Ejemplo n.º 1
0
/**
 * \fn     tmr_StopTimer
 * \brief  Stop a running timer
 *
 * Stop the specified timer.
 *
 * \note   When using this function, it must be considered that timer expiry may happen
 *           right before the timer is stopped, so it can't be assumed that this completely
 *           prevents the timer expiry event!
 * \param  hTimerInfo - The specific timer handle
 * \return void
 * \sa     tmr_StartTimer
 */
void tmr_StopTimer (TI_HANDLE hTimerInfo)
{
    TTimerInfo   *pTimerInfo   = (TTimerInfo *)hTimerInfo;                 /* The timer handle */
    TTimerModule *pTimerModule = (TTimerModule *)pTimerInfo->hTimerModule; /* The timer module handle */

    /* Stop OS-API timer running */
    os_timerStop(pTimerModule->hOs, pTimerInfo->hOsTimerObj);

    /* Clear periodic flag to prevent timer restart if we are in tmr_HandleExpiry context. */
    pTimerInfo->bPeriodic = TI_FALSE;
}
Ejemplo n.º 2
0
/**
*
* mainKeySmReportComplete
*
* \b Description: 
*
* Report key complete to the main security SM.
*
* \b ARGS:
*
*  I   - pData - station control block  \n
*
* \b RETURNS:
*
*  OK on success, NOK otherwise.
*/
TI_STATUS mainKeys_bcastCompleteUcastComplete(struct _mainKeys_t *pMainKeys)
{
	TI_STATUS  status;

    WLAN_REPORT_INFORMATION(pMainKeys->hReport, RSN_MODULE_LOG,
                      ("mainKeys_bcastCompleteUcastComplete - sending Interrogate \n"));
	os_timerStop(pMainKeys->hOs, pMainKeys->timer);

	status = pMainKeys->pParent->reportKeysStatus(pMainKeys->pParent, OK);

	return status;
}
/**
 * \author Yuval Adler\n
 * \date 29-Dec-2004\n
 * \brief Finalizes the scan SRV module (releasing memory and timer)
 *
 * Function Scope \e Public.\n
 * \param hScanSRV - handle to the scan SRV object.\n
 */
void MacServices_scanSRV_destroy( TI_HANDLE hScanSRV )
{
    scanSRV_t *pScanSRV = (scanSRV_t*)hScanSRV;

    /* free timer */
    os_timerStop( pScanSRV->hOS, pScanSRV->timer );
    os_timerDestroy( pScanSRV->hOS, pScanSRV->timer );

    /* free memory */
    fsm_Unload( pScanSRV->hOS, pScanSRV->SM );
    os_memoryFree( pScanSRV->hOS, (TI_HANDLE)pScanSRV , sizeof(scanSRV_t) );
}
Ejemplo n.º 4
0
/****************************************************************************
 *                      elpCtrl_Stop()
 ****************************************************************************
 * DESCRIPTION: Stop ElpCtrl module before Recovery.
 *              Move to "open": MODE_KEEP_AWAKE + STATE_ON
 * 
 * INPUTS:  hElpCtrl - the handle to the ElpCtrl module.
 * 
 * OUTPUT:  
 * 
 * RETURNS: OK
 ****************************************************************************/
int elpCtrl_Stop(TI_HANDLE hElpCtrl)
{
    elpCtrl_t *pElpCtrl = (elpCtrl_t*)hElpCtrl;

    /* set the init state */
    pElpCtrl->mode =  ELPCTRL_MODE_KEEP_AWAKE;
    pElpCtrl->state = ELPS_AWAKE;

    /* printk("TI: %s:\t%lu - stop timeout\n", __FUNCTION__, jiffies); */
    os_timerStop (pElpCtrl->hOs, pElpCtrl->hTimer);
    
    return OK;
}
Ejemplo n.º 5
0
/****************************************************************************
 *                      elpCtrl_ReceivedIRQ()
 ****************************************************************************
 * DESCRIPTION: 
 * 
 * INPUTS:  hElpCtrl - the handle to the ElpCtrl module.
 * 
 * OUTPUT:  
 * 
 * RETURNS: TNETWIF_PENDING | TNETWIF_COMPLETE
 ****************************************************************************/
void elpCtrl_ReceivedIRQ (TI_HANDLE hElpCtrl)
{   
    elpCtrl_t *pElpCtrl = (elpCtrl_t*)hElpCtrl;

    if (pElpCtrl->state == ELPS_WAKING_UP_MUX)
    {
        pElpCtrl->state = ELPS_AWAKE;
        /* printk("TI: %s:\t%lu - stop timeout\n", __FUNCTION__, jiffies); */
        os_timerStop (pElpCtrl->hOs, pElpCtrl->hTimer);
    }

    return;
}
/**
 * \brief Restart the scan SRV module upon recovery.
 *
 * Function Scope \e Public.\n
 * \param hScanSRV - handle to the scan SRV object.\n
 */
void scanSRV_restart( TI_HANDLE hScanSRV)
{
    scanSRV_t *pScanSRV =  (scanSRV_t *)hScanSRV;
    /* init state machine */
    /* initialize current state */
    pScanSRV->SMState = SCAN_SRV_STATE_IDLE;

    if ( TRUE == pScanSRV->bTimerRunning )
    {
        os_timerStop( pScanSRV->hOS, pScanSRV->timer );
        pScanSRV->bTimerRunning = FALSE;
    }
}
Ejemplo n.º 7
0
/**
 * \fn     tmr_StopTimer
 * \brief  Stop a running timer
 *
 * Stop the specified timer.
 *
 * \note   When using this function, it must be considered that timer expiry may happen
 *           right before the timer is stopped, so it can't be assumed that this completely
 *           prevents the timer expiry event!
 * \param  hTimerInfo - The specific timer handle
 * \return void
 * \sa     tmr_StartTimer
 */
void tmr_StopTimer (TI_HANDLE hTimerInfo)
{
	TTimerInfo   *pTimerInfo   = (TTimerInfo *)hTimerInfo;                 /* The timer handle */
	TTimerModule *pTimerModule = (TTimerModule *)pTimerInfo->hTimerModule; /* The timer module handle */

	if (!pTimerModule) {
		WLAN_OS_REPORT (("tmr_StopTimer(): ERROR - NULL timer!\n"));
		return;
	}
	/* Stop OS-API timer running */
	os_timerStop(pTimerModule->hOs, pTimerInfo->hOsTimerObj);

	/* Clear periodic flag to prevent timer restart if we are in tmr_HandleExpiry context. */
	pTimerInfo->bPeriodic = TI_FALSE;
}
Ejemplo n.º 8
0
/**
*
* mainKeys_config
*
* \b Description: 
*
* Init main security state machine state machine
*
* \b ARGS:
*
*  none
*
* \b RETURNS:
*
*  OK on success, NOK otherwise.
*
* \sa 
*/
TI_STATUS mainKeys_unload(mainKeys_t *pMainKeys)
{
	TI_STATUS	status;

	if (pMainKeys == NULL)
	{
		return NOK;
	}

	status = fsm_Unload(pMainKeys->hOs, pMainKeys->pMainKeysSm);
    if (status != OK)
	{
		/* report failure but don't stop... */
		WLAN_REPORT_ERROR(pMainKeys->hReport, RSN_MODULE_LOG,
						  ("MAIN_KEYS_SM: Error releasing FSM memory \n"));
	}

	os_timerStop(pMainKeys->hOs, pMainKeys->timer);
    os_timerDestroy(pMainKeys->hOs, pMainKeys->timer);
	
    status = keyParser_unload(pMainKeys->pKeyParser);
    if (status != OK)
	{
		/* report failure but don't stop... */
		WLAN_REPORT_ERROR(pMainKeys->hReport, RSN_MODULE_LOG,
						  ("MAIN_KEYS_SM: Error unloading key parser\n"));
	}

	status = broadcastKey_unload(pMainKeys->pBcastSm);
    if (status != OK)
	{
		/* report failure but don't stop... */
		WLAN_REPORT_ERROR(pMainKeys->hReport, RSN_MODULE_LOG,
						  ("MAIN_KEYS_SM: Error unloading broadcast key SM\n"));
	}

	status = unicastKey_unload(pMainKeys->pUcastSm);
    if (status != OK)
	{
		/* report failure but don't stop... */
		WLAN_REPORT_ERROR(pMainKeys->hReport, RSN_MODULE_LOG,
						  ("MAIN_KEYS_SM: Error unloading unicast key SM\n"));
	}
	
	os_memoryFree(pMainKeys->hOs, pMainKeys, sizeof(mainKeys_t));

    return OK;
}
Ejemplo n.º 9
0
static TI_STATUS disAssocc_to_idle(void *pData)
{
    conn_t *pConn = (conn_t *)pData;

    /* Stop the disconnect timeout timer. */
    os_timerStop(((conn_t *)pData)->hOs, ((conn_t *)pData)->pTimer);

    /* 
     * Tx Data Stop and QoS disconnect must be called only after the disconnect (dissasociate/deauthenticate)
     * has been sent, or else no TX complete is received!
     */
    txData_stop(pConn->hTxData);
    qosMngr_disconnect(pConn->hQosMngr);

#ifdef EXC_MODULE_INCLUDED
    measurementMgr_disableTsMetrics(pConn->hMeasurementMgr, MAX_NUM_OF_AC);
#endif

    /* set Hw not available now that the connection process failed */
    MacServices_powerAutho_AwakeRequiredUpdate(pConn->hMacServices, POWERAUTHO_AWAKE_NOT_REQUIRED, POWERAUTHO_AWAKE_REASON_CONNECTION);

    whalCtrl_FwDisconnect(pConn->hHalCtrl, 
                          RX_CONFIG_OPTION_MY_DST_MY_BSS, 
                          RX_FILTER_OPTION_FILTER_ALL);

#ifdef EXC_MODULE_INCLUDED
    excMngr_updateIappInformation(pConn->hExcMngr, EXC_DISASSOC);
#endif

    /*
     * Call the connection lost callback set by the SME or AP_CONN.
     */
	pConn->pConnStatusCB( pConn->connStatCbObj, pConn->smContext.disAssocEventReason, pConn->smContext.disAssocEventStatusCode);

    /*
     * In case of connection failuer we might get here without freeing the SCR.
     */
    if( pConn->scrRequested == TRUE ){
         scr_clientComplete( pConn->hScr, SCR_CID_CONNECT );
         pConn->scrRequested = FALSE;
    }


    return OK;

}
Ejemplo n.º 10
0
/**
*
* mainKeySmStopSubKeySmsAndTimer
*
* \b Description: 
*
* Stops unicast & broadcast key SMs and session timer.
*
* \b ARGS:
*
*  I   - pData - station control block  \n
*
* \b RETURNS:
*
*  OK on success, NOK otherwise.
*/
TI_STATUS mainKeys_stopBcastComplete(struct _mainKeys_t *pMainKeys)
{
	TI_STATUS  status = OK;

	status = pMainKeys->pUcastSm->stop(pMainKeys->pUcastSm);
	if (status != OK)
	{
		return NOK;
	}

	status = pMainKeys->pBcastSm->stop(pMainKeys->pBcastSm);
	if (status != OK)
	{
		return NOK;
	}

	os_timerStop(pMainKeys->hOs, pMainKeys->timer);
	
	return status;
}
Ejemplo n.º 11
0
void sendMgmtPacket(TI_HANDLE hOs)
{
	static TI_UINT8            aMsg[2000];
	TI_UINT32           i;
	dot11MgmtSubType_e  eMsgType = DE_AUTH;

	for (i = 0; i < packetLength; i++) {
		aMsg[i] = i;
	}

	mlmeBuilder_sendFrame(tmp_hMlme, eMsgType, aMsg, packetLength, 0);

	numOfPackets++;
	if ((infinitLoopFl == 0) && (numOfPackets > packetsNum)) {
		os_timerStop(hOs, dTimer);
		os_printf("\n *********** Last Packet was sent **********");
		os_timerDestroy(hOs, dTimer);
	} else {
		os_timerStart(hOs, dTimer, 1000);
	}
}
/****************************************************************************************
 *                        os_timerDestroy()                                 
 ****************************************************************************************
DESCRIPTION:    This function destroys the OS timer object.

ARGUMENTS:		

RETURN:			

NOTES:         	
*****************************************************************************************/
void os_timerDestroy (TI_HANDLE OsContext, TI_HANDLE TimerHandle)
{
	os_timerStop (OsContext, TimerHandle);
	os_memoryFree (OsContext, TimerHandle, sizeof(TOsTimer));
}