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android / platform / system / wlan / ti / 9b213f53c0858384d639ce002fec21f3f82a2ca1 / . / wilink_6_1 / TWD / Ctrl / CmdBldCmd.c
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/*
* CmdBldCmd.c
*
* Copyright(c) 1998 - 2009 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 CmdBldCmd.c
* \brief Command builder. Commands
*
* \see CmdBld.h
*/
#define __FILE_ID__ FILE_ID_93
#include "tidef.h"
#include "report.h"
#include "TWDriverInternal.h"
#include "CmdBld.h"
#include "CmdBldCmdIE.h"
#include "CmdBldCfgIE.h"
#include "CmdQueue_api.h"
#include "eventMbox_api.h"
/*
Rx filter field is mostly hard-coded.
This filter value basically pass only valid beacons / probe responses. For exact bit description,
consult either the DPG or the FPG (or both, and Yoel...)
*/
#define RX_FILTER_CFG_ (CFG_RX_PRSP_EN | CFG_RX_MGMT_EN | CFG_RX_BCN_EN | CFG_RX_RCTS_ACK | CFG_RX_CTL_EN)
#define RX_CONFIG_OPTION (CFG_RX_RAW | CFG_UNI_FILTER_EN | CFG_RX_INT_FCS_ERROR | CFG_RX_WR_RX_STATUS | CFG_RX_TIMESTAMP_TSF)
TI_STATUS cmdBld_CmdAddWepMappingKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb);
TI_STATUS cmdBld_CmdRemoveWepMappingKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb);
TI_UINT32 cmdBld_BuildPeriodicScanChannles (TPeriodicScanParams *pPeriodicScanParams, ConnScanChannelInfo_t *pChannelList, EScanType eScanType, ERadioBand eRadioBand, TI_UINT32 uPassiveScanDfsDwellTime);
/**
* \fn cmdBld_CmdStartScan
* \brief Build a start scan command and send it to the FW
*
* Build a start scan command and send it to the FW
*
* \param hCmdBld - handle to the command builder object
* \param pScanVals - scan parameters
* \param eScanTag - scan tag used for scan complete and result tracking
* \param fScanCommandResponseCB - command complete CB
* \param hCb - command complete CB
* \return command status (OK / NOK)
* \sa cmdBld_CmdStopScan
*/
TI_STATUS cmdBld_CmdStartScan (TI_HANDLE hCmdBld, TScanParams *pScanVals, EScanResultTag eScanTag,
TI_BOOL bHighPriority, void* ScanCommandResponseCB, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
BasicScanChannelParameters_t* chanPtr;
ScanParameters_t tnetScanParams;
TI_UINT8* pBSSID;
TI_INT32 i;
/* Convert general scan data to tnet structure */
tnetScanParams.basicScanParameters.tidTrigger = pScanVals->Tid;
tnetScanParams.basicScanParameters.numOfProbRqst = pScanVals->probeReqNumber;
tnetScanParams.basicScanParameters.ssidLength = pScanVals->desiredSsid.len;
os_memoryCopy (pCmdBld->hOs,
(void *)tnetScanParams.basicScanParameters.ssidStr,
(void *)pScanVals->desiredSsid.str,
tnetScanParams.basicScanParameters.ssidLength);
/*
scan options field is composed of scan type and band selection.
First, use the lookup table to convert the scan type
*/
tnetScanParams.basicScanParameters.scanOptions = 0;
switch ( pScanVals->scanType )
{
case SCAN_TYPE_NORMAL_ACTIVE :
tnetScanParams.basicScanParameters.scanOptions = SCAN_ACTIVE;
break;
case SCAN_TYPE_NORMAL_PASSIVE :
tnetScanParams.basicScanParameters.scanOptions = SCAN_PASSIVE;
break;
case SCAN_TYPE_TRIGGERED_ACTIVE :
tnetScanParams.basicScanParameters.scanOptions = SCAN_ACTIVE | TRIGGERED_SCAN;
break;
case SCAN_TYPE_TRIGGERED_PASSIVE :
tnetScanParams.basicScanParameters.scanOptions = SCAN_PASSIVE | TRIGGERED_SCAN;
break;
default:
TRACE1( pCmdBld->hReport, REPORT_SEVERITY_ERROR, "Invalid scan type:%d\n", pScanVals->scanType);
return TI_NOK;
}
/* Add the band selection */
if ( RADIO_BAND_5_0_GHZ == pScanVals->band )
{
tnetScanParams.basicScanParameters.band = RADIO_BAND_5GHZ;
}
else
{
tnetScanParams.basicScanParameters.band = RADIO_BAND_2_4_GHZ;
}
/* Add high priority bit */
if ( bHighPriority )
{
tnetScanParams.basicScanParameters.scanOptions |= SCAN_PRIORITY_HIGH;
}
tnetScanParams.basicScanParameters.scanOptions = ENDIAN_HANDLE_WORD( tnetScanParams.basicScanParameters.scanOptions );
/* important note: BSSID filter (0x0010) is DISABLED, because the FW sets it according
to BSSID value (broadcast does not filter, any other value will */
tnetScanParams.basicScanParameters.rxCfg.ConfigOptions = ENDIAN_HANDLE_LONG(RX_CONFIG_OPTION) ;
tnetScanParams.basicScanParameters.rxCfg.FilterOptions = ENDIAN_HANDLE_LONG( RX_FILTER_CFG_ );
/* If the SSID is not broadcast SSID, also filter according to SSID */
if (pScanVals->desiredSsid.len != 0)
{
tnetScanParams.basicScanParameters.rxCfg.ConfigOptions |= 0x0400;
}
tnetScanParams.basicScanParameters.rxCfg.ConfigOptions = ENDIAN_HANDLE_LONG( tnetScanParams.basicScanParameters.rxCfg.ConfigOptions );
/* Rate conversion is done in the HAL */
cmdBld_ConvertAppRatesBitmap (pScanVals->probeRequestRate,
0,
&tnetScanParams.basicScanParameters.txdRateSet);
tnetScanParams.basicScanParameters.txdRateSet = ENDIAN_HANDLE_LONG( tnetScanParams.basicScanParameters.txdRateSet );
tnetScanParams.basicScanParameters.numChannels = ENDIAN_HANDLE_WORD( pScanVals->numOfChannels );
/* scan result tag */
tnetScanParams.basicScanParameters.scanTag = eScanTag;
/* copy channel specific scan data to HAL structure */
for ( i = 0; i < pScanVals->numOfChannels; i++ )
{
TI_INT32 j;
TI_UINT8* macAddr;
macAddr = (TI_UINT8*)&tnetScanParams.basicScanChannelParameters[ i ].bssIdL;
/* copy the MAC address, upside down (CHIP structure) */
for ( j = 0; j < MAC_ADDR_LEN; j++ )
{
macAddr[ j ] = pScanVals->channelEntry[ i ].normalChannelEntry.bssId[ MAC_ADDR_LEN - 1 - j ];
}
tnetScanParams.basicScanChannelParameters[ i ].scanMinDuration =
ENDIAN_HANDLE_LONG( pScanVals->channelEntry[ i ].normalChannelEntry.minChannelDwellTime );
tnetScanParams.basicScanChannelParameters[ i ].scanMaxDuration =
ENDIAN_HANDLE_LONG( pScanVals->channelEntry[ i ].normalChannelEntry.maxChannelDwellTime );
tnetScanParams.basicScanChannelParameters[ i ].ETCondCount =
pScanVals->channelEntry[ i ].normalChannelEntry.ETMaxNumOfAPframes |
pScanVals->channelEntry[ i ].normalChannelEntry.earlyTerminationEvent;
tnetScanParams.basicScanChannelParameters[ i ].txPowerAttenuation =
pScanVals->channelEntry[ i ].normalChannelEntry.txPowerDbm;
tnetScanParams.basicScanChannelParameters[ i ].channel =
pScanVals->channelEntry[ i ].normalChannelEntry.channel;
}
TRACE7(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "RxCfg = 0x%x\n RxFilterCfg = 0x%x\n scanOptions = 0x%x\n numChannels = %d\n probeNumber = %d\n probeRateModulation = 0x%x\n tidTrigger = %d\n" , tnetScanParams.basicScanParameters.rxCfg.ConfigOptions, tnetScanParams.basicScanParameters.rxCfg.FilterOptions, tnetScanParams.basicScanParameters.scanOptions, tnetScanParams.basicScanParameters.numChannels, tnetScanParams.basicScanParameters.numOfProbRqst, tnetScanParams.basicScanParameters.txdRateSet, tnetScanParams.basicScanParameters.tidTrigger);
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Channel BSSID MinTime MaxTime ET TxPower probChan\n");
for( i=0; i < pScanVals->numOfChannels; i++)
{
chanPtr = &tnetScanParams.basicScanChannelParameters[i];
pBSSID = (TI_UINT8*)&chanPtr->bssIdL;
TRACE12(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "%06d %02x:%02x:%02x:%02x:%02x:%02x %05d %05d %02d %05d %05d\n",i, pBSSID[5],pBSSID[4],pBSSID[3],pBSSID[2],pBSSID[1],pBSSID[0], chanPtr->scanMinDuration, chanPtr->scanMaxDuration, chanPtr->ETCondCount, chanPtr->txPowerAttenuation, chanPtr->channel);
}
return cmdBld_CmdIeStartScan (hCmdBld, &tnetScanParams, ScanCommandResponseCB, hCb);
}
/**
* \fn cmdBld_CmdStartSPSScan
* \brief Build a start SPS scan command and send it to the FW
*
* Build a start SPS scan command and send it to the FW
*
* \param hCmdBld - handle to the command builder object
* \param pScanVals - scan parameters
* \param eScanTag - scan tag used for scan complete and result tracking
* \param fScanCommandResponseCB - command complete CB
* \param hCb - command complete CB
* \return command status (OK / NOK)
* \sa cmdBld_CmdStopSPSScan
*/
TI_STATUS cmdBld_CmdStartSPSScan (TI_HANDLE hCmdBld, TScanParams *pScanVals, EScanResultTag eScanTag,
void* fScanCommandResponseCB, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
ScheduledScanParameters_t tnetSPSScanParams;
TI_INT32 i;
/* Convert general scan data to TNET structure */
tnetSPSScanParams.scheduledGeneralParameters.scanOptions = SCAN_PASSIVE;
/* Add the band selection */
if ( RADIO_BAND_5_0_GHZ == pScanVals->band )
{
tnetSPSScanParams.scheduledGeneralParameters.band = RADIO_BAND_5GHZ;
}
else
{
tnetSPSScanParams.scheduledGeneralParameters.band = RADIO_BAND_2_4_GHZ;
}
tnetSPSScanParams.scheduledGeneralParameters.scanOptions = ENDIAN_HANDLE_WORD( tnetSPSScanParams.scheduledGeneralParameters.scanOptions );
/* important note: BSSID filter (0x0010) is DISABLED, because the FW sets it according
to BSSID value (broadcast does not filter, any other value will */
/* If the SSID is not broadcast SSID, also filter according to SSID */
tnetSPSScanParams.scheduledGeneralParameters.rxCfg.ConfigOptions = ENDIAN_HANDLE_LONG(RX_CONFIG_OPTION);
tnetSPSScanParams.scheduledGeneralParameters.rxCfg.FilterOptions = ENDIAN_HANDLE_LONG( RX_FILTER_CFG_ );
tnetSPSScanParams.scheduledGeneralParameters.rxCfg.ConfigOptions = ENDIAN_HANDLE_LONG( tnetSPSScanParams.scheduledGeneralParameters.rxCfg.ConfigOptions );
/* latest TSF value - used to discover TSF error (AP recovery) */
tnetSPSScanParams.scheduledGeneralParameters.scanCmdTime_h = ENDIAN_HANDLE_LONG( INT64_HIGHER(pScanVals->latestTSFValue) );
tnetSPSScanParams.scheduledGeneralParameters.scanCmdTime_l = ENDIAN_HANDLE_LONG( INT64_LOWER(pScanVals->latestTSFValue) );
/* add scan tag */
tnetSPSScanParams.scheduledGeneralParameters.scanTag = eScanTag;
tnetSPSScanParams.scheduledGeneralParameters.numChannels = pScanVals->numOfChannels;
/* copy channel specific scan data to HAL structure */
for ( i = 0; i < pScanVals->numOfChannels; i++ )
{
TI_INT32 j;
TI_UINT8* macAddr;
macAddr = (TI_UINT8*)&tnetSPSScanParams.scheduledChannelParameters[ i ].bssIdL;
/* copy the MAC address, upside down (CHIP structure) */
for ( j = 0; j < MAC_ADDR_LEN; j++ )
{
macAddr[ j ] = pScanVals->channelEntry[ i ].normalChannelEntry.bssId[ MAC_ADDR_LEN - 1 - j ];
}
tnetSPSScanParams.scheduledChannelParameters[ i ].scanMaxDuration =
ENDIAN_HANDLE_LONG( pScanVals->channelEntry[ i ].SPSChannelEntry.scanDuration );
tnetSPSScanParams.scheduledChannelParameters[ i ].scanStartTime =
ENDIAN_HANDLE_LONG( pScanVals->channelEntry[ i ].SPSChannelEntry.scanStartTime );
tnetSPSScanParams.scheduledChannelParameters[ i ].ETCondCount =
pScanVals->channelEntry[ i ].SPSChannelEntry.ETMaxNumOfAPframes |
pScanVals->channelEntry[ i ].SPSChannelEntry.earlyTerminationEvent;
tnetSPSScanParams.scheduledChannelParameters[ i ].channel =
pScanVals->channelEntry[ i ].SPSChannelEntry.channel;
}
TRACE4(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "RxCfg = 0x%x\n RxFilterCfg = 0x%x\n scanOptions = 0x%x\n numChannels = %d\n", tnetSPSScanParams.scheduledGeneralParameters.rxCfg.ConfigOptions, tnetSPSScanParams.scheduledGeneralParameters.rxCfg.FilterOptions, tnetSPSScanParams.scheduledGeneralParameters.scanOptions, tnetSPSScanParams.scheduledGeneralParameters.numChannels);
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Channel BSSID StartTime Duration ET probChan\n");
#ifdef TI_DBG
for( i=0; i < tnetSPSScanParams.scheduledGeneralParameters.numChannels; i++)
{
ScheduledChannelParameters_t* chanPtr = &tnetSPSScanParams.scheduledChannelParameters[ i ];
TI_UINT8* pBSSID = (TI_UINT8*)&chanPtr->bssIdL;
TRACE11(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "%6d %02x:%02x:%02x:%02x:%02x:%02x %5d %5d %2d %5d\n",i, pBSSID[5],pBSSID[4],pBSSID[3],pBSSID[2],pBSSID[1],pBSSID[0], chanPtr->scanStartTime, chanPtr->scanMaxDuration, chanPtr->ETCondCount, chanPtr->channel);
}
#endif /* TI_DBG */
return cmdBld_CmdIeStartSPSScan (hCmdBld, &tnetSPSScanParams, fScanCommandResponseCB, hCb);
}
/**
* \fn cmdBld_CmdStopScan
* \brief Build a stop scan command and send it to FW
*
* Build a stop scan command and send it to FW
*
* \param hCmdBld - handle to the command builder object
* \param eScanTag - scan tag, used for scan complete and result tracking
* \return command status (OK / NOK)
* \sa cmdBld_CmdStartSPSScan
*/
TI_STATUS cmdBld_CmdStopScan (TI_HANDLE hCmdBld, EScanResultTag eScanTag,
void *fScanCommandResponseCB, TI_HANDLE hCb)
{
return cmdBld_CmdIeStopScan (hCmdBld, fScanCommandResponseCB, hCb);
}
/**
* \fn cmdBld_CmdStopSPSScan
* \brief Build a stop SPS scan command and send it to FW
*
* Build a stop SPS scan command and send it to FW
*
* \param hCmdBld - handle to the command builder object
* \param eScanTag - scan tag, used for scan complete and result tracking
* \return command status (OK / NOK)
* \sa cmdBld_CmdStartScan
*/ TI_STATUS cmdBld_CmdStopSPSScan (TI_HANDLE hCmdBld, EScanResultTag eScanTag,
void* fScanCommandResponseCB, TI_HANDLE hCb)
{
return cmdBld_CmdIeStopSPSScan (hCmdBld, fScanCommandResponseCB, hCb);
}
TI_STATUS cmdBld_CmdSetSplitScanTimeOut (TI_HANDLE hCmdBld, TI_UINT32 uTimeOut)
{
DB_WLAN(hCmdBld).uSlicedScanTimeOut = uTimeOut;
return cmdBld_CmdIeSetSplitScanTimeOut (hCmdBld, uTimeOut, NULL, NULL);
}
/**
* \fn cmdBld_debugPrintPeriodicScanChannles
* \brief Print periodic scan channel list for debug purposes
*
* Print periodic scan channel list for debug purposes
*
* \param hCmdBld - handle to the command builder object
* \param pChannel - pointer to the channel list to print
* \param uChannelCount - number of channles to print
* \return None
* \sa cmdBld_debugPrintPeriodicScanParams
*/
void cmdBld_debugPrintPeriodicScanChannles (TI_HANDLE hCmdBld, ConnScanChannelInfo_t* pChannel,
TI_UINT32 uChannelCount)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT32 uIndex;
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Index Channel MinTime MaxTime DFStime PowerLevel\n");
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "-------------------------------------------------------------------\n");
for (uIndex = 0; uIndex < uChannelCount; uIndex++)
{
TRACE6(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "%-10d %-10d %-10d %-10d %-10d %-11d\n", uIndex, pChannel[ uIndex ].channel, pChannel[ uIndex ].scanMinDuration, pChannel[ uIndex ].scanMaxDuration, pChannel[ uIndex ].passiveScanDuration, pChannel[ uIndex ].txPowerLevelDbm);
}
}
/**
* \fn cmdBld_debugPrintPeriodicScanParams
* \brief Print periodic scan parameters for debug purposes
*
* Print periodic scan parameters for debug purposes
*
* \param hCmdBld - handle to the command builder object
* \param pCommand - pointer to the periodic scan command to print
* \return None
* \sa cmdBld_debugPrintPeriodicScanChannles
*/
void cmdBld_debugPrintPeriodicScanParams (TI_HANDLE hCmdBld, ConnScanParameters_t* pCommand)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
/* print periodic scan params command */
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Cycle intervals:\n");
TRACE8(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "0: %-6d %-6d %-6d %-6d %-6d %-6d %-6d %-6d\n", pCommand->cycleIntervals[ 0 ], pCommand->cycleIntervals[ 1 ], pCommand->cycleIntervals[ 2 ], pCommand->cycleIntervals[ 3 ], pCommand->cycleIntervals[ 4 ], pCommand->cycleIntervals[ 5 ], pCommand->cycleIntervals[ 6 ], pCommand->cycleIntervals[ 7 ]);
TRACE8(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "8: %-6d %-6d %-6d %-6d %-6d %-6d %-6d %-6d\n", pCommand->cycleIntervals[ 8 ], pCommand->cycleIntervals[ 9 ], pCommand->cycleIntervals[ 10 ], pCommand->cycleIntervals[ 11 ], pCommand->cycleIntervals[ 12 ], pCommand->cycleIntervals[ 13 ], pCommand->cycleIntervals[ 14 ], pCommand->cycleIntervals[ 15 ]);
TRACE4(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "RSSI threshold: %d, SNR threshold: %d, number of cycles: %d, reporth threshold: %d\n", pCommand->rssiThreshold, pCommand->snrThreshold, pCommand->maxNumOfCycles, pCommand->reportThreshold);
TRACE4(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Terminate on report: %d, result tag: %d, BSS type: %d, number of probe requests: %d\n", pCommand->terminateOnReport, pCommand->resultsTag, pCommand->bssType, pCommand->numProbe);
TRACE2(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "SSID filter type: %d, SSID length: %d, SSID: \n", pCommand->ssidFilterType, pCommand->ssidLength);
/* print channel info */
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "2.4 GHz Channels:\n");
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "-----------------\n");
TRACE2(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Number of passive channels: %d, number of active channels: %d\n", pCommand->numOfPassive[ 0 ], pCommand->numOfActive[ 0 ]);
cmdBld_debugPrintPeriodicScanChannles (hCmdBld, &(pCommand->channelList[ 0 ]),
pCommand->numOfPassive[ 0 ] +
pCommand->numOfActive[ 0 ]);
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "5.0 GHz Channels:\n");
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "-----------------\n");
TRACE3(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Number of passive channels: %d, number of DFS channels: %d, number of active channels: %d\n", pCommand->numOfPassive[ 1 ], pCommand->numOfDfs, pCommand->numOfActive[ 2 ]);
cmdBld_debugPrintPeriodicScanChannles (hCmdBld, &(pCommand->channelList[ CONN_SCAN_MAX_CHANNELS_BG ]),
pCommand->numOfPassive[ 1 ] +
pCommand->numOfActive[ 1 ] +
pCommand->numOfDfs);
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "4.9 GHz channles:\n");
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "-----------------\n");
TRACE2(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Number of passive channels: %d, number of active channels: %d\n", pCommand->numOfPassive[ 2 ], pCommand->numOfActive[ 2 ]);
cmdBld_debugPrintPeriodicScanChannles (hCmdBld, &(pCommand->channelList[ CONN_SCAN_MAX_CHANNELS_BG + CONN_SCAN_MAX_CHANNELS_A ]),
pCommand->numOfPassive[ 2 ] +
pCommand->numOfActive[ 2 ]);
}
/**
* \fn cmdBld_debugPrintPeriodicScanSsidList
* \brief Print periodic scan SSID list for debug purposes
*
* Print periodic scan SSID list for debug purposes
*
* \param hCmdBld - handle to the command builder object
* \param pCommand - pointer to the periodic scan SSID list command to print
* \return None
* \sa cmdBld_debugPrintPeriodicScanParams
*/
void cmdBld_debugPrintPeriodicScanSsidList (TI_HANDLE hCmdBld, ConnScanSSIDList_t* pCommand)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT32 uIndex;
/* print SSID list command */
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "SSID list:\n");
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "---------\n");
TRACE1(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Num of entries: %d\n", pCommand->numOfSSIDEntries);
for (uIndex = 0; uIndex < pCommand->numOfSSIDEntries; uIndex++)
{
TRACE3(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "index: %d, SSID type: %d, SSID length:% d, SSID string:\n", uIndex, pCommand->SSIDList[ uIndex ].ssidType, pCommand->SSIDList[ uIndex ].ssidLength);
}
}
/**
* \fn cmdBld_BuildPeriodicScanChannlesn
* \brief Copy channels info for periodic scan to FW structure for a specific band and scan type
*
* Copy channels info, from driver structure, to FW structure, for periodic scan, for a specific
* band and scan type.
*
* \param pPeriodicScanParams - driver priodic scan parameters (source)
* \param pChannelList - FW scan channel list (destination)
* \param eScanType - scan type (passive or active)
* \param eRadioBand - band (G, A or J)
* \param uPassiveScanDfsDwellTime - Dwell time for passive scan on DFS channels (in milli-secs)
* \return Number of channels found for this scan type and band
* \sa cmdBld_StartPeriodicScan
*/
TI_UINT32 cmdBld_BuildPeriodicScanChannles (TPeriodicScanParams *pPeriodicScanParams,
ConnScanChannelInfo_t *pChannelList,
EScanType eScanType, ERadioBand eRadioBand,
TI_UINT32 uPassiveScanDfsDwellTime)
{
TI_UINT32 uIndex, uNumChannels = 0;
/* check all channels */
for (uIndex = 0; uIndex < pPeriodicScanParams->uChannelNum; uIndex++)
{
/* if this channel is on the required band and uses the required scan type */
if ((eRadioBand == pPeriodicScanParams->tChannels[ uIndex ].eBand) &&
(eScanType == pPeriodicScanParams->tChannels[ uIndex ].eScanType))
{
/* update scan parameters */
pChannelList[ uNumChannels ].channel = (TI_UINT8)pPeriodicScanParams->tChannels[ uIndex ].uChannel;
pChannelList[ uNumChannels ].passiveScanDuration = ENDIAN_HANDLE_WORD ((TI_UINT16)uPassiveScanDfsDwellTime);
pChannelList[ uNumChannels ].scanMaxDuration =
ENDIAN_HANDLE_WORD ((TI_UINT16)pPeriodicScanParams->tChannels[ uIndex ].uMaxDwellTimeMs);
pChannelList[ uNumChannels ].scanMinDuration =
ENDIAN_HANDLE_WORD ((TI_UINT16)pPeriodicScanParams->tChannels[ uIndex ].uMinDwellTimeMs);
pChannelList[ uNumChannels ].txPowerLevelDbm = (TI_UINT8)pPeriodicScanParams->tChannels[ uIndex ].uTxPowerLevelDbm;
if (SCAN_TYPE_PACTSIVE == eScanType) /* DFS channel */
{
pChannelList[ uNumChannels ].passiveScanDuration = ENDIAN_HANDLE_WORD ((TI_UINT16)uPassiveScanDfsDwellTime);
pChannelList[ uNumChannels ].channelFlags = 1; /* mark as DFS channel */
}
else
{
pChannelList[ uNumChannels ].channelFlags = 0; /* mark as not DFS channel */
}
/* advance mathcing channel counter */
uNumChannels++;
}
}
/* return channel count */
return uNumChannels;
}
/**
* \fn cmdBld_StartPeriodicScan
* \brief Copy driver periodic scan parameters to FW structures and send all commands to FW
*
* Copy driver periodic scan parameters to FW structures (SSID list, parameters including channels
* and start command) and send all commands to FW.
*
* \param hCmdBld - handle to the command builder object
* \param pPeriodicScanParams - periodic scan driver parameters (source)
* \param eScanTag - scan tag, used for scan complete and result tracking
* \param uPassiveScanDfsDwellTimeUs - Passive dwell time for DFS channels
* \param fScanCommandResponseCB - scan command complete CB
* \param hCb - scan command response handle
* \return TI_OK on success, other codes indicate failure
* \sa cmdBld_BuildPeriodicScanChannles, cmdBld_StopPeriodicScan
*/
TI_STATUS cmdBld_StartPeriodicScan (TI_HANDLE hCmdBld, TPeriodicScanParams *pPeriodicScanParams,
EScanResultTag eScanTag, TI_UINT32 uPassiveScanDfsDwellTimeMs,
void* fScanCommandResponseCB, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
ConnScanParameters_t tFWPeriodicScanParams;
ConnScanSSIDList_t *pFWSsidList;
PeriodicScanTag tScanStart;
TI_UINT32 uIndex;
TI_STATUS tStatus;
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Building start periodic scan commands:\n");
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "--------------------------------------\n");
/* copy parameters to FW structure */
tFWPeriodicScanParams.bssType = (ScanBssType_e)pPeriodicScanParams->eBssType;
for (uIndex = 0; uIndex < PERIODIC_SCAN_MAX_INTERVAL_NUM; uIndex ++)
{
tFWPeriodicScanParams.cycleIntervals[ uIndex ] =
ENDIAN_HANDLE_LONG (pPeriodicScanParams->uCycleIntervalMsec[ uIndex ]);
}
tFWPeriodicScanParams.maxNumOfCycles = (TI_UINT8)pPeriodicScanParams->uCycleNum;
tFWPeriodicScanParams.numProbe = (TI_UINT8)pPeriodicScanParams->uProbeRequestNum;
tFWPeriodicScanParams.reportThreshold = (TI_UINT8)pPeriodicScanParams->uFrameCountReportThreshold;
tFWPeriodicScanParams.rssiThreshold = (TI_UINT8)pPeriodicScanParams->iRssiThreshold;
tFWPeriodicScanParams.snrThreshold = (TI_INT8)pPeriodicScanParams->iSnrThreshold;
tFWPeriodicScanParams.terminateOnReport = (TI_UINT8)pPeriodicScanParams->bTerminateOnReport;
tFWPeriodicScanParams.resultsTag = (TI_UINT8)eScanTag;
switch (pPeriodicScanParams->uSsidNum)
{
case 0: /* No SSIDs defined - no need to filter according to SSID */
tFWPeriodicScanParams.ssidFilterType = (ScanSsidFilterType_e)SCAN_SSID_FILTER_TYPE_ANY;
tFWPeriodicScanParams.ssidLength = 0;
break;
default: /* More than one SSID - copy SSIDs to SSID list command */
pFWSsidList = os_memoryAlloc(pCmdBld->hOs, sizeof(ConnScanSSIDList_t));
if (!pFWSsidList)
return TI_NOK;
if ((TI_UINT8)pPeriodicScanParams->uSsidListFilterEnabled == 1)
tFWPeriodicScanParams.ssidFilterType = (ScanSsidFilterType_e)SCAN_SSID_FILTER_TYPE_LIST;
else
tFWPeriodicScanParams.ssidFilterType = (ScanSsidFilterType_e)SCAN_SSID_FILTER_TYPE_LIST_FILTER_DISABLED;
tFWPeriodicScanParams.ssidLength = 0;
pFWSsidList->numOfSSIDEntries = (TI_UINT8)pPeriodicScanParams->uSsidNum;
for (uIndex = 0; uIndex < pPeriodicScanParams->uSsidNum; uIndex++)
{
pFWSsidList->SSIDList[ uIndex ].ssidType =
(TI_UINT8)pPeriodicScanParams->tDesiredSsid[ uIndex ].eVisability;
pFWSsidList->SSIDList[ uIndex ].ssidLength =
(TI_UINT8)pPeriodicScanParams->tDesiredSsid[ uIndex ].tSsid.len;
os_memoryCopy (pCmdBld->hOs, (void*)&(pFWSsidList->SSIDList[ uIndex ].ssid[ 0 ]),
(void*)&(pPeriodicScanParams->tDesiredSsid[ uIndex ].tSsid.str[ 0 ]),
pFWSsidList->SSIDList[ uIndex ].ssidLength);
}
/* print the SSID list parameters */
cmdBld_debugPrintPeriodicScanSsidList (hCmdBld, pFWSsidList);
/* send the SSID list command */
tStatus = cmdBld_CmdIeScanSsidList (hCmdBld, pFWSsidList, NULL, NULL);
os_memoryFree(pCmdBld->hOs, pFWSsidList, sizeof(ConnScanSSIDList_t));
if (TI_OK != tStatus)
{
TRACE1(pCmdBld->hReport, REPORT_SEVERITY_ERROR , "cmdBld_StartPeriodicScan: status %d when configuring SSID list", tStatus);
return tStatus;
}
break;
}
/* copy channels */
tFWPeriodicScanParams.numOfPassive[ 0 ] = /* build passive B/G channels */
cmdBld_BuildPeriodicScanChannles (pPeriodicScanParams, &(tFWPeriodicScanParams.channelList[ 0 ]),
SCAN_TYPE_NORMAL_PASSIVE, RADIO_BAND_2_4_GHZ, uPassiveScanDfsDwellTimeMs);
tFWPeriodicScanParams.numOfActive[ 0 ] = /* build active B/G channels */
cmdBld_BuildPeriodicScanChannles (pPeriodicScanParams, &(tFWPeriodicScanParams.channelList[ tFWPeriodicScanParams.numOfPassive[ 0 ] ]),
SCAN_TYPE_NORMAL_ACTIVE, RADIO_BAND_2_4_GHZ, uPassiveScanDfsDwellTimeMs);
tFWPeriodicScanParams.numOfPassive[ 1 ] = /* build passive A channels */
cmdBld_BuildPeriodicScanChannles (pPeriodicScanParams, &(tFWPeriodicScanParams.channelList[ CONN_SCAN_MAX_CHANNELS_BG ]),
SCAN_TYPE_NORMAL_PASSIVE, RADIO_BAND_5_0_GHZ, uPassiveScanDfsDwellTimeMs);
tFWPeriodicScanParams.numOfDfs = /* build DFS A channels */
cmdBld_BuildPeriodicScanChannles (pPeriodicScanParams, &(tFWPeriodicScanParams.channelList[ CONN_SCAN_MAX_CHANNELS_BG + tFWPeriodicScanParams.numOfPassive[ 1 ] ]),
SCAN_TYPE_PACTSIVE, RADIO_BAND_5_0_GHZ, uPassiveScanDfsDwellTimeMs);
tFWPeriodicScanParams.numOfActive[ 1 ] = /* build active A channels */
cmdBld_BuildPeriodicScanChannles (pPeriodicScanParams, &(tFWPeriodicScanParams.channelList[ CONN_SCAN_MAX_CHANNELS_BG + tFWPeriodicScanParams.numOfPassive[ 1 ] + tFWPeriodicScanParams.numOfDfs ]),
SCAN_TYPE_NORMAL_ACTIVE, RADIO_BAND_5_0_GHZ, uPassiveScanDfsDwellTimeMs);
/* until J is supported, mark zero channels for J passive and active */
tFWPeriodicScanParams.numOfPassive[ 2 ] = 0;
tFWPeriodicScanParams.numOfActive[ 2 ] = 0;
/* print the command */
cmdBld_debugPrintPeriodicScanParams (hCmdBld, &tFWPeriodicScanParams);
/* Send the periodic scan parameters command */
tStatus = cmdBld_CmdIePeriodicScanParams (hCmdBld, &tFWPeriodicScanParams, NULL, NULL);
if (TI_OK != tStatus)
{
TRACE1(pCmdBld->hReport, REPORT_SEVERITY_ERROR , "cmdBld_StartPeriodicScan: status %d when configuring periodic scan parameters", tStatus);
return tStatus;
}
/* send the periodic scan start command */
tScanStart.scanTag = eScanTag;
tStatus = cmdBld_CmdIeStartPeriodicScan (hCmdBld, &tScanStart, fScanCommandResponseCB, hCb);
return tStatus;
}
/**
* \fn cmdBld_StopPeriodicScan
* \brief Stops an on-going periodic scan operation
*
* Stops an on-going periodic scan operation
*
* \param hCmdBld - handle to the command builder object
* \param eScanTag - scan tag, used for scan complete and result tracking
* \param fScanCommandResponseCB - scan command complete CB
* \param hCb - scan command response handle
* \return TI_OK on success, other codes indicate failure
* \sa cmdBld_BuildPeriodicScanChannles, cmdBld_StartPeriodicScan
*/
TI_STATUS cmdBld_StopPeriodicScan (TI_HANDLE hCmdBld, EScanResultTag eScanTag,
void* fScanCommandResponseCB, TI_HANDLE hCb)
{
PeriodicScanTag tScanStop;
/* send the periodic scan stop command */
tScanStop.scanTag = eScanTag;
return cmdBld_CmdIeStopPeriodicScan (hCmdBld, &tScanStop, fScanCommandResponseCB, hCb);
}
/****************************************************************************
* cmdBld_SetBssType()
****************************************************************************
* DESCRIPTION: Set Bss type, set RxFilter
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
static TI_STATUS cmdBld_CmdSetBssType (TI_HANDLE hCmdBld, ScanBssType_e BssType, TI_UINT8 *HwBssType)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
switch (BssType)
{
case BSS_INFRASTRUCTURE:
DB_BSS(hCmdBld).BssType = BSS_TYPE_STA_BSS;
cmdBld_SetRxFilter (hCmdBld, RX_CONFIG_OPTION_FOR_JOIN, RX_FILTER_OPTION_JOIN);
break;
case BSS_INDEPENDENT:
DB_BSS(hCmdBld).BssType = BSS_TYPE_IBSS;
cmdBld_SetRxFilter (hCmdBld, RX_CONFIG_OPTION_FOR_IBSS_JOIN, RX_FILTER_OPTION_DEF);
break;
default:
TRACE1(pCmdBld->hReport, REPORT_SEVERITY_FATAL_ERROR, "cmdBld_SetBssType: FATAL_ERROR, unknown BssType %d\n", BssType);
return TI_NOK;
}
*HwBssType = DB_BSS(hCmdBld).BssType;
return TI_OK;
}
/****************************************************************************
* cmdBld_StartJoin()
****************************************************************************
* DESCRIPTION: Enable Rx/Tx and send Start/Join command
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdStartJoin (TI_HANDLE hCmdBld, ScanBssType_e BssType, void *fJoinCompleteCB, TI_HANDLE hCb)
{
TI_UINT8 HwBssType = 0;
#ifdef TI_DBG
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT8 *pBssId = DB_BSS(hCmdBld).BssId;
TRACE1(pCmdBld->hReport, REPORT_SEVERITY_INIT, "cmdBld_StartJoin: Enable Tx, Rx and Start the Bss, type=%d\n", BssType);
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INIT, "------------------------------------------------------------\n");
TRACE7(pCmdBld->hReport, REPORT_SEVERITY_INIT, "START/JOIN, SSID=, BSSID=%02X-%02X-%02X-%02X-%02X-%02X, Chan=%d\n", pBssId[0], pBssId[1], pBssId[2], pBssId[3], pBssId[4], pBssId[5], DB_BSS(hCmdBld).RadioChannel);
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INIT, "------------------------------------------------------------\n");
#endif /* TI_DBG */
/*
* set RxFilter (but don't write it to the FW, this is done in the join command),
* Configure templates content, ...
*/
cmdBld_CmdSetBssType (hCmdBld, BssType, &HwBssType);
return cmdBld_CmdIeStartBss (hCmdBld, HwBssType, fJoinCompleteCB, hCb);
}
TI_STATUS cmdBld_CmdJoinBss (TI_HANDLE hCmdBld, TJoinBss *pJoinBssParams, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TWlanParams *pWlanParams = &DB_WLAN(hCmdBld);
TBssInfoParams *pBssInfoParams = &DB_BSS(hCmdBld);
#ifdef TI_DBG
TI_UINT8 dbgSsidStr[33];
#endif /* TI_DBG */
/* for debug purpose, can be removed later*/
if (pJoinBssParams->ssidLength > 32)
pJoinBssParams->ssidLength = 32;
/* Update Tx-Session-Counter in the Ctrl field of the Join command. */
pBssInfoParams->Ctrl &= ~JOIN_CMD_CTRL_TX_SESSION;
pBssInfoParams->Ctrl |= (TI_UINT8)(pJoinBssParams->txSessionCount << JOIN_CMD_CTRL_OFFSET_TX_SESSION);
#ifdef TI_DBG
os_memoryCopy (pCmdBld->hOs, (void *)dbgSsidStr, (void *)pJoinBssParams->pSSID, pJoinBssParams->ssidLength);
dbgSsidStr[pJoinBssParams->ssidLength] = '\0';
TRACE14(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "TWD_JoinBss : bssType = %d, beaconInterval = %d, dtimInterval = %d, channel = %d, BSSID = %x-%x-%x-%x-%x-%x, ssidLength = %d, basicRateSet = 0x%x, RadioBand = %d, Ctrl = 0x%x", pJoinBssParams->bssType, pJoinBssParams->beaconInterval, pJoinBssParams->dtimInterval, pJoinBssParams->channel, pJoinBssParams->pBSSID[0], pJoinBssParams->pBSSID[1], pJoinBssParams->pBSSID[2], pJoinBssParams->pBSSID[3], pJoinBssParams->pBSSID[4], pJoinBssParams->pBSSID[5], pJoinBssParams->ssidLength, pJoinBssParams->basicRateSet, pJoinBssParams->radioBand, pBssInfoParams->Ctrl);
#endif /* TI_DBG */
/*
* save Bss info parameters
*/
DB_BSS(hCmdBld).ReqBssType = pJoinBssParams->bssType;
MAC_COPY (DB_BSS(hCmdBld).BssId, pJoinBssParams->pBSSID);
pBssInfoParams->tSsid.len = pJoinBssParams->ssidLength;
os_memoryZero (pCmdBld->hOs, (void *)pBssInfoParams->tSsid.str, sizeof (pBssInfoParams->tSsid.str));
os_memoryCopy (pCmdBld->hOs, (void *)pBssInfoParams->tSsid.str, (void *)pJoinBssParams->pSSID, pJoinBssParams->ssidLength);
DB_BSS(hCmdBld).BeaconInterval = pJoinBssParams->beaconInterval;
DB_BSS(hCmdBld).DtimInterval = (TI_UINT8)pJoinBssParams->dtimInterval;
DB_BSS(hCmdBld).RadioChannel = pJoinBssParams->channel;
DB_WLAN(hCmdBld).RadioBand = (TI_UINT8)pJoinBssParams->radioBand;
DB_BSS(hCmdBld).BasicRateSet = pJoinBssParams->basicRateSet;
/* In case we're joining a new BSS, reset the TKIP/AES sequence counter. */
/* The firmware resets its own counter - so we won't have mismatch in the following TX complete events */
pCmdBld->uSecuritySeqNumLow = 0;
pCmdBld->uSecuritySeqNumHigh = 0;
pWlanParams->bJoin = TI_TRUE;
pWlanParams->bStaConnected = TI_FALSE;
/*
* call the hardware to start/join the bss
*/
return cmdBld_CmdStartJoin (hCmdBld, pJoinBssParams->bssType, fCb, hCb);
}
TI_STATUS cmdBld_CmdTemplate (TI_HANDLE hCmdBld, TSetTemplate *pTemplateParams, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_STATUS Stt;
TTemplateParams *pTemplate;
TI_UINT8 uIndex = 0;
TemplateType_e eType;
TRACE4(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "cmdBld_CmdTemplate: Type=%d, size=%d, index=%d, RateMask=0x%x\n", pTemplateParams->type, pTemplateParams->len, pTemplateParams->index, pTemplateParams->uRateMask);
switch (pTemplateParams->type)
{
case BEACON_TEMPLATE:
eType = TEMPLATE_BEACON;
pTemplate = &(DB_TEMP(hCmdBld).Beacon);
break;
case PROBE_RESPONSE_TEMPLATE:
eType = TEMPLATE_PROBE_RESPONSE;
pTemplate = &(DB_TEMP(hCmdBld).ProbeResp);
break;
case PROBE_REQUEST_TEMPLATE:
if (pTemplateParams->eBand == RADIO_BAND_2_4_GHZ)
{
eType = CFG_TEMPLATE_PROBE_REQ_2_4;
pTemplate = &(DB_TEMP(hCmdBld).ProbeReq24);
}
else
{
eType = CFG_TEMPLATE_PROBE_REQ_5;
pTemplate = &(DB_TEMP(hCmdBld).ProbeReq50);
}
break;
case NULL_DATA_TEMPLATE:
eType = TEMPLATE_NULL_DATA;
pTemplate = &(DB_TEMP(hCmdBld).NullData);
break;
case PS_POLL_TEMPLATE:
eType = TEMPLATE_PS_POLL;
pTemplate = &(DB_TEMP(hCmdBld).PsPoll);
break;
case QOS_NULL_DATA_TEMPLATE:
eType = TEMPLATE_QOS_NULL_DATA;
pTemplate = &(DB_TEMP(hCmdBld).QosNullData);
break;
case KEEP_ALIVE_TEMPLATE:
eType = TEMPLATE_KLV;
uIndex = pTemplateParams->index;
pTemplate = &(DB_TEMP(hCmdBld).KeepAlive[uIndex]);
break;
case DISCONN_TEMPLATE:
eType = TEMPLATE_DISCONNECT;
pTemplate = &(DB_TEMP(hCmdBld).Disconn);
break;
default:
return TI_NOK;
}
/* Save template information to DB (for recovery) */
pTemplate->Size = pTemplateParams->len;
pTemplate->uRateMask = pTemplateParams->uRateMask;
os_memoryCopy (pCmdBld->hOs,
(void *)(pTemplate->Buffer),
(void *)(pTemplateParams->ptr),
pTemplateParams->len);
/* Configure template to FW */
Stt = cmdBld_CmdIeConfigureTemplateFrame (hCmdBld,
pTemplate,
(TI_UINT16)pTemplateParams->len,
eType,
uIndex, /* index is only relevant for keep-alive template */
fCb,
hCb);
return Stt;
}
/****************************************************************************
* cmdBld_switchChannel()
****************************************************************************
* DESCRIPTION: Switching the serving channel
*
* INPUTS: channel - new channel number
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdEnableTx (TI_HANDLE hCmdBld, TI_UINT8 channel, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CmdIeEnableTx (hCmdBld, channel, fCb, hCb);
}
/****************************************************************************
* cmdBld_DisableTx()
****************************************************************************
* DESCRIPTION: Disable Tx path.
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdDisableTx (TI_HANDLE hCmdBld, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CmdIeDisableTx (hCmdBld, fCb, hCb);
}
/****************************************************************************
* cmdBld_SwitchChannelCmd()
****************************************************************************
* DESCRIPTION: Send Switch Channel command
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdSwitchChannel (TI_HANDLE hCmdBld, TSwitchChannelParams *pSwitchChannelCmd, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRACE4(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "\n SwitchChannelCmd :\n channelNumber = %d\n switchTime = %d\n txFlag = %d\n flush = %d \n ", pSwitchChannelCmd->channelNumber, pSwitchChannelCmd->switchTime, pSwitchChannelCmd->txFlag, pSwitchChannelCmd->flush);
DB_BSS(hCmdBld).RadioChannel = pSwitchChannelCmd->channelNumber;
return cmdBld_CmdIeSwitchChannel (hCmdBld, pSwitchChannelCmd, fCb, hCb);
}
/****************************************************************************
* cmdBld_SwitchChannelCmd()
****************************************************************************
* DESCRIPTION: Send Switch Channel command
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdSwitchChannelCancel (TI_HANDLE hCmdBld, TI_UINT8 channel, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "\n TWD_SwitchChannelCancelCmd :\n ");
DB_BSS(hCmdBld).RadioChannel = channel;
return cmdBld_CmdIeSwitchChannelCancel (hCmdBld, fCb, hCb);
}
/****************************************************************************
* cmdBld_FwDisconnect()
****************************************************************************
* DESCRIPTION: Disconnect.
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdFwDisconnect (TI_HANDLE hCmdBld, TI_UINT32 uConfigOptions, TI_UINT32 uFilterOptions, DisconnectType_e uDisconType, TI_UINT16 uDisconReason, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TWlanParams *pWlanParams = &DB_WLAN(hCmdBld);
pWlanParams->bJoin = TI_FALSE;
pWlanParams->bStaConnected = TI_FALSE;
TRACE4(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Sending FW disconnect, ConfigOptions=%x, FilterOPtions=%x, uDisconType=%d, uDisconReason=%d\n",uConfigOptions, uFilterOptions, uDisconType, uDisconReason);
return cmdBld_CmdIeFwDisconnect (hCmdBld, uConfigOptions, uFilterOptions, uDisconType, uDisconReason, fCb, hCb);
}
TI_STATUS cmdBld_CmdMeasurement (TI_HANDLE hCmdBld,
TMeasurementParams *pMeasurementParams,
void *fCommandResponseCB,
TI_HANDLE hCb)
{
return cmdBld_CmdIeMeasurement (hCmdBld, pMeasurementParams, fCommandResponseCB, hCb);
}
/****************************************************************************
* cmdBld_measurementStop()
****************************************************************************
* DESCRIPTION: send Command for stoping measurement
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdMeasurementStop (TI_HANDLE hCmdBld, void* fMeasureCommandResponseCB, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "cmdBld_measurementStop\n");
return cmdBld_CmdIeMeasurementStop (hCmdBld, fMeasureCommandResponseCB, hCb);
}
/****************************************************************************
* cmdBld_ApDiscovery()
****************************************************************************
* DESCRIPTION: send Command for AP Discovery
* to the mailbox
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdApDiscovery (TI_HANDLE hCmdBld, TApDiscoveryParams *pApDiscoveryParams, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION, "cmdBld_ApDiscovery\n");
return cmdBld_CmdIeApDiscovery (hCmdBld, pApDiscoveryParams, fCb, hCb);
}
/****************************************************************************
* cmdBld_ApDiscoveryStop()
****************************************************************************
* DESCRIPTION: send Command for stoping AP Discovery
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdApDiscoveryStop (TI_HANDLE hCmdBld, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION, "cmdBld_ApDiscoveryStop\n");
return cmdBld_CmdIeApDiscoveryStop (hCmdBld, fCb, hCb);
}
TI_STATUS cmdBld_CmdNoiseHistogram (TI_HANDLE hCmdBld, TNoiseHistogram *pNoiseHistParams, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CmdIeNoiseHistogram (hCmdBld, pNoiseHistParams, fCb, hCb);
}
/****************************************************************************
* cmdBld_PowerMgmtConfigurationSet ()
****************************************************************************
* DESCRIPTION: Set the ACX power management option IE
*
* INPUTS: powerSaveParams
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdSetPsMode (TI_HANDLE hCmdBld, TPowerSaveParams* powerSaveParams, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
/* Rate conversion is done in the HAL */
cmdBld_ConvertAppRatesBitmap (powerSaveParams->NullPktRateModulation,
0,
&powerSaveParams->NullPktRateModulation);
TRACE5(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION, " cmdBld_PowerMgmtConfigurationSet ps802_11Enable=0x%x hangOverPeriod=%d needToSendNullData=0x%x numNullPktRetries=%d NullPktRateModulation=0x%x\n", powerSaveParams->ps802_11Enable, powerSaveParams->hangOverPeriod, powerSaveParams->needToSendNullData, powerSaveParams->numNullPktRetries, powerSaveParams->NullPktRateModulation);
return cmdBld_CmdIeSetPsMode (hCmdBld, powerSaveParams, fCb, hCb);
}
/****************************************************************************
* cmdBld_EnableRx()
****************************************************************************
* DESCRIPTION: Enable Rx and send Start/Join command
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdEnableRx (TI_HANDLE hCmdBld, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CmdIeEnableRx (hCmdBld, fCb, hCb);
}
TI_STATUS cmdBld_CmdAddKey (TI_HANDLE hCmdBld, TSecurityKeys* pKey, TI_BOOL reconfFlag, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT8 keyIdx = (TI_UINT8)pKey->keyIndex;
/* store the security key for reconfigure phase (FW reload)*/
if (reconfFlag != TI_TRUE)
{
if (keyIdx >= (pCmdBld->tSecurity.uNumOfStations * NO_OF_RECONF_SECUR_KEYS_PER_STATION + NO_OF_EXTRA_RECONF_SECUR_KEYS))
{
TRACE2(pCmdBld->hReport, REPORT_SEVERITY_ERROR, "cmdBld_CmdAddKey: ERROR Key keyIndex field out of range =%d, range is (0 to %d)\n", pKey->keyIndex, pCmdBld->tSecurity.uNumOfStations * NO_OF_RECONF_SECUR_KEYS_PER_STATION+NO_OF_EXTRA_RECONF_SECUR_KEYS - 1);
return TI_NOK;
}
if (pKey->keyType == KEY_NULL)
{
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_ERROR, "cmdBld_CmdAddKey: ERROR KeyType is NULL_KEY\n");
return TI_NOK;
}
os_memoryCopy (pCmdBld->hOs,
(void *)(DB_KEYS(pCmdBld).pReconfKeys + keyIdx),
(void *)pKey,
sizeof(TSecurityKeys));
}
switch (pCmdBld->tSecurity.eSecurityMode)
{
case TWD_CIPHER_WEP:
case TWD_CIPHER_WEP104:
return cmdBld_CmdAddWepDefaultKey (hCmdBld, pKey, fCb, hCb);
case TWD_CIPHER_TKIP:
case TWD_CIPHER_AES_CCMP:
#ifdef GEM_SUPPORTED
case TWD_CIPHER_GEM:
#endif
return cmdBld_CmdAddWpaKey (hCmdBld, pKey, fCb, hCb);
default:
return TI_NOK;
}
}
TI_STATUS cmdBld_CmdAddWpaKey (TI_HANDLE hCmdBld, TSecurityKeys* pKey, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
/* Only WEP, TKIP, AES keys are handled*/
switch (pKey->keyType)
{
case KEY_WEP:
/* Configure the encKeys to the HW - default keys cache*/
return cmdBld_CmdAddWepDefaultKey (hCmdBld, pKey, fCb, hCb);
case KEY_TKIP:
/* Set the REAL TKIP key into the TKIP key cache*/
if (cmdBld_CmdAddTkipMicMappingKey (hCmdBld, pKey, fCb, hCb) != TI_OK)
return TI_NOK;
break;
case KEY_AES:
if (cmdBld_CmdAddAesMappingKey (hCmdBld, pKey, fCb, hCb) != TI_OK)
return TI_NOK;
break;
#ifdef GEM_SUPPORTED
case KEY_GEM:
if (cmdBld_CmdAddGemMappingKey (hCmdBld, pKey, fCb, hCb) != TI_OK)
return TI_NOK;
break;
#endif
default:
return TI_NOK;
}
/* AES or TKIP key has been successfully added. Store the current */
/* key type of the unicast (i.e. transmit !) key */
if (!MAC_BROADCAST (pKey->macAddress))
{
pCmdBld->tSecurity.eCurTxKeyType = pKey->keyType;
}
return TI_OK;
}
TI_STATUS cmdBld_CmdRemoveWpaKey (TI_HANDLE hCmdBld, TSecurityKeys* pKey, void *fCb, TI_HANDLE hCb)
{
/* Only WEP, TKIP, AES keys are handled*/
switch (pKey->keyType)
{
case KEY_WEP:
/* Configure the encKeys to the HW - default keys cache*/
return cmdBld_CmdRemoveWepDefaultKey (hCmdBld, pKey, fCb, hCb);
case KEY_TKIP:
/* Configure the encKeys to the HW - mapping keys cache*/
/* configure through SET_KEYS command */
/* remove the TKIP key from the TKIP key cache*/
if (cmdBld_CmdRemoveTkipMicMappingKey (hCmdBld, pKey, fCb, hCb) != TI_OK)
return (TI_NOK);
break;
case KEY_AES:
if (cmdBld_CmdRemoveAesMappingKey (hCmdBld, pKey, fCb, hCb) != TI_OK)
return TI_NOK;
break;
#ifdef GEM_SUPPORTED
case KEY_GEM:
if (cmdBld_CmdRemoveGemMappingKey (hCmdBld, pKey, fCb, hCb) != TI_OK)
return TI_NOK;
break;
#endif
default:
return TI_NOK;
}
return TI_OK;
}
/*
* ----------------------------------------------------------------------------
* Function : cmdBld_CmdRemoveKey
*
* Input :
* Output :
* Process :
* Note(s) :
* -----------------------------------------------------------------------------
*/
TI_STATUS cmdBld_CmdRemoveKey (TI_HANDLE hCmdBld, TSecurityKeys* pKey, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT8 keyIdx = (TI_UINT8)pKey->keyIndex;
/* Clear the remove key in the reconfigure data base */
(DB_KEYS(pCmdBld).pReconfKeys + keyIdx)->keyType = KEY_NULL;
switch (pCmdBld->tSecurity.eSecurityMode)
{
case TWD_CIPHER_WEP:
case TWD_CIPHER_WEP104:
return cmdBld_CmdRemoveWepDefaultKey (hCmdBld, pKey, fCb, hCb);
case TWD_CIPHER_TKIP:
case TWD_CIPHER_AES_CCMP:
#ifdef GEM_SUPPORTED
case TWD_CIPHER_GEM:
#endif
return cmdBld_CmdRemoveWpaKey (hCmdBld, pKey, fCb, hCb);
default:
return TI_NOK;
}
}
/****************************************************************************
* cmdBld_WepDefaultKeyAdd()
****************************************************************************
* DESCRIPTION: Set the actual default key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdAddWepDefaultKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb)
{
TI_STATUS status;
TI_UINT8 sMacAddrDummy[6]={0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
/* Non WEP keys are trashed*/
if (aSecurityKey->keyType != KEY_WEP)
{
return TI_NOK;
}
status = cmdBld_CmdIeSetKey (hCmdBld,
KEY_ADD_OR_REPLACE,
sMacAddrDummy,
aSecurityKey->encLen,
CIPHER_SUITE_WEP,
aSecurityKey->keyIndex,
(TI_UINT8*)aSecurityKey->encKey,
0,
0,
fCb,
hCb);
return status;
}
/****************************************************************************
* cmdBld_WepDefaultKeyRemove()
****************************************************************************
* DESCRIPTION: Set the actual default key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdSetWepDefaultKeyId (TI_HANDLE hCmdBld, TI_UINT8 aKeyIdVal, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT8 sMacAddrDummy[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
/* Save the deafult key ID for reconfigure phase */
DB_KEYS(pCmdBld).bDefaultKeyIdValid = TI_TRUE;
DB_KEYS(pCmdBld).uReconfDefaultKeyId = aKeyIdVal;
return cmdBld_CmdIeSetKey (hCmdBld,
KEY_SET_ID,
sMacAddrDummy,
0,
CIPHER_SUITE_WEP,
aKeyIdVal,
0,
0,
0,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_WepDefaultKeyRemove()
****************************************************************************
* DESCRIPTION: Set the actual default key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdRemoveWepDefaultKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb)
{
TI_UINT8 sMacAddrDummy[6] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
/* Non WEP keys are trashed*/
if (aSecurityKey->keyType != KEY_WEP)
{
return TI_NOK;
}
return cmdBld_CmdIeSetKey (hCmdBld,
KEY_REMOVE,
sMacAddrDummy,
aSecurityKey->encLen,
CIPHER_SUITE_WEP,
aSecurityKey->keyIndex,
(TI_UINT8*)aSecurityKey->encKey,
0,
0,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_WepMappingKeyAdd()
****************************************************************************
* DESCRIPTION: Set the actual mapping key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdAddWepMappingKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CmdIeSetKey (hCmdBld,
KEY_ADD_OR_REPLACE,
(TI_UINT8*)aSecurityKey->macAddress,
aSecurityKey->encLen,
CIPHER_SUITE_WEP,
aSecurityKey->keyIndex,
(TI_UINT8*)aSecurityKey->encKey,
0,
0,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_WepMappingKeyRemove()
****************************************************************************
* DESCRIPTION: Set the actual mapping key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdRemoveWepMappingKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb)
{
/*In the new security interface it is not allowed to remove uni-cast keys. it will be cleaned on the next join command*/
if (!MAC_BROADCAST(aSecurityKey->macAddress) )
{
return TI_OK;
}
return cmdBld_CmdIeSetKey (hCmdBld,
KEY_REMOVE,
(TI_UINT8*)aSecurityKey->macAddress,
aSecurityKey->encLen,
CIPHER_SUITE_WEP,
aSecurityKey->keyIndex,
(TI_UINT8*)aSecurityKey->encKey,
0,
0,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_TkipMicMappingKeyAdd()
****************************************************************************
* DESCRIPTION: Set the actual mapping key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdAddTkipMicMappingKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT8 keyType;
TI_UINT8 keyBuffer[KEY_SIZE_TKIP];
keyType = CIPHER_SUITE_TKIP;
os_memoryCopy (pCmdBld->hOs, (void*)(&keyBuffer[0]), (void*)aSecurityKey->encKey, 16);
os_memoryCopy (pCmdBld->hOs, (void*)(&keyBuffer[16]), (void*)aSecurityKey->micRxKey, 8);
os_memoryCopy (pCmdBld->hOs, (void*)(&keyBuffer[24]), (void*)aSecurityKey->micTxKey, 8);
return cmdBld_CmdIeSetKey (hCmdBld,
KEY_ADD_OR_REPLACE,
(TI_UINT8*)aSecurityKey->macAddress,
KEY_SIZE_TKIP,
keyType,
aSecurityKey->keyIndex,
(TI_UINT8*)keyBuffer,
pCmdBld->uSecuritySeqNumLow,
pCmdBld->uSecuritySeqNumHigh,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_TkipMappingKeyAdd()
****************************************************************************
* DESCRIPTION: Set the actual mapping key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdRemoveTkipMicMappingKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb)
{
TI_UINT8 keyType;
keyType = CIPHER_SUITE_TKIP;
/*In the new security interface it is not allowed to remove uni-cast keys. it will be cleaned on the next join command*/
if (!MAC_BROADCAST(aSecurityKey->macAddress) )
{
return TI_OK;
}
return cmdBld_CmdIeSetKey (hCmdBld,
KEY_REMOVE,
(TI_UINT8*)aSecurityKey->macAddress,
aSecurityKey->encLen,
keyType,
aSecurityKey->keyIndex,
(TI_UINT8*)aSecurityKey->encKey,
0,
0,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_AesMappingKeyAdd()
****************************************************************************
* DESCRIPTION: Set the actual Aes mapping key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdAddAesMappingKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT8 keyType;
keyType = CIPHER_SUITE_AES;
TRACE2(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION, "cmdBld_AesMappingKeyAdd: uSecuritySeqNumHigh=%ld, pHwCtrl->uSecuritySeqNumLow=%ld \n", pCmdBld->uSecuritySeqNumHigh, pCmdBld->uSecuritySeqNumLow);
return cmdBld_CmdIeSetKey (hCmdBld,
KEY_ADD_OR_REPLACE,
(TI_UINT8*)aSecurityKey->macAddress,
aSecurityKey->encLen, keyType,
aSecurityKey->keyIndex,
(TI_UINT8*)aSecurityKey->encKey,
pCmdBld->uSecuritySeqNumLow,
pCmdBld->uSecuritySeqNumHigh,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_AesMappingKeyRemove()
****************************************************************************
* DESCRIPTION: Remove Aes mapping key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdRemoveAesMappingKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb)
{
TI_UINT8 keyType;
keyType = CIPHER_SUITE_AES;
/*In the new security interface it is not allowed to remove uni-cast keys. it will be cleaned on the next join command*/
if (!MAC_BROADCAST(aSecurityKey->macAddress) )
{
return TI_OK;
}
return cmdBld_CmdIeSetKey (hCmdBld,
KEY_REMOVE,
(TI_UINT8*)aSecurityKey->macAddress,
aSecurityKey->encLen,
keyType,
aSecurityKey->keyIndex,
(TI_UINT8*)aSecurityKey->encKey,
0,
0,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_CmdSetStaState()
****************************************************************************
* DESCRIPTION: Set station status .
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdSetStaState (TI_HANDLE hCmdBld, TI_UINT8 staState, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TWlanParams *pWlanParams = &DB_WLAN(hCmdBld);
pWlanParams->bStaConnected = TI_TRUE;
TRACE1(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "Sending StaState %d\n",staState);
return cmdBld_CmdIeSetStaState (hCmdBld, staState, fCb, hCb);
}
#ifdef GEM_SUPPORTED
/****************************************************************************
* cmdBld_CmdAddGemMappingKey()
****************************************************************************
* DESCRIPTION: Set the actual GEM mapping key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdAddGemMappingKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT8 keyType;
TI_UINT8 keyBuffer[MAX_KEY_SIZE];
keyType = CIPHER_SUITE_GEM;
os_memoryCopy (pCmdBld->hOs, (void*)(&keyBuffer[0]), (void*)aSecurityKey->encKey, 16);
os_memoryCopy (pCmdBld->hOs, (void*)(&keyBuffer[16]), (void*)aSecurityKey->micRxKey, 16);
return cmdBld_CmdIeSetKey (hCmdBld,
KEY_ADD_OR_REPLACE,
aSecurityKey->macAddress,
MAX_KEY_SIZE,
keyType,
aSecurityKey->keyIndex,
keyBuffer,
pCmdBld->uSecuritySeqNumLow,
pCmdBld->uSecuritySeqNumHigh,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_CmdRemoveGemMappingKey()
****************************************************************************
* DESCRIPTION: Remove GEM mapping key
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CmdRemoveGemMappingKey (TI_HANDLE hCmdBld, TSecurityKeys* aSecurityKey, void *fCb, TI_HANDLE hCb)
{
TI_UINT8 keyType;
keyType = CIPHER_SUITE_GEM;
/*In the new security interface it is not allowed to remove uni-cast keys. it will be cleaned on the next join command*/
if (!MAC_BROADCAST(aSecurityKey->macAddress) )
{
return TI_OK;
}
return cmdBld_CmdIeSetKey (hCmdBld,
KEY_REMOVE,
aSecurityKey->macAddress,
aSecurityKey->encLen,
keyType,
aSecurityKey->keyIndex,
aSecurityKey->encKey,
0,
0,
fCb,
hCb);
}
#endif /*GEM_SUPPORTED*/
/****************************************************************************
* cmdBld_healthCheck()
****************************************************************************
* DESCRIPTION:
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS:
****************************************************************************/
TI_STATUS cmdBld_CmdHealthCheck (TI_HANDLE hCmdBld, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION, "cmdBld_CmdIeHealthCheck\n");
return cmdBld_CmdIeHealthCheck (hCmdBld, fCb, hCb);
}
TI_STATUS cmdBld_CmdTest (TI_HANDLE hCmdBld, void *fCb, TI_HANDLE hCb, TTestCmd* pTestCmd)
{
return cmdBld_CmdIeTest (hCmdBld, fCb, hCb, pTestCmd);
}