ÏÂÃæ·½·¨¶Ô SBP_START_DEVICE_EVT ʼþ½øÐд¦Àí
osal_set_event( simpleBLEPeripheral_TaskID, SBP_START_DEVICE_EVT );
}
/*********************************************************************
* @fn Thermometer_Init
*
* @brief Initialization function for the Thermometer App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void Thermometer_Init( uint8 task_id )
{
thermometerTaskId = task_id;
/* Use for testing if chip default is 0xFFFFFF
static uint8 bdAddress[6] = {0x1,0x2,0x3,0x4,0x5,0x6};
HCI_EXT_SetBDADDRCmd(bdAddress);
*/
// Setup the GAP Peripheral Role Profile
{
// Device doesn't start advertising until button is pressed
uint8 initial_advertising_enable = FALSE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanResponseData ), scanResponseData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
// Setup the GAP Bond Manager
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = FALSE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
}
// Setup the Thermometer Characteristic Values
{
uint8 thermometerSite = THERMOMETER_TYPE_MOUTH;
Thermometer_SetParameter( THERMOMETER_TYPE, sizeof ( uint8 ), &thermometerSite );
thermometerIRange_t thermometerIRange= {4,60};
Thermometer_SetParameter( THERMOMETER_IRANGE, sizeof ( uint16 ), &thermometerIRange );
}
// Stop config reads when done
timeConfigDone = FALSE;
// Initialize GATT Client
VOID GATT_InitClient();
// Register to receive incoming ATT Indications/Notifications
GATT_RegisterForInd( thermometerTaskId );
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
Thermometer_AddService( GATT_ALL_SERVICES );
DevInfo_AddService( );
// Register for Thermometer service callback
Thermometer_Register ( thermometerCB );
// Register for all key events - This app will handle all key events
RegisterForKeys( thermometerTaskId );
#if defined( CC2540_MINIDK )
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// For keyfob board set GPIO pins into a power-optimized state
// Note that there is still some leakage current from the buzzer,
// accelerometer, LEDs, and buttons on the PCB.
P0SEL = 0; // Configure Port 0 as GPIO
P1SEL = 0; // Configure Port 1 as GPIO
P2SEL = 0; // Configure Port 2 as GPIO
P0DIR = 0xFC; // Port 0 pins P0.0 and P0.1 as input (buttons),
// all others (P0.2-P0.7) as output
P1DIR = 0xFF; // All port 1 pins (P1.0-P1.7) as output
P2DIR = 0x1F; // All port 1 pins (P2.0-P2.4) as output
P0 = 0x03; // All pins on port 0 to low except for P0.0 and P0.1 (buttons)
P1 = 0; // All pins on port 1 to low
P2 = 0; // All pins on port 2 to low
#endif // #if defined( CC2540_MINIDK )
// Setup a delayed profile startup
osal_set_event( thermometerTaskId, TH_START_DEVICE_EVT );
}
/*********************************************************************
* @fn HeartRate_init
*
* @brief Initialization function for the Heart Rate application thread.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notification ...).
*
* @param none
*
* @return none
*/
void HeartRate_init(void)
{
// ******************************************************************
// N0 STACK API CALLS CAN OCCUR BEFORE THIS CALL TO ICall_registerApp
// ******************************************************************
// Register the current thread as an ICall dispatcher application
// so that the application can send and receive messages.
ICall_registerApp(&selfEntity, &sem);
// Hard code the DB Address till CC2650 board gets its own IEEE address.
//uint8_t bdAddress[B_ADDR_LEN] = { 0x22, 0x22, 0x22, 0x22, 0x22, 0x22 };
//HCI_EXT_SetBDADDRCmd(bdAddress);
// Set device's Sleep Clock Accuracy
//HCI_EXT_SetSCACmd(40);
// Create an RTOS queue for message from profile to be sent to app.
appMsgQueue = Util_constructQueue(&appMsg);
// Create one-shot clocks for internal periodic events.
Util_constructClock(&measPerClock, HeartRate_clockHandler,
DEFAULT_HEARTRATE_PERIOD, 0, false,
HEARTRATE_MEAS_PERIODIC_EVT);
Util_constructClock(&battPerClock, HeartRate_clockHandler,
DEFAULT_BATT_PERIOD, 0, false,
HEARTRATE_BATT_PERIODIC_EVT);
// Initialize keys on SRF06.
Board_initKeys(HeartRate_keyPressHandler);
// Setup the GAP Peripheral Role Profile.
{
#if ADVERTISE_WHEN_NOT_CONNECTED
uint8_t initial_advertising_enable = TRUE;
#else
// Press right key to initiate advertising and measurement.
uint8_t initial_advertising_enable = FALSE;
#endif //ADVERTISE_WHEN_NOT_CONNECTED
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE.
uint16_t gapRole_AdvertOffTime = 0;
uint8_t enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16_t desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16_t desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16_t desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16_t desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters.
GAPRole_SetParameter(GAPROLE_ADVERT_ENABLED, sizeof(uint8_t),
&initial_advertising_enable);
GAPRole_SetParameter(GAPROLE_ADVERT_OFF_TIME, sizeof(uint16_t),
&gapRole_AdvertOffTime);
GAPRole_SetParameter(GAPROLE_SCAN_RSP_DATA, sizeof (scanData),
scanData);
GAPRole_SetParameter(GAPROLE_ADVERT_DATA, sizeof(advertData),
advertData);
GAPRole_SetParameter(GAPROLE_PARAM_UPDATE_ENABLE, sizeof(uint8_t),
&enable_update_request);
GAPRole_SetParameter(GAPROLE_MIN_CONN_INTERVAL, sizeof(uint16_t),
&desired_min_interval);
GAPRole_SetParameter(GAPROLE_MAX_CONN_INTERVAL, sizeof(uint16_t),
&desired_max_interval);
GAPRole_SetParameter(GAPROLE_SLAVE_LATENCY, sizeof(uint16_t),
&desired_slave_latency);
GAPRole_SetParameter(GAPROLE_TIMEOUT_MULTIPLIER, sizeof(uint16_t),
&desired_conn_timeout);
}
// Set the GAP Characteristics.
GGS_SetParameter(GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName);
// Setup the GAP Bond Manager.
{
uint32 passkey = 0; // passkey "000000"
uint8_t pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8_t mitm = FALSE;
uint8_t ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8_t bonding = TRUE;
GAPBondMgr_SetParameter(GAPBOND_DEFAULT_PASSCODE, sizeof (uint32),
&passkey);
GAPBondMgr_SetParameter(GAPBOND_PAIRING_MODE, sizeof (uint8_t),
&pairMode);
GAPBondMgr_SetParameter(GAPBOND_MITM_PROTECTION, sizeof (uint8_t), &mitm);
GAPBondMgr_SetParameter(GAPBOND_IO_CAPABILITIES, sizeof (uint8_t),
&ioCap);
GAPBondMgr_SetParameter(GAPBOND_BONDING_ENABLED, sizeof (uint8_t),
&bonding);
}
// Initialize GATT attributes.
GGS_AddService(GATT_ALL_SERVICES); // GAP
GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
// Add heart rate service.
HeartRate_AddService(GATT_ALL_SERVICES);
// Add device info service.
DevInfo_AddService();
// Add battery service.
Batt_AddService();
// Setup the Heart Rate Characteristic Values.
{
uint8_t sensLoc = HEARTRATE_SENS_LOC_WRIST;
HeartRate_SetParameter(HEARTRATE_SENS_LOC, sizeof (uint8_t), &sensLoc);
}
// Setup Battery Characteristic Values.
{
uint8_t critical = DEFAULT_BATT_CRITICAL_LEVEL;
Batt_SetParameter(BATT_PARAM_CRITICAL_LEVEL, sizeof(uint8_t), &critical);
}
// Register for Heart Rate service callback.
HeartRate_Register(&HeartRate_serviceCB);
// Register for Battery service callback.
Batt_Register (&HeartRate_battCB);
// Start the Device.
GAPRole_StartDevice(&heartRatePeripheralCB);
// Start the Bond Manager.
GAPBondMgr_Register((gapBondCBs_t *)&heartRateBondCB);
}
/*********************************************************************
* @fn RunningSensor_Init
*
* @brief Initialization function for the Running App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void RunningSensor_Init( uint8 task_id )
{
sensor_TaskID = task_id;
// Setup the GAP Peripheral Role Profile
{
// For the CC2540DK-MINI keyfob, device doesn't start advertising until button is pressed
uint8 initial_advertising_enable = FALSE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( scanData ), scanData );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
// Set the GAP Characteristics
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
// Setup the GAP Bond Manager
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = DEFAULT_PAIRING_PARAMETER;
uint8 mitm = FALSE;
uint8 ioCap = GAPBOND_IO_CAP_NO_INPUT_NO_OUTPUT;
uint8 bonding = REQ_BONDING;
uint8 autoSync = USING_WHITE_LIST;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof ( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
GAPBondMgr_SetParameter( GAPBOND_AUTO_SYNC_WL, sizeof ( uint8 ), &autoSync );
}
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
Running_AddService( GATT_ALL_SERVICES );
DevInfo_AddService( );
// Register for running service callback
Running_Register( SensorCB );
// Setup RSC profile data
{
uint16 features = RSC_FULL_SUPPORT;
uint8 sensorLocationCurrent = RSC_SENSOR_LOC_0;
uint8 sensorLocation1 = RSC_SENSOR_LOC_0;
uint8 sensorLocation2 = RSC_SENSOR_LOC_1;
uint8 sensorLocation3 = RSC_SENSOR_LOC_2;
uint8 sensorLocation4 = RSC_SENSOR_LOC_3;
// Add available sensor locations
Running_SetParameter(RSC_AVAIL_SENS_LOCS, sizeof( uint8 ), &sensorLocation1);
Running_SetParameter(RSC_AVAIL_SENS_LOCS, sizeof( uint8 ), &sensorLocation2);
Running_SetParameter(RSC_AVAIL_SENS_LOCS, sizeof( uint8 ), &sensorLocation3);
Running_SetParameter(RSC_AVAIL_SENS_LOCS, sizeof( uint8 ), &sensorLocation4);
// Set sensor location
Running_SetParameter(RSC_SENS_LOC, sizeof( uint8 ), &sensorLocationCurrent);
// Support all features
Running_SetParameter(RSC_FEATURE, sizeof( uint16 ), &features);
}
// Register for all key events - This app will handle all key events
RegisterForKeys( sensor_TaskID );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// For keyfob board set GPIO pins into a power-optimized state
// Note that there is still some leakage current from the buzzer,
// accelerometer, LEDs, and buttons on the PCB.
P0SEL = 0; // Configure Port 0 as GPIO
P1SEL = 0; // Configure Port 1 as GPIO
P2SEL = 0; // Configure Port 2 as GPIO
P0DIR = 0xFC; // Port 0 pins P0.0 and P0.1 as input (buttons),
// all others (P0.2-P0.7) as output
P1DIR = 0xFF; // All port 1 pins (P1.0-P1.7) as output
P2DIR = 0x1F; // All port 1 pins (P2.0-P2.4) as output
P0 = 0x03; // All pins on port 0 to low except for P0.0 and P0.1 (buttons)
P1 = 0; // All pins on port 1 to low
P2 = 0; // All pins on port 2 to low
// Setup a delayed profile startup
osal_set_event( sensor_TaskID, START_DEVICE_EVT );
}
/**
* @fn SensorTag_Init
*
* @brief Initialization function for the Simple BLE Peripheral App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ...).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SensorTag_Init(uint8 task_id)
{
sensorTag_TaskID = task_id;
// Setup the GAP
GAP_SetParamValue(TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL);
// Setup the GAP Peripheral Role Profile
{
// Device starts advertising upon initialization
uint8 current_adv_status = FALSE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter(GAPROLE_ADVERT_ENABLED, sizeof(uint8), ¤t_adv_status);
GAPRole_SetParameter(GAPROLE_ADVERT_OFF_TIME, sizeof(uint16), &gapRole_AdvertOffTime);
GAPRole_SetParameter(GAPROLE_SCAN_RSP_DATA, sizeof(scanRspData), scanRspData);
GAPRole_SetParameter(GAPROLE_ADVERT_DATA, sizeof(advertData), advertData);
GAPRole_SetParameter(GAPROLE_PARAM_UPDATE_ENABLE, sizeof(uint8), &enable_update_request);
GAPRole_SetParameter(GAPROLE_MIN_CONN_INTERVAL, sizeof(uint16), &desired_min_interval);
GAPRole_SetParameter(GAPROLE_MAX_CONN_INTERVAL, sizeof(uint16), &desired_max_interval);
GAPRole_SetParameter(GAPROLE_SLAVE_LATENCY, sizeof(uint16), &desired_slave_latency);
GAPRole_SetParameter(GAPROLE_TIMEOUT_MULTIPLIER, sizeof(uint16), &desired_conn_timeout);
}
// Set the GAP Characteristics
GGS_SetParameter(GGS_DEVICE_NAME_ATT, sizeof(attDeviceName), attDeviceName);
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
uint16 advTO = DEFAULT_ADVERT_MAX_TIMEOUT;
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MAX, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MAX, advInt);
GAP_SetParamValue(TGAP_LIM_ADV_TIMEOUT, advTO);
}
// Setup the GAP Bond Manager
#if !defined(GAPBONDMGR_NO_SUPPORT)
{
uint32 passkey = 0; // passkey "000000"
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter(GAPBOND_DEFAULT_PASSCODE, sizeof(uint32), &passkey);
GAPBondMgr_SetParameter(GAPBOND_PAIRING_MODE, sizeof(uint8), &pairMode);
GAPBondMgr_SetParameter(GAPBOND_MITM_PROTECTION, sizeof(uint8), &mitm);
GAPBondMgr_SetParameter(GAPBOND_IO_CAPABILITIES, sizeof(uint8), &ioCap);
GAPBondMgr_SetParameter(GAPBOND_BONDING_ENABLED, sizeof(uint8), &bonding);
}
#endif
// Add services
GGS_AddService(GATT_ALL_SERVICES); // GAP
GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
DevInfo_AddService(); // Device Information Service
ptProfile_AddService(); // ProTrack Profile
Batt_AddService(); // battery profile
#if defined FEATURE_OAD
OADTarget_AddService(); // OAD Profile
#endif
// Setup the Sensor Profile Characteristic Values
// Register for all key events - This app will handle all key events
RegisterForKeys(sensorTag_TaskID);
// makes sure LEDs are off
HalLedSet((HAL_LED_ALL), HAL_LED_MODE_OFF);
// Initialise UART
uart_init();
BATCD_SEL &= ~BATCD_BV; // for battery charge detect pin by UART switch to peripheral function
// Initialise sensor drivers
// kxti9_init();
hash_rst();
// Register callbacks with profile
ptProfile_RegisterAppCBs(&ptServ1CBs);
// Enable clock divide on halt
// This reduces active current while radio is active and CC254x MCU
// is halted
HCI_EXT_ClkDivOnHaltCmd(HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT);
// Setup a delayed profile startup
osal_set_event(sensorTag_TaskID, EVT_START_DEVICE);
}
/*********************************************************************
* @fn simpleTopology_init
*
* @brief Called during initialization and contains application
* specific initialization (ie. hardware initialization/setup,
* table initialization, power up notification, etc), and
* profile initialization/setup.
*
* @param None.
*
* @return None.
*/
static void simpleTopology_init(void)
{
// ******************************************************************
// N0 STACK API CALLS CAN OCCUR BEFORE THIS CALL TO ICall_registerApp
// ******************************************************************
// Register the current thread as an ICall dispatcher application
// so that the application can send and receive messages.
ICall_registerApp(&selfEntity, &sem);
// Create an RTOS queue for message from profile to be sent to app.
appMsgQueue = Util_constructQueue(&appMsg);
// Setup discovery delay as a one-shot timer
Util_constructClock(&startDiscClock, simpleTopology_startDiscHandler,
DEFAULT_SVC_DISCOVERY_DELAY, 0, false, 0);
//init keys and LCD
Board_initKeys(simpleTopology_keyChangeHandler);
Board_openLCD();
// Setup the GAP
{
/*-------------------PERIPHERAL-------------------*/
uint16_t advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue(TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL);
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MAX, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MAX, advInt);
/*-------------------CENTRAL-------------------*/
GAP_SetParamValue(TGAP_GEN_DISC_SCAN, DEFAULT_SCAN_DURATION);
GAP_SetParamValue(TGAP_CONN_SCAN_INT, DEFAULT_SCAN_INT);
GAP_SetParamValue(TGAP_CONN_SCAN_WIND, DEFAULT_SCAN_WIND);
GAP_SetParamValue(TGAP_CONN_HIGH_SCAN_INT, DEFAULT_SCAN_INT);
GAP_SetParamValue(TGAP_CONN_HIGH_SCAN_WIND, DEFAULT_SCAN_WIND);
GAP_SetParamValue(TGAP_GEN_DISC_SCAN_INT, DEFAULT_SCAN_INT);
GAP_SetParamValue(TGAP_GEN_DISC_SCAN_WIND, DEFAULT_SCAN_WIND);
GAP_SetParamValue(TGAP_LIM_DISC_SCAN_INT, DEFAULT_SCAN_INT);
GAP_SetParamValue(TGAP_LIM_DISC_SCAN_WIND, DEFAULT_SCAN_WIND);
GAP_SetParamValue(TGAP_CONN_EST_SCAN_INT, DEFAULT_SCAN_INT);
GAP_SetParamValue(TGAP_CONN_EST_SCAN_WIND, DEFAULT_SCAN_WIND);
GAP_SetParamValue(TGAP_CONN_EST_INT_MIN, DEFAULT_CONN_INT);
GAP_SetParamValue(TGAP_CONN_EST_INT_MAX, DEFAULT_CONN_INT);
GAP_SetParamValue(TGAP_CONN_EST_SUPERV_TIMEOUT, DEFAULT_CONN_TIMEOUT);
GAP_SetParamValue(TGAP_CONN_EST_LATENCY, DEFAULT_CONN_LATENCY);
}
// Setup the GAP Role Profile
{
/*--------PERIPHERAL-------------*/
// For all hardware platforms, device starts advertising upon initialization
uint8_t initialAdvertEnable = TRUE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16_t advertOffTime = 0;
uint16_t desiredMinInterval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16_t desiredMaxInterval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16_t desiredSlaveLatency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16_t desiredConnTimeout = DEFAULT_DESIRED_CONN_TIMEOUT;
GAPRole_SetParameter(GAPROLE_ADVERT_ENABLED, sizeof(uint8_t),
&initialAdvertEnable, NULL);
GAPRole_SetParameter(GAPROLE_ADVERT_OFF_TIME, sizeof(uint16_t),
&advertOffTime, NULL);
GAPRole_SetParameter(GAPROLE_SCAN_RSP_DATA, sizeof(scanRspData),
scanRspData, NULL);
GAPRole_SetParameter(GAPROLE_ADVERT_DATA, sizeof(advertData), advertData, NULL);
GAPRole_SetParameter(GAPROLE_MIN_CONN_INTERVAL, sizeof(uint16_t),
&desiredMinInterval, NULL);
GAPRole_SetParameter(GAPROLE_MAX_CONN_INTERVAL, sizeof(uint16_t),
&desiredMaxInterval, NULL);
GAPRole_SetParameter(GAPROLE_SLAVE_LATENCY, sizeof(uint16_t),
&desiredSlaveLatency, NULL);
GAPRole_SetParameter(GAPROLE_TIMEOUT_MULTIPLIER, sizeof(uint16_t),
&desiredConnTimeout, NULL);
/*--------------CENTRAL-----------------*/
uint8_t scanRes = DEFAULT_MAX_SCAN_RES;
GAPRole_SetParameter(GAPROLE_MAX_SCAN_RES, sizeof(uint8_t),
&scanRes, NULL);
// Register with GAP for HCI/Host messages
GAP_RegisterForMsgs(selfEntity);
}
//GATT
{
/*---------------------SERVER------------------------*/
// Set the GAP Characteristics
GGS_SetParameter(GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName);
// Initialize GATT Server Services
GGS_AddService(GATT_ALL_SERVICES); // GAP
GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
DevInfo_AddService(); // Device Information Service
SimpleProfile_AddService(GATT_ALL_SERVICES); // Simple GATT Profile
// Setup Profile Characteristic Values
{
uint8_t charValue1 = 1;
uint8_t charValue2 = 2;
uint8_t charValue3 = 3;
uint8_t charValue4 = 4;
uint8_t charValue5[SIMPLEPROFILE_CHAR5_LEN] = { 1, 2, 3, 4, 5 };
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR1, sizeof(uint8_t),
&charValue1);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR2, sizeof(uint8_t),
&charValue2);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR3, sizeof(uint8_t),
&charValue3);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR4, sizeof(uint8_t),
&charValue4);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR5, SIMPLEPROFILE_CHAR5_LEN,
charValue5);
}
// Register callback with SimpleGATTprofile
SimpleProfile_RegisterAppCBs(&simpleTopology_simpleProfileCBs);
/*-----------------CLIENT------------------*/
// Initialize GATT Client
VOID GATT_InitClient();
// Register for GATT local events and ATT Responses pending for transmission
GATT_RegisterForMsgs(selfEntity);
}
// Start the Device
VOID GAPRole_StartDevice(&simpleTopology_gapRoleCBs);
}
/*********************************************************************
* @fn KeyFobApp_Init
*
* @brief Initialization function for the Key Fob App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void KeyFobApp_Init( uint8 task_id )
{
keyfobapp_TaskID = task_id;
// Setup the GAP
VOID GAP_SetParamValue( TGAP_CONN_PAUSE_PERIPHERAL, DEFAULT_CONN_PAUSE_PERIPHERAL );
// Setup the GAP Peripheral Role Profile
{
// For the CC2540DK-MINI keyfob, device doesn't start advertising until button is pressed
uint8 initial_advertising_enable = FALSE;
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter( GAPROLE_ADVERT_ENABLED, sizeof( uint8 ), &initial_advertising_enable );
GAPRole_SetParameter( GAPROLE_ADVERT_OFF_TIME, sizeof( uint16 ), &gapRole_AdvertOffTime );
GAPRole_SetParameter( GAPROLE_SCAN_RSP_DATA, sizeof ( deviceName ), deviceName );
GAPRole_SetParameter( GAPROLE_ADVERT_DATA, sizeof( advertData ), advertData );
GAPRole_SetParameter( GAPROLE_PARAM_UPDATE_ENABLE, sizeof( uint8 ), &enable_update_request );
GAPRole_SetParameter( GAPROLE_MIN_CONN_INTERVAL, sizeof( uint16 ), &desired_min_interval );
GAPRole_SetParameter( GAPROLE_MAX_CONN_INTERVAL, sizeof( uint16 ), &desired_max_interval );
GAPRole_SetParameter( GAPROLE_SLAVE_LATENCY, sizeof( uint16 ), &desired_slave_latency );
GAPRole_SetParameter( GAPROLE_TIMEOUT_MULTIPLIER, sizeof( uint16 ), &desired_conn_timeout );
}
// Set the GAP Attributes
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName );
// Setup the GAP Bond Manager
{
uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof ( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof ( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof ( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof ( uint8 ), &bonding );
}
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
DevInfo_AddService(); // Device Information Service
ProxReporter_AddService( GATT_ALL_SERVICES ); // Proximity Reporter Profile
Batt_AddService( ); // Battery Service
Accel_AddService( GATT_ALL_SERVICES ); // Accelerometer Profile
SK_AddService( GATT_ALL_SERVICES ); // Simple Keys Profile
keyfobProximityState = KEYFOB_PROXSTATE_INITIALIZED;
// Initialize Tx Power Level characteristic in Proximity Reporter
{
int8 initialTxPowerLevel = 0;
ProxReporter_SetParameter( PP_TX_POWER_LEVEL, sizeof ( int8 ), &initialTxPowerLevel );
}
keyfobAlertState = ALERT_STATE_OFF;
// make sure buzzer is off
buzzerStop();
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// For keyfob board set GPIO pins into a power-optimized state
// Note that there is still some leakage current from the buzzer,
// accelerometer, LEDs, and buttons on the PCB.
P0SEL = 0; // Configure Port 0 as GPIO
P1SEL = 0x40; // Configure Port 1 as GPIO, except P1.6 for peripheral function for buzzer
P2SEL = 0; // Configure Port 2 as GPIO
P0DIR = 0xFC; // Port 0 pins P0.0 and P0.1 as input (buttons),
// all others (P0.2-P0.7) as output
P1DIR = 0xFF; // All port 1 pins (P1.0-P1.7) as output
P2DIR = 0x1F; // All port 1 pins (P2.0-P2.4) as output
P0 = 0x03; // All pins on port 0 to low except for P0.0 and P0.1 (buttons)
P1 = 0; // All pins on port 1 to low
P2 = 0; // All pins on port 2 to low
// initialize the ADC for battery reads
HalAdcInit();
// Register for all key events - This app will handle all key events
RegisterForKeys( keyfobapp_TaskID );
#if defined ( DC_DC_P0_7 )
// Enable stack to toggle bypass control on TPS62730 (DC/DC converter)
HCI_EXT_MapPmIoPortCmd( HCI_EXT_PM_IO_PORT_P0, HCI_EXT_PM_IO_PORT_PIN7 );
#endif // defined ( DC_DC_P0_7 )
// Setup a delayed profile startup
osal_start_timerEx( keyfobapp_TaskID, KFD_START_DEVICE_EVT, STARTDELAY );
}
/*********************************************************************
* @fn SimpleBLECentral_Init
*
* @brief Initialization function for the Simple BLE Central App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notification).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SimpleBLECentral_Init( uint8 task_id )
{
simpleBLETaskId = task_id;
// Setup Central Profile
{
uint8 scanRes = DEFAULT_MAX_SCAN_RES;
GAPCentralRole_SetParameter ( GAPCENTRALROLE_MAX_SCAN_RES, sizeof( uint8 ), &scanRes );
}
// Setup GAP
GAP_SetParamValue( TGAP_GEN_DISC_SCAN, DEFAULT_SCAN_DURATION );
GAP_SetParamValue( TGAP_LIM_DISC_SCAN, DEFAULT_SCAN_DURATION );
GGS_SetParameter( GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, (uint8 *) simpleBLEDeviceName );
// Setup the GAP Bond Manager
{
uint32 passkey = DEFAULT_PASSCODE;
uint8 pairMode = DEFAULT_PAIRING_MODE;
uint8 mitm = DEFAULT_MITM_MODE;
uint8 ioCap = DEFAULT_IO_CAPABILITIES;
uint8 bonding = DEFAULT_BONDING_MODE;
GAPBondMgr_SetParameter( GAPBOND_DEFAULT_PASSCODE, sizeof( uint32 ), &passkey );
GAPBondMgr_SetParameter( GAPBOND_PAIRING_MODE, sizeof( uint8 ), &pairMode );
GAPBondMgr_SetParameter( GAPBOND_MITM_PROTECTION, sizeof( uint8 ), &mitm );
GAPBondMgr_SetParameter( GAPBOND_IO_CAPABILITIES, sizeof( uint8 ), &ioCap );
GAPBondMgr_SetParameter( GAPBOND_BONDING_ENABLED, sizeof( uint8 ), &bonding );
}
// Initialize GATT Client
VOID GATT_InitClient();
// Register to receive incoming ATT Indications/Notifications
GATT_RegisterForInd( simpleBLETaskId );
// Initialize GATT attributes
GGS_AddService( GATT_ALL_SERVICES ); // GAP
GATTServApp_AddService( GATT_ALL_SERVICES ); // GATT attributes
// Register for all key events - This app will handle all key events
RegisterForKeys( simpleBLETaskId );
// makes sure LEDs are off
HalLedSet( (HAL_LED_1 | HAL_LED_2), HAL_LED_MODE_OFF );
// Setup a delayed profile startup
osal_set_event( simpleBLETaskId, START_DEVICE_EVT );
/*
{
//w5500_read_server_mac();
w5500_read_server_ip();
uint32 nest=0;
if(w5500_check_link())
{
w5500_socket_send_cmd(SOCKET_IDEX_0,SOCKET_CMD_OPEN);
do
{
if(nest>20000)
{
w5500_socket_handle_status(w5500_socket_read_status(SOCKET_IDEX_0));
nest=0;
}
nest++;
}
while(w5500_socket_state!= SOCKET_INIT);
w5500_socket_send_cmd(SOCKET_IDEX_0,SOCKET_CMD_CONNECT);
do
{
if(nest>20000)
{
w5500_socket_handle_status(w5500_socket_read_status(SOCKET_IDEX_0));
nest=0;
}
nest++;
}
while(w5500_socket_state!=SOCK_ESTABLISHED);
do
{
if(nest>20000)
{
w5500_socket_send(SOCKET_IDEX_0,"hello wkxboot!!",15);
w5500_read_server_mac();
w5500_read_server_ip();
w5500_socket_handle_int(SOCKET_IDEX_0);
nest=0;
}
nest++;
}
while(1);
}
}
*/
}
/*********************************************************************
* @fn SimpleBLEPeripheral_Init
*
* @brief Initialization function for the Simple BLE Peripheral App Task.
* This is called during initialization and should contain
* any application specific initialization (ie. hardware
* initialization/setup, table initialization, power up
* notificaiton ... ).
*
* @param task_id - the ID assigned by OSAL. This ID should be
* used to send messages and set timers.
*
* @return none
*/
void SimpleBLEPeripheral_Init(uint8 task_id) {
simpleBLEPeripheral_TaskID = task_id;
SbpHalUART_Init(task_id);
// Setup the GAP Peripheral Role Profile
{
#if defined( CC2540_MINIDK )
// For the CC2540DK-MINI keyfob, device doesn't start advertising until button is pressed
uint8 initial_advertising_enable = FALSE;
#else
// For other hardware platforms, device starts advertising upon initialization
uint8 initial_advertising_enable = TRUE;
#endif
// By setting this to zero, the device will go into the waiting state after
// being discoverable for 30.72 second, and will not being advertising again
// until the enabler is set back to TRUE
uint16 gapRole_AdvertOffTime = 0;
uint8 enable_update_request = DEFAULT_ENABLE_UPDATE_REQUEST;
uint16 desired_min_interval = DEFAULT_DESIRED_MIN_CONN_INTERVAL;
uint16 desired_max_interval = DEFAULT_DESIRED_MAX_CONN_INTERVAL;
uint16 desired_slave_latency = DEFAULT_DESIRED_SLAVE_LATENCY;
uint16 desired_conn_timeout = DEFAULT_DESIRED_CONN_TIMEOUT;
// Set the GAP Role Parameters
GAPRole_SetParameter(GAPROLE_ADVERT_ENABLED, sizeof(uint8), &initial_advertising_enable);
GAPRole_SetParameter(GAPROLE_ADVERT_OFF_TIME, sizeof(uint16), &gapRole_AdvertOffTime);
GAPRole_SetParameter(GAPROLE_SCAN_RSP_DATA, sizeof(scanRspData), scanRspData);
GAPRole_SetParameter(GAPROLE_ADVERT_DATA, sizeof(advertData), advertData);
GAPRole_SetParameter(GAPROLE_PARAM_UPDATE_ENABLE, sizeof(uint8), &enable_update_request);
GAPRole_SetParameter(GAPROLE_MIN_CONN_INTERVAL, sizeof(uint16), &desired_min_interval);
GAPRole_SetParameter(GAPROLE_MAX_CONN_INTERVAL, sizeof(uint16), &desired_max_interval);
GAPRole_SetParameter(GAPROLE_SLAVE_LATENCY, sizeof(uint16), &desired_slave_latency);
GAPRole_SetParameter(GAPROLE_TIMEOUT_MULTIPLIER, sizeof(uint16), &desired_conn_timeout);
}
//readWriteFlash();
// Set the GAP Characteristics
GGS_SetParameter(GGS_DEVICE_NAME_ATT, GAP_DEVICE_NAME_LEN, attDeviceName);
// Set advertising interval
{
uint16 advInt = DEFAULT_ADVERTISING_INTERVAL;
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_LIM_DISC_ADV_INT_MAX, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MIN, advInt);
GAP_SetParamValue(TGAP_GEN_DISC_ADV_INT_MAX, advInt);
}
//HalLcdWriteStringValue("bb:", passs, 10, HAL_LCD_LINE_6);
// Setup the GAP Bond Manager
{
uint32 passkey = 1234; // passkey "000000"
//uint8 pairMode = GAPBOND_PAIRING_MODE_WAIT_FOR_REQ;
uint8 pairMode = GAPBOND_PAIRING_MODE_INITIATE;
uint8 mitm = TRUE;
uint8 ioCap = GAPBOND_IO_CAP_DISPLAY_ONLY;
uint8 bonding = TRUE;
GAPBondMgr_SetParameter(GAPBOND_DEFAULT_PASSCODE, sizeof(uint32), &passkey);
GAPBondMgr_SetParameter(GAPBOND_PAIRING_MODE, sizeof(uint8), &pairMode);
GAPBondMgr_SetParameter(GAPBOND_MITM_PROTECTION, sizeof(uint8), &mitm);
GAPBondMgr_SetParameter(GAPBOND_IO_CAPABILITIES, sizeof(uint8), &ioCap);
GAPBondMgr_SetParameter(GAPBOND_BONDING_ENABLED, sizeof(uint8), &bonding);
}
// Initialize GATT attributes
GGS_AddService(GATT_ALL_SERVICES); // GAP
GATTServApp_AddService(GATT_ALL_SERVICES); // GATT attributes
DevInfo_AddService(); // Device Information Service
SimpleProfile_AddService(GATT_ALL_SERVICES); // Simple GATT Profile
#if defined FEATURE_OAD
VOID OADTarget_AddService(); // OAD Profile
#endif
// Setup the SimpleProfile Characteristic Values
{
uint8 charValue1 = 1;
uint8 charValue2 = 2;
uint8 charValue3 = 3;
uint8 charValue4 = 4;
uint8 charValue5[SIMPLEPROFILE_CHAR5_LEN] = { 1, 2, 3, 4, 5 };
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR1, sizeof(uint8), &charValue1);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR2, sizeof(uint8), &charValue2);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR3, sizeof(uint8), &charValue3);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR4, sizeof(uint8), &charValue4);
SimpleProfile_SetParameter(SIMPLEPROFILE_CHAR5, SIMPLEPROFILE_CHAR5_LEN, charValue5);
}
HalLcdWriteString("BLE slave zekezang", HAL_LCD_LINE_1);
// Register callback with SimpleGATTprofile
VOID SimpleProfile_RegisterAppCBs(&simpleBLEPeripheral_SimpleProfileCBs);
//who open who byebye
//HCI_EXT_ClkDivOnHaltCmd(HCI_EXT_ENABLE_CLK_DIVIDE_ON_HALT); no no no...
// Register for all key events - This app will handle all key events
RegisterForKeys(simpleBLEPeripheral_TaskID);
#if defined ( DC_DC_P0_7 )
// Enable stack to toggle bypass control on TPS62730 (DC/DC converter)
HCI_EXT_MapPmIoPortCmd( HCI_EXT_PM_IO_PORT_P0, HCI_EXT_PM_IO_PORT_PIN7 );
#endif // defined ( DC_DC_P0_7 )
// Setup a delayed profile startup
osal_set_event(simpleBLEPeripheral_TaskID, SBP_START_DEVICE_EVT);
}