wilink_6_1/Txn/WspiBusDrv.c - platform/system/wlan/ti - Git at Google

 /*
  * WspiBusDrv.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   WspiBusDrv.c
  *  \brief  The WSPI bus driver upper layer. Platform independent.
  *          Uses the SpiAdapter API.
  *          Introduces a generic bus-independent API upwards.
  *
  *  \see    BusDrv.h, SpiAdapter.h, SpiAdapter.c
  */

 #include "tidef.h"
 #include "report.h"
 #include "osApi.h"
 #include "wspi.h"
 #include "BusDrv.h"
 #include "TxnDefs.h"
 #define __FILE_ID__		FILE_ID_124

 /************************************************************************
  * Defines
  ************************************************************************/
 #define WSPI_FIXED_BUSY_LEN     1
 #define WSPI_INIT_CMD_MASK      0


 /************************************************************************
  * Types
  ************************************************************************/

 /* The busDrv module Object */
 typedef struct _TBusDrvObj
 {
     TI_HANDLE	    hOs;
     TI_HANDLE	    hReport;
 	TI_HANDLE	    hDriver;
 	TI_HANDLE	    hWspi;

 	TTxnDoneCb      fTxnDoneCb;         /* The callback to call upon full transaction completion. */
 	TI_HANDLE       hCbHandle;          /* The callback handle */
     TTxnStruct *    pCurrTxn;           /* The transaction currently being processed */
     TI_STATUS       eCurrTxnStatus;     /* COMPLETE, PENDING or ERROR */
     TI_UINT32       uCurrTxnBufsCount;
     TI_BOOL         bPendingByte;
     TTxnDoneCb      fTxnConnectDoneCb;         /* The callback to call upon full transaction completion. */


 } TBusDrvObj;


 /************************************************************************
  * Internal functions prototypes
  ************************************************************************/

 static void asyncEnded_CB(TI_HANDLE hBusTxn, int status);
 static void ConnectDone_CB(TI_HANDLE hBusDrv, int status);

 /************************************************************************
  *
  *   Module functions implementation
  *
  ************************************************************************/

 /**
  * \fn     busDrv_Create
  * \brief  Create the module
  *
  * Allocate and clear the module's object.
  *
  * \note
  * \param  hOs - Handle to Os Abstraction Layer
  * \return Handle of the allocated object, NULL if allocation failed
  * \sa     busDrv_Destroy
  */
 TI_HANDLE busDrv_Create (TI_HANDLE hOs)
 {
     TI_HANDLE   hBusDrv;
     TBusDrvObj *pBusDrv;

     hBusDrv = os_memoryAlloc(hOs, sizeof(TBusDrvObj));
     if (hBusDrv == NULL)
         return NULL;

     pBusDrv = (TBusDrvObj *)hBusDrv;

     os_memoryZero(hOs, hBusDrv, sizeof(TBusDrvObj));

     pBusDrv->hOs = hOs;

     // addapt to WSPI

     pBusDrv->hWspi= WSPI_Open(hOs);

     return pBusDrv;
 }


 /**
  * \fn     busDrv_Destroy
  * \brief  Destroy the module.
  *
  * Close SPI lower bus driver and free the module's object.
  *
  * \note
  * \param  The module's object
  * \return TI_OK on success or TI_NOK on failure
  * \sa     busDrv_Create
  */
 TI_STATUS busDrv_Destroy (TI_HANDLE hBusDrv)
 {
     TBusDrvObj *pBusDrv = (TBusDrvObj*)hBusDrv;

     if (pBusDrv)
     {
         // addapt to WSPI
         WSPI_Close(pBusDrv->hWspi);
         os_memoryFree (pBusDrv->hOs, pBusDrv, sizeof(TBusDrvObj));
     }
     return TI_OK;
 }


 /****************************************************************************
  *                      busDrv_Init
  ****************************************************************************
  * DESCRIPTION: config the module.
  *
  * INPUTS:  hBusDrv - handle to the module context
  *          hReport - handle to report module context that is used when we output debug messages
  *          CBFunc  - The callback to call upon transaction complete (calls the tasklet).
  *          CBArg   - The handle for the CBFunc.
  *
  * OUTPUT:  none.
  *
  * RETURNS: one of the error codes (0 => TI_OK)
  ****************************************************************************/
 void busDrv_Init (TI_HANDLE    hBusDrv,
                        TI_HANDLE    hReport)
 {
     TBusDrvObj *pBusDrv = (TBusDrvObj*) hBusDrv;


     pBusDrv->hReport    = hReport;


 }


 /**
  * \fn     busDrv_ConnectBus
  * \brief  Configure bus driver
  *
  * Called by TxnQ.
  * Configure the bus driver with its connection configuration (such as baud-rate, bus width etc)
  *     and establish the physical connection.
  * Done once upon init (and not per functional driver startup).
  *
  * \note
  * \param  hBusDrv    - The module's object
  * \param  pBusDrvCfg - A union used for per-bus specific configuration.
  * \param  fCbFunc    - CB function for Async transaction completion (after all txn parts are completed).
  * \param  hCbArg     - The CB function handle
  * \return TI_OK / TI_NOK
  * \sa
  */
 TI_STATUS busDrv_ConnectBus (TI_HANDLE        hBusDrv,
                              TBusDrvCfg       *pBusDrvCfg,
                              TBusDrvTxnDoneCb fCbFunc,
                              TI_HANDLE        hCbArg,
                              TBusDrvTxnDoneCb fConnectCbFunc
                              )
 {
     TBusDrvObj *pBusDrv = (TBusDrvObj*)hBusDrv;
     int         iStatus;
     WSPIConfig_t wspi_config;
     WSPI_CB_T cb;

     /* Save the parameters (TxnQ callback for TxnDone events) */
     pBusDrv->fTxnDoneCb    = fCbFunc;
     pBusDrv->hCbHandle     = hCbArg;
     pBusDrv->fTxnConnectDoneCb = fConnectCbFunc;

     /* Configure the WSPI driver parameters  */

     wspi_config.isFixedAddress = TI_FALSE;
     wspi_config.fixedBusyLength = WSPI_FIXED_BUSY_LEN;
     wspi_config.mask = WSPI_INIT_CMD_MASK;

     cb.CBFunc = ConnectDone_CB;/* The BusTxn callback called upon Async transaction end. */
     cb.CBArg  = hBusDrv;   /* The handle for the BusDrv. */

     /* Configure the WSPI module */
     iStatus = WSPI_Configure(pBusDrv->hWspi, pBusDrv->hReport, &wspi_config, &cb);


     if ((iStatus == 0) || (iStatus == 1))
     {
         TRACE1 (pBusDrv->hReport, REPORT_SEVERITY_INIT, "busDrv_ConnectBus: called Status %d\n",iStatus);


         TRACE2 (pBusDrv->hReport, REPORT_SEVERITY_INFORMATION, "busDrv_ConnectBus: Successful Status %d\n",iStatus);
         return TI_OK;
     }
     else
     {
         TRACE2(pBusDrv->hReport, REPORT_SEVERITY_ERROR, "busDrv_ConnectBus: Status = %d,\n", iStatus);
         return TI_NOK;
     }
 }
 /**
  * \fn     busDrv_DisconnectBus
  * \brief  Disconnect SDIO driver
  *
  * Called by TxnQ. Disconnect the SDIO driver.
  *
  * \note
  * \param  hBusDrv - The module's object
  * \return TI_OK / TI_NOK
  * \sa
  */
 TI_STATUS   busDrv_DisconnectBus   (TI_HANDLE hBusDrv)
 {
     return TI_OK;
 }


 /**
  * \fn     busDrv_Transact
  * \brief  Process transaction
  *
  * Called by the TxnQ module to initiate a new transaction.
  * Call either write or read functions according to Txn direction field.
  *
  * \note   It's assumed that this function is called only when idle (i.e. previous Txn is done).
  * \param  hBusDrv - The module's object
  * \param  pTxn    - The transaction object
  * \return COMPLETE if Txn completed in this context, PENDING if not, ERROR if failed
  * \sa     busDrv_PrepareTxnParts, busDrv_SendTxnParts
  */
 ETxnStatus busDrv_Transact (TI_HANDLE hBusDrv, TTxnStruct *pTxn)
 {
     TBusDrvObj *pBusDrv = (TBusDrvObj*)hBusDrv;
     WSPI_CB_T cb;
     TI_UINT8 * tempReadBuff;
     TI_UINT8 * tempWriteBuff;
     pBusDrv->pCurrTxn       = pTxn;
     pBusDrv->eCurrTxnStatus = TXN_STATUS_COMPLETE;  /* The Txn is Sync as long as it continues in this context */
     cb.CBFunc = asyncEnded_CB;  /* The BusTxn callback called upon Async transaction end. */
     cb.CBArg  = hBusDrv;   /* The handle for the BusTxnCB. */

     /* If write command */
     if (TXN_PARAM_GET_DIRECTION(pTxn) == TXN_DIRECTION_WRITE)
     {

         //WLAN_REPORT_INIT(pBusDrv->hReport, TNETW_DRV_MODULE_LOG,
         //    ("busDrv_Transact:  Write to pTxn->uHwAddr %x\n", pTxn->uHwAddr ));


          /*WLAN_REPORT_ERROR(pBusDrv->hReport, BUS_DRV_MODULE_LOG,
             ("busDrv_Transact: Buff= %x, Len=%d\n", pTxn->aBuf[0], pTxn->aLen[0]));*/
         /*1.write memory*/
           /* Decrease the data pointer to the beginning of the WSPI padding */
           tempWriteBuff = pTxn->aBuf[0];
           tempWriteBuff -= WSPI_PAD_LEN_WRITE;

           /* Write the data to the WSPI in Aync mode (not completed in the current context). */
           pBusDrv->eCurrTxnStatus = WSPI_WriteAsync(pBusDrv->hWspi, pTxn->uHwAddr,tempWriteBuff,pTxn->aLen[0], &cb, TI_TRUE, TI_TRUE,TXN_PARAM_GET_FIXED_ADDR(pTxn));

     }

     /* If read command */
     else
     {
         //WLAN_REPORT_INIT(pBusDrv->hReport, TNETW_DRV_MODULE_LOG,
         //    ("busDrv_Transact:  Read from pTxn->uHwAddr %x pTxn %x \n", pTxn->uHwAddr,pTxn));

         /*1. Read mem */
          /* Decrease the tempReadBuff pointer to the beginning of the WSPI padding */
         tempReadBuff = pTxn->aBuf[0];
         tempReadBuff -= WSPI_PAD_LEN_READ;
         /* Read the required data from the WSPI in Aync mode (not completed in the current context). */
         pBusDrv->eCurrTxnStatus  = WSPI_ReadAsync(pBusDrv->hWspi, pTxn->uHwAddr,tempReadBuff,pTxn->aLen[0], &cb, TI_TRUE, TI_TRUE,TXN_PARAM_GET_FIXED_ADDR(pTxn));


     }

     /* return transaction status - COMPLETE, PENDING or ERROR */
     return (pBusDrv->eCurrTxnStatus == WSPI_TXN_COMPLETE ? TXN_STATUS_COMPLETE :
 			(pBusDrv->eCurrTxnStatus == WSPI_TXN_PENDING ? TXN_STATUS_PENDING : TXN_STATUS_ERROR));


 }


 /****************************************************************************
  *                      asyncEnded_CB()
  ****************************************************************************
  * DESCRIPTION:
  *      Called back by the WSPI driver from Async transaction end interrupt (ISR context).
  *      Calls the upper layers callback.
  *
  * INPUTS:  status -
  *
  * OUTPUT:  None
  *
  * RETURNS: None
  ****************************************************************************/
 static void asyncEnded_CB(TI_HANDLE hBusDrv, int status)
 {
     TBusDrvObj *pBusDrv = (TBusDrvObj*)hBusDrv;
     /* If the last transaction failed, call failure CB and exit. */
     if (status != 0)
     {
         TRACE2(pBusDrv->hReport, REPORT_SEVERITY_ERROR, "asyncEnded_CB : Status = %d, fTxnDoneCb = 0x%x\n", status,pBusDrv->fTxnDoneCb);

         TXN_PARAM_SET_STATUS(pBusDrv->pCurrTxn, TXN_PARAM_STATUS_ERROR);
     }
 	else
 	{
 		TRACE2(pBusDrv->hReport, REPORT_SEVERITY_INFORMATION,"asyncEnded_CB: Successful async cb done pBusDrv->pCurrTxn %x\n", pBusDrv->pCurrTxn);
 	}

     /* Call the upper layer CB */

     pBusDrv->fTxnDoneCb(pBusDrv->hCbHandle,pBusDrv->pCurrTxn);
 }


 /****************************************************************************
  *                      ConnectDone_CB()
  ****************************************************************************
  * DESCRIPTION:
  *      Called back by the WSPI driver from Async transaction end interrupt (ISR context).
  *      Calls the upper layers callback.
  *
  * INPUTS:  status -
  *
  * OUTPUT:  None
  *
  * RETURNS: None
  ****************************************************************************/
 static void ConnectDone_CB(TI_HANDLE hBusDrv, int status)
 {
     TBusDrvObj *pBusDrv = (TBusDrvObj*)hBusDrv;
     /* If the last transaction failed, call failure CB and exit. */
     if (status != 0)
     {
         TRACE2(pBusDrv->hReport, REPORT_SEVERITY_ERROR, "ConnectDone_CB : Status = %d, fTxnConnectDoneCb = 0x%x\n", status,pBusDrv->fTxnConnectDoneCb);

         TXN_PARAM_SET_STATUS(pBusDrv->pCurrTxn, TXN_PARAM_STATUS_ERROR);
     }
 	else
 	{
 		TRACE1 (pBusDrv->hReport, REPORT_SEVERITY_INIT, "ConnectDone_CB: Successful Connect Async cb done \n");
 	}

     /* Call the upper layer CB */

     pBusDrv->fTxnConnectDoneCb(pBusDrv->hCbHandle,pBusDrv->pCurrTxn);
 }
	/*
	* WspiBusDrv.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 WspiBusDrv.c
	* \brief The WSPI bus driver upper layer. Platform independent.
	* Uses the SpiAdapter API.
	* Introduces a generic bus-independent API upwards.
	*
	* \see BusDrv.h, SpiAdapter.h, SpiAdapter.c
	*/

	#include "tidef.h"
	#include "report.h"
	#include "osApi.h"
	#include "wspi.h"
	#include "BusDrv.h"
	#include "TxnDefs.h"
	#define __FILE_ID__ FILE_ID_124

	/************************************************************************
	* Defines
	************************************************************************/
	#define WSPI_FIXED_BUSY_LEN 1
	#define WSPI_INIT_CMD_MASK 0


	/************************************************************************
	* Types
	************************************************************************/

	/* The busDrv module Object */
	typedef struct _TBusDrvObj
	{
	TI_HANDLE hOs;
	TI_HANDLE hReport;
	TI_HANDLE hDriver;
	TI_HANDLE hWspi;

	TTxnDoneCb fTxnDoneCb; /* The callback to call upon full transaction completion. */
	TI_HANDLE hCbHandle; /* The callback handle */
	TTxnStruct * pCurrTxn; /* The transaction currently being processed */
	TI_STATUS eCurrTxnStatus; /* COMPLETE, PENDING or ERROR */
	TI_UINT32 uCurrTxnBufsCount;
	TI_BOOL bPendingByte;
	TTxnDoneCb fTxnConnectDoneCb; /* The callback to call upon full transaction completion. */


	} TBusDrvObj;


	/************************************************************************
	* Internal functions prototypes
	************************************************************************/

	static void asyncEnded_CB(TI_HANDLE hBusTxn, int status);
	static void ConnectDone_CB(TI_HANDLE hBusDrv, int status);

	/************************************************************************
	*
	* Module functions implementation
	*
	************************************************************************/

	/**
	* \fn busDrv_Create
	* \brief Create the module
	*
	* Allocate and clear the module's object.
	*
	* \note
	* \param hOs - Handle to Os Abstraction Layer
	* \return Handle of the allocated object, NULL if allocation failed
	* \sa busDrv_Destroy
	*/
	TI_HANDLE busDrv_Create (TI_HANDLE hOs)
	{
	TI_HANDLE hBusDrv;
	TBusDrvObj *pBusDrv;

	hBusDrv = os_memoryAlloc(hOs, sizeof(TBusDrvObj));
	if (hBusDrv == NULL)
	return NULL;

	pBusDrv = (TBusDrvObj *)hBusDrv;

	os_memoryZero(hOs, hBusDrv, sizeof(TBusDrvObj));

	pBusDrv->hOs = hOs;

	// addapt to WSPI

	pBusDrv->hWspi= WSPI_Open(hOs);

	return pBusDrv;
	}


	/**
	* \fn busDrv_Destroy
	* \brief Destroy the module.
	*
	* Close SPI lower bus driver and free the module's object.
	*
	* \note
	* \param The module's object
	* \return TI_OK on success or TI_NOK on failure
	* \sa busDrv_Create
	*/
	TI_STATUS busDrv_Destroy (TI_HANDLE hBusDrv)
	{
	TBusDrvObj pBusDrv = (TBusDrvObj)hBusDrv;

	if (pBusDrv)
	{
	// addapt to WSPI
	WSPI_Close(pBusDrv->hWspi);
	os_memoryFree (pBusDrv->hOs, pBusDrv, sizeof(TBusDrvObj));
	}
	return TI_OK;
	}


	/****************************************************************************
	* busDrv_Init
	****************************************************************************
	* DESCRIPTION: config the module.
	*
	* INPUTS: hBusDrv - handle to the module context
	* hReport - handle to report module context that is used when we output debug messages
	* CBFunc - The callback to call upon transaction complete (calls the tasklet).
	* CBArg - The handle for the CBFunc.
	*
	* OUTPUT: none.
	*
	* RETURNS: one of the error codes (0 => TI_OK)
	****************************************************************************/
	void busDrv_Init (TI_HANDLE hBusDrv,
	TI_HANDLE hReport)
	{
	TBusDrvObj pBusDrv = (TBusDrvObj) hBusDrv;



	pBusDrv->hReport = hReport;



	}






	/**
	* \fn busDrv_ConnectBus
	* \brief Configure bus driver
	*
	* Called by TxnQ.
	* Configure the bus driver with its connection configuration (such as baud-rate, bus width etc)
	* and establish the physical connection.
	* Done once upon init (and not per functional driver startup).
	*
	* \note
	* \param hBusDrv - The module's object
	* \param pBusDrvCfg - A union used for per-bus specific configuration.
	* \param fCbFunc - CB function for Async transaction completion (after all txn parts are completed).
	* \param hCbArg - The CB function handle
	* \return TI_OK / TI_NOK
	* \sa
	*/
	TI_STATUS busDrv_ConnectBus (TI_HANDLE hBusDrv,
	TBusDrvCfg *pBusDrvCfg,
	TBusDrvTxnDoneCb fCbFunc,
	TI_HANDLE hCbArg,
	TBusDrvTxnDoneCb fConnectCbFunc
	)
	{
	TBusDrvObj pBusDrv = (TBusDrvObj)hBusDrv;
	int iStatus;
	WSPIConfig_t wspi_config;
	WSPI_CB_T cb;

	/* Save the parameters (TxnQ callback for TxnDone events) */
	pBusDrv->fTxnDoneCb = fCbFunc;
	pBusDrv->hCbHandle = hCbArg;
	pBusDrv->fTxnConnectDoneCb = fConnectCbFunc;

	/* Configure the WSPI driver parameters */

	wspi_config.isFixedAddress = TI_FALSE;
	wspi_config.fixedBusyLength = WSPI_FIXED_BUSY_LEN;
	wspi_config.mask = WSPI_INIT_CMD_MASK;

	cb.CBFunc = ConnectDone_CB;/* The BusTxn callback called upon Async transaction end. */
	cb.CBArg = hBusDrv; /* The handle for the BusDrv. */

	/* Configure the WSPI module */
	iStatus = WSPI_Configure(pBusDrv->hWspi, pBusDrv->hReport, &wspi_config, &cb);


	if ((iStatus == 0) \|\| (iStatus == 1))
	{
	TRACE1 (pBusDrv->hReport, REPORT_SEVERITY_INIT, "busDrv_ConnectBus: called Status %d\n",iStatus);


	TRACE2 (pBusDrv->hReport, REPORT_SEVERITY_INFORMATION, "busDrv_ConnectBus: Successful Status %d\n",iStatus);
	return TI_OK;
	}
	else
	{
	TRACE2(pBusDrv->hReport, REPORT_SEVERITY_ERROR, "busDrv_ConnectBus: Status = %d,\n", iStatus);
	return TI_NOK;
	}
	}
	/**
	* \fn busDrv_DisconnectBus
	* \brief Disconnect SDIO driver
	*
	* Called by TxnQ. Disconnect the SDIO driver.
	*
	* \note
	* \param hBusDrv - The module's object
	* \return TI_OK / TI_NOK
	* \sa
	*/
	TI_STATUS busDrv_DisconnectBus (TI_HANDLE hBusDrv)
	{
	return TI_OK;
	}


	/**
	* \fn busDrv_Transact
	* \brief Process transaction
	*
	* Called by the TxnQ module to initiate a new transaction.
	* Call either write or read functions according to Txn direction field.
	*
	* \note It's assumed that this function is called only when idle (i.e. previous Txn is done).
	* \param hBusDrv - The module's object
	* \param pTxn - The transaction object
	* \return COMPLETE if Txn completed in this context, PENDING if not, ERROR if failed
	* \sa busDrv_PrepareTxnParts, busDrv_SendTxnParts
	*/
	ETxnStatus busDrv_Transact (TI_HANDLE hBusDrv, TTxnStruct *pTxn)
	{
	TBusDrvObj pBusDrv = (TBusDrvObj)hBusDrv;
	WSPI_CB_T cb;
	TI_UINT8 * tempReadBuff;
	TI_UINT8 * tempWriteBuff;
	pBusDrv->pCurrTxn = pTxn;
	pBusDrv->eCurrTxnStatus = TXN_STATUS_COMPLETE; /* The Txn is Sync as long as it continues in this context */
	cb.CBFunc = asyncEnded_CB; /* The BusTxn callback called upon Async transaction end. */
	cb.CBArg = hBusDrv; /* The handle for the BusTxnCB. */

	/* If write command */
	if (TXN_PARAM_GET_DIRECTION(pTxn) == TXN_DIRECTION_WRITE)
	{

	//WLAN_REPORT_INIT(pBusDrv->hReport, TNETW_DRV_MODULE_LOG,
	// ("busDrv_Transact: Write to pTxn->uHwAddr %x\n", pTxn->uHwAddr ));


	/*WLAN_REPORT_ERROR(pBusDrv->hReport, BUS_DRV_MODULE_LOG,
	("busDrv_Transact: Buff= %x, Len=%d\n", pTxn->aBuf[0], pTxn->aLen[0]));*/
	/1.write memory/
	/* Decrease the data pointer to the beginning of the WSPI padding */
	tempWriteBuff = pTxn->aBuf[0];
	tempWriteBuff -= WSPI_PAD_LEN_WRITE;

	/* Write the data to the WSPI in Aync mode (not completed in the current context). */
	pBusDrv->eCurrTxnStatus = WSPI_WriteAsync(pBusDrv->hWspi, pTxn->uHwAddr,tempWriteBuff,pTxn->aLen[0], &cb, TI_TRUE, TI_TRUE,TXN_PARAM_GET_FIXED_ADDR(pTxn));

	}

	/* If read command */
	else
	{
	//WLAN_REPORT_INIT(pBusDrv->hReport, TNETW_DRV_MODULE_LOG,
	// ("busDrv_Transact: Read from pTxn->uHwAddr %x pTxn %x \n", pTxn->uHwAddr,pTxn));

	/1. Read mem /
	/* Decrease the tempReadBuff pointer to the beginning of the WSPI padding */
	tempReadBuff = pTxn->aBuf[0];
	tempReadBuff -= WSPI_PAD_LEN_READ;
	/* Read the required data from the WSPI in Aync mode (not completed in the current context). */
	pBusDrv->eCurrTxnStatus = WSPI_ReadAsync(pBusDrv->hWspi, pTxn->uHwAddr,tempReadBuff,pTxn->aLen[0], &cb, TI_TRUE, TI_TRUE,TXN_PARAM_GET_FIXED_ADDR(pTxn));


	}

	/* return transaction status - COMPLETE, PENDING or ERROR */
	return (pBusDrv->eCurrTxnStatus == WSPI_TXN_COMPLETE ? TXN_STATUS_COMPLETE :
	(pBusDrv->eCurrTxnStatus == WSPI_TXN_PENDING ? TXN_STATUS_PENDING : TXN_STATUS_ERROR));


	}


	/****************************************************************************
	* asyncEnded_CB()
	****************************************************************************
	* DESCRIPTION:
	* Called back by the WSPI driver from Async transaction end interrupt (ISR context).
	* Calls the upper layers callback.
	*
	* INPUTS: status -
	*
	* OUTPUT: None
	*
	* RETURNS: None
	****************************************************************************/
	static void asyncEnded_CB(TI_HANDLE hBusDrv, int status)
	{
	TBusDrvObj pBusDrv = (TBusDrvObj)hBusDrv;
	/* If the last transaction failed, call failure CB and exit. */
	if (status != 0)
	{
	TRACE2(pBusDrv->hReport, REPORT_SEVERITY_ERROR, "asyncEnded_CB : Status = %d, fTxnDoneCb = 0x%x\n", status,pBusDrv->fTxnDoneCb);

	TXN_PARAM_SET_STATUS(pBusDrv->pCurrTxn, TXN_PARAM_STATUS_ERROR);
	}
	else
	{
	TRACE2(pBusDrv->hReport, REPORT_SEVERITY_INFORMATION,"asyncEnded_CB: Successful async cb done pBusDrv->pCurrTxn %x\n", pBusDrv->pCurrTxn);
	}

	/* Call the upper layer CB */

	pBusDrv->fTxnDoneCb(pBusDrv->hCbHandle,pBusDrv->pCurrTxn);
	}


	/****************************************************************************
	* ConnectDone_CB()
	****************************************************************************
	* DESCRIPTION:
	* Called back by the WSPI driver from Async transaction end interrupt (ISR context).
	* Calls the upper layers callback.
	*
	* INPUTS: status -
	*
	* OUTPUT: None
	*
	* RETURNS: None
	****************************************************************************/
	static void ConnectDone_CB(TI_HANDLE hBusDrv, int status)
	{
	TBusDrvObj pBusDrv = (TBusDrvObj)hBusDrv;
	/* If the last transaction failed, call failure CB and exit. */
	if (status != 0)
	{
	TRACE2(pBusDrv->hReport, REPORT_SEVERITY_ERROR, "ConnectDone_CB : Status = %d, fTxnConnectDoneCb = 0x%x\n", status,pBusDrv->fTxnConnectDoneCb);

	TXN_PARAM_SET_STATUS(pBusDrv->pCurrTxn, TXN_PARAM_STATUS_ERROR);
	}
	else
	{
	TRACE1 (pBusDrv->hReport, REPORT_SEVERITY_INIT, "ConnectDone_CB: Successful Connect Async cb done \n");
	}

	/* Call the upper layer CB */

	pBusDrv->fTxnConnectDoneCb(pBusDrv->hCbHandle,pBusDrv->pCurrTxn);
	}