/**************************************************************************************************
Phyplus Microelectronics Limited confidential and proprietary.
All rights reserved.
IMPORTANT: All rights of this software belong to Phyplus Microelectronics
Limited ("Phyplus"). Your use of this Software is limited to those
specific rights granted under the terms of the business contract, the
confidential agreement, the non-disclosure agreement and any other forms
of agreements as a customer or a partner of Phyplus. You may not use this
Software unless you agree to abide by the terms of these agreements.
You acknowledge that the Software may not be modified, copied,
distributed or disclosed unless embedded on a Phyplus Bluetooth Low Energy
(BLE) integrated circuit, either as a product or is integrated into your
products. Other than for the aforementioned purposes, you may not use,
reproduce, copy, prepare derivative works of, modify, distribute, perform,
display or sell this Software and/or its documentation for any purposes.
YOU FURTHER ACKNOWLEDGE AND AGREE THAT THE SOFTWARE AND DOCUMENTATION ARE
PROVIDED AS IS WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED,
INCLUDING WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY, TITLE,
NON-INFRINGEMENT AND FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL
PHYPLUS OR ITS SUBSIDIARIES BE LIABLE OR OBLIGATED UNDER CONTRACT,
NEGLIGENCE, STRICT LIABILITY, CONTRIBUTION, BREACH OF WARRANTY, OR OTHER
LEGAL EQUITABLE THEORY ANY DIRECT OR INDIRECT DAMAGES OR EXPENSES
INCLUDING BUT NOT LIMITED TO ANY INCIDENTAL, SPECIAL, INDIRECT, PUNITIVE
OR CONSEQUENTIAL DAMAGES, LOST PROFITS OR LOST DATA, COST OF PROCUREMENT
OF SUBSTITUTE GOODS, TECHNOLOGY, SERVICES, OR ANY CLAIMS BY THIRD PARTIES
(INCLUDING BUT NOT LIMITED TO ANY DEFENSE THEREOF), OR OTHER SIMILAR COSTS.
**************************************************************************************************/
/*********************************************************************
* INCLUDES
*/
#include "bcomdef.h"
#include "OSAL.h"
#include "hci.h"
#include "l2cap.h"
#include "gap.h"
#include "linkdb.h"
#include "att.h"
#include "gatt.h"
#include "osal_snv.h"
#include "hci_tl.h"
#include "peripheralBroadcaster.h"
#include "gapbondmgr.h"
/*********************************************************************
* MACROS
*/
/*********************************************************************
* CONSTANTS
*/
// Profile Events
#define START_ADVERTISING_EVT 0x0001
#define RSSI_READ_EVT 0x0002
#define UPDATE_PARAMS_TIMEOUT_EVT 0x0004
#define DEFAULT_ADVERT_OFF_TIME 30000 // 30 seconds
#define RSSI_NOT_AVAILABLE 127
#define DEFAULT_MIN_CONN_INTERVAL 0x0006 // 100 milliseconds
#define DEFAULT_MAX_CONN_INTERVAL 0x0C80 // 4 seconds
#define MIN_CONN_INTERVAL 0x0006
#define MAX_CONN_INTERVAL 0x0C80
#define DEFAULT_SLAVE_LATENCY 0
#define DEFAULT_TIMEOUT_MULTIPLIER 1000
#define CONN_INTERVAL_MULTIPLIER 6
#define MAX_SLAVE_LATENCY 500
#define MIN_TIMEOUT_MULTIPLIER 0x000a
#define MAX_TIMEOUT_MULTIPLIER 0x0c80
#define MAX_TIMEOUT_VALUE 0xFFFF
/*********************************************************************
* TYPEDEFS
*/
/*********************************************************************
* GLOBAL VARIABLES
*/
/*********************************************************************
* EXTERNAL VARIABLES
*/
/*********************************************************************
* EXTERNAL FUNCTIONS
*/
/*********************************************************************
* LOCAL VARIABLES
*/
static uint8 gapRole_TaskID; // Task ID for internal task/event processing
static gaprole_States_t gapRole_state;
/*********************************************************************
* Profile Parameters - reference GAPROLE_PROFILE_PARAMETERS for
* descriptions
*/
static uint8 gapRole_profileRole;
static uint8 gapRole_IRK[KEYLEN];
static uint8 gapRole_SRK[KEYLEN];
static uint32 gapRole_signCounter;
static uint8 gapRole_bdAddr[B_ADDR_LEN];
static uint8 gapRole_AdvEnabled = TRUE;
static uint16 gapRole_AdvertOffTime = DEFAULT_ADVERT_OFF_TIME;
static uint8 gapRole_AdvertDataLen = 3;
static uint8 gapRole_AdvertData[B_MAX_ADV_LEN] =
{
0x02, // length of this data
GAP_ADTYPE_FLAGS, // AD Type = Flags
// Limited Discoverable & BR/EDR not supported
(GAP_ADTYPE_FLAGS_GENERAL | GAP_ADTYPE_FLAGS_BREDR_NOT_SUPPORTED),
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0
};
static uint8 gapRole_ScanRspDataLen = 0;
static uint8 gapRole_ScanRspData[B_MAX_ADV_LEN] = {0};
static uint8 gapRole_AdvEventType;
static uint8 gapRole_AdvDirectType;
static uint8 gapRole_AdvDirectAddr[B_ADDR_LEN] = {0};
static uint8 gapRole_AdvChanMap;
static uint8 gapRole_AdvFilterPolicy;
static uint16 gapRole_ConnectionHandle = INVALID_CONNHANDLE;
static uint16 gapRole_RSSIReadRate = 0;
static gapRolesCBs_t *pGapRoles_AppCGs = NULL;
static uint8 gapRole_ConnectedDevAddr[B_ADDR_LEN] = {0};
static uint8 gapRole_ParamUpdateEnable = FALSE;
static uint16 gapRole_MinConnInterval = DEFAULT_MIN_CONN_INTERVAL;
static uint16 gapRole_MaxConnInterval = DEFAULT_MAX_CONN_INTERVAL;
static uint16 gapRole_SlaveLatency = DEFAULT_SLAVE_LATENCY;
static uint16 gapRole_TimeoutMultiplier = DEFAULT_TIMEOUT_MULTIPLIER;
/*********************************************************************
* Profile Attributes - variables
*/
/*********************************************************************
* Profile Attributes - Table
*/
/*********************************************************************
* LOCAL FUNCTIONS
*/
static void gapRole_ProcessOSALMsg( osal_event_hdr_t *pMsg );
static void gapRole_ProcessGAPMsg( gapEventHdr_t *pMsg );
static void gapRole_SetupGAP( void );
static void gapRole_SendUpdateParam( uint16 connInterval, uint16 connLatency );
/*********************************************************************
* NETWORK LAYER CALLBACKS
*/
/*********************************************************************
* PUBLIC FUNCTIONS
*/
/*********************************************************************
* @brief Set a GAP Role parameter.
*
* Public function defined in peripheral.h.
*/
bStatus_t GAPRole_SetParameter( uint16 param, uint8 len, void *pValue )
{
bStatus_t ret = SUCCESS;
switch ( param )
{
case GAPROLE_IRK:
if ( len == KEYLEN )
{
VOID osal_memcpy( gapRole_IRK, pValue, KEYLEN ) ;
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_SRK:
if ( len == KEYLEN )
{
VOID osal_memcpy( gapRole_SRK, pValue, KEYLEN ) ;
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_SIGNCOUNTER:
if ( len == sizeof ( uint32 ) )
{
gapRole_signCounter = *((uint32*)pValue);
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_ADVERT_ENABLED:
if ( len == sizeof( uint8 ) )
{
if ( (gapRole_state == GAPROLE_CONNECTED) || (gapRole_state == GAPROLE_CONNECTED_ADV) )
{
uint8 advEnabled = *((uint8*)pValue);
if ( (gapRole_state == GAPROLE_CONNECTED) && (advEnabled == TRUE) )
{
// Turn on advertising
osal_set_event( gapRole_TaskID, START_ADVERTISING_EVT );
}
else if ( (gapRole_state == GAPROLE_CONNECTED_ADV) && (advEnabled == FALSE) )
{
// Turn off Advertising
GAP_EndDiscoverable( gapRole_TaskID );
}
}
else
{
uint8 oldAdvEnabled = gapRole_AdvEnabled;
gapRole_AdvEnabled = *((uint8*)pValue);
if ( (oldAdvEnabled) && (gapRole_AdvEnabled == FALSE) )
{
// Turn off Advertising
VOID GAP_EndDiscoverable( gapRole_TaskID );
}
else if ( (oldAdvEnabled == FALSE) && (gapRole_AdvEnabled) )
{
// Turn on Advertising
if ( (gapRole_state == GAPROLE_STARTED)
|| (gapRole_state == GAPROLE_WAITING )
|| (gapRole_state == GAPROLE_WAITING_AFTER_TIMEOUT) )
{
VOID osal_set_event( gapRole_TaskID, START_ADVERTISING_EVT );
}
}
}
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_ADVERT_OFF_TIME:
if ( len == sizeof ( uint16 ) )
{
gapRole_AdvertOffTime = *((uint16*)pValue);
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_ADVERT_DATA:
if ( len <= B_MAX_ADV_LEN )
{
VOID osal_memset( gapRole_AdvertData, 0, B_MAX_ADV_LEN );
VOID osal_memcpy( gapRole_AdvertData, pValue, len );
gapRole_AdvertDataLen = len;
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_SCAN_RSP_DATA:
if ( len <= B_MAX_ADV_LEN )
{
VOID osal_memset( gapRole_ScanRspData, 0, B_MAX_ADV_LEN );
VOID osal_memcpy( gapRole_ScanRspData, pValue, len );
gapRole_ScanRspDataLen = len;
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_ADV_EVENT_TYPE:
if ( (len == sizeof ( uint8 )) && (*((uint8*)pValue) <= GAP_ADTYPE_ADV_LDC_DIRECT_IND) )
{
gapRole_AdvEventType = *((uint8*)pValue);
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_ADV_DIRECT_TYPE:
if ( (len == sizeof ( uint8 )) && (*((uint8*)pValue) <= ADDRTYPE_PRIVATE_RESOLVE) )
{
gapRole_AdvDirectType = *((uint8*)pValue);
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_ADV_DIRECT_ADDR:
if ( len == B_ADDR_LEN )
{
VOID osal_memcpy( gapRole_AdvDirectAddr, pValue, B_ADDR_LEN ) ;
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_ADV_CHANNEL_MAP:
if ( (len == sizeof ( uint8 )) && (*((uint8*)pValue) <= 0x07) )
{
gapRole_AdvChanMap = *((uint8*)pValue);
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_ADV_FILTER_POLICY:
if ( (len == sizeof ( uint8 )) && (*((uint8*)pValue) <= GAP_FILTER_POLICY_WHITE) )
{
gapRole_AdvFilterPolicy = *((uint8*)pValue);
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_RSSI_READ_RATE:
if ( len == sizeof ( uint16 ) )
{
gapRole_RSSIReadRate = *((uint16*)pValue);
if ( (gapRole_RSSIReadRate) && (gapRole_state == GAPROLE_CONNECTED) )
{
// Start the RSSI Reads
VOID osal_start_timerEx( gapRole_TaskID, RSSI_READ_EVT, gapRole_RSSIReadRate );
}
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_PARAM_UPDATE_ENABLE:
if ( (len == sizeof ( uint8 )) && (*((uint8*)pValue) <= TRUE) )
{
gapRole_ParamUpdateEnable = *((uint8*)pValue);
}
else
{
ret = bleInvalidRange;
}
break;
case GAPROLE_MIN_CONN_INTERVAL:
{
uint16 newInterval = *((uint16*)pValue);
if ( len == sizeof ( uint16 ) &&
( newInterval >= MIN_CONN_INTERVAL ) &&
( newInterval <= MAX_CONN_INTERVAL ) )
{
gapRole_MinConnInterval = newInterval;
}
else
{
ret = bleInvalidRange;
}
}
break;
case GAPROLE_MAX_CONN_INTERVAL:
{
uint16 newInterval = *((uint16*)pValue);
if ( len == sizeof ( uint16 ) &&
( newInterval >= MIN_CONN_INTERVAL) &&
( newInterval <= MAX_CONN_INTERVAL) )
{
gapRole_MaxConnInterval = newInterval;
}
else
{
ret = bleInvalidRange;
}
}
break;
case GAPROLE_SLAVE_LATENCY:
{
uint16 latency = *((uint16*)pValue);
if ( len == sizeof ( uint16 ) && (latency < MAX_SLAVE_LATENCY) )
{
gapRole_SlaveLatency = latency;
}
else
{
ret = bleInvalidRange;
}
}
break;
case GAPROLE_TIMEOUT_MULTIPLIER:
{
uint16 newTimeout = *((uint16*)pValue);
if ( len == sizeof ( uint16 )
&& (newTimeout >= MIN_TIMEOUT_MULTIPLIER) && (newTimeout <= MAX_TIMEOUT_MULTIPLIER) )
{
gapRole_TimeoutMultiplier = newTimeout;
}
else
{
ret = bleInvalidRange;
}
}
break;
default:
// The param value isn't part of this profile, try the GAP.
if ( (param < TGAP_PARAMID_MAX) && (len == sizeof ( uint16 )) )
{
ret = GAP_SetParamValue( param, *((uint16*)pValue) );
}
else
{
ret = INVALIDPARAMETER;
}
break;
}
return ( ret );
}
/*********************************************************************
* @brief Get a GAP Role parameter.
*
* Public function defined in peripheral.h.
*/
bStatus_t GAPRole_GetParameter( uint16 param, void *pValue )
{
bStatus_t ret = SUCCESS;
switch ( param )
{
case GAPROLE_PROFILEROLE:
*((uint8*)pValue) = gapRole_profileRole;
break;
case GAPROLE_IRK:
VOID osal_memcpy( pValue, gapRole_IRK, KEYLEN ) ;
break;
case GAPROLE_SRK:
VOID osal_memcpy( pValue, gapRole_SRK, KEYLEN ) ;
break;
case GAPROLE_SIGNCOUNTER:
*((uint32*)pValue) = gapRole_signCounter;
break;
case GAPROLE_BD_ADDR:
VOID osal_memcpy( pValue, gapRole_bdAddr, B_ADDR_LEN ) ;
break;
case GAPROLE_ADVERT_ENABLED:
*((uint8*)pValue) = gapRole_AdvEnabled;
break;
case GAPROLE_ADVERT_OFF_TIME:
*((uint16*)pValue) = gapRole_AdvertOffTime;
break;
case GAPROLE_ADVERT_DATA:
VOID osal_memcpy( pValue , gapRole_AdvertData, gapRole_AdvertDataLen );
break;
case GAPROLE_SCAN_RSP_DATA:
VOID osal_memcpy( pValue, gapRole_ScanRspData, gapRole_ScanRspDataLen ) ;
break;
case GAPROLE_ADV_EVENT_TYPE:
*((uint8*)pValue) = gapRole_AdvEventType;
break;
case GAPROLE_ADV_DIRECT_TYPE:
*((uint8*)pValue) = gapRole_AdvDirectType;
break;
case GAPROLE_ADV_DIRECT_ADDR:
VOID osal_memcpy( pValue, gapRole_AdvDirectAddr, B_ADDR_LEN ) ;
break;
case GAPROLE_ADV_CHANNEL_MAP:
*((uint8*)pValue) = gapRole_AdvChanMap;
break;
case GAPROLE_ADV_FILTER_POLICY:
*((uint8*)pValue) = gapRole_AdvFilterPolicy;
break;
case GAPROLE_CONNHANDLE:
*((uint16*)pValue) = gapRole_ConnectionHandle;
break;
case GAPROLE_RSSI_READ_RATE:
*((uint16*)pValue) = gapRole_RSSIReadRate;
break;
case GAPROLE_PARAM_UPDATE_ENABLE:
*((uint16*)pValue) = gapRole_ParamUpdateEnable;
break;
case GAPROLE_MIN_CONN_INTERVAL:
*((uint16*)pValue) = gapRole_MinConnInterval;
break;
case GAPROLE_MAX_CONN_INTERVAL:
*((uint16*)pValue) = gapRole_MaxConnInterval;
break;
case GAPROLE_SLAVE_LATENCY:
*((uint16*)pValue) = gapRole_SlaveLatency;
break;
case GAPROLE_TIMEOUT_MULTIPLIER:
*((uint16*)pValue) = gapRole_TimeoutMultiplier;
break;
case GAPROLE_CONN_BD_ADDR:
VOID osal_memcpy( pValue, gapRole_ConnectedDevAddr, B_ADDR_LEN ) ;
break;
default:
// The param value isn't part of this profile, try the GAP.
if ( param < TGAP_PARAMID_MAX )
{
*((uint16*)pValue) = GAP_GetParamValue( param );
}
else
{
ret = INVALIDPARAMETER;
}
break;
}
return ( ret );
}
/*********************************************************************
* @brief Does the device initialization.
*
* Public function defined in peripheral.h.
*/
bStatus_t GAPRole_StartDevice( gapRolesCBs_t *pAppCallbacks )
{
if ( gapRole_state == GAPROLE_INIT )
{
// Clear all of the Application callbacks
if ( pAppCallbacks )
{
pGapRoles_AppCGs = pAppCallbacks;
}
// Start the GAP
gapRole_SetupGAP();
return ( SUCCESS );
}
else
{
return ( bleAlreadyInRequestedMode );
}
}
/*********************************************************************
* @brief Terminates the existing connection.
*
* Public function defined in peripheral.h.
*/
bStatus_t GAPRole_TerminateConnection( void )
{
if ( (gapRole_state == GAPROLE_CONNECTED)
|| (gapRole_state == GAPROLE_CONNECTED_ADV) )
{
return ( GAP_TerminateLinkReq( gapRole_TaskID, gapRole_ConnectionHandle,
HCI_DISCONNECT_REMOTE_USER_TERM ) );
}
else
{
return ( bleIncorrectMode );
}
}
/*********************************************************************
* LOCAL FUNCTION PROTOTYPES
*/
/*********************************************************************
* @brief Task Initialization function.
*
* Internal function defined in peripheral.h.
*/
void GAPRole_Init( uint8 task_id )
{
gapRole_TaskID = task_id;
gapRole_state = GAPROLE_INIT;
gapRole_ConnectionHandle = INVALID_CONNHANDLE;
GAP_RegisterForHCIMsgs( gapRole_TaskID );
// Initialize the Profile Advertising and Connection Parameters
gapRole_profileRole = (GAP_PROFILE_PERIPHERAL | GAP_PROFILE_BROADCASTER);
VOID osal_memset( gapRole_IRK, 0, KEYLEN );
VOID osal_memset( gapRole_SRK, 0, KEYLEN );
gapRole_signCounter = 0;
gapRole_AdvEventType = GAP_ADTYPE_ADV_IND;
gapRole_AdvDirectType = ADDRTYPE_PUBLIC;
gapRole_AdvChanMap = GAP_ADVCHAN_ALL;
gapRole_AdvFilterPolicy = GAP_FILTER_POLICY_ALL;
// Restore Items from NV
VOID osal_snv_read( BLE_NVID_IRK, KEYLEN, gapRole_IRK );
VOID osal_snv_read( BLE_NVID_CSRK, KEYLEN, gapRole_SRK );
VOID osal_snv_read( BLE_NVID_SIGNCOUNTER, sizeof( uint32 ), &gapRole_signCounter );
}
/*********************************************************************
* @brief Task Event Processor function.
*
* Internal function defined in peripheral.h.
*/
uint16 GAPRole_ProcessEvent( uint8 task_id, uint16 events )
{
VOID task_id; // OSAL required parameter that isn't used in this function
if ( events & SYS_EVENT_MSG )
{
uint8 *pMsg;
if ( (pMsg = osal_msg_receive( gapRole_TaskID )) != NULL )
{
gapRole_ProcessOSALMsg( (osal_event_hdr_t *)pMsg );
// Release the OSAL message
VOID osal_msg_deallocate( pMsg );
}
// return unprocessed events
return (events ^ SYS_EVENT_MSG);
}
if ( events & GAP_EVENT_SIGN_COUNTER_CHANGED )
{
// Sign counter changed, save it to NV
VOID osal_snv_write( BLE_NVID_SIGNCOUNTER, sizeof( uint32 ), &gapRole_signCounter );
return ( events ^ GAP_EVENT_SIGN_COUNTER_CHANGED );
}
if ( events & START_ADVERTISING_EVT )
{
if ( gapRole_AdvEnabled )
{
gapAdvertisingParams_t params;
// Setup advertisement parameters
if ( gapRole_state == GAPROLE_CONNECTED )
{
// While in a connection, we can only advertise non-connectable undirected.
params.eventType = GAP_ADTYPE_ADV_NONCONN_IND;
}
else
{
params.eventType = gapRole_AdvEventType;
params.initiatorAddrType = gapRole_AdvDirectType;
VOID osal_memcpy( params.initiatorAddr, gapRole_AdvDirectAddr, B_ADDR_LEN );
}
params.channelMap = gapRole_AdvChanMap;
params.filterPolicy = gapRole_AdvFilterPolicy;
if ( GAP_MakeDiscoverable( gapRole_TaskID, ¶ms ) != SUCCESS )
{
gapRole_state = GAPROLE_ERROR;
if ( pGapRoles_AppCGs && pGapRoles_AppCGs->pfnStateChange )
{
pGapRoles_AppCGs->pfnStateChange( gapRole_state );
}
}
}
return ( events ^ START_ADVERTISING_EVT );
}
if ( events & RSSI_READ_EVT )
{
// Only get RSSI when in a connection
if ( (gapRole_state == GAPROLE_CONNECTED)
|| (gapRole_state == GAPROLE_CONNECTED_ADV) )
{
// Ask for RSSI
VOID HCI_ReadRssiCmd( gapRole_ConnectionHandle );
// Setup next event
if ( gapRole_RSSIReadRate )
{
VOID osal_start_timerEx( gapRole_TaskID, RSSI_READ_EVT, gapRole_RSSIReadRate );
}
}
return ( events ^ RSSI_READ_EVT );
}
if ( events & UPDATE_PARAMS_TIMEOUT_EVT )
{
// Clear an existing timeout
if ( osal_get_timeoutEx( gapRole_TaskID, UPDATE_PARAMS_TIMEOUT_EVT ) )
{
VOID osal_stop_timerEx( gapRole_TaskID, UPDATE_PARAMS_TIMEOUT_EVT );
}
// The Update Parameters Timeout occurred - Terminate connection
VOID GAP_TerminateLinkReq( gapRole_TaskID, gapRole_ConnectionHandle,
HCI_DISCONNECT_REMOTE_USER_TERM );
return ( events ^ UPDATE_PARAMS_TIMEOUT_EVT );
}
// Discard unknown events
return 0;
}
/*********************************************************************
* @fn gapRole_ProcessOSALMsg
*
* @brief Process an incoming task message.
*
* @param pMsg - message to process
*
* @return none
*/
static void gapRole_ProcessOSALMsg( osal_event_hdr_t *pMsg )
{
switch ( pMsg->event )
{
case HCI_GAP_EVENT_EVENT:
if ( pMsg->status == HCI_COMMAND_COMPLETE_EVENT_CODE )
{
hciEvt_CmdComplete_t *pPkt = (hciEvt_CmdComplete_t *)pMsg;
if ( pPkt->cmdOpcode == HCI_READ_RSSI )
{
int8 rssi = (int8)pPkt->pReturnParam[3];
if ( ((gapRole_state == GAPROLE_CONNECTED)
|| (gapRole_state == GAPROLE_CONNECTED_ADV))
&& (rssi != RSSI_NOT_AVAILABLE) )
{
// Report RSSI to app
if ( pGapRoles_AppCGs && pGapRoles_AppCGs->pfnRssiRead )
{
pGapRoles_AppCGs->pfnRssiRead( rssi );
}
}
}
}
break;
case GAP_MSG_EVENT:
gapRole_ProcessGAPMsg( (gapEventHdr_t *)pMsg );
break;
case L2CAP_SIGNAL_EVENT:
{
l2capSignalEvent_t *pPkt = (l2capSignalEvent_t *)pMsg;
// Process the Parameter Update Response
if ( pPkt->opcode == L2CAP_PARAM_UPDATE_RSP )
{
l2capParamUpdateRsp_t *pRsp = (l2capParamUpdateRsp_t *)&(pPkt->cmd.updateRsp);
if ( pRsp->result == SUCCESS )
{
// All is good stop Update Parameters timeout
VOID osal_stop_timerEx( gapRole_TaskID, UPDATE_PARAMS_TIMEOUT_EVT );
}
}
}
break;
default:
break;
}
}
/*********************************************************************
* @fn gapRole_ProcessGAPMsg
*
* @brief Process an incoming task message.
*
* @param pMsg - message to process
*
* @return none
*/
static void gapRole_ProcessGAPMsg( gapEventHdr_t *pMsg )
{
uint8 notify = FALSE; // State changed notify the app? (default no)
switch ( pMsg->opcode )
{
case GAP_DEVICE_INIT_DONE_EVENT:
{
gapDeviceInitDoneEvent_t *pPkt = (gapDeviceInitDoneEvent_t *)pMsg;
bStatus_t stat = pPkt->hdr.status;
if ( stat == SUCCESS )
{
// Save off the generated keys
VOID osal_snv_write( BLE_NVID_IRK, KEYLEN, gapRole_IRK );
VOID osal_snv_write( BLE_NVID_CSRK, KEYLEN, gapRole_SRK );
// Save off the information
VOID osal_memcpy( gapRole_bdAddr, pPkt->devAddr, B_ADDR_LEN );
gapRole_state = GAPROLE_STARTED;
// Update the advertising data
stat = GAP_UpdateAdvertisingData( gapRole_TaskID,
TRUE, gapRole_AdvertDataLen, gapRole_AdvertData );
}
if ( stat != SUCCESS )
{
gapRole_state = GAPROLE_ERROR;
}
notify = TRUE;
}
break;
case GAP_ADV_DATA_UPDATE_DONE_EVENT:
{
gapAdvDataUpdateEvent_t *pPkt = (gapAdvDataUpdateEvent_t *)pMsg;
if ( pPkt->hdr.status == SUCCESS )
{
if ( pPkt->adType )
{
// Setup the Response Data
pPkt->hdr.status = GAP_UpdateAdvertisingData( gapRole_TaskID,
FALSE, gapRole_ScanRspDataLen, gapRole_ScanRspData );
}
else
{
// Start advertising
VOID osal_set_event( gapRole_TaskID, START_ADVERTISING_EVT );
}
}
if ( pPkt->hdr.status != SUCCESS )
{
// Set into Error state
gapRole_state = GAPROLE_ERROR;
notify = TRUE;
}
}
break;
case GAP_MAKE_DISCOVERABLE_DONE_EVENT:
case GAP_END_DISCOVERABLE_DONE_EVENT:
{
gapMakeDiscoverableRspEvent_t *pPkt = (gapMakeDiscoverableRspEvent_t *)pMsg;
if ( pPkt->hdr.status == SUCCESS )
{
if ( pMsg->opcode == GAP_MAKE_DISCOVERABLE_DONE_EVENT )
{
if ( gapRole_state == GAPROLE_CONNECTED )
{
gapRole_state = GAPROLE_CONNECTED_ADV;
}
else
{
gapRole_state = GAPROLE_ADVERTISING;
}
}
else // GAP_END_DISCOVERABLE_DONE_EVENT
{
if ( gapRole_AdvertOffTime != 0 )
{
if ( ( gapRole_AdvEnabled ) )
{
VOID osal_start_timerEx( gapRole_TaskID, START_ADVERTISING_EVT, gapRole_AdvertOffTime );
}
}
else
{
// Since gapRole_AdvertOffTime is set to 0, the device should not
// automatically become discoverable again after a period of time.
// Set enabler to FALSE; device will become discoverable again when
// this value gets set to TRUE
gapRole_AdvEnabled = FALSE;
}
// In the Advertising Off period
gapRole_state = GAPROLE_WAITING;
}
}
else
{
gapRole_state = GAPROLE_ERROR;
}
notify = TRUE;
}
break;
case GAP_LINK_ESTABLISHED_EVENT:
{
gapEstLinkReqEvent_t *pPkt = (gapEstLinkReqEvent_t *)pMsg;
if ( pPkt->hdr.status == SUCCESS )
{
VOID osal_memcpy( gapRole_ConnectedDevAddr, pPkt->devAddr, B_ADDR_LEN );
gapRole_ConnectionHandle = pPkt->connectionHandle;
gapRole_state = GAPROLE_CONNECTED;
if ( gapRole_RSSIReadRate )
{
// Start the RSSI Reads
VOID osal_start_timerEx( gapRole_TaskID, RSSI_READ_EVT, gapRole_RSSIReadRate );
}
// Check whether update parameter request is enabled, and check the connection parameters
if ( ( gapRole_ParamUpdateEnable == TRUE ) &&
( (pPkt->connInterval < gapRole_MinConnInterval) ||
(pPkt->connInterval > gapRole_MaxConnInterval) ||
(pPkt->connLatency != gapRole_SlaveLatency) ||
(pPkt->connTimeout != gapRole_TimeoutMultiplier) ))
{
gapRole_SendUpdateParam( pPkt->connInterval, pPkt->connLatency );
}
// Notify the Bond Manager to the connection
VOID GAPBondMgr_LinkEst( pPkt->devAddrType, pPkt->devAddr, pPkt->connectionHandle, GAP_PROFILE_PERIPHERAL );
}
else
{
gapRole_state = GAPROLE_ERROR;
}
notify = TRUE;
}
break;
case GAP_LINK_TERMINATED_EVENT:
{
VOID GAPBondMgr_ProcessGAPMsg( (gapEventHdr_t *)pMsg );
osal_memset( gapRole_ConnectedDevAddr, 0, B_ADDR_LEN );
if ( gapRole_state == GAPROLE_CONNECTED_ADV )
{
// End the non-connectable advertising
GAP_EndDiscoverable( gapRole_TaskID );
gapRole_state = GAPROLE_CONNECTED;
}
else
{
gapTerminateLinkEvent_t *pPkt = (gapTerminateLinkEvent_t *)pMsg;
if( pPkt->reason == LL_SUPERVISION_TIMEOUT_TERM )
{
gapRole_state = GAPROLE_WAITING_AFTER_TIMEOUT;
}
else
{
gapRole_state = GAPROLE_WAITING;
}
notify = TRUE;
VOID osal_set_event( gapRole_TaskID, START_ADVERTISING_EVT );
}
gapRole_ConnectionHandle = INVALID_CONNHANDLE;
}
break;
case GAP_LINK_PARAM_UPDATE_EVENT:
{
gapLinkUpdateEvent_t *pPkt = (gapLinkUpdateEvent_t *)pMsg;
if ( (pPkt->hdr.status != SUCCESS)
|| (pPkt->connInterval < gapRole_MinConnInterval)
|| (pPkt->connInterval > gapRole_MaxConnInterval) )
{
// Ask to change the interval
gapRole_SendUpdateParam( pPkt->connInterval, pPkt->connLatency );
}
else
{
// All is good stop Update Parameters timeout
VOID osal_stop_timerEx( gapRole_TaskID, UPDATE_PARAMS_TIMEOUT_EVT );
}
}
break;
default:
break;
}
if ( notify == TRUE )
{
// Notify the application
if ( pGapRoles_AppCGs && pGapRoles_AppCGs->pfnStateChange )
{
pGapRoles_AppCGs->pfnStateChange( gapRole_state );
}
}
}
/*********************************************************************
* @fn gapRole_SetupGAP
*
* @brief Call the GAP Device Initialization function using the
* Profile Parameters.
*
* @param none
*
* @return none
*/
static void gapRole_SetupGAP( void )
{
VOID GAP_DeviceInit( gapRole_TaskID,
gapRole_profileRole, 0,
gapRole_IRK, gapRole_SRK,
&gapRole_signCounter );
}
/*********************************************************************
* @fn gapRole_SendUpdateParam
*
* @brief Send an Update Connection Parameters.
*
* @param connInterval - current connection interval
* @param connLatency - current connection latency
*
* @return none
*/
static void gapRole_SendUpdateParam( uint16 connInterval, uint16 connLatency )
{
l2capParamUpdateReq_t updateReq; // Space for Conn Update parameters
uint32 timeout; // Calculated response timeout
// Calculate the current interval
uint16 effectiveOldInterval = (connInterval * (connLatency + 1));
// Calculate the interval we want
uint16 effectiveNewMaxInterval = (gapRole_MaxConnInterval * (gapRole_SlaveLatency + 1));
// Fill in the wanted parameters
updateReq.intervalMin = gapRole_MinConnInterval;
updateReq.intervalMax = gapRole_MaxConnInterval;
updateReq.slaveLatency = gapRole_SlaveLatency;
updateReq.timeoutMultiplier = gapRole_TimeoutMultiplier;
VOID L2CAP_ConnParamUpdateReq( gapRole_ConnectionHandle, &updateReq, gapRole_TaskID );
// Set up the timeout for expected response
if( effectiveOldInterval > effectiveNewMaxInterval )
{
timeout = (uint32)(effectiveOldInterval) * CONN_INTERVAL_MULTIPLIER;
}
else
{
timeout = (uint32)(effectiveNewMaxInterval) * CONN_INTERVAL_MULTIPLIER;
}
if( timeout > MAX_TIMEOUT_VALUE )
{
timeout = MAX_TIMEOUT_VALUE;
}
VOID osal_start_timerEx( gapRole_TaskID, UPDATE_PARAMS_TIMEOUT_EVT, (uint16)(timeout) );
}
/*********************************************************************
*********************************************************************/