/****************************************************************************
* DESCRIPTION: Configure the TNET Driver Module callback
*
* INPUTS:
*
* OUTPUT:
*
* RETURNS: OK if succeeded, NOK if failed in HW configuration.
****************************************************************************/
void TnetwDrv_ConfigureCb (TI_HANDLE hTnetwDrv)
{
TnetwDrv_t *pTnetwDrv = (TnetwDrv_t *)hTnetwDrv;
/* Configure the Tx-HW-Queue module */
txHwQueue_Config (pTnetwDrv->hTxHwQueue, pTnetwDrv->pInitTableCopy);
/* Configure the TX XFER module */
txXfer_config(pTnetwDrv->hTxXfer, pTnetwDrv->pInitTableCopy);
/* Configure the MAC services */
MacServices_config (pTnetwDrv->hMacServices, pTnetwDrv->pInitTableCopy);
#if !defined(GWSI_DRIVER) && !defined(GWSI_LIB)
recoveryCtrl_config(pTnetwDrv->hRecoveryCtrl,
pTnetwDrv->hReport,
pTnetwDrv->hTNETWIF,
pTnetwDrv->hTxXfer,
pTnetwDrv->hRxXfer,
pTnetwDrv->hTxResult,
pTnetwDrv->hMacServices,
pTnetwDrv->hTxCtrlBlk,
pTnetwDrv->hTxHwQueue,
pTnetwDrv->hHalCtrl,
pTnetwDrv->hHwIntr,
pTnetwDrv->hWhalParams,
pTnetwDrv->hCmdQueue,
pTnetwDrv->hFwEvent,
pTnetwDrv->hCmdMBox,
pTnetwDrv->hHwInit);
hwInit_config(pTnetwDrv->hHwInit, pTnetwDrv->hReport, pTnetwDrv->hTNETWIF);
#endif
/* Register the Data Path callback functions */
TnetwDrv_Register_CB (pTnetwDrv, TNETW_DRIVER_TX_XFER_SEND_PKT_TRANSFER, (void *)TnetwDrv_TxXferDone, hTnetwDrv);
/* Register the send packet debug callback */
#ifdef TI_DBG
TnetwDrv_Register_CB (pTnetwDrv, TNETW_DRIVER_TX_XFER_SEND_PKT_DEBUG, (void *)TnetwDrv_TxXferDebug, hTnetwDrv);
#endif
/* Register the send packet complete callback */
TnetwDrv_Register_CB (pTnetwDrv, TNETW_DRIVER_TX_RESULT_SEND_PKT_COMPLETE, (void *)TnetwDrv_TxComplete, hTnetwDrv);
/* Call user application configuration callback */
if (pTnetwDrv->fUserConf)
(*pTnetwDrv->fUserConf) (pTnetwDrv->hUser);
}
TI_STATUS TWD_SetDefaults (TI_HANDLE hTWD, TTwdInitParams *pInitParams)
{
TTwd *pTWD = (TTwd *)hTWD;
TWlanParams *pWlanParams = &DB_WLAN(pTWD->hCmdBld);
TKeepAliveList *pKlvParams = &DB_KLV(pTWD->hCmdBld);
IniFileRadioParam *pRadioParams = &DB_RADIO(pTWD->hCmdBld);
IniFileGeneralParam *pGenParams = &DB_GEN(pTWD->hCmdBld);
TRateMngParams *pRateMngParams = &DB_RM(pTWD->hCmdBld);
TDmaParams *pDmaParams = &DB_DMA(pTWD->hCmdBld);
TI_UINT32 k, uIndex;
int iParam;
pTWD->bRecoveryEnabled = pInitParams->tGeneral.halCtrlRecoveryEnable;
pWlanParams->PacketDetectionThreshold = pInitParams->tGeneral.packetDetectionThreshold;
pWlanParams->qosNullDataTemplateSize = pInitParams->tGeneral.qosNullDataTemplateSize;
pWlanParams->PsPollTemplateSize = pInitParams->tGeneral.PsPollTemplateSize;
pWlanParams->probeResponseTemplateSize = pInitParams->tGeneral.probeResponseTemplateSize;
pWlanParams->probeRequestTemplateSize = pInitParams->tGeneral.probeRequestTemplateSize;
pWlanParams->beaconTemplateSize = pInitParams->tGeneral.beaconTemplateSize;
pWlanParams->nullTemplateSize = pInitParams->tGeneral.nullTemplateSize;
pWlanParams->disconnTemplateSize = pInitParams->tGeneral.disconnTemplateSize;
pWlanParams->ArpRspTemplateSize = pInitParams->tGeneral.ArpRspTemplateSize;
/* Beacon broadcast options */
pWlanParams->BcnBrcOptions.BeaconRxTimeout = pInitParams->tGeneral.BeaconRxTimeout;
pWlanParams->BcnBrcOptions.BroadcastRxTimeout = pInitParams->tGeneral.BroadcastRxTimeout;
pWlanParams->BcnBrcOptions.RxBroadcastInPs = pInitParams->tGeneral.RxBroadcastInPs;
pWlanParams->ConsecutivePsPollDeliveryFailureThreshold = pInitParams->tGeneral.ConsecutivePsPollDeliveryFailureThreshold;
pWlanParams->RxDisableBroadcast = pInitParams->tGeneral.halCtrlRxDisableBroadcast;
pWlanParams->calibrationChannel2_4 = pInitParams->tGeneral.halCtrlCalibrationChannel2_4;
pWlanParams->calibrationChannel5_0 = pInitParams->tGeneral.halCtrlCalibrationChannel5_0;
/* Not used but need by Palau */
pWlanParams->RtsThreshold = pInitParams->tGeneral.halCtrlRtsThreshold;
pWlanParams->CtsToSelf = CTS_TO_SELF_DISABLE;
pWlanParams->WiFiWmmPS = pInitParams->tGeneral.WiFiWmmPS;
pWlanParams->MaxTxMsduLifetime = pInitParams->tGeneral.halCtrlMaxTxMsduLifetime;
pWlanParams->MaxRxMsduLifetime = pInitParams->tGeneral.halCtrlMaxRxMsduLifetime;
pWlanParams->rxTimeOut.psPoll = pInitParams->tGeneral.rxTimeOut.psPoll;
pWlanParams->rxTimeOut.UPSD = pInitParams->tGeneral.rxTimeOut.UPSD;
/* RSSI/SNR Weights for Average calculations */
pWlanParams->tRssiSnrWeights.rssiBeaconAverageWeight = pInitParams->tGeneral.uRssiBeaconAverageWeight;
pWlanParams->tRssiSnrWeights.rssiPacketAverageWeight = pInitParams->tGeneral.uRssiPacketAverageWeight;
pWlanParams->tRssiSnrWeights.snrBeaconAverageWeight = pInitParams->tGeneral.uSnrBeaconAverageWeight ;
pWlanParams->tRssiSnrWeights.snrPacketAverageWeight = pInitParams->tGeneral.uSnrPacketAverageWeight ;
/* PM config params */
pWlanParams->uHostClkSettlingTime = pInitParams->tGeneral.uHostClkSettlingTime;
pWlanParams->uHostFastWakeupSupport = pInitParams->tGeneral.uHostFastWakeupSupport;
/* No used */
pWlanParams->FragmentThreshold = pInitParams->tGeneral.halCtrlFragThreshold;
pWlanParams->ListenInterval = (TI_UINT8)pInitParams->tGeneral.halCtrlListenInterval;
pWlanParams->RateFallback = pInitParams->tGeneral.halCtrlRateFallbackRetry;
pWlanParams->MacClock = pInitParams->tGeneral.halCtrlMacClock;
pWlanParams->ArmClock = pInitParams->tGeneral.halCtrlArmClock;
/* Data interrupts pacing */
pWlanParams->TxCompletePacingThreshold = pInitParams->tGeneral.TxCompletePacingThreshold;
pWlanParams->TxCompletePacingTimeout = pInitParams->tGeneral.TxCompletePacingTimeout;
pWlanParams->RxIntrPacingThreshold = pInitParams->tGeneral.RxIntrPacingThreshold;
pWlanParams->RxIntrPacingTimeout = pInitParams->tGeneral.RxIntrPacingTimeout;
/* Number of Rx mem-blocks to allocate in FW */
pDmaParams->NumRxBlocks = pInitParams->tGeneral.uRxMemBlksNum;
/* Configure ARP IP */
pWlanParams->arpFilterType = pInitParams->tArpIpFilter.filterType;
IP_COPY (pWlanParams->arp_IP_addr, pInitParams->tArpIpFilter.addr);
/* Configure address group */
pWlanParams->numGroupAddrs = pInitParams->tMacAddrFilter.numOfMacAddresses;
pWlanParams->isMacAddrFilteringnabled = pInitParams->tMacAddrFilter.isFilterEnabled;
for (k = 0; k < pWlanParams->numGroupAddrs; k++)
{
MAC_COPY (pWlanParams->aGroupAddr[k], pInitParams->tMacAddrFilter.macAddrTable[k]);
}
/* CoexActivity Table */
pWlanParams->tWlanParamsCoexActivityTable.numOfElements = 0;
for (iParam=0; iParam < (int)pInitParams->tGeneral.halCoexActivityTable.numOfElements; iParam++)
{
TCoexActivity *pSaveCoex = &pWlanParams->tWlanParamsCoexActivityTable.entry[0];
TCoexActivity *pParmCoex = &pInitParams->tGeneral.halCoexActivityTable.entry[0];
int i, saveIndex;
/* Check if to overwrite existing entry or put on last index */
for (i=0; i<iParam; i++)
{
if ((pSaveCoex[i].activityId == pParmCoex[iParam].activityId) && (pSaveCoex[i].coexIp == pParmCoex[iParam].coexIp))
{
break;
}
}
if (i == iParam)
{
/* new entry */
saveIndex = pWlanParams->tWlanParamsCoexActivityTable.numOfElements;
pWlanParams->tWlanParamsCoexActivityTable.numOfElements++;
}
else
{
/* overwrite existing */
saveIndex = i;
}
pSaveCoex[saveIndex].coexIp = pParmCoex[iParam].coexIp;
pSaveCoex[saveIndex].activityId = pParmCoex[iParam].activityId;
pSaveCoex[saveIndex].defaultPriority = pParmCoex[iParam].defaultPriority;
pSaveCoex[saveIndex].raisedPriority = pParmCoex[iParam].raisedPriority;
pSaveCoex[saveIndex].minService = pParmCoex[iParam].minService;
pSaveCoex[saveIndex].maxService = pParmCoex[iParam].maxService;
}
/* configure keep-alive default mode to enabled */
pKlvParams->enaDisFlag = TI_TRUE;
for (uIndex = 0; uIndex < KLV_MAX_TMPL_NUM; uIndex++)
{
pKlvParams->keepAliveParams[ uIndex ].enaDisFlag = TI_FALSE;
}
/* Configure the TWD modules */
rxXfer_SetDefaults (pTWD->hRxXfer, pInitParams);
txXfer_SetDefaults (pTWD->hTxXfer, pInitParams);
txHwQueue_Config (pTWD->hTxHwQueue, pInitParams);
MacServices_config (pTWD->hMacServices, pInitParams);
/*
* 802.11n
*/
pWlanParams->tTwdHtCapabilities.b11nEnable = pInitParams->tGeneral.b11nEnable;
/* Configure HT capabilities setting */
pWlanParams->tTwdHtCapabilities.uChannelWidth = CHANNEL_WIDTH_20MHZ;
pWlanParams->tTwdHtCapabilities.uRxSTBC = RXSTBC_SUPPORTED_ONE_SPATIAL_STREAM;
pWlanParams->tTwdHtCapabilities.uMaxAMSDU = MAX_MSDU_3839_OCTETS;
pWlanParams->tTwdHtCapabilities.uMaxAMPDU = MAX_MPDU_8191_OCTETS;
pWlanParams->tTwdHtCapabilities.uAMPDUSpacing = AMPDU_SPC_8_MICROSECONDS;
pWlanParams->tTwdHtCapabilities.aRxMCS[0] = (MCS_SUPPORT_MCS_0 |
MCS_SUPPORT_MCS_1 |
MCS_SUPPORT_MCS_2 |
MCS_SUPPORT_MCS_3 |
MCS_SUPPORT_MCS_4 |
MCS_SUPPORT_MCS_5 |
MCS_SUPPORT_MCS_6 |
MCS_SUPPORT_MCS_7);
os_memoryZero (pTWD->hOs, pWlanParams->tTwdHtCapabilities.aRxMCS + 1, RX_TX_MCS_BITMASK_SIZE - 1);
pWlanParams->tTwdHtCapabilities.aTxMCS[0] = (MCS_SUPPORT_MCS_0 |
MCS_SUPPORT_MCS_1 |
MCS_SUPPORT_MCS_2 |
MCS_SUPPORT_MCS_3 |
MCS_SUPPORT_MCS_4 |
MCS_SUPPORT_MCS_5 |
MCS_SUPPORT_MCS_6 |
MCS_SUPPORT_MCS_7);
os_memoryZero (pTWD->hOs, pWlanParams->tTwdHtCapabilities.aTxMCS + 1, RX_TX_MCS_BITMASK_SIZE - 1);
pWlanParams->tTwdHtCapabilities.uRxMaxDataRate = MCS_HIGHEST_SUPPORTED_RECEPTION_DATA_RATE_IN_MBIT_S;
pWlanParams->tTwdHtCapabilities.uPCOTransTime = PCO_TRANS_TIME_NO_TRANSITION;
pWlanParams->tTwdHtCapabilities.uHTCapabilitiesBitMask = (CAP_BIT_MASK_GREENFIELD_FRAME_FORMAT |
CAP_BIT_MASK_SHORT_GI_FOR_20MHZ_PACKETS);
pWlanParams->tTwdHtCapabilities.uMCSFeedback = MCS_FEEDBACK_NO;
os_memoryCopy(pTWD->hOs, (void*)pRadioParams, (void*)&pInitParams->tIniFileRadioParams, sizeof(IniFileRadioParam));
os_memoryCopy(pTWD->hOs, (void*)pGenParams, (void*)&pInitParams->tPlatformGenParams, sizeof(IniFileGeneralParam));
os_memoryCopy (pTWD->hOs,
(void*)&(pWlanParams->tFmCoexParams),
(void*)&(pInitParams->tGeneral.tFmCoexParams),
sizeof(TFmCoexParams));
/* Rate management params */
pRateMngParams->rateMngParams.InverseCuriosityFactor = pInitParams->tRateMngParams.InverseCuriosityFactor;
pRateMngParams->rateMngParams.MaxPer = pInitParams->tRateMngParams.MaxPer;
pRateMngParams->rateMngParams.PerAdd = pInitParams->tRateMngParams.PerAdd;
pRateMngParams->rateMngParams.PerAddShift = pInitParams->tRateMngParams.PerAddShift;
pRateMngParams->rateMngParams.PerAlphaShift = pInitParams->tRateMngParams.PerAlphaShift;
pRateMngParams->rateMngParams.PerBeta1Shift = pInitParams->tRateMngParams.PerBeta1Shift;
pRateMngParams->rateMngParams.PerBeta2Shift = pInitParams->tRateMngParams.PerBeta2Shift;
pRateMngParams->rateMngParams.PerTh1 = pInitParams->tRateMngParams.PerTh1;
pRateMngParams->rateMngParams.PerTh2 = pInitParams->tRateMngParams.PerTh2;
pRateMngParams->rateMngParams.RateCheckDown = pInitParams->tRateMngParams.RateCheckDown;
pRateMngParams->rateMngParams.RateCheckUp = pInitParams->tRateMngParams.RateCheckUp;
pRateMngParams->rateMngParams.RateRetryScore = pInitParams->tRateMngParams.RateRetryScore;
pRateMngParams->rateMngParams.TxFailHighTh = pInitParams->tRateMngParams.TxFailHighTh;
pRateMngParams->rateMngParams.TxFailLowTh = pInitParams->tRateMngParams.TxFailLowTh;
/* RATE_MNG_MAX_RETRY_POLICY_PARAMS_LEN */
for (uIndex = 0; uIndex < 13; uIndex++)
{
pRateMngParams->rateMngParams.RateRetryPolicy[uIndex] = pInitParams->tRateMngParams.RateRetryPolicy[uIndex];
}
/* DCO Itrim params */
pWlanParams->dcoItrimEnabled = pInitParams->tDcoItrimParams.enable;
pWlanParams->dcoItrimModerationTimeoutUsec = pInitParams->tDcoItrimParams.moderationTimeoutUsec;
return TI_OK;
}
