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android / platform / system / wlan / ti / d05e827b5bdc80384035d87391d066434677d34f / . / wilink_6_1 / TWD / Ctrl / CmdBldCfg.c
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/*
* CmdBldCfg.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 CmdBldCfg.c
* \brief Command builder. Configuration commands
*
* \see CmdBld.h
*/
#define __FILE_ID__ FILE_ID_91
#include "osApi.h"
#include "tidef.h"
#include "report.h"
#include "CmdBld.h"
#include "CmdBldCfgIE.h"
#include "TWDriverInternal.h"
/****************************************************************************
* cmdBld_setRxFilters()
****************************************************************************
* DESCRIPTION: Sets the filters according to the given configuration.
*
* INPUTS: RxConfigOption - The given Rx filters configuration
* RxFilterOption - The given Rx filters options
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgRx (TI_HANDLE hCmdBld, TI_UINT32 uRxConfigOption, TI_UINT32 uRxFilterOption, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).RxConfigOption = uRxConfigOption;
DB_WLAN(hCmdBld).RxFilterOption = uRxFilterOption;
DB_WLAN(hCmdBld).RxConfigOption |= RX_CFG_ENABLE_PHY_HEADER_PLCP;
#if defined (TNETW_MASTER_MODE) || defined (TNETW_USB_MODE)
DB_WLAN(hCmdBld).RxConfigOption |= RX_CFG_COPY_RX_STATUS;
#endif
if (DB_WLAN(hCmdBld).RxDisableBroadcast)
{
DB_WLAN(hCmdBld).RxConfigOption |= RX_CFG_DISABLE_BCAST;
}
return cmdBld_CfgIeRx (hCmdBld,
DB_WLAN(hCmdBld).RxConfigOption,
DB_WLAN(hCmdBld).RxFilterOption,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_SetarpIpAddressesTable()
****************************************************************************
* DESCRIPTION: Sets the ARP IP table according to the given configuration.
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgArpIpAddrTable (TI_HANDLE hCmdBld, TIpAddr tIpAddr, TI_BOOL bEnabled, EIpVer eIpVer, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).arp_IP_ver = eIpVer;
/* no support for IPV6 */
if (eIpVer == IP_VER_4)
{
IP_COPY (DB_WLAN(hCmdBld).arp_IP_addr, tIpAddr);
}
DB_WLAN(hCmdBld).isArpIpFilteringEnabled = bEnabled;
/* Set the new ip with the current state (e/d) */
return cmdBld_CfgIeArpIpFilter (hCmdBld, tIpAddr, bEnabled, fCb, hCb);
}
/****************************************************************************
* cmdBld_SetarpIpFilterEnabled()
****************************************************************************
* DESCRIPTION: Enable\Disable the ARP filter
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgArpIpFilter (TI_HANDLE hCmdBld, TI_BOOL bEnabled, void *fCb, TI_HANDLE hCb)
{
/* Set the current ip address with the new state (e/d) */
DB_WLAN(hCmdBld).isArpIpFilteringEnabled = bEnabled;
return cmdBld_CfgIeArpIpFilter (hCmdBld,
DB_WLAN(hCmdBld).arp_IP_addr,
bEnabled,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_SetGroupAddressesTable()
****************************************************************************
* DESCRIPTION: Sets the Group table according to the given configuration.
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgGroupAddressTable (TI_HANDLE hCmdBld,
TI_UINT8 uNumGroupAddr,
TMacAddr *pGroupAddr,
TI_BOOL bEnabled,
void *fCb,
TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT32 i;
if (uNumGroupAddr > MAX_MULTICAST_GROUP_ADDRS)
{
TRACE1(pCmdBld->hReport, REPORT_SEVERITY_ERROR, "cmdBld_CfgGroupAddressTable: numGroupAddrs=%d\n", uNumGroupAddr);
return PARAM_VALUE_NOT_VALID;
}
if (NULL == pGroupAddr)
{
TRACE2(pCmdBld->hReport, REPORT_SEVERITY_ERROR, "cmdBld_SetGroupAddressesTable: numGroupAddrs=%d Group_addr=0x%x !!!\n", uNumGroupAddr, pGroupAddr);
return PARAM_VALUE_NOT_VALID;
}
/* Keeps the parameters in the db */
DB_WLAN(hCmdBld).numGroupAddrs = uNumGroupAddr;
DB_WLAN(hCmdBld).isMacAddrFilteringnabled = bEnabled;
for (i = 0; i < uNumGroupAddr; i++)
{
MAC_COPY (DB_WLAN(hCmdBld).aGroupAddr[i], *(pGroupAddr + i));
}
return cmdBld_CfgIeGroupAdressTable (hCmdBld, uNumGroupAddr, pGroupAddr, bEnabled, fCb, hCb);
}
/****************************************************************************
* cmdBld_SetRtsThreshold()
****************************************************************************
* DESCRIPTION: Sets the Rts Threshold.
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK pWlanParams->RtsThreshold
****************************************************************************/
TI_STATUS cmdBld_CfgRtsThreshold (TI_HANDLE hCmdBld, TI_UINT16 threshold, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CfgIeRtsThreshold (hCmdBld, threshold, fCb, hCb);
}
/****************************************************************************
* cmdBld_CfgFragmentThreshold()
****************************************************************************
* DESCRIPTION: Sets the tx fragmentation Threshold.
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgFragmentThreshold (TI_HANDLE hCmdBld, TI_UINT16 uFragmentThreshold, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).FragmentThreshold = uFragmentThreshold;
return cmdBld_CfgIeFragmentThreshold (hCmdBld, uFragmentThreshold, fCb, hCb);
}
/****************************************************************************
* cmdBld_SetPreamble()
****************************************************************************
* DESCRIPTION: Set the preamble in ?????? hardware register
*
* INPUTS:
* preambleVal
*
* OUTPUT: None
*
* RETURNS: None
****************************************************************************/
TI_STATUS cmdBld_CfgPreamble (TI_HANDLE hCmdBld, Preamble_e ePreamble, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).preamble = ePreamble;
return cmdBld_CfgIePreamble (hCmdBld, (TI_UINT8)ePreamble, fCb, hCb);
}
/****************************************************************************
* cmdBld_BcnBrcOptions()
****************************************************************************
* DESCRIPTION: Configure the wlan hardware
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgBcnBrcOptions (TI_HANDLE hCmdBld, TPowerMgmtConfig *pPMConfig, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CfgIeBcnBrcOptions (hCmdBld, pPMConfig, fCb, hCb);
}
/****************************************************************************
* cmdBld_wakeUpCondition()
****************************************************************************
* DESCRIPTION: Configure the wlan hardware
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgWakeUpCondition (TI_HANDLE hCmdBld, TPowerMgmtConfig *pPMConfig, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CfgIeWakeUpCondition (hCmdBld, pPMConfig, fCb, hCb);
}
/****************************************************************************
* cmdBld_MinPowerLevelSet ()
****************************************************************************
* DESCRIPTION: Set the min power level
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgSleepAuth (TI_HANDLE hCmdBld, EPowerPolicy eMinPowerLevel, void *fCb, TI_HANDLE hCb)
{
/* Save th parameter in database */
DB_WLAN(hCmdBld).minPowerLevel = eMinPowerLevel;
return cmdBld_CfgIeSleepAuth (hCmdBld, eMinPowerLevel, fCb, hCb);
}
typedef enum { HW_CLOCK_40_MHZ = 40, HW_CLOCK_80_MHZ = 80 } EHwClock;
/****************************************************************************
* cmdBld_ArmClockSet()
****************************************************************************
* DESCRIPTION: Configure the arm clock
* !!! Note that the firmware will set the slot time according to the new clock
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgArmClock (TI_HANDLE hCmdBld, TI_UINT32 uArmClock, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TWlanParams *pWlanParams = &DB_WLAN(hCmdBld);
pWlanParams->ArmClock = uArmClock;
/* Illegal combination Mac=80, Arm=40 ==> force setting 40/40*/
if (pWlanParams->MacClock == HW_CLOCK_80_MHZ && pWlanParams->ArmClock == HW_CLOCK_40_MHZ)
{
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_ERROR, "cmdBld_ArmClockSet: Illegal combination Mac=80, Arm=40 ==> force setting 40/40\n");
pWlanParams->MacClock = HW_CLOCK_40_MHZ;
}
return cmdBld_CfgIeFeatureConfig (hCmdBld,
pWlanParams->FeatureOptions,
pWlanParams->FeatureDataFlowOptions,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_MacClockSet()
****************************************************************************
* DESCRIPTION: Configure the mac clock
* !!! Note that the firmware will set the slot time according to the new clock
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgMacClock (TI_HANDLE hCmdBld, TI_UINT32 uMacClock, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TWlanParams *pWlanParams = &DB_WLAN(hCmdBld);
pWlanParams->MacClock = uMacClock;
/* Force same clock - for printing */
pWlanParams->ArmClock = uMacClock;
/* Illegal combination Mac=80, Arm=40 ==> force setting 40/40*/
if (pWlanParams->MacClock == HW_CLOCK_80_MHZ && pWlanParams->ArmClock == HW_CLOCK_40_MHZ)
{
TRACE0(pCmdBld->hReport, REPORT_SEVERITY_ERROR, "cmdBld_MacClockSet: Illegal combination Mac=80, Arm=40 ==> force setting 40/40\n");
pWlanParams->MacClock = HW_CLOCK_40_MHZ;
}
return cmdBld_CfgIeFeatureConfig (hCmdBld,
pWlanParams->FeatureOptions,
pWlanParams->FeatureDataFlowOptions,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_AidSet()
****************************************************************************
* DESCRIPTION: Set the AID
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgAid (TI_HANDLE hCmdBld, TI_UINT16 uAidVal, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CfgIeAid (hCmdBld, uAidVal, fCb, hCb);
}
TI_STATUS cmdBld_CfgClkRun (TI_HANDLE hCmdBld, TI_BOOL aClkRunEnable, void *fCb, TI_HANDLE hCb)
{
TWlanParams *pWlanParams = &DB_WLAN(hCmdBld);
if (aClkRunEnable)
{
pWlanParams->FeatureDataFlowOptions |= FEAT_PCI_CLK_RUN_ENABLE;
}
else
{
pWlanParams->FeatureDataFlowOptions &= ~FEAT_PCI_CLK_RUN_ENABLE;
}
return cmdBld_CfgIeFeatureConfig (hCmdBld,
pWlanParams->FeatureOptions,
pWlanParams->FeatureDataFlowOptions,
fCb,
hCb);
}
TI_STATUS cmdBld_CfgRxMsduFormat (TI_HANDLE hCmdBld, TI_BOOL bRxMsduForamtEnable, void *fCb, TI_HANDLE hCb)
{
#if 1
/* WARNING: Have to check how to control the Rx Frame format select (which bit)
and then access the HW*/
return TI_OK;
#else
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TWlanParams *pWlanParams = &DB_WLAN(hCmdBld);
if (aRxMsduForamtEnable)
{
pWlanParams->FeatureDataFlowOptions |= DATA_FLOW_RX_MSDU_FRAME;
}
else
{
pWlanParams->FeatureDataFlowOptions &= ~DATA_FLOW_RX_MSDU_FRAME;
}
return cmdBld_CfgIeFeatureConfig (hCmdBld,
pWlanParams->FeatureOptions,
pWlanParams->FeatureDataFlowOptions,
fCb,
hCb);
#endif
}
/****************************************************************************
* cmdBld_TrafficConf()
****************************************************************************
* DESCRIPTION: configure Queue traffic params
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgTid (TI_HANDLE hCmdBld, TQueueTrafficParams *pQtrafficParams, void *fCb, TI_HANDLE hCb)
{
DB_QUEUES(hCmdBld).isQueueConfigured[pQtrafficParams->queueID] = TI_TRUE;
DB_QUEUES(hCmdBld).queues[pQtrafficParams->queueID] = *pQtrafficParams;
return cmdBld_CfgIeTid (hCmdBld, pQtrafficParams, fCb, hCb);
}
/****************************************************************************
* cmdBld_AcParamsConf()
****************************************************************************
* DESCRIPTION: configure AC params
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgAcParams (TI_HANDLE hCmdBld, TAcQosParams *pAcQosParams, void *fCb, TI_HANDLE hCb)
{
DB_AC(hCmdBld).isAcConfigured[pAcQosParams->ac] = TI_TRUE;
DB_AC(hCmdBld).ac[pAcQosParams->ac] = *pAcQosParams;
return cmdBld_CfgIeAcParams (hCmdBld, pAcQosParams, fCb, hCb);
}
/****************************************************************************
* cmdBld_CfgPsRxStreaming()
****************************************************************************
* DESCRIPTION: configure PS-Rx-Streaming params
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgPsRxStreaming (TI_HANDLE hCmdBld, TPsRxStreaming *pPsRxStreaming, void *fCb, TI_HANDLE hCb)
{
DB_PS_STREAM(hCmdBld).tid[pPsRxStreaming->uTid] = *pPsRxStreaming;
return cmdBld_CfgIePsRxStreaming (hCmdBld, pPsRxStreaming, fCb, hCb);
}
/****************************************************************************
* cmdBld_CfgPacketDetectionThreshold
****************************************************************************
* DESCRIPTION: Sets Packet Detection Threshold
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgPacketDetectionThreshold (TI_HANDLE hCmdBld, TI_UINT32 threshold, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).PacketDetectionThreshold = threshold;
return cmdBld_CfgIePacketDetectionThreshold (hCmdBld, threshold, fCb, hCb);
}
/****************************************************************************
* cmdBld_SetBeaconFiltering
****************************************************************************
* DESCRIPTION: Sets Beacon filtering state
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgBeaconFilterOpt (TI_HANDLE hCmdBld,
TI_UINT8 uBeaconFilteringStatus,
TI_UINT8 uNumOfBeaconsToBuffer,
void *fCb,
TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).beaconFilterParams.desiredState = uBeaconFilteringStatus;
DB_WLAN(hCmdBld).beaconFilterParams.numOfElements = uNumOfBeaconsToBuffer;
return cmdBld_CfgIeBeaconFilterOpt (hCmdBld,
uBeaconFilteringStatus,
uNumOfBeaconsToBuffer,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_CfgRateMngDbg
****************************************************************************
* DESCRIPTION: Sets rate managment params
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgRateMngDbg (TI_HANDLE hCmdBld,
RateMangeParams_t *pRateMngParams ,
void *fCb,
TI_HANDLE hCb)
{
TRateMngParams *pRateMngParamsDB = &DB_RM(hCmdBld);
int uIndex;
pRateMngParamsDB->rateMngParams.paramIndex = pRateMngParams->paramIndex;
switch (pRateMngParams->paramIndex)
{
case RATE_MGMT_RETRY_SCORE_PARAM:
pRateMngParamsDB->rateMngParams.RateRetryScore = pRateMngParams->RateRetryScore;
break;
case RATE_MGMT_PER_ADD_PARAM:
pRateMngParamsDB->rateMngParams.PerAdd = pRateMngParams->PerAdd;
break;
case RATE_MGMT_PER_TH1_PARAM:
pRateMngParamsDB->rateMngParams.PerTh1 = pRateMngParams->PerTh1;
break;
case RATE_MGMT_PER_TH2_PARAM:
pRateMngParamsDB->rateMngParams.PerTh2 = pRateMngParams->PerTh2;
break;
case RATE_MGMT_MAX_PER_PARAM:
pRateMngParamsDB->rateMngParams.MaxPer = pRateMngParams->MaxPer;
break;
case RATE_MGMT_INVERSE_CURIOSITY_FACTOR_PARAM:
pRateMngParamsDB->rateMngParams.InverseCuriosityFactor = pRateMngParams->InverseCuriosityFactor;
break;
case RATE_MGMT_TX_FAIL_LOW_TH_PARAM:
pRateMngParamsDB->rateMngParams.TxFailLowTh = pRateMngParams->TxFailLowTh;
break;
case RATE_MGMT_TX_FAIL_HIGH_TH_PARAM:
pRateMngParamsDB->rateMngParams.TxFailHighTh = pRateMngParams->TxFailHighTh;
break;
case RATE_MGMT_PER_ALPHA_SHIFT_PARAM:
pRateMngParamsDB->rateMngParams.PerAlphaShift = pRateMngParams->PerAlphaShift;
break;
case RATE_MGMT_PER_ADD_SHIFT_PARAM:
pRateMngParamsDB->rateMngParams.PerAddShift = pRateMngParams->PerAddShift;
break;
case RATE_MGMT_PER_BETA1_SHIFT_PARAM:
pRateMngParamsDB->rateMngParams.PerBeta1Shift = pRateMngParams->PerBeta1Shift;
break;
case RATE_MGMT_PER_BETA2_SHIFT_PARAM:
pRateMngParamsDB->rateMngParams.PerBeta2Shift = pRateMngParams->PerBeta2Shift;
break;
case RATE_MGMT_RATE_CHECK_UP_PARAM:
pRateMngParamsDB->rateMngParams.RateCheckUp = pRateMngParams->RateCheckUp;
break;
case RATE_MGMT_RATE_CHECK_DOWN_PARAM:
pRateMngParamsDB->rateMngParams.RateCheckDown = pRateMngParams->RateCheckDown;
break;
case RATE_MGMT_RATE_RETRY_POLICY_PARAM:
for (uIndex = 0; uIndex < 13; uIndex++)
{
pRateMngParamsDB->rateMngParams.RateRetryPolicy[uIndex] = pRateMngParams->RateRetryPolicy[uIndex];
}
break;
}
return cmdBld_CfgIeRateMngDbg (hCmdBld,
pRateMngParams,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_SetBeaconFilterIETable
****************************************************************************
* DESCRIPTION: Sets Beacon filtering state
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgBeaconFilterTable (TI_HANDLE hCmdBld,
TI_UINT8 uNumberOfIEs,
TI_UINT8 *pIETable,
TI_UINT8 uIETableSize,
void *fCb,
TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
if (uIETableSize > BEACON_FILTER_TABLE_MAX_SIZE)
{
TRACE2(pCmdBld->hReport, REPORT_SEVERITY_ERROR, "cmdBld_CfgBeaconFilterTable: Table size is too big %d (>%d)\n", uIETableSize, BEACON_FILTER_TABLE_MAX_SIZE);
return PARAM_VALUE_NOT_VALID;
}
os_memoryZero (pCmdBld->hOs,
(void *)DB_WLAN(hCmdBld).beaconFilterIETable.IETable,
BEACON_FILTER_TABLE_MAX_SIZE);
os_memoryCopy (pCmdBld->hOs,
(void *)DB_WLAN(hCmdBld).beaconFilterIETable.IETable,
(void *)pIETable,
uIETableSize);
DB_WLAN(hCmdBld).beaconFilterIETable.numberOfIEs = uNumberOfIEs;
DB_WLAN(hCmdBld).beaconFilterIETable.IETableSize = uIETableSize;
return cmdBld_CfgIeBeaconFilterTable (hCmdBld, uNumberOfIEs, pIETable, uIETableSize, fCb, hCb);
}
/*----------------------------------------*/
/* Roaming Trigger Configuration Commands */
/*----------------------------------------*/
/****************************************************************************
* cmdBld_CfgRssiSnrTrigger()
****************************************************************************
* DESCRIPTION: Set the RSSI/SNR Trigger parameters.
*
* INPUTS:
*
* OUTPUT: None
*
* RETURNS: None
****************************************************************************/
TI_STATUS cmdBld_CfgRssiSnrTrigger (TI_HANDLE hCmdBld, RssiSnrTriggerCfg_t *pTriggerParam, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).tRssiSnrTrigger[pTriggerParam->index].index = pTriggerParam->index;
DB_WLAN(hCmdBld).tRssiSnrTrigger[pTriggerParam->index].threshold = pTriggerParam->threshold;
DB_WLAN(hCmdBld).tRssiSnrTrigger[pTriggerParam->index].pacing = pTriggerParam->pacing;
DB_WLAN(hCmdBld).tRssiSnrTrigger[pTriggerParam->index].metric = pTriggerParam->metric;
DB_WLAN(hCmdBld).tRssiSnrTrigger[pTriggerParam->index].type = pTriggerParam->type;
DB_WLAN(hCmdBld).tRssiSnrTrigger[pTriggerParam->index].direction = pTriggerParam->direction;
DB_WLAN(hCmdBld).tRssiSnrTrigger[pTriggerParam->index].hystersis = pTriggerParam->hystersis;
DB_WLAN(hCmdBld).tRssiSnrTrigger[pTriggerParam->index].enable = pTriggerParam->enable;
return cmdBld_CfgIeRssiSnrTrigger (hCmdBld, pTriggerParam, fCb, hCb);
}
/****************************************************************************
* cmdBld_CfgRssiSnrWeights()
****************************************************************************
* DESCRIPTION: Set RSSI/SNR Weights for Average calculations.
*
* INPUTS:
*
* OUTPUT: None
*
* RETURNS: None
****************************************************************************/
TI_STATUS cmdBld_CfgRssiSnrWeights (TI_HANDLE hCmdBld, RssiSnrAverageWeights_t *pWeightsParam, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRACE4(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "\n cmdBld_CfgRssiSnrWeights :\n uRssiBeaconAverageWeight = %d\n uRssiPacketAverageWeight = %d\n uSnrBeaconAverageWeight = %d\n uSnrPacketAverageWeight = %d \n ", pWeightsParam->rssiBeaconAverageWeight, pWeightsParam->rssiPacketAverageWeight, pWeightsParam->snrBeaconAverageWeight , pWeightsParam->snrPacketAverageWeight );
DB_WLAN(hCmdBld).tRssiSnrWeights.rssiBeaconAverageWeight = pWeightsParam->rssiBeaconAverageWeight;
DB_WLAN(hCmdBld).tRssiSnrWeights.rssiPacketAverageWeight = pWeightsParam->rssiPacketAverageWeight;
DB_WLAN(hCmdBld).tRssiSnrWeights.snrBeaconAverageWeight = pWeightsParam->snrBeaconAverageWeight ;
DB_WLAN(hCmdBld).tRssiSnrWeights.snrPacketAverageWeight = pWeightsParam->snrPacketAverageWeight ;
return cmdBld_CfgIeRssiSnrWeights (hCmdBld, pWeightsParam, fCb, hCb);
}
/****************************************************************************
* cmdBld_SetMaxTxRetryParameters()
****************************************************************************
* DESCRIPTION: Set Max Tx retry parmaters.
*
* INPUTS:
* maxTxRetry max Tx Retry
*
* OUTPUT: None
*
* RETURNS: None
****************************************************************************/
TI_STATUS cmdBld_CfgMaxTxRetry (TI_HANDLE hCmdBld, TRroamingTriggerParams *pRoamingTriggerCmd, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).roamTriggers.maxTxRetry = pRoamingTriggerCmd->maxTxRetry;
return cmdBld_CfgIeMaxTxRetry (hCmdBld, pRoamingTriggerCmd, fCb, hCb);
}
/****************************************************************************
* cmdBld_SoftGeminiEnable()
****************************************************************************
* DESCRIPTION: Save Soft Gemini enable parameter
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgSgEnable (TI_HANDLE hCmdBld, ESoftGeminiEnableModes eSgEnable, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).SoftGeminiEnable = eSgEnable;
return cmdBld_CfgIeSgEnable (hCmdBld, eSgEnable, fCb, hCb);
}
/****************************************************************************
* cmdBld_SetSoftGeminiParams()
****************************************************************************
* DESCRIPTION: Save Soft Gemini config parameter
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgSg (TI_HANDLE hCmdBld, TSoftGeminiParams *pSgParam, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
/* Copy params for recovery */
os_memoryCopy (pCmdBld->hOs,
(void*)&DB_WLAN(hCmdBld).SoftGeminiParams,
(void*)pSgParam,
sizeof(TSoftGeminiParams));
return cmdBld_CfgIeSg (hCmdBld, pSgParam, fCb, hCb);
}
/****************************************************************************
* cmdBld_SetCoexActivityTable()
****************************************************************************
* DESCRIPTION: Sets the CoexActivity table.
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK pWlanParams->RtsThreshold
****************************************************************************/
TI_STATUS cmdBld_CfgCoexActivity (TI_HANDLE hCmdBld, TCoexActivity *pCoexActivity, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TWlanParams *pWlanParams = &DB_WLAN(hCmdBld);
TCoexActivity *pSaveCoex = &pWlanParams->tWlanParamsCoexActivityTable.entry[0];
int numOfElements = pWlanParams->tWlanParamsCoexActivityTable.numOfElements;
int i;
/* Check if to overwrite existing entry or put on last index */
for (i=0; i<numOfElements; i++)
{
if ((pSaveCoex[i].activityId == pCoexActivity->activityId) && (pSaveCoex->coexIp == pCoexActivity->coexIp))
{
break;
}
}
TRACE4(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "cmdBld_CfgCoexActivity: save Param %d in index %d, %d %d\n", 0, i, pCoexActivity->coexIp, pCoexActivity->activityId);
/* save in WlanParams for recovery */
pSaveCoex[i].coexIp = pCoexActivity->coexIp;
pSaveCoex[i].activityId = pCoexActivity->activityId;
pSaveCoex[i].defaultPriority = pCoexActivity->defaultPriority;
pSaveCoex[i].raisedPriority = pCoexActivity->raisedPriority;
pSaveCoex[i].minService = pCoexActivity->minService;
pSaveCoex[i].maxService = pCoexActivity->maxService;
if (i == numOfElements)
{
/* no existing entry overwrite, increment number of elements */
pWlanParams->tWlanParamsCoexActivityTable.numOfElements++;
}
return cmdBld_CfgIeCoexActivity (hCmdBld, pCoexActivity, fCb, hCb);
}
/****************************************************************************
* cmdBld_CfgFmCoex()
****************************************************************************
* DESCRIPTION: Save and configure FM coexistence parameters
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgFmCoex (TI_HANDLE hCmdBld, TFmCoexParams *pFmCoexParams, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
/* Copy params for recovery */
os_memoryCopy (pCmdBld->hOs,
(void*)&(DB_WLAN(hCmdBld).tFmCoexParams),
(void*)pFmCoexParams,
sizeof(TFmCoexParams));
return cmdBld_CfgIeFmCoex (hCmdBld, pFmCoexParams, fCb, hCb);
}
/****************************************************************************
* cmdBld_TxRatePolicy()
****************************************************************************
* DESCRIPTION: configure TxRatePolicy params
*
* INPUTS: None
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgTxRatePolicy (TI_HANDLE hCmdBld, TTxRatePolicy *pTxRatePolicy, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TTxRateClass *pTxRateClass = pTxRatePolicy->rateClass;
TI_UINT8 index;
TRACE1(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION, "_1, Num of classes = 0x%x\n", pTxRatePolicy->numOfRateClasses);
DB_BSS(hCmdBld).TxRateClassParams.numOfRateClasses = pTxRatePolicy->numOfRateClasses;
for (index = 0; index < pTxRatePolicy->numOfRateClasses; index++, pTxRateClass++)
{
TRACE4(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION, "_2loop, Index = %d, Short R = 0x%x, Long R = 0x%x, Rates = 0x%x\n", index, pTxRateClass->shortRetryLimit, pTxRateClass->longRetryLimit, pTxRateClass->txEnabledRates);
DB_BSS(hCmdBld).TxRateClassParams.rateClass[index] = *pTxRateClass;
}
return cmdBld_CfgIeTxRatePolicy (hCmdBld, pTxRatePolicy, fCb, hCb);
}
TI_STATUS cmdBld_CfgSlotTime (TI_HANDLE hCmdBld, ESlotTime eSlotTime, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
DB_WLAN(hCmdBld).SlotTime = eSlotTime;
TRACE1(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION, "TWD_SetSlotTime : Slot time = %d\n", eSlotTime);
/* Configure the new Slot-Time value to the FW. */
return cmdBld_CfgIeSlotTime (hCmdBld, (TI_UINT8)eSlotTime, fCb, hCb);
}
TI_STATUS cmdBld_CfgEventMask (TI_HANDLE hCmdBld, TI_UINT32 uEventMask, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CfgIeEventMask (hCmdBld, uEventMask, fCb, hCb);
}
/*
* ----------------------------------------------------------------------------
* Function : cmdBld_CfgHwEncEnable
*
* Input :
* Output :
* Process :
* Note(s) :
* -----------------------------------------------------------------------------
*/
TI_STATUS cmdBld_CfgHwEncEnable (TI_HANDLE hCmdBld, TI_BOOL bHwEncEnable, TI_BOOL bHwDecEnable, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TWlanParams *pWlanParams = &DB_WLAN(hCmdBld);
/* Store the HW encryption Enable flag for reconfigure time (FW reload)*/
DB_KEYS(pCmdBld).bReconfHwEncEnable = bHwEncEnable;
DB_KEYS(pCmdBld).bHwEncDecrEnableValid = TI_TRUE;
if (bHwEncEnable)
{
pWlanParams->FeatureDataFlowOptions &= ~DF_ENCRYPTION_DISABLE;
}
else
{
pWlanParams->FeatureDataFlowOptions |= DF_ENCRYPTION_DISABLE;
}
/* Set bit DF_SNIFF_MODE_ENABLE to enable or prevent decryption in fw */
/* WARNING: Have to check how to control the decryption (which bit) and then set/reset
the appropriate bit*/
if (bHwDecEnable)
{
pWlanParams->FeatureDataFlowOptions &= ~DF_SNIFF_MODE_ENABLE;
}
else
{
pWlanParams->FeatureDataFlowOptions |= DF_SNIFF_MODE_ENABLE;
}
return cmdBld_CfgIeFeatureConfig (hCmdBld,
pWlanParams->FeatureOptions,
pWlanParams->FeatureDataFlowOptions,
fCb,
hCb);
}
TI_STATUS cmdBld_CfgHwEncDecEnable (TI_HANDLE hCmdBld, TI_BOOL bHwEncEnable, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CfgHwEncEnable (hCmdBld, bHwEncEnable, bHwEncEnable, fCb, hCb);
}
/*
* ----------------------------------------------------------------------------
* Function : cmdBld_CfgSecureMode
*
* Input :
* Output :
* Process :
* Note(s) :
* -----------------------------------------------------------------------------
*/
TI_STATUS cmdBld_CfgSecureMode (TI_HANDLE hCmdBld, ECipherSuite eSecurMode, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TI_UINT32 index;
if (eSecurMode < TWD_CIPHER_MAX)
{
TRACE2(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "cmdBld_CfgSecureMode: change tSecurity mode from %d --> %d\n", pCmdBld->tSecurity.eSecurityMode, eSecurMode);
/* check if tSecurity mode is equal to previous one*/
if (pCmdBld->tSecurity.eSecurityMode == eSecurMode)
{
return TI_OK;
}
/* Reset all reconfig valid fields*/
DB_KEYS(pCmdBld).bHwEncDecrEnableValid = TI_FALSE;
DB_KEYS(pCmdBld).bDefaultKeyIdValid = TI_FALSE;
for (index = 0;
index < pCmdBld->tSecurity.uNumOfStations * NO_OF_RECONF_SECUR_KEYS_PER_STATION + NO_OF_EXTRA_RECONF_SECUR_KEYS;
index++)
{
(DB_KEYS(pCmdBld).pReconfKeys + index)->keyType = KEY_NULL;
}
/* set the new tSecurity mode*/
pCmdBld->tSecurity.eSecurityMode = eSecurMode;
/* disable defrag, duplicate detection on TNETW+XCC on chip level*/
/* YV- to add fragmentation control (if there is- artur ?)*/
return cmdBld_CfgRxMsduFormat (hCmdBld,
pCmdBld->tSecurity.eSecurityMode != TWD_CIPHER_CKIP,
fCb,
hCb);
}
else
{
return TI_NOK;
}
}
TI_STATUS cmdBld_CfgConnMonitParams (TI_HANDLE hCmdBld,
TRroamingTriggerParams *pRoamingTriggerCmd,
void *fCb,
TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRACE2(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "SetBssLossTsfThresholdParamsCmd :\n BssLossTimeout = %d\n TsfMissThreshold = %d \n ", pRoamingTriggerCmd->BssLossTimeout, pRoamingTriggerCmd->TsfMissThreshold);
DB_WLAN(hCmdBld).roamTriggers.BssLossTimeout = pRoamingTriggerCmd->BssLossTimeout;
DB_WLAN(hCmdBld).roamTriggers.TsfMissThreshold = pRoamingTriggerCmd->TsfMissThreshold;
return cmdBld_CfgIeConnMonitParams (hCmdBld, pRoamingTriggerCmd, fCb, hCb);
}
/****************************************************************************
* cmdBld_CfgEnableRxDataFilter()
****************************************************************************
* DESCRIPTION: Enables or disables Rx data filtering.
*
* INPUTS: enabled - 0 to disable data filtering, any other value to enable.
* defaultAction - The default action to take on non-matching packets.
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgEnableRxDataFilter (TI_HANDLE hCmdBld,
TI_BOOL bEnabled,
filter_e eDefaultAction,
void *fCb,
TI_HANDLE hCb)
{
/* Save parameters for reconfig phase */
DB_RX_DATA_FLTR(hCmdBld).bEnabled = bEnabled;
DB_RX_DATA_FLTR(hCmdBld).eDefaultAction = eDefaultAction;
return cmdBld_CfgIeEnableRxDataFilter (hCmdBld, bEnabled, eDefaultAction, fCb, hCb);
}
/****************************************************************************
* cmdBld_CfgRxDataFilter()
*****************************************************************************
* DESCRIPTION: Add/remove Rx Data filter information element.
*
* INPUTS: index - Index of the Rx Data filter
* command - Add or remove the filter
* action - Action to take on packets matching the pattern
* numFieldPatterns - Number of field patterns in the filter
* lenFieldPatterns - Length of the field pattern series
* fieldPatterns - Series of field patterns
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgRxDataFilter (TI_HANDLE hCmdBld,
TI_UINT8 index,
TI_UINT8 command,
filter_e eAction,
TI_UINT8 uNumFieldPatterns,
TI_UINT8 uLenFieldPatterns,
TI_UINT8 *pFieldPatterns,
void *fCb,
TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRxDataFilter *pFilters = &(DB_RX_DATA_FLTR(hCmdBld).aRxDataFilter[index]);
/* Save parameters for reconfig phase */
pFilters->uIndex = index;
pFilters->uCommand = command;
pFilters->eAction = eAction;
pFilters->uNumFieldPatterns = uNumFieldPatterns;
pFilters->uLenFieldPatterns = uLenFieldPatterns;
os_memoryCopy(pCmdBld->hOs, pFilters->aFieldPattern, pFieldPatterns, uLenFieldPatterns);
return cmdBld_CfgIeRxDataFilter (hCmdBld,
index,
command,
eAction,
uNumFieldPatterns,
uLenFieldPatterns,
pFieldPatterns,
fCb,
hCb);
}
TI_STATUS cmdBld_CfgCtsProtection (TI_HANDLE hCmdBld, TI_UINT8 uCtsProtection, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).CtsToSelf = uCtsProtection;
return cmdBld_CfgIeCtsProtection (hCmdBld, uCtsProtection, fCb, hCb);
}
TI_STATUS cmdBld_CfgServicePeriodTimeout (TI_HANDLE hCmdBld, TRxTimeOut *pRxTimeOut, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CfgIeServicePeriodTimeout (hCmdBld, pRxTimeOut, fCb, hCb);
}
TI_STATUS cmdBld_CfgRxMsduLifeTime (TI_HANDLE hCmdBld, TI_UINT32 uRxMsduLifeTime, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).MaxRxMsduLifetime = uRxMsduLifeTime;
return cmdBld_CfgIeRxMsduLifeTime (hCmdBld, uRxMsduLifeTime, fCb, hCb);
}
TI_STATUS cmdBld_CfgStatisitics (TI_HANDLE hCmdBld, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CfgIeStatisitics (hCmdBld, fCb, hCb);
}
TI_STATUS cmdBld_CfgTxPowerDbm (TI_HANDLE hCmdBld, TI_UINT8 uTxPowerDbm, void *fCb, TI_HANDLE hCb)
{
return cmdBld_CfgIeTxPowerDbm (hCmdBld, uTxPowerDbm, fCb, hCb);
}
/*
* ----------------------------------------------------------------------------
* Function : cmdBld_setBetParams
*
* Input : enabled - 0 to disable BET, 0 to disable BET
* MaximumConsecutiveET - Max number of consecutive beacons
* that may be early terminated.
* Output : TI_STATUS
* Process : Configures Beacon Early Termination information element.
* Note(s) : None
* -----------------------------------------------------------------------------
*/
TI_STATUS cmdBld_CfgBet (TI_HANDLE hCmdBld, TI_UINT8 Enable, TI_UINT8 MaximumConsecutiveET, void *fCb, TI_HANDLE hCb)
{
DB_WLAN(hCmdBld).BetEnable = Enable;
DB_WLAN(hCmdBld).MaximumConsecutiveET = MaximumConsecutiveET;
return cmdBld_CfgIeBet (hCmdBld, Enable, MaximumConsecutiveET, fCb, hCb);
}
/****************************************************************************
* cmdBld_CmdKeepAlive()
****************************************************************************
* DESCRIPTION: Set keep-alive paramters for a single index
*
* INPUTS: Paramters and CB
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgKeepAlive (TI_HANDLE hCmdBld, TKeepAliveParams *pKeepAliveParams, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRACE4(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "CmdBld: Seeting keep-alive params, index=%d, interval=%d msec, trigType=%d, enaFlag=%d\n", pKeepAliveParams->index, pKeepAliveParams->interval, pKeepAliveParams->trigType, pKeepAliveParams->enaDisFlag);
os_memoryCopy (pCmdBld->hOs,
(void *)&DB_KLV(hCmdBld).keepAliveParams[ pKeepAliveParams->index ],
(void *)pKeepAliveParams,
sizeof (TKeepAliveParams));
return cmdBld_CmdIeConfigureKeepAliveParams (hCmdBld,
pKeepAliveParams->index,
pKeepAliveParams->enaDisFlag,
(TI_UINT8)pKeepAliveParams->trigType,
pKeepAliveParams->interval,
fCb,
hCb);
}
/****************************************************************************
* cmdBld_CfgKeepAliveEnaDis()
****************************************************************************
* DESCRIPTION: Set global keep-alive enable / disable flag
*
* INPUTS: Paramters and CB
*
* OUTPUT: None
*
* RETURNS: TI_OK or TI_NOK
****************************************************************************/
TI_STATUS cmdBld_CfgKeepAliveEnaDis(TI_HANDLE hCmdBld, TI_UINT8 enaDisFlag, void *fCb, TI_HANDLE hCb)
{
TCmdBld *pCmdBld = (TCmdBld *)hCmdBld;
TRACE1(pCmdBld->hReport, REPORT_SEVERITY_INFORMATION , "CmdBld: Seeting keep-alive Global ena / dis flag to %d\n", (TI_UINT32)enaDisFlag);
DB_KLV(hCmdBld).enaDisFlag = enaDisFlag;
return cmdBld_CmdIeConfigureKeepAliveEnaDis (hCmdBld, enaDisFlag, fCb, hCb);
}
/**
* \fn cmdBld_CfgSetFwHtCapabilities
* \brief set the current AP HT Capabilities to the FW.
*
* \note
* \return TI_OK on success or TI_NOK on failure
* \sa
*/
TI_STATUS cmdBld_CfgSetFwHtCapabilities (TI_HANDLE hCmdBld,
TI_UINT32 uHtCapabilites,
TMacAddr tMacAddress,
TI_UINT8 uAmpduMaxLeng,
TI_UINT8 uAmpduMinSpac,
void *fCb,
TI_HANDLE hCb)
{
DB_BSS(hCmdBld).bHtCap = TI_TRUE;
DB_BSS(hCmdBld).uHtCapabilites = uHtCapabilites;
MAC_COPY ((DB_BSS(hCmdBld).tMacAddress), tMacAddress);
DB_BSS(hCmdBld).uAmpduMaxLeng = uAmpduMaxLeng;
DB_BSS(hCmdBld).uAmpduMinSpac = uAmpduMinSpac;
return cmdBld_CfgIeSetFwHtCapabilities (hCmdBld,
uHtCapabilites,
tMacAddress,
uAmpduMaxLeng,
uAmpduMinSpac,
fCb,
hCb);
}
/**
* \fn cmdBld_CfgSetFwHtInformation
* \brief set the current AP HT Information to the FW.
*
* \note
* \return TI_OK on success or TI_NOK on failure
* \sa
*/
TI_STATUS cmdBld_CfgSetFwHtInformation (TI_HANDLE hCmdBld,
TI_UINT8 uRifsMode,
TI_UINT8 uHtProtection,
TI_UINT8 uGfProtection,
TI_UINT8 uHtTxBurstLimit,
TI_UINT8 uDualCtsProtection,
void *fCb,
TI_HANDLE hCb)
{
DB_BSS(hCmdBld).bHtInf = TI_TRUE;
DB_BSS(hCmdBld).uRifsMode = uRifsMode;
DB_BSS(hCmdBld).uHtProtection = uHtProtection;
DB_BSS(hCmdBld).uGfProtection = uGfProtection;
DB_BSS(hCmdBld).uHtTxBurstLimit = uHtTxBurstLimit;
DB_BSS(hCmdBld).uDualCtsProtection = uDualCtsProtection;
return cmdBld_CfgIeSetFwHtInformation (hCmdBld,
uRifsMode,
uHtProtection,
uGfProtection,
uHtTxBurstLimit,
uDualCtsProtection,
fCb,
hCb);
}
/**
* \fn cmdBld_CfgSetBaInitiator
* \brief configure BA session initiator\receiver parameters setting in the FW.
*
* \note
* \return TI_OK on success or TI_NOK on failure
* \sa
*/
TI_STATUS cmdBld_CfgSetBaSession (TI_HANDLE hCmdBld,
InfoElement_e eBaType,
TI_UINT8 uTid,
TI_UINT8 uState,
TMacAddr tRa,
TI_UINT16 uWinSize,
TI_UINT16 uInactivityTimeout,
void *fCb,
TI_HANDLE hCb)
{
if (ACX_BA_SESSION_INITIATOR_POLICY == eBaType)
{
DB_BSS(hCmdBld).bBaInitiator[uTid] = TI_TRUE;
DB_BSS(hCmdBld).tBaSessionInitiatorPolicy[uTid].uTid = uTid;
DB_BSS(hCmdBld).tBaSessionInitiatorPolicy[uTid].uPolicy = uState;
MAC_COPY ((DB_BSS(hCmdBld).tBaSessionInitiatorPolicy[uTid].aMacAddress),tRa);
DB_BSS(hCmdBld).tBaSessionInitiatorPolicy[uTid].uWinSize = uWinSize;
DB_BSS(hCmdBld).tBaSessionInitiatorPolicy[uTid].uInactivityTimeout = uInactivityTimeout;
}
else
{
DB_BSS(hCmdBld).bBaResponder[uTid] = TI_TRUE;
DB_BSS(hCmdBld).tBaSessionResponderPolicy[uTid].uTid = uTid;
DB_BSS(hCmdBld).tBaSessionResponderPolicy[uTid].uPolicy = uState;
MAC_COPY ((DB_BSS(hCmdBld).tBaSessionResponderPolicy[uTid].aMacAddress),tRa);
DB_BSS(hCmdBld).tBaSessionResponderPolicy[uTid].uWinSize = uWinSize;
DB_BSS(hCmdBld).tBaSessionResponderPolicy[uTid].uInactivityTimeout = uInactivityTimeout;
}
return cmdBld_CfgIeSetBaSession (hCmdBld,
eBaType,
uTid,
uState,
tRa,
uWinSize,
uInactivityTimeout,
fCb,
hCb);
}
TI_STATUS cmdBld_CfgBurstMode (TI_HANDLE hCmdBld, TI_BOOL bEnabled, void *fCb, TI_HANDLE hCb)
{
DB_AC(hCmdBld).isBurstModeEnabled = bEnabled;
return cmdBld_CfgIeBurstMode (hCmdBld, bEnabled, fCb, hCb);
}