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android / platform / hardware / ti / wlan / cece92a8acff0a81868e6cac326bcf61e54c5aec / . / wl1271 / TWD / TWDriver / TWDriver.c
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/*
* TWDriver.c
*
* Copyright(c) 1998 - 2010 Texas Instruments. All rights reserved.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name Texas Instruments nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/** \file TWDriver.c
* \brief TI WLAN Hardware Access Driver
*
* \see TWDriver.h
*/
#define __FILE_ID__ FILE_ID_117
#include "report.h"
#include "TWDriver.h"
#include "MacServices_api.h"
#include "txCtrlBlk_api.h"
#include "txHwQueue_api.h"
#include "txXfer_api.h"
#include "txResult_api.h"
#include "rxXfer_api.h"
#include "TwIf.h"
#include "FwEvent_api.h"
#include "CmdMBox_api.h"
#include "CmdQueue_api.h"
#include "eventMbox_api.h"
#include "fwDebug_api.h"
#include "osApi.h"
#include "TWDriverInternal.h"
#include "HwInit_api.h"
#include "CmdBld.h"
#include "RxQueue_api.h"
#define TWD_CB_MODULE_OWNER_MASK 0xff00
#define TWD_CB_TYPE_MASK 0x00ff
TI_HANDLE TWD_Create (TI_HANDLE hOs)
{
TTwd *pTWD;
/* Allocate the TNETW_Driver module */
pTWD = (TTwd *)os_memoryAlloc (hOs, sizeof(TTwd));
if (pTWD == NULL)
{
return NULL;
}
os_memoryZero (hOs, pTWD, sizeof(TTwd));
pTWD->hOs = hOs;
/* Create TwIf module */
pTWD->hTwIf = twIf_Create (hOs);
if (pTWD->hTwIf == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE,"twIf_Create failed\n");
WLAN_OS_REPORT(("twIf_Create failed\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
/* Create command builder module */
pTWD->hCmdBld = cmdBld_Create (hOs);
if (pTWD->hCmdBld == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE,"cmdBld_Create failed\n");
WLAN_OS_REPORT(("cmdBld_Create failed\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
/* Create the MAC Services module */
pTWD->hMacServices = MacServices_create (hOs);
if (pTWD->hMacServices == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE, "TWD MacServices_create failed!!!\n");
WLAN_OS_REPORT(("TWD MacServices_create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
/* Create the Ctrl module */
pTWD->hCmdQueue = cmdQueue_Create (hOs);
if (pTWD->hCmdQueue == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE, "TWD cmdQueue_Create failed!!!\n");
WLAN_OS_REPORT(("TWD cmdQueue_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
/*
* Create the FW-Transfer modules:
*/
pTWD->hTxXfer = txXfer_Create (hOs);
if (pTWD->hTxXfer == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE,"TWD txXfer_Create failed!!!\n");
WLAN_OS_REPORT(("TWD txXfer_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
pTWD->hTxResult = txResult_Create (hOs);
if (pTWD->hTxResult == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE,"TWD txResult_Create failed!!!\n");
WLAN_OS_REPORT(("TWD txResult_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
pTWD->hRxXfer = rxXfer_Create (hOs);
if (pTWD->hRxXfer == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE,"TWD rxXfer_Create failed!!!\n");
WLAN_OS_REPORT(("TWD rxXfer_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
pTWD->hFwEvent = fwEvent_Create (hOs);
if (pTWD->hFwEvent == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE, "TWD fwEvent_Create failed!!!\n");
WLAN_OS_REPORT(("TWD fwEvent_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
pTWD->hEventMbox = eventMbox_Create (hOs);
if (pTWD->hEventMbox == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE, "TWD eventMbox_Create failed!!!\n");
WLAN_OS_REPORT(("TWD eventMbox_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
#ifdef TI_DBG
pTWD->hFwDbg = fwDbg_Create (hOs);
if (pTWD->hFwDbg == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE,"TWD fwDbg_Create failed!!!\n");
WLAN_OS_REPORT(("TWD fwDbg_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
#endif /* TI_DBG */
pTWD->hCmdMbox = cmdMbox_Create (hOs);
if (pTWD->hCmdMbox == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE,"TWD cmdMbox_Create failed!!!\n");
WLAN_OS_REPORT(("TWD cmdMbox_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
pTWD->hRxQueue = RxQueue_Create (hOs);
if (pTWD->hRxQueue == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE, "TWD RxQueue_Create failed!!!\n");
WLAN_OS_REPORT(("TWD RxQueue_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
/*
* Create the Data-Services modules:
*/
pTWD->hTxCtrlBlk = txCtrlBlk_Create (hOs);
if (pTWD->hTxCtrlBlk == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE, "TWD txCtrlBlk_Create failed!!!\n");
WLAN_OS_REPORT(("TWD txCtrlBlk_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
pTWD->hTxHwQueue = txHwQueue_Create (hOs);
if (pTWD->hTxHwQueue == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE, "TWD txHwQueue_Create failed!!!\n");
WLAN_OS_REPORT(("TWD txHwQueue_Create failed!!!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
pTWD->hHwInit = hwInit_Create (hOs);
if (pTWD->hHwInit == NULL)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_CONSOLE,"wInit_Create failed!\n");
WLAN_OS_REPORT (("wInit_Create failed!\n"));
TWD_Destroy ((TI_HANDLE)pTWD);
return NULL;
}
WLAN_INIT_REPORT (("TWD_Create: CREATED !!!\n"));
return (TI_HANDLE)pTWD;
}
TI_STATUS TWD_Destroy (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
WLAN_INIT_REPORT(("TWD_Destroy: called\n"));
if (pTWD == NULL)
{
return TI_NOK;
}
if (pTWD->hTwIf != NULL)
{
twIf_Destroy (pTWD->hTwIf);
pTWD->hTwIf = NULL;
}
/* Free the Command Builder */
if (pTWD->hCmdBld != NULL)
{
cmdBld_Destroy (pTWD->hCmdBld);
pTWD->hCmdBld = NULL;
}
WLAN_INIT_REPORT(("TWD_Destroy: Command Builder released\n"));
/* Free the MAC Services */
if (pTWD->hMacServices != NULL)
{
MacServices_destroy(pTWD->hMacServices);
pTWD->hMacServices = NULL;
}
WLAN_INIT_REPORT(("TWD_Destroy: Mac Services released\n"));
/*
* Free the Ctrl modules
*/
if (pTWD->hCmdQueue != NULL)
{
cmdQueue_Destroy(pTWD->hCmdQueue);
pTWD->hCmdQueue = NULL;
}
/*
* Free the FW-Transfer modules:
*/
if (pTWD->hTxXfer != NULL)
{
txXfer_Destroy (pTWD->hTxXfer);
pTWD->hTxXfer = NULL;
}
if (pTWD->hTxResult != NULL)
{
txResult_Destroy (pTWD->hTxResult);
pTWD->hTxResult = NULL;
}
if (pTWD->hRxXfer != NULL)
{
rxXfer_Destroy (pTWD->hRxXfer);
pTWD->hRxXfer = NULL;
}
if (pTWD->hEventMbox != NULL)
{
eventMbox_Destroy (pTWD->hEventMbox);
pTWD->hEventMbox = NULL;
}
#ifdef TI_DBG
if (pTWD->hFwDbg != NULL)
{
fwDbg_Destroy (pTWD->hFwDbg);
pTWD->hFwDbg = NULL;
}
#endif /* TI_DBG */
if (pTWD->hFwEvent != NULL)
{
fwEvent_Destroy (pTWD->hFwEvent);
pTWD->hFwEvent = NULL;
}
if (pTWD->hCmdMbox != NULL)
{
cmdMbox_Destroy (pTWD->hCmdMbox);
pTWD->hCmdMbox = NULL;
}
if (pTWD->hRxQueue != NULL)
{
RxQueue_Destroy (pTWD->hRxQueue);
pTWD->hRxQueue = NULL;
}
/*
* Free the Data-Services modules:
*/
if (pTWD->hTxCtrlBlk != NULL)
{
txCtrlBlk_Destroy (pTWD->hTxCtrlBlk);
pTWD->hTxCtrlBlk = NULL;
}
if (pTWD->hTxHwQueue != NULL)
{
txHwQueue_Destroy (pTWD->hTxHwQueue);
pTWD->hTxHwQueue = NULL;
}
if (pTWD->hHwInit != NULL)
{
hwInit_Destroy (pTWD->hHwInit);
pTWD->hHwInit = NULL;
}
os_memoryFree (pTWD->hOs, (TI_HANDLE)pTWD, sizeof(TTwd));
WLAN_INIT_REPORT(("TWD_Destroy pTNETW_Driver released!!!\n"));
return TI_OK;
}
/**
* \brief HW Init Callback
*
* \param hTWD - TWD module object handle
* \return void
*
* \par Description
* Static CB function
* Called during TWD Module Init by hwInit_Init in order to complete the HW Configuration init
*
* \sa TWD_InitHw
*/
static void TWD_InitHwCb (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_InitHwCb: call fInitHwCb CB. In std drvMain_InitHwCb()\n");
hwInit_InitPolarity(pTWD->hHwInit);
}
void TWD_Init (TI_HANDLE hTWD,
TI_HANDLE hReport,
TI_HANDLE hUser,
TI_HANDLE hTimer,
TI_HANDLE hContext,
TI_HANDLE hTxnQ,
TTwdCallback fInitHwCb,
TTwdCallback fInitFwCb,
TTwdCallback fConfigFwCb,
TTwdCallback fStopCb,
TTwdCallback fInitFailCb)
{
TTwd *pTWD = (TTwd *)hTWD;
pTWD->bInitSuccess = TI_FALSE;
pTWD->bRecoveryEnabled = TI_FALSE;
pTWD->hReport = hReport;
pTWD->hUser = hUser;
pTWD->hTimer = hTimer;
pTWD->hContext = hContext;
pTWD->hTxnQ = hTxnQ;
pTWD->fInitHwCb = fInitHwCb;
pTWD->fInitFwCb = fInitFwCb;
pTWD->fConfigFwCb = fConfigFwCb;
pTWD->fStopCb = fStopCb;
pTWD->fInitFailCb = fInitFailCb;
TRACE1(pTWD->hReport, REPORT_SEVERITY_INIT , "TWD_Init: %x\n", hTWD);
/* FwEvent should be configured first */
fwEvent_Init (pTWD->hFwEvent, hTWD);
eventMbox_Config (pTWD->hEventMbox, pTWD->hTwIf, pTWD->hReport, pTWD->hFwEvent, pTWD->hCmdBld);
cmdQueue_Init (pTWD->hCmdQueue,
pTWD->hCmdMbox,
pTWD->hReport,
pTWD->hTwIf,
pTWD->hTimer);
/* Configure Command Builder */
cmdBld_Config (pTWD->hCmdBld,
pTWD->hReport,
(void *)TWD_FinalizeDownload,
hTWD,
pTWD->hEventMbox,
pTWD->hCmdQueue,
pTWD->hTwIf);
hwInit_Init (pTWD->hHwInit,
pTWD->hReport,
pTWD->hTimer,
hTWD,
hTWD,
(TFinalizeCb)TWD_FinalizeDownload,
TWD_InitHwCb);
/*
* Initialize the FW-Transfer modules
*/
txXfer_Init (pTWD->hTxXfer, pTWD->hReport, pTWD->hTwIf);
txResult_Init (pTWD->hTxResult, pTWD->hReport, pTWD->hTwIf);
rxXfer_Init (pTWD->hRxXfer, pTWD->hFwEvent, pTWD->hReport, pTWD->hTwIf, pTWD->hRxQueue);
RxQueue_Init (pTWD->hRxQueue, pTWD->hReport, pTWD->hTimer);
#ifdef TI_DBG
fwDbg_Init (pTWD->hFwDbg, pTWD->hReport, pTWD->hTwIf);
#endif /* TI_DBG */
/* Initialize the MAC Services */
MacServices_init (pTWD->hMacServices,
pTWD->hReport,
hTWD,
pTWD->hCmdBld,
pTWD->hEventMbox,
pTWD->hTimer);
/*
* Initialize the Data-Services modules
*/
txCtrlBlk_Init (pTWD->hTxCtrlBlk, pTWD->hReport, pTWD->hContext);
txHwQueue_Init (pTWD->hTxHwQueue, pTWD->hReport);
/* Initialize the TwIf module */
twIf_Init (pTWD->hTwIf,
pTWD->hReport,
pTWD->hContext,
pTWD->hTimer,
pTWD->hTxnQ,
(TRecoveryCb)TWD_StopComplete,
hTWD);
}
TI_STATUS TWD_InitHw (TI_HANDLE hTWD,
TI_UINT8 *pbuf,
TI_UINT32 length,
TI_UINT32 uRxDmaBufLen,
TI_UINT32 uTxDmaBufLen)
{
TTwd *pTWD = (TTwd *)hTWD;
TI_STATUS eStatus;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INIT , "TWD_InitHw: called\n");
/* Provide bus related parameters to Xfer modules before any usage of the bus! */
rxXfer_SetBusParams (pTWD->hRxXfer, uRxDmaBufLen);
txXfer_SetBusParams (pTWD->hTxXfer, uTxDmaBufLen);
hwInit_SetNvsImage (pTWD->hHwInit, pbuf, length);
/*
* Update the TwIf that the HW is awake
* This will protect the initialization process from going to sleep
* After the firmware initializations completed (TWD_EnableExternalEvents), the sleep will be enabled
*/
twIf_Awake (pTWD->hTwIf);
twIf_HwAvailable (pTWD->hTwIf);
/* This initiates the HW init sequence */
eStatus = hwInit_Boot(pTWD->hHwInit);
if (eStatus == TXN_STATUS_ERROR)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_ERROR , "TWD_InitHw: hwInit_Boot failed\n");
return TI_NOK;
}
return TI_OK;
}
TI_STATUS TWD_BusOpen (TI_HANDLE hTWD, void* pParams)
{
TTwd *pTWD = (TTwd *)hTWD;
TI_STATUS uStatus;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INIT , "TWD_BusOpen: called\n");
/*uStatus = TNETWIF_Open(pTWD->hTNETWIF, pParams);*/
uStatus = TI_OK;
return uStatus;
}
TI_STATUS TWD_BusClose (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TI_STATUS uStatus;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_BusClose: called\n");
/*uStatus = TNETWIF_Close(pTWD->hTNETWIF);*/
uStatus = TI_OK;
return uStatus;
}
TI_STATUS TWD_InitFw (TI_HANDLE hTWD, TFileInfo *pFileInfo)
{
TTwd *pTWD = (TTwd *)hTWD;
TI_STATUS status;
/* check Parameters */
if (( pTWD == NULL ) || ( pFileInfo == NULL ))
{
return (TI_NOK);
}
TRACE0(pTWD->hReport, REPORT_SEVERITY_INIT , "TWD_InitFw: called\n");
hwInit_SetFwImage (pTWD->hHwInit, pFileInfo);
/* This will initiate the download to the FW */
status = hwInit_LoadFw(pTWD->hHwInit);
if (status == TXN_STATUS_ERROR)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_ERROR , "TWD_InitFw: failed to initialize FW\n");
return TI_NOK;
}
return TI_OK;
}
/**
* \brief Propagate interrogate results
*
* \param hTWD - TWD module object handle
* \param status - callback status
* \return TI_OK on success or TI_NOK on failure
*
* \par Description
* Static CB function
* Propagate interrogate results between TX and RX modules
* Called by TWD_ConfigFw
*
* \sa
*/
static TI_STATUS TWD_ConfigFwCb (TI_HANDLE hTWD, TI_STATUS status)
{
TTwd *pTWD = (TTwd *)hTWD;
TDmaParams *pDmaParams = &DB_DMA(pTWD->hCmdBld);
/*
* Store the addresses of the cyclic buffer (Rx/Tx)
* and the path status and control (Tx/Rx) in the corresponding modules
*/
txResult_setHwInfo (pTWD->hTxResult, pDmaParams);
rxXfer_Restart (pTWD->hRxXfer);
txXfer_Restart (pTWD->hTxXfer);
rxXfer_SetRxDirectAccessParams (pTWD->hRxXfer, pDmaParams);
/* Provide number of HW Tx-blocks and descriptors to Tx-HW-Queue module */
txHwQueue_SetHwInfo (pTWD->hTxHwQueue, pDmaParams);
/* If the configure complete function was registered, we call it here - end of TWD_Configure stage */
if (pTWD->fConfigFwCb)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_ConfigFwCb: call TWD_OWNER_SELF_CONFIG CB. In std drvMain_ConfigFwCb()\n");
pTWD->fConfigFwCb (pTWD->hUser, TI_OK);
}
return TI_OK;
}
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);
IniFileExtendedRadioParam *pExtRadioParams = &DB_EXT_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;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INIT , "TWD_SetDefaults: called\n");
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;
pWlanParams->ch14TelecCca = pInitParams->tGeneral.halCtrlCh14TelecCca;
/* 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 */
TRACE1(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_SetDefaults: coex numOfElements %d\n", pInitParams->tGeneral.halCoexActivityTable.numOfElements);
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;
}
TRACE4(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_SetDefaults: save coex Param %d in index %d, %d %d\n", iParam, saveIndex, pParmCoex[iParam].coexIp, pParmCoex[iParam].activityId);
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_NOT_SUPPORTED;
pWlanParams->tTwdHtCapabilities.uMaxAMSDU = MAX_MSDU_3839_OCTETS;
pWlanParams->tTwdHtCapabilities.uMaxAMPDU = pInitParams->tGeneral.uMaxAMPDU;
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*)pExtRadioParams, (void*)&pInitParams->tIniFileExtRadioParams, sizeof(IniFileExtendedRadioParam));
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;
}
TI_STATUS TWD_ConfigFw (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INIT , "TWD_ConfigFw: called\n");
/*
* Configure the WLAN firmware after config all the hardware objects
*/
if (cmdBld_ConfigFw (pTWD->hCmdBld, (void *)TWD_ConfigFwCb, hTWD) != TI_OK)
{
return TI_NOK;
}
return TI_OK;
}
void TWD_FinalizeDownload (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INIT , "TWD_FinalizeDownload: called\n");
if ( pTWD == NULL )
{
return;
}
/* Here at the end call the Initialize Complete callback that will release the user Init semaphore */
TRACE0(pTWD->hReport, REPORT_SEVERITY_INIT, "Before sending the Init Complet callback !!!!!\n");
/* Sign that init has succeeded */
pTWD->bInitSuccess = TI_TRUE;
/* Call user application configuration callback */
if (pTWD->fInitFwCb)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_FinalizeDownload: call fInitFwCb CB. In std drvMain_InitFwCb()\n");
(*pTWD->fInitFwCb) (pTWD->hUser, TI_OK);
}
}
void TWD_FinalizeOnFailure (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_FinalizeOnFailure: called\n");
/* Call the upper layer callback for init failure case */
if (pTWD->fInitFailCb)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_FinalizeOnFailure: call fInitFailCb CB. In std drvMain_InitFailCb()\n");
pTWD->fInitFailCb (pTWD->hUser, TI_OK);
}
}
TI_STATUS TWD_CheckMailboxCb (TI_HANDLE hTWD, TI_UINT16 uMboxStatus, void *pItrParamBuf)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_CheckMailboxCb: called\n");
if (uMboxStatus != TI_OK)
{
++pTWD->uNumMboxFailures;
TRACE1(pTWD->hReport, REPORT_SEVERITY_WARNING, "TWD_CheckMailboxCb: Periodic intorregate check - Command mailbox failure was occur \n errors failure # %d", pTWD->uNumMboxFailures);
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_CheckMailboxCb: call TWD_INT_EVENT_FAILURE CB. In std healthMonitor_sendFailureEvent()\n");
/* Indicating Upper Layer about Mbox Error */
pTWD->fFailureEventCb (pTWD->hFailureEventCb, MBOX_FAILURE);
}
return TI_OK;
}
#ifdef RS_OVER_TWD
extern void (*gBusTxn_ErrorCb)(TI_HANDLE , int);
extern void *gBusTxn_ErrorHndle;
#endif
/**
* \brief Registers TWD Module Callbacks
*
* \param hTWD - TWD module object handle
* \param uCallBackID - Registered Callback ID
* \param fCb - Pointer to Input Registered CB function
* \param hCb - Handle to Input Registered CB parameters
* \return void
*
* \par Description
* Static CB function
* This CB Registers TWD CB functions for future use:
* CB which handles failure to the CMD Queue, MAC Service and TwIf
* CB which handles Command Complete for the CMD Queue
* Called by TWD_RegisterCb
*
* \sa TWD_RegisterCb
*/
static void TWD_RegisterOwnCb (TI_HANDLE hTWD, TI_UINT32 uCallBackID, void *fCb, TI_HANDLE hCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE1(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_RegisterOwnCB: callback ID=0x%x\n", uCallBackID);
switch (uCallBackID)
{
case TWD_INT_EVENT_FAILURE:
/* Save Health-Moitor callback */
pTWD->fFailureEventCb = (TFailureEventCb)fCb;
pTWD->hFailureEventCb = hCb;
/* Register For Error Of Mailbox in case of timeout */
cmdQueue_RegisterForErrorCb (pTWD->hCmdQueue, (void *)TWD_CheckMailboxCb, hTWD);
/* Forward the Health-Moitor callback to the MAC-Services modules */
MacServices_registerFailureEventCB(pTWD->hMacServices, fCb, hCb);
/* Forward the Health-Moitor callback to the TwIf for bus errors */
twIf_RegisterErrCb (pTWD->hTwIf, fCb, hCb);
/* Forward the Health-Moitor callback to the RxXfer for Rx packet errors */
rxXfer_RegisterErrCb (pTWD->hRxXfer, fCb, hCb);
break;
case TWD_INT_COMMAND_COMPLETE:
cmdQueue_RegisterCmdCompleteGenericCb (pTWD->hCmdQueue, fCb, hCb);
break;
default:
TRACE0(pTWD->hReport, REPORT_SEVERITY_ERROR, "TWD_RegisterOwnCb - Illegal value\n");
}
}
TI_STATUS TWD_RegisterCb (TI_HANDLE hTWD, TI_UINT32 event, TTwdCB *fCb, void *pData)
{
TTwd *pTWD = (TTwd *)hTWD;
TI_UINT32 uModuleId = event & TWD_CB_MODULE_OWNER_MASK;
TI_UINT32 uCallbackId = event & TWD_CB_TYPE_MASK;
if ((fCb == NULL) || (pData == NULL))
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_ERROR, "TWD_Register_CB: Invalid NULL Parameter\n");
}
TRACE1(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_Register_CB: (Value = 0x%x)\n", event);
/* First detect which module is the owner */
switch (uModuleId)
{
case TWD_OWNER_TX_HW_QUEUE:
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_Register_CB: TWD_OWNER_TX_HW_QUEUE\n");
txHwQueue_RegisterCb (pTWD->hTxHwQueue, uCallbackId, fCb, pData);
break;
case TWD_OWNER_DRIVER_TX_XFER:
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_Register_CB: TWD_OWNER_DRIVER_TX_XFER\n");
txXfer_RegisterCb (pTWD->hTxXfer, uCallbackId, fCb, pData);
break;
case TWD_OWNER_TX_RESULT:
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_Register_CB: TWD_OWNER_TX_RESULT\n");
txResult_RegisterCb (pTWD->hTxResult, uCallbackId, fCb, pData);
break;
case TWD_OWNER_RX_XFER:
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_Register_CB: TWD_OWNER_RX_XFER\n");
rxXfer_Register_CB(pTWD->hRxXfer, uCallbackId, fCb, pData);
break;
case TWD_OWNER_RX_QUEUE:
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_Register_CB: TWD_OWNER_RX_QUEUE\n");
RxQueue_Register_CB(pTWD->hRxQueue, uCallbackId, fCb, pData);
break;
case TWD_OWNER_SELF:
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_Register_CB: TWD_OWNER_SELF\n");
TWD_RegisterOwnCb (hTWD, uCallbackId, fCb, pData);
break;
case TWD_OWNER_MAC_SERVICES:
switch (uCallbackId)
{
case TWD_OWN_EVENT_SCAN_CMPLT:
MacServices_scanSRV_registerScanCompleteCB (pTWD->hMacServices, (TScanSrvCompleteCb)fCb, pData);
break;
default:
TRACE0(pTWD->hReport, REPORT_SEVERITY_ERROR, "TWD_Register_CB: TWD_OWNER_MAC_SERVICES - Illegal value\n");
}
break;
case TWD_OWNER_SELF_CONFIG:
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_Register_CB: TWD_OWNER_SELF_CONFIG\n");
pTWD->fConfigFwCb = (TTwdCallback)fCb;
break;
default:
TRACE0(pTWD->hReport, REPORT_SEVERITY_ERROR, "TWD_Register_CB - Illegal value\n");
}
return TI_OK;
}
TI_STATUS TWD_ExitFromInitMode (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_ExitFromInitMode: called\n");
/* Notify Event MailBox about init complete */
eventMbox_InitComplete (pTWD->hEventMbox);
/* Enable Mailbox */
cmdQueue_EnableMbox (pTWD->hCmdQueue);
return TI_OK;
}
#ifdef TI_DBG
TI_STATUS TWD_PrintTxInfo (TI_HANDLE hTWD, ETwdPrintInfoType ePrintInfo)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_PrintTxInfo: called\n");
switch (ePrintInfo)
{
case TWD_PRINT_TX_CTRL_BLK_TBL:
txCtrlBlk_PrintTable (pTWD->hTxCtrlBlk);
break;
case TWD_PRINT_TX_HW_QUEUE_INFO:
txHwQueue_PrintInfo (pTWD->hTxHwQueue);
break;
case TWD_PRINT_TX_XFER_INFO:
txXfer_PrintStats (pTWD->hTxXfer);
break;
case TWD_PRINT_TX_RESULT_INFO:
txResult_PrintInfo (pTWD->hTxResult);
break;
case TWD_CLEAR_TX_RESULT_INFO:
txResult_ClearInfo (pTWD->hTxResult);
break;
case TWD_CLEAR_TX_XFER_INFO:
txXfer_ClearStats (pTWD->hTxXfer);
break;
default:
TRACE1(pTWD->hReport, REPORT_SEVERITY_ERROR, ": invalid print info request code: %d\n", ePrintInfo);
}
return TI_OK;
}
#endif /* TI_DBG */
TI_STATUS TWD_InterruptRequest (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_InterruptRequest: called\n");
fwEvent_InterruptRequest (pTWD->hFwEvent);
return TI_OK;
}
TI_STATUS TWD_RegisterEvent (TI_HANDLE hTWD, TI_UINT32 event, void *fCb, TI_HANDLE hCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_RegisterEvent: called\n");
return eventMbox_RegisterEvent (pTWD->hEventMbox, event, fCb, hCb);
}
TI_STATUS TWD_DisableEvent (TI_HANDLE hTWD, TI_UINT32 event)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_DisableEvent: called\n");
return eventMbox_MaskEvent (pTWD->hEventMbox, event, NULL, NULL);
}
TI_STATUS TWD_EnableEvent (TI_HANDLE hTWD, TI_UINT32 event)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_EnableEvent: called\n");
return eventMbox_UnMaskEvent (pTWD->hEventMbox, event, NULL, NULL);
}
void TWD_StopComplete (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_StopComplete: called\n");
/* reinit last ELP mode flag in recovery */
cmdBld_Restart(pTWD->hCmdBld);
/* Call upper layer callback */
if (pTWD->fStopCb)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_StopComplete: call fStopCb CB. In std drvMain_TwdStopCb()\n");
(*pTWD->fStopCb) (pTWD->hUser, TI_OK);
}
}
TI_STATUS TWD_Stop (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
ETxnStatus status;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_Stop: called\n");
fwEvent_Stop (pTWD->hFwEvent);
/* close all BA sessions */
TWD_CloseAllBaSessions(hTWD);
cmdMbox_Restart (pTWD->hCmdMbox);
cmdQueue_Restart (pTWD->hCmdQueue);
cmdQueue_DisableMbox (pTWD->hCmdQueue);
eventMbox_Stop (pTWD->hEventMbox);
MacServices_restart (pTWD->hMacServices);
status = twIf_Restart(pTWD->hTwIf);
/* Call user stop callback */
if (status != TXN_STATUS_PENDING)
{
TWD_StopComplete (hTWD);
}
return TI_OK;
}
void TWD_EnableExternalEvents (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_EnableExternalEvents: called\n");
/*
* Enable sleep after all firmware initializations completed
* The awake was in the TWD_initHw phase
*/
twIf_Sleep (pTWD->hTwIf);
fwEvent_EnableExternalEvents (pTWD->hFwEvent);
}
TI_BOOL TWD_RecoveryEnabled (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_RecoveryEnabled: called\n");
return pTWD->bRecoveryEnabled;
}
TI_UINT32 TWD_GetMaxNumberOfCommandsInQueue (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_GetMaxNumberOfCommandsInQueue: called\n");
return cmdQueue_GetMaxNumberOfCommands (pTWD->hCmdQueue);
}
TI_STATUS TWD_SetPsMode (TI_HANDLE hTWD,
E80211PsMode ePsMode,
TI_BOOL bSendNullDataOnExit,
TI_HANDLE hPowerSaveCompleteCb,
TPowerSaveCompleteCb fPowerSaveCompleteCb,
TPowerSaveResponseCb fPowerSaveResponseCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_SetPsMode: called\n");
return MacServices_powerSrv_SetPsMode (pTWD->hMacServices,
ePsMode,
bSendNullDataOnExit,
hPowerSaveCompleteCb,
fPowerSaveCompleteCb,
fPowerSaveResponseCb);
}
TI_BOOL TWD_GetPsStatus (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_GetPsStatus: called\n");
return MacServices_powerSrv_getPsStatus (pTWD->hMacServices);
}
TI_STATUS TWD_SetNullRateModulation (TI_HANDLE hTWD, TI_UINT16 rate)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_SetRateModulation: called\n");
MacServices_powerSrv_SetRateModulation (pTWD->hMacServices, rate);
return TI_OK;
}
void TWD_UpdateDtimTbtt (TI_HANDLE hTWD, TI_UINT8 uDtimPeriod, TI_UINT16 uBeaconInterval)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_UpdateDtimTbtt: called\n");
MacServices_scanSrv_UpdateDtimTbtt (pTWD->hMacServices, uDtimPeriod, uBeaconInterval);
}
TI_STATUS TWD_StartMeasurement (TI_HANDLE hTWD,
TMeasurementRequest *pMsrRequest,
TI_UINT32 uTimeToRequestExpiryMs,
TCmdResponseCb fResponseCb,
TI_HANDLE hResponseCb,
TMeasurementSrvCompleteCb fCompleteCb,
TI_HANDLE hCompleteCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_StartMeasurement: called\n");
return MacServices_measurementSRV_startMeasurement (pTWD->hMacServices,
pMsrRequest,
uTimeToRequestExpiryMs,
fResponseCb,
hResponseCb,
fCompleteCb,
hCompleteCb);
}
TI_STATUS TWD_StopMeasurement (TI_HANDLE hTWD,
TI_BOOL bSendNullData,
TCmdResponseCb fResponseCb,
TI_HANDLE hResponseCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_StopMeasurement: called\n");
return MacServices_measurementSRV_stopMeasurement (pTWD->hMacServices,
bSendNullData,
fResponseCb,
hResponseCb);
}
TI_STATUS TWD_RegisterScanCompleteCb (TI_HANDLE hTWD,
TScanSrvCompleteCb fScanCompleteCb,
TI_HANDLE hScanCompleteCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_RegisterScanCompleteCb: called\n");
MacServices_scanSRV_registerScanCompleteCB (pTWD->hMacServices,
fScanCompleteCb,
hScanCompleteCb);
return TI_OK;
}
#ifdef TI_DBG
TI_STATUS TWD_PrintMacServDebugStatus (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_PrintMacServDebugStatus: called\n");
MacServices_scanSrv_printDebugStatus (pTWD->hMacServices);
return TI_OK;
}
#endif
TI_STATUS TWD_Scan (TI_HANDLE hTWD,
TScanParams *pScanParams,
EScanResultTag eScanTag,
TI_BOOL bHighPriority,
TI_BOOL bDriverMode,
TI_BOOL bScanOnDriverModeError,
E80211PsMode ePsRequest,
TI_BOOL bSendNullData,
TCmdResponseCb fResponseCb,
TI_HANDLE hResponseCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_Scan: called\n");
return MacServices_scanSRV_scan (pTWD->hMacServices,
pScanParams,
eScanTag,
bHighPriority,
bDriverMode,
bScanOnDriverModeError,
ePsRequest,
bSendNullData,
fResponseCb,
hResponseCb);
}
TI_STATUS TWD_StopScan (TI_HANDLE hTWD,
EScanResultTag eScanTag,
TI_BOOL bSendNullData,
TCmdResponseCb fScanCommandResponseCb,
TI_HANDLE hCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_StopScan: called\n");
return MacServices_scanSRV_stopScan (pTWD->hMacServices,
eScanTag,
bSendNullData,
fScanCommandResponseCb,
hCb);
}
TI_STATUS TWD_StopScanOnFWReset (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_StopScanOnFWReset: called\n");
return MacServices_scanSRV_stopOnFWReset (pTWD->hMacServices);
}
TI_STATUS TWD_StartConnectionScan (TI_HANDLE hTWD,
TPeriodicScanParams *pPeriodicScanParams,
EScanResultTag eScanTag,
TI_UINT32 uPassiveScanDfsDwellTimeMs,
TCmdResponseCb fResponseCb,
TI_HANDLE hResponseCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_StartConnectionScan: called\n");
return cmdBld_StartPeriodicScan (pTWD->hCmdBld, pPeriodicScanParams, eScanTag, uPassiveScanDfsDwellTimeMs,
(void*)fResponseCb, hResponseCb);
}
TI_STATUS TWD_StopPeriodicScan (TI_HANDLE hTWD,
EScanResultTag eScanTag,
TCmdResponseCb fResponseCb,
TI_HANDLE hResponseCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_StopPeriodicScan: called\n");
return cmdBld_StopPeriodicScan (pTWD->hCmdBld, eScanTag, (void*)fResponseCb, hResponseCb);
}
TI_STATUS TWD_readMem (TI_HANDLE hTWD, TFwDebugParams* pMemDebug, void* fCb, TI_HANDLE hCb)
{
if (hTWD == NULL || pMemDebug == NULL)
{
return (TI_NOK);
}
TRACE0(((TTwd *)hTWD)->hReport, REPORT_SEVERITY_INFORMATION , "TWD_readMem: called\n");
if (fwDbg_ReadAddr(((TTwd *)hTWD)->hFwDbg,pMemDebug->addr,pMemDebug->length,pMemDebug->UBuf.buf8,(TFwDubCallback)fCb,hCb) == TI_NOK)
{
TRACE0(((TTwd *)hTWD)->hReport, REPORT_SEVERITY_CONSOLE ,"TWD_readMem Error: fwDbg_handleCommand failed\n");
WLAN_OS_REPORT(("TWD_readMem Error: fwDbg_handleCommand failed\n"));
return TI_NOK;
}
return (TI_OK);
}
TI_STATUS TWD_writeMem (TI_HANDLE hTWD, TFwDebugParams* pMemDebug, void* fCb, TI_HANDLE hCb)
{
if (hTWD == NULL || pMemDebug == NULL)
{
return (TI_NOK);
}
TRACE0(((TTwd *)hTWD)->hReport, REPORT_SEVERITY_INFORMATION , "TWD_writeMem: called\n");
if (fwDbg_WriteAddr(((TTwd *)hTWD)->hFwDbg,pMemDebug->addr,pMemDebug->length,pMemDebug->UBuf.buf8,(TFwDubCallback)fCb,hCb) == TI_NOK)
{
TRACE0(((TTwd *)hTWD)->hReport, REPORT_SEVERITY_CONSOLE ,"TWD_writeMem Error: fwDbg_handleCommand failed\n");
WLAN_OS_REPORT(("TWD_writeMem Error: fwDbg_handleCommand failed\n"));
return TI_NOK;
}
return(TI_OK);
}
TI_BOOL TWD_isValidMemoryAddr (TI_HANDLE hTWD, TFwDebugParams* pMemDebug)
{
if (hTWD == NULL || pMemDebug == NULL)
{
return TI_FALSE;
}
TRACE0(((TTwd *)hTWD)->hReport, REPORT_SEVERITY_INFORMATION , "TWD_isValidMemoryAddr: called\n");
return fwDbg_isValidMemoryAddr(((TTwd *)hTWD)->hFwDbg,pMemDebug->addr,pMemDebug->length);
}
TI_BOOL TWD_isValidRegAddr (TI_HANDLE hTWD, TFwDebugParams* pMemDebug)
{
if (hTWD == NULL || pMemDebug == NULL )
{
return TI_FALSE;
}
TRACE0(((TTwd *)hTWD)->hReport, REPORT_SEVERITY_INFORMATION , "TWD_isValidRegAddr: called\n");
return fwDbg_isValidRegAddr(((TTwd *)hTWD)->hFwDbg,pMemDebug->addr,pMemDebug->length);
}
/**
* \brief Set Template Frame
*
* \param hTWD - TWD module object handle
* \param pMib - Pointer to Input MIB Structure
* \return TI_OK on success or TI_NOK on failure
*
* \par Description
* Static function
* Configure/Interrogate/Modulate the Frame Rate if needed (according to Templete Type)
* and then write the MIB TemplateFrame to the FW
*
* \sa
*/
static TI_STATUS TWD_WriteMibTemplateFrame (TI_HANDLE hTWD, TMib* pMib)
{
TTwd *pTWD = (TTwd *)hTWD;
TSetTemplate tSetTemplate;
TI_UINT32 uRateMask = RATE_TO_MASK(pMib->aData.TemplateFrame.Rate);
/*
* Construct the template MIB element
*/
switch(pMib->aData.TemplateFrame.FrameType)
{
case TEMPLATE_TYPE_BEACON:
tSetTemplate.type = BEACON_TEMPLATE;
break;
case TEMPLATE_TYPE_PROBE_REQUEST:
tSetTemplate.type = PROBE_REQUEST_TEMPLATE;
tSetTemplate.eBand = RADIO_BAND_2_4_GHZ; /* needed for GWSI, if so band must also be passed to choose correct template (G or A) */
break;
case TEMPLATE_TYPE_NULL_FRAME:
tSetTemplate.type = NULL_DATA_TEMPLATE;
MacServices_powerSrv_SetRateModulation (pTWD->hMacServices, (TI_UINT16)uRateMask);
break;
case TEMPLATE_TYPE_PROBE_RESPONSE:
tSetTemplate.type = PROBE_RESPONSE_TEMPLATE;
break;
case TEMPLATE_TYPE_QOS_NULL_FRAME:
tSetTemplate.type = QOS_NULL_DATA_TEMPLATE;
break;
case TEMPLATE_TYPE_PS_POLL:
tSetTemplate.type = PS_POLL_TEMPLATE;
break;
default:
TRACE1(pTWD->hReport, REPORT_SEVERITY_ERROR, "TWD_WriteMibTemplateFrame - ERROR - template is not supported, %d\n", pMib->aData.TemplateFrame.FrameType);
return PARAM_NOT_SUPPORTED;
}
tSetTemplate.len = pMib->aData.TemplateFrame.Length;
tSetTemplate.ptr = (TI_UINT8 *) &(pMib->aData.TemplateFrame.Data);
tSetTemplate.uRateMask = uRateMask;
return TWD_CmdTemplate (hTWD, &tSetTemplate, NULL, NULL);
}
/**
* \brief Set Beacon Filter IE Table
*
* \param hTWD - TWD module object handle
* \param pMib - Pointer to Input MIB Structure
* \return TI_OK on success or TI_NOK on failure
*
* \par Description
* Static function
* Configure the MIB Beacon Filter IE table
*
* \sa
*/
static TI_STATUS TWD_WriteMibBeaconFilterIETable (TI_HANDLE hTWD, TMib *pMib)
{
TTwd *pTWD = (TTwd *)hTWD;
TI_UINT8 numOf221IE = 0;
TI_UINT8 i = 0;
TI_UINT8 IETableLen = 0;
TI_UINT8 numOfIEs = 0;
TI_UINT8 *IETable = NULL;
numOfIEs = pMib->aData.BeaconFilter.iNumberOfIEs;
IETable = pMib->aData.BeaconFilter.iIETable;
/* Find the actual IETableLen */
for (i = 0; i < numOfIEs; i++)
{
if (IETable[IETableLen] == 0xdd)
{
IETableLen += 8;
numOf221IE++;
}
else
{
IETableLen += 2;
}
}
TRACE4(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_WriteMibBeaconFilterIETable: IETable=0x%x Num Of IE=%d ( including %d 221 ) - Table Len=%d\n", IETable, numOfIEs, numOf221IE, IETableLen);
return TWD_CfgBeaconFilterTable (hTWD, numOfIEs, IETable, IETableLen);
}
/**
* \brief Set Tx Rate Policy
*
* \param hTWD - TWD module object handle
* \param pMib - Pointer to Input MIB Structure
* \return TI_OK on success or TI_NOK on failure
*
* \par Description
* Static function
* Coordinates between legacy TxRatePolicy implementation and the MIB format:
* Converts the pGwsi_txRatePolicy back to command builder commands.
* Activates the TWD_set function.
*
* \sa
*/
static TI_STATUS TWD_WriteMibTxRatePolicy (TI_HANDLE hTWD, TMib* pMib)
{
TTwd *pTWD = (TTwd *)hTWD;
#ifdef TI_DBG
if (NULL == pMib)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_ERROR, "ERROR: TWD_WriteMibTxRatePolicy pMib=NULL !!!");
return TI_NOK;
}
#endif /* TI_DBG */
return cmdBld_CfgTxRatePolicy (pTWD->hCmdBld, &pMib->aData.txRatePolicy, NULL, NULL);
}
TI_STATUS TWD_WriteMib (TI_HANDLE hTWD, TMib *pMib)
{
TTwd *pTWD = (TTwd *)hTWD;
#ifdef TI_DBG
TRACE1(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_WriteMib :pMib %p:\n",pMib);
TRACE1(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_WriteMib :aMib %x:\n",pMib->aMib);
TRACE_INFO_HEX(pTWD->hReport, (TI_UINT8*)pMib, TI_MIN (sizeof(TMib), pMib->Length));
#endif /* TI_DBG */
if (NULL == pMib)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_ERROR, "TWD_WriteMib :pMib = NULL !!\n");
return PARAM_VALUE_NOT_VALID;
}
switch (pMib->aMib)
{
case MIB_dot11MaxReceiveLifetime:
return cmdBld_CfgRxMsduLifeTime (pTWD->hCmdBld, pMib->aData.MaxReceiveLifeTime * 1024, (void *)NULL, (void *)NULL);
case MIB_ctsToSelf:
return cmdBld_CfgCtsProtection (pTWD->hCmdBld, (TI_UINT8)pMib->aData.CTSToSelfEnable, (void *)NULL, (TI_HANDLE)NULL);
case MIB_dot11GroupAddressesTable:
{
if (NULL == pMib->aData.GroupAddressTable.aGroupTable)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_ERROR, "TWD_WriteMib(MIB_dot11GroupAddressesTable) :GroupTable = NULL !!\n");
return PARAM_VALUE_NOT_VALID;
}
return TWD_CfgGroupAddressTable (hTWD,
pMib->aData.GroupAddressTable.nNumberOfAddresses,
pMib->aData.GroupAddressTable.aGroupTable,
pMib->aData.GroupAddressTable.bFilteringEnable);
}
case MIB_arpIpAddressesTable:
{
TIpAddr IpAddress;
IP_COPY (IpAddress, pMib->aData.ArpIpAddressesTable.addr);
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "TWD_WriteMib(MIB_arpIpAddressesTable) IpAddress:\n");
TRACE_INFO_HEX(pTWD->hReport, (TI_UINT8*)&IpAddress, 4);
return cmdBld_CfgArpIpAddrTable (pTWD->hCmdBld,
IpAddress,
(TI_BOOL)pMib->aData.ArpIpAddressesTable.FilteringEnable,
IP_VER_4,
NULL,
NULL);
}
case MIB_templateFrame:
return TWD_WriteMibTemplateFrame (hTWD, pMib);
case MIB_beaconFilterIETable:
return TWD_WriteMibBeaconFilterIETable (hTWD, pMib);
case MIB_rxFilter:
{
TI_UINT32 uRxFilter = 0;
TI_UINT8 uMibRxFilter = pMib->aData.RxFilter;
if (uMibRxFilter & MIB_RX_FILTER_PROMISCOUS_SET)
{
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "\n TWD_WriteMib MIB_rxFilter - RX_CFG_ENABLE_ANY_DEST_MAC\n");
uRxFilter = RX_CFG_ENABLE_ANY_DEST_MAC;
}
else
{
uRxFilter = RX_CFG_ENABLE_ONLY_MY_DEST_MAC;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "\n halCtrl_WriteMib MIB_rxFilter - RX_CFG_ENABLE_ONLY_MY_DEST_MAC\n");
}
if ((uMibRxFilter & MIB_RX_FILTER_BSSID_SET) != 0)
{
uRxFilter = uRxFilter | RX_CFG_ENABLE_ONLY_MY_BSSID;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "\n halCtrl_WriteMib MIB_rxFilter - RX_CFG_ENABLE_ONLY_MY_BSSID\n");
}
else
{
uRxFilter = uRxFilter | RX_CFG_ENABLE_ANY_BSSID;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION, "\n halCtrl_WriteMib MIB_rxFilter - RX_CFG_ENABLE_ANY_BSSID\n");
}
/*
* Activates the TWD_setRxFilters function
*/
return TWD_CfgRx (hTWD, uRxFilter, RX_FILTER_OPTION_DEF);
}
case MIB_txRatePolicy:
return TWD_WriteMibTxRatePolicy (hTWD, pMib);
default:
TRACE1(pTWD->hReport, REPORT_SEVERITY_ERROR, "TWD_WriteMib - ERROR - MIB element not supported, %d\n", pMib->aMib);
return TI_NOK;
} /* switch */
}
TI_STATUS TWD_ReadMib (TI_HANDLE hTWD, TI_HANDLE hCb, void* fCb, void* pCb)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_ReadMib: called\n");
return cmdBld_ReadMib (pTWD->hCmdBld, hCb, fCb, pCb);
}
void TWD_DisableInterrupts(TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_DisableInterrupts: called\n");
fwEvent_DisableInterrupts(pTWD->hFwEvent);
}
void TWD_EnableInterrupts(TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_EnableInterrupts: called\n");
fwEvent_EnableInterrupts(pTWD->hFwEvent);
}
TI_UINT32 TWD_TranslateToFwTime (TI_HANDLE hTWD, TI_UINT32 uHostTime)
{
TTwd *pTWD = (TTwd *)hTWD;
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_TranslateToFwTime: called\n");
return fwEvent_TranslateToFwTime (pTWD->hFwEvent, uHostTime);
}
void TWD_GetTwdHtCapabilities (TI_HANDLE hTWD, TTwdHtCapabilities **pTwdHtCapabilities)
{
TTwd *pTWD = (TTwd *)hTWD;
TWlanParams *pWlanParams = &DB_WLAN(pTWD->hCmdBld);
TRACE0(pTWD->hReport, REPORT_SEVERITY_INFORMATION , "TWD_GetTwdHtCapabilities: called\n");
*pTwdHtCapabilities = &(pWlanParams->tTwdHtCapabilities);
}
/**
* \brief TWD get FEM type
* *
* \param Handle - handle to object
* \return uint8
*
* \par Description
* The function return the Front end module that was read frm FW register *
* \sa
*/
TI_UINT8 TWD_GetFEMType (TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
IniFileGeneralParam *pGenParams = &DB_GEN(pTWD->hCmdBld);
return pGenParams->TXBiPFEMManufacturer;
}
/**
* \brief TWD end function of read radio state machine
* * *
* \param Handle - handle to object
* \return void
*
* \par Description
* The function calling to HwInit call back function, after finish reading FEM registers *
* \sa
*/
void TWD_FinalizeFEMRead(TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
(*pTWD->fInitHwCb) (pTWD->hUser, TI_OK);
}
void TWD_FinalizePolarityRead(TI_HANDLE hTWD)
{
TTwd *pTWD = (TTwd *)hTWD;
/* allways read FEM type from Radio Registers */
hwInit_ReadRadioParams(pTWD->hHwInit);
}