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hardware
ti
wlan
wl1271
stad
src
Sta_Management
ScanCncnOsSm.c
/* * ScanCncnOsSm.c * * Copyright(c) 1998 - 2010 Texas Instruments. All rights reserved. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * Neither the name Texas Instruments nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** \file ScanCncnOsSm.c * \brief Scan concentrator OS scan state machine implementation * * \see ScanCncnApp.c */ #define __FILE_ID__ FILE_ID_78 #include "osTIType.h" #include "GenSM.h" #include "ScanCncnOsSm.h" #include "ScanCncn.h" #include "ScanCncnPrivate.h" #include "report.h" #include "osApi.h" #include "siteMgrApi.h" #include "regulatoryDomainApi.h" #include "scanResultTable.h" #define SCAN_OID_DEFAULT_PROBE_REQUEST_RATE_G RATE_MASK_UNSPECIFIED /* Let the FW select */ #define SCAN_OID_DEFAULT_PROBE_REQUEST_RATE_A RATE_MASK_UNSPECIFIED /* Let the FW select */ #define SCAN_OID_DEFAULT_PROBE_REQUEST_NUMBER_G 3 #define SCAN_OID_DEFAULT_PROBE_REQUEST_NUMBER_A 3 #define SCAN_OID_DEFAULT_MAX_DWELL_TIME_PASSIVE_G 100000 #define SCAN_OID_DEFAULT_MAX_DWELL_TIME_PASSIVE_A 100000 #define SCAN_OID_DEFAULT_MAX_DWELL_TIME_ACTIVE_G 30000 #define SCAN_OID_DEFAULT_MAX_DWELL_TIME_ACTIVE_A 30000 #define SCAN_OID_DEFAULT_MIN_DWELL_TIME_PASSIVE_G 100000 #define SCAN_OID_DEFAULT_MIN_DWELL_TIME_PASSIVE_A 100000 #define SCAN_OID_DEFAULT_MIN_DWELL_TIME_ACTIVE_G 15000 #define SCAN_OID_DEFAULT_MIN_DWELL_TIME_ACTIVE_A 15000 #define SCAN_OID_DEFAULT_EARLY_TERMINATION_EVENT_PASSIVE_G SCAN_ET_COND_BEACON #define SCAN_OID_DEFAULT_EARLY_TERMINATION_EVENT_PASSIVE_A SCAN_ET_COND_BEACON #define SCAN_OID_DEFAULT_EARLY_TERMINATION_EVENT_ACTIVE_G SCAN_ET_COND_ANY_FRAME #define SCAN_OID_DEFAULT_EARLY_TERMINATION_EVENT_ACTIVE_A SCAN_ET_COND_ANY_FRAME /* For WiFi WPA OOB scenario, 4 APs need to be configure on the same channel */ #define SCAN_OID_DEFAULT_EARLY_TERMINATION_COUNT_PASSIVE_G 4 #define SCAN_OID_DEFAULT_EARLY_TERMINATION_COUNT_PASSIVE_A 4 #define SCAN_OID_DEFAULT_EARLY_TERMINATION_COUNT_ACTIVE_G 4 #define SCAN_OID_DEFAULT_EARLY_TERMINATION_COUNT_ACTIVE_A 4 static void scanCncnOsSm_ActionStartGScan (TI_HANDLE hScanCncn); static void scanCncnOsSm_ActionStartAScan (TI_HANDLE hScanCncn); static void scanCncnOsSm_ActionCompleteScan (TI_HANDLE hScanCncn); static void scanCncnOsSm_ActionUnexpected (TI_HANDLE hScanCncn); TI_UINT32 scanCncnOsSm_FillAllAvailableChannels (TI_HANDLE hScanCncn, ERadioBand eBand, EScanType eScanType, TScanChannelEntry *pChannelArray, TI_UINT32 uMaxDwellTime, TI_UINT32 uMinChannelTime, EScanEtCondition eETCondition, TI_UINT8 uETFrameNumber); static TGenSM_actionCell tSmMatrix[ SCAN_CNCN_OS_SM_NUMBER_OF_STATES ][ SCAN_CNCN_OS_SM_NUMBER_OF_EVENTS ] = { { /* SCAN_CNCN_OS_SM_STATE_IDLE */ { SCAN_CNCN_OS_SM_STATE_SCAN_ON_G, scanCncnOsSm_ActionStartGScan }, /* SCAN_CNCN_OS_SM_EVENT_START_SCAN */ { SCAN_CNCN_OS_SM_STATE_IDLE, scanCncnOsSm_ActionUnexpected }, /* SCAN_CNCN_OS_SM_EVENT_SCAN_COMPLETE */ }, { /* SCAN_CNCN_OS_SM_STATE_SCAN_ON_G */ { SCAN_CNCN_OS_SM_STATE_SCAN_ON_G, scanCncnOsSm_ActionUnexpected }, /* SCAN_CNCN_OS_SM_EVENT_START_SCAN */ { SCAN_CNCN_OS_SM_STATE_SCAN_ON_A, scanCncnOsSm_ActionStartAScan }, /* SCAN_CNCN_OS_SM_EVENT_SCAN_COMPLETE */ }, { /* SCAN_CNCN_OS_SM_STATE_SCAN_ON_A */ { SCAN_CNCN_OS_SM_STATE_SCAN_ON_A, scanCncnOsSm_ActionUnexpected }, /* SCAN_CNCN_OS_SM_EVENT_START_SCAN */ { SCAN_CNCN_OS_SM_STATE_IDLE, scanCncnOsSm_ActionCompleteScan }, /* SCAN_CNCN_OS_SM_EVENT_SCAN_COMPLETE */ } }; static TI_INT8 *uStateDescription[] = { "IDLE", "SCAN_ON_G", "SCAN_ON_A" }; static TI_INT8 *uEventDescription[] = { "START", "SCAN_COMPLETE" }; /** * \fn scanCncnOsSm_Create * \brief Creates the OS scan state-machine * * creates the OS scan state-machine * * \param hScanCncn - handle to the scan concentrator object * \return Handle to the newly created OS san SM, NULL if an error occured * \sa scanCncnOsSm_Create, scanCncnOsSm_Destroy */ TI_HANDLE scanCncnOsSm_Create (TI_HANDLE hScanCncn) { TScanCncn *pScanCncn = (TScanCncn*)hScanCncn; return genSM_Create (pScanCncn->hOS); } /** * \fn scanCncnOsSm_Init * \brief Initialize the OS scan state-machine * * Initialize the OS scan state-machine * * \param hScanCncn - handle to the scan concentrator object * \return None * \sa scanCncnOsSm_Create */ void scanCncnOsSm_Init (TI_HANDLE hScanCncn) { TScanCncn *pScanCncn = (TScanCncn*)hScanCncn; /* initialize the state-machine */ genSM_Init (pScanCncn->hOSScanSm, pScanCncn->hReport); genSM_SetDefaults (pScanCncn->hOSScanSm, SCAN_CNCN_OS_SM_NUMBER_OF_STATES, SCAN_CNCN_OS_SM_NUMBER_OF_EVENTS, (TGenSM_matrix)tSmMatrix, SCAN_CNCN_OS_SM_STATE_IDLE, "OS scan SM", uStateDescription, uEventDescription, __FILE_ID__); } /** * \fn scanCncnOsSm_Destroy * \brief Destroys the OS scan state-machine * * Destroys the OS scan state-machine * * \param hScanCncn - handle to the scan concentrator object * \return None * \sa scanCncnOsSm_Create */ void scanCncnOsSm_Destroy (TI_HANDLE hScanCncn) { TScanCncn *pScanCncn = (TScanCncn*)hScanCncn; genSM_Unload (pScanCncn->hOSScanSm); } /** * \fn scanCncnOsSm_ActionStartGScan * \brief Scan concentartor OS state machine start scan on G action function * * Scan concentartor OS state machine start scan on G action function. * Starts a sacn on G using all allowed channels * * \param hScanCncn - handle to the scan concentartor object * \return None */ void scanCncnOsSm_ActionStartGScan (TI_HANDLE hScanCncn) { TScanCncn *pScanCncn = (TScanCncn*)hScanCncn; paramInfo_t tParam; TI_UINT32 uValidChannelsCount; TI_BOOL bRegulatoryDomainEnabled; /* if the STA is not configured for G band or dual band, send a scan complete event to the SM */ tParam.paramType = SITE_MGR_DESIRED_DOT11_MODE_PARAM; siteMgr_getParam (pScanCncn->hSiteManager, &tParam); if ((DOT11_G_MODE != tParam.content.siteMgrDot11Mode) && (DOT11_DUAL_MODE != tParam.content.siteMgrDot11Mode)) { TRACE0(pScanCncn->hReport , REPORT_SEVERITY_INFORMATION , "scanCncnOsSm_ActionStartGScan: STA does not work on 2.4 GHz, continuing to 5.0 GHz scan\n"); genSM_Event (pScanCncn->hOSScanSm, SCAN_CNCN_OS_SM_EVENT_SCAN_COMPLETE, hScanCncn); return; } /* build scan command header */ pScanCncn->tOsScanParams.band = RADIO_BAND_2_4_GHZ; pScanCncn->tOsScanParams.Tid = 255; /* query the regulatory domain if 802.11d is in use */ tParam.paramType = REGULATORY_DOMAIN_ENABLED_PARAM; regulatoryDomain_getParam (pScanCncn->hRegulatoryDomain, &tParam ); bRegulatoryDomainEnabled = tParam.content.regulatoryDomainEnabled; /* Get country code status */ tParam.paramType = REGULATORY_DOMAIN_IS_COUNTRY_FOUND; tParam.content.eRadioBand = RADIO_BAND_2_4_GHZ; regulatoryDomain_getParam (pScanCncn->hRegulatoryDomain, &tParam); /* scan type is passive if 802.11d is enabled and country IE was not yet found, active otherwise */ if (((TI_TRUE == bRegulatoryDomainEnabled) && (TI_FALSE == tParam.content.bIsCountryFound)) || SCAN_TYPE_TRIGGERED_PASSIVE == pScanCncn->tOsScanParams.scanType) { pScanCncn->tOsScanParams.scanType = SCAN_TYPE_TRIGGERED_PASSIVE; } /* All paramters in the func are hard coded, due to that we set to active if not passive */ else { pScanCncn->tOsScanParams.scanType = SCAN_TYPE_TRIGGERED_ACTIVE; /* also set number and rate of probe requests */ pScanCncn->tOsScanParams.probeReqNumber = SCAN_OID_DEFAULT_PROBE_REQUEST_NUMBER_G; pScanCncn->tOsScanParams.probeRequestRate = (ERateMask)SCAN_OID_DEFAULT_PROBE_REQUEST_RATE_G; } /* add supported channels on G */ if (SCAN_TYPE_NORMAL_PASSIVE == pScanCncn->tOsScanParams.scanType ) { uValidChannelsCount = scanCncnOsSm_FillAllAvailableChannels (hScanCncn, RADIO_BAND_2_4_GHZ, SCAN_TYPE_NORMAL_PASSIVE, &(pScanCncn->tOsScanParams.channelEntry[0]), SCAN_OID_DEFAULT_MAX_DWELL_TIME_PASSIVE_G, SCAN_OID_DEFAULT_MIN_DWELL_TIME_PASSIVE_G, SCAN_OID_DEFAULT_EARLY_TERMINATION_EVENT_PASSIVE_G, SCAN_OID_DEFAULT_EARLY_TERMINATION_COUNT_PASSIVE_G); } else { uValidChannelsCount = scanCncnOsSm_FillAllAvailableChannels (hScanCncn, RADIO_BAND_2_4_GHZ, SCAN_TYPE_NORMAL_ACTIVE, &(pScanCncn->tOsScanParams.channelEntry[0]), SCAN_OID_DEFAULT_MAX_DWELL_TIME_ACTIVE_G, SCAN_OID_DEFAULT_MIN_DWELL_TIME_ACTIVE_G, SCAN_OID_DEFAULT_EARLY_TERMINATION_EVENT_ACTIVE_G, SCAN_OID_DEFAULT_EARLY_TERMINATION_COUNT_ACTIVE_G); } pScanCncn->tOsScanParams.numOfChannels = uValidChannelsCount; /* check that some channels are available */ if ( uValidChannelsCount > 0 ) { EScanCncnResultStatus eResult; /* send command to scan concentrator APP SM */ eResult = scanCncn_Start1ShotScan (hScanCncn, SCAN_SCC_APP_ONE_SHOT, &(pScanCncn->tOsScanParams)); /* if scan failed, send scan complete event to the SM */ if (SCAN_CRS_SCAN_RUNNING != eResult) { TRACE0(pScanCncn->hReport, REPORT_SEVERITY_ERROR , "scanCncnOsSm_ActionStartGScan: scan failed on 2.4 GHz, continuing to 5.0 GHz scan\n"); genSM_Event (pScanCncn->hOSScanSm, SCAN_CNCN_OS_SM_EVENT_SCAN_COMPLETE, hScanCncn); } } else { TRACE0(pScanCncn->hReport, REPORT_SEVERITY_ERROR , "scanCncnOsSm_ActionStartGScan: no valid cahnnels on 2.4 GHz, continuing to 5.0 GHz scan\n"); /* no channels to scan, send a scan complete event */ genSM_Event (pScanCncn->hOSScanSm, SCAN_CNCN_OS_SM_EVENT_SCAN_COMPLETE, hScanCncn); } } /** * \fn scanCncnOsSm_ActionStartAScan * \brief Scan concentartor OS state machine start scan on A action function * * Scan concentartor OS state machine start scan on A action function. * Starts a sacn on A using all allowed channels * * \param hScanCncn - handle to the scan concentartor object * \return None */ void scanCncnOsSm_ActionStartAScan (TI_HANDLE hScanCncn) { TScanCncn *pScanCncn = (TScanCncn*)hScanCncn; paramInfo_t tParam; TI_UINT32 uValidChannelsCount; TI_BOOL bRegulatoryDomainEnabled; /* if the STA is not configured for G band or dual band, send a scan complete event to the SM */ tParam.paramType = SITE_MGR_DESIRED_DOT11_MODE_PARAM; siteMgr_getParam (pScanCncn->hSiteManager, &tParam); if ((DOT11_A_MODE != tParam.content.siteMgrDot11Mode) && (DOT11_DUAL_MODE != tParam.content.siteMgrDot11Mode)) { TRACE0(pScanCncn->hReport, REPORT_SEVERITY_INFORMATION , "scanCncnOsSm_ActionStartAScan: STA does not work on 5.0 GHz, quitting\n"); genSM_Event (pScanCncn->hOSScanSm, SCAN_CNCN_OS_SM_EVENT_SCAN_COMPLETE, hScanCncn); return; } /* build scan command header */ pScanCncn->tOsScanParams.band = RADIO_BAND_5_0_GHZ; pScanCncn->tOsScanParams.Tid = 0; /* query the regulatory domain if 802.11d is in use */ tParam.paramType = REGULATORY_DOMAIN_ENABLED_PARAM; regulatoryDomain_getParam (pScanCncn->hRegulatoryDomain, &tParam ); bRegulatoryDomainEnabled = tParam.content.regulatoryDomainEnabled; /* Get country code status */ tParam.paramType = REGULATORY_DOMAIN_IS_COUNTRY_FOUND; tParam.content.eRadioBand = RADIO_BAND_5_0_GHZ; regulatoryDomain_getParam (pScanCncn->hRegulatoryDomain, &tParam); /* scan type is passive if 802.11d is enabled and country IE was not yet found, active otherwise */ if (((TI_TRUE == bRegulatoryDomainEnabled) && (TI_FALSE == tParam.content.bIsCountryFound)) || SCAN_TYPE_TRIGGERED_PASSIVE == pScanCncn->tOsScanParams.scanType) { pScanCncn->tOsScanParams.scanType = SCAN_TYPE_TRIGGERED_PASSIVE; } /* All paramters in the func are hard coded, due to that we set to active if not passive */ else { pScanCncn->tOsScanParams.scanType = SCAN_TYPE_TRIGGERED_ACTIVE; /* also set number and rate of probe requests */ pScanCncn->tOsScanParams.probeReqNumber = SCAN_OID_DEFAULT_PROBE_REQUEST_NUMBER_A; pScanCncn->tOsScanParams.probeRequestRate = (ERateMask)SCAN_OID_DEFAULT_PROBE_REQUEST_RATE_A; } /* add supported channels on G */ if (SCAN_TYPE_NORMAL_PASSIVE == pScanCncn->tOsScanParams.scanType ) { uValidChannelsCount = scanCncnOsSm_FillAllAvailableChannels (hScanCncn, RADIO_BAND_5_0_GHZ, SCAN_TYPE_NORMAL_PASSIVE, &(pScanCncn->tOsScanParams.channelEntry[0]), SCAN_OID_DEFAULT_MAX_DWELL_TIME_PASSIVE_A, SCAN_OID_DEFAULT_MIN_DWELL_TIME_PASSIVE_A, SCAN_OID_DEFAULT_EARLY_TERMINATION_EVENT_PASSIVE_A, SCAN_OID_DEFAULT_EARLY_TERMINATION_COUNT_PASSIVE_A ); } else { uValidChannelsCount = scanCncnOsSm_FillAllAvailableChannels (hScanCncn, RADIO_BAND_5_0_GHZ, SCAN_TYPE_NORMAL_ACTIVE, &(pScanCncn->tOsScanParams.channelEntry[0]), SCAN_OID_DEFAULT_MAX_DWELL_TIME_ACTIVE_A, SCAN_OID_DEFAULT_MIN_DWELL_TIME_ACTIVE_A, SCAN_OID_DEFAULT_EARLY_TERMINATION_EVENT_ACTIVE_A, SCAN_OID_DEFAULT_EARLY_TERMINATION_COUNT_ACTIVE_A ); } pScanCncn->tOsScanParams.numOfChannels = uValidChannelsCount; /* check that some channels are available */ if ( uValidChannelsCount > 0 ) { EScanCncnResultStatus eResult; /* send command to scan concentrator APP SM */ eResult = scanCncn_Start1ShotScan (hScanCncn, SCAN_SCC_APP_ONE_SHOT, &(pScanCncn->tOsScanParams)); /* if scan failed, send scan complete event to the SM */ if (SCAN_CRS_SCAN_RUNNING != eResult) { TRACE0(pScanCncn->hReport, REPORT_SEVERITY_ERROR , "scanCncnOsSm_ActionStartAScan: scan failed on 5.0 GHz, quitting\n"); genSM_Event (pScanCncn->hOSScanSm, SCAN_CNCN_OS_SM_EVENT_SCAN_COMPLETE, hScanCncn); } } else { TRACE0(pScanCncn->hReport, REPORT_SEVERITY_ERROR , "scanCncnOsSm_ActionStartGScan: no valid cahnnels on 5.0 GHz, quitting\n"); /* no channels to scan, send a scan complete event */ genSM_Event (pScanCncn->hOSScanSm, SCAN_CNCN_OS_SM_EVENT_SCAN_COMPLETE, hScanCncn); } } /** * \fn scanCncnOsSm_ActionCompleteScan * \brief Scan concentartor OS state machine complete scan action function * * Scan concentartor OS state machine complete scan action function. * Cleans up after an OS scan cycle - stabilize the scan result table * * \param hScanCncn - handle to the scan concentartor object * \return None */ void scanCncnOsSm_ActionCompleteScan (TI_HANDLE hScanCncn) { TScanCncn *pScanCncn = (TScanCncn*)hScanCncn; /*Update the table only if scan was not rejected*/ if ( !pScanCncn->pScanClients[ pScanCncn->eCurrentRunningAppScanClient ]->bScanRejectedOn2_4) { /* * set the result table to stable state. Note: OID scans are always done for the application, so the * results will always be sent to the scan concentartor app scan result table, regardless of the * SME connection mode. However, it is expected that the SME will NOT attempt to connect when an OID * scan request will be received */ scanResultTable_SetStableState (pScanCncn->hScanResultTable); } else { pScanCncn->pScanClients[ pScanCncn->eCurrentRunningAppScanClient ]->bScanRejectedOn2_4 = TI_FALSE; } /* mark that OID scan process is no longer running */ pScanCncn->bOSScanRunning = TI_FALSE; /* also mark that no app scan client is running */ pScanCncn->eCurrentRunningAppScanClient = SCAN_SCC_NO_CLIENT; /* no need to send scan complete event - WZC (or equivalent other OS apps) will query for the results */ } /** * \fn scanCncnOsSm_FillAllAvailableChannels * \brief Fills a chhanel array with valid channels (and their params) according to band and scan type * * Fills a chhanel array with valid channels (and their params) according to band and scan type * * \param hScanCncn - handle to the scan concentrator object * \param eBand - band to extract channels for * \param eScanType - scan type tp ectract channels for * \param pChannelArray - where to store allowed channels information * \param uMaxDwellTime - maximum dwell time value to be used for each channel * \param uMinDwellTime - minimum dwell time value to be used for each channel * \param eETCondition - early termination condition value to be used for each channel * \param uETFrameNumber - early termination frame number value to be used for each channel * \return Number of allowed channels (that were placed in the given channels array) */ TI_UINT32 scanCncnOsSm_FillAllAvailableChannels (TI_HANDLE hScanCncn, ERadioBand eBand, EScanType eScanType, TScanChannelEntry *pChannelArray, TI_UINT32 uMaxDwellTime, TI_UINT32 uMinChannelTime, EScanEtCondition eETCondition, TI_UINT8 uETFrameNumber) { TScanCncn *pScanCncn = (TScanCncn*)hScanCncn; TI_UINT32 i, j, uAllowedChannelsCount, uValidChannelsCnt = 0; paramInfo_t tParam; TI_UINT8 uTempChannelList[ SCAN_MAX_NUM_OF_NORMAL_CHANNELS_PER_COMMAND ]; /* get the numnber of supported channels for this band */ tParam.paramType = REGULATORY_DOMAIN_ALL_SUPPORTED_CHANNELS; tParam.content.siteMgrRadioBand = eBand; regulatoryDomain_getParam (pScanCncn->hRegulatoryDomain, &tParam); uAllowedChannelsCount = tParam.content.supportedChannels.sizeOfList; /* for the time being don't scan more channels than fit in one command */ if (uAllowedChannelsCount > SCAN_MAX_NUM_OF_NORMAL_CHANNELS_PER_COMMAND) { uAllowedChannelsCount = SCAN_MAX_NUM_OF_NORMAL_CHANNELS_PER_COMMAND; } /* Copy allowed channels to reuse param var */ os_memoryCopy (pScanCncn->hOS, uTempChannelList, tParam.content.supportedChannels.listOfChannels, uAllowedChannelsCount ); /* preapre the param var to request channel allowance for the requested scan type */ tParam.paramType = REGULATORY_DOMAIN_GET_SCAN_CAPABILITIES; tParam.content.channelCapabilityReq.band = eBand; /* add default values to channels allowed for the requested scan type and band */ for (i = 0; i < uAllowedChannelsCount; i++) { /* get specific channel allowance for scan type */ if ((eScanType == SCAN_TYPE_NORMAL_PASSIVE) || (eScanType == SCAN_TYPE_TRIGGERED_PASSIVE) || (eScanType == SCAN_TYPE_SPS)) { tParam.content.channelCapabilityReq.scanOption = PASSIVE_SCANNING; } else { tParam.content.channelCapabilityReq.scanOption = ACTIVE_SCANNING; } tParam.content.channelCapabilityReq.channelNum = uTempChannelList[ i ]; regulatoryDomain_getParam( pScanCncn->hRegulatoryDomain, &tParam ); if (TI_TRUE == tParam.content.channelCapabilityRet.channelValidity) { /* add the channel ID */ pChannelArray[ uValidChannelsCnt ].normalChannelEntry.channel = uTempChannelList[ i ]; /* add other default parameters */ pChannelArray[ uValidChannelsCnt ].normalChannelEntry.minChannelDwellTime = uMinChannelTime; pChannelArray[ uValidChannelsCnt ].normalChannelEntry.maxChannelDwellTime = uMaxDwellTime; pChannelArray[ uValidChannelsCnt ].normalChannelEntry.earlyTerminationEvent = eETCondition; pChannelArray[ uValidChannelsCnt ].normalChannelEntry.ETMaxNumOfAPframes = uETFrameNumber; pChannelArray[ uValidChannelsCnt ].normalChannelEntry.txPowerDbm = tParam.content.channelCapabilityRet.maxTxPowerDbm; /* Fill broadcast BSSID */ for (j = 0; j < 6; j++) { pChannelArray[ uValidChannelsCnt ].normalChannelEntry.bssId[ j ] = 0xff; } uValidChannelsCnt++; } } /* return the number of channels that are actually allowed for the requested scan type on the requested band */ return uValidChannelsCnt; } /** * \fn Function declaration * \brief Function brief description goes here * * Function detailed description goes here * * \note Note is indicated here * \param Parameter name - parameter description * \param * \return Return code is detailed here * \sa Reference to other relevant functions */ /** * \\n * \date 11-Jan-2005\n * \brief Handles an unexpected event.\n * * Function Scope \e Private.\n * \param hScanCncn - handle to the scan concentrator object.\n * \return always OK.\n */ void scanCncnOsSm_ActionUnexpected (TI_HANDLE hScanCncn) { TScanCncn *pScanCncn = (TScanCncn*)hScanCncn; TRACE0(pScanCncn->hReport, REPORT_SEVERITY_ERROR , "scanCncnOsSm_ActionUnexpected: Unexpeted action for current state\n"); }
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