uboot-1.1.4-kirkwood/board/mv_feroceon/mv_hal/twsi/mvTwsi.c

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*******************************************************************************/


#include "mvTwsi.h"
#include "mvTwsiSpec.h"
#include "cpu/mvCpu.h"


/*#define MV_DEBUG*/
#ifdef MV_DEBUG
#define DB(x) x
#else
#define DB(x)
#endif

static MV_VOID twsiIntFlgClr(MV_U8 chanNum);
static MV_BOOL twsiMainIntGet(MV_U8 chanNum);
static MV_VOID twsiAckBitSet(MV_U8 chanNum);
static MV_U32 twsiStsGet(MV_U8 chanNum);
static MV_VOID twsiReset(MV_U8 chanNum);
static MV_STATUS twsiAddr7BitSet(MV_U8 chanNum, MV_U32 deviceAddress,MV_TWSI_CMD command);
static MV_STATUS twsiAddr10BitSet(MV_U8 chanNum, MV_U32 deviceAddress,MV_TWSI_CMD command);
static MV_STATUS twsiDataTransmit(MV_U8 chanNum, MV_U8 *pBlock, MV_U32 blockSize);
static MV_STATUS twsiDataReceive(MV_U8 chanNum, MV_U8 *pBlock, MV_U32 blockSize);
static MV_STATUS twsiTargetOffsSet(MV_U8 chanNum, MV_U32 offset,MV_BOOL moreThen256);


MV_BOOL twsiTimeoutChk(MV_U32 timeout, MV_U8 *pString)
{
	if(timeout >= TWSI_TIMEOUT_VALUE)
	{
		DB(mvOsPrintf("%s",pString));
		return MV_TRUE;
	}
	return MV_FALSE;
	
}
/*******************************************************************************
* mvTwsiStartBitSet - Set start bit on the bus
*
* DESCRIPTION:
*       This routine sets the start bit on the TWSI bus. 
*       The routine first checks for interrupt flag condition, then it sets 
*       the start bit  in the TWSI Control register. 
*       If the interrupt flag condition check previously was set, the function 
*       will clear it.
*       The function then wait for the start bit to be cleared by the HW. 
*       Then it waits for the interrupt flag to be set and eventually, the 
*       TWSI status is checked to be 0x8 or 0x10(repeated start bit).
*
* INPUT:
*       chanNum - TWSI channel.
*
* OUTPUT:
*       None.
*
* RETURN:
*       MV_OK is start bit was set successfuly on the bus.
*       MV_FAIL if interrupt flag was set before setting start bit.
*
*******************************************************************************/
MV_STATUS mvTwsiStartBitSet(MV_U8 chanNum)
{
	MV_BOOL isIntFlag = MV_FALSE;
	MV_U32 timeout, temp;

	DB(mvOsPrintf("TWSI: mvTwsiStartBitSet \n"));
	/* check Int flag */
    	if(twsiMainIntGet(chanNum))
		isIntFlag = MV_TRUE;
	/* set start Bit */
    	temp = MV_REG_READ(TWSI_CONTROL_REG(chanNum));
	MV_REG_WRITE(TWSI_CONTROL_REG(chanNum), temp | TWSI_CONTROL_START_BIT);
	
	/* in case that the int flag was set before i.e. repeated start bit */
	if(isIntFlag){
		DB(mvOsPrintf("TWSI: mvTwsiStartBitSet repeated start Bit\n"));
		twsiIntFlgClr(chanNum);
	}
	
   	/* wait for interrupt */
	timeout = 0;
	while(!twsiMainIntGet(chanNum) && (timeout++ < TWSI_TIMEOUT_VALUE));
	
	/* check for timeout */	
	if(MV_TRUE == twsiTimeoutChk(timeout,(MV_U8 *)"TWSI: mvTwsiStartBitSet ERROR - Start Clear bit TimeOut .\n"))
		return MV_TIMEOUT;


	/* check that start bit went down */
	if((MV_REG_READ(TWSI_CONTROL_REG(chanNum)) & TWSI_CONTROL_START_BIT) != 0)
	{
		mvOsPrintf("TWSI: mvTwsiStartBitSet ERROR - start bit didn't went down\n");
		return MV_FAIL;
	}	

	/* check the status */
	temp = twsiStsGet(chanNum);
	if(( temp != TWSI_START_CON_TRA ) && ( temp != TWSI_REPEATED_START_CON_TRA ))
	  {
		mvOsPrintf("TWSI: mvTwsiStartBitSet ERROR - status %x after Set Start Bit. \n",temp);
		return MV_FAIL;
	}

	return MV_OK;	

}

/*******************************************************************************
* mvTwsiStopBitSet - Set stop bit on the bus
*
* DESCRIPTION:
*       This routine set the stop bit on the TWSI bus. 
*       The function then wait for the stop bit to be cleared by the HW. 
*       Finally the function checks for status of 0xF8.
*
* INPUT:
*	chanNum - TWSI channel
*
* OUTPUT:
*       None.
*
* RETURN:
*       MV_TRUE is stop bit was set successfuly on the bus.
*
*******************************************************************************/
MV_STATUS mvTwsiStopBitSet(MV_U8 chanNum)
{
    	MV_U32	timeout, temp;

    	/* Generate stop bit */
	temp = MV_REG_READ(TWSI_CONTROL_REG(chanNum));
    	MV_REG_WRITE(TWSI_CONTROL_REG(chanNum), temp | TWSI_CONTROL_STOP_BIT);

	twsiIntFlgClr(chanNum);
		
   	/* wait for stop bit to come down */
	timeout = 0;
	while( ((MV_REG_READ(TWSI_CONTROL_REG(chanNum)) & TWSI_CONTROL_STOP_BIT) != 0) && (timeout++ < TWSI_TIMEOUT_VALUE));

	/* check for timeout */
	if(MV_TRUE == twsiTimeoutChk(timeout,(MV_U8 *)"TWSI: mvTwsiStopBitSet ERROR - Stop bit TimeOut .\n"))
		return MV_TIMEOUT;
	
	/* check that the stop bit went down */
	if((MV_REG_READ(TWSI_CONTROL_REG(chanNum)) & TWSI_CONTROL_STOP_BIT) != 0)	
	{
		mvOsPrintf("TWSI: mvTwsiStopBitSet ERROR - stop bit didn't went down. \n");
		return MV_FAIL;
	}
	
	/* check the status */
	temp = twsiStsGet(chanNum);
	if( temp != TWSI_NO_REL_STS_INT_FLAG_IS_KEPT_0){
		mvOsPrintf("TWSI: mvTwsiStopBitSet ERROR - status %x after Stop Bit. \n", temp);
		return MV_FAIL;
	}

	return MV_OK;
}

/*******************************************************************************
* twsiMainIntGet - Get twsi bit from main Interrupt cause.
*
* DESCRIPTION:
*       This routine returns the twsi interrupt flag value.
*       
* INPUT:
*       None.
*
* OUTPUT:
*       None.
*
* RETURN:
*       MV_TRUE is interrupt flag is set, MV_FALSE otherwise.
*
*******************************************************************************/
static MV_BOOL twsiMainIntGet(MV_U8 chanNum)
{
	MV_U32 temp;
	
	/* get the int flag bit */

	temp = MV_REG_READ(TWSI_CPU_MAIN_INT_CAUSE_REG);
	if (temp & (TWSI0_CPU_MAIN_INT_BIT << chanNum))
	    return MV_TRUE;
    
	return MV_FALSE;
}
/*******************************************************************************
* twsiIntFlgClr - Clear Interrupt flag.
*
* DESCRIPTION:
*       This routine clears the interrupt flag. It does NOT poll the interrupt
*       to make sure the clear. After clearing the interrupt, it waits for at 
*       least 1 miliseconds.
*
* INPUT:
*	chanNum - TWSI channel
*
* OUTPUT:
*       None.
*
* RETURN:
*       None.
*
*******************************************************************************/
static MV_VOID twsiIntFlgClr(MV_U8 chanNum)
{
	MV_U32 temp;

	/* wait for 1 mili to prevent TWSI register write after write problems */
   	mvOsDelay(1);
	/* clear the int flag bit */
	temp = MV_REG_READ(TWSI_CONTROL_REG(chanNum));
    	MV_REG_WRITE(TWSI_CONTROL_REG(chanNum),temp & ~(TWSI_CONTROL_INT_FLAG_SET));

	/* wait for 1 mili sec for the clear to take effect */
   	mvOsDelay(1);
	
	return;
}


/*******************************************************************************
* twsiAckBitSet - Set acknowledge bit on the bus
*
* DESCRIPTION:
*       This routine set the acknowledge bit on the TWSI bus.
*
* INPUT:
*       None.
*
* OUTPUT:
*       None.
*
* RETURN:
*       None.
*
*******************************************************************************/
static MV_VOID twsiAckBitSet(MV_U8 chanNum)
{
	MV_U32 temp;

	/*Set the Ack bit */
	temp = MV_REG_READ(TWSI_CONTROL_REG(chanNum));
    	MV_REG_WRITE(TWSI_CONTROL_REG(chanNum), temp | TWSI_CONTROL_ACK);

	/* Add delay of 1ms */
	mvOsDelay(1);
	return;
}


/*******************************************************************************
* twsiInit - Initialize TWSI interface
*
* DESCRIPTION:
*       This routine:
*	-Reset the TWSI.
*	-Initialize the TWSI clock baud rate according to given frequancy
*	 parameter based on Tclk frequancy and enables TWSI slave.
*       -Set the ack bit.
*	-Assign the TWSI slave address according to the TWSI address Type.
*       
*
* INPUT:
*	chanNum - TWSI channel
*       frequancy - TWSI frequancy in KHz. (up to 100KHZ)
*
* OUTPUT:
*       None.
*
* RETURN:
*       Actual frequancy.
*
*******************************************************************************/
MV_U32 mvTwsiInit(MV_U8 chanNum, MV_HZ frequancy, MV_U32 Tclk, MV_TWSI_ADDR *pTwsiAddr, MV_BOOL generalCallEnable)
{
    	MV_U32	n,m,freq,margin,minMargin = 0xffffffff;
	MV_U32	power;
    	MV_U32	actualFreq = 0,actualN = 0,actualM = 0,val;

	if(frequancy > 100000)
	{
		mvOsPrintf("Warning TWSI frequancy is too high, please use up tp 100Khz. \n");
	}

	DB(mvOsPrintf("TWSI: mvTwsiInit - Tclk = %d freq = %d\n",Tclk,frequancy));
    	/* Calucalte N and M for the TWSI clock baud rate */
    	for(n = 0 ; n < 8 ; n++)
    	{
        	for(m = 0 ; m < 16 ; m++)
        	{
            		power = 2 << n; /* power = 2^(n+1) */
            		freq = Tclk/(10*(m+1)*power);
            		margin = MV_ABS(frequancy - freq);
            		if(margin < minMargin)
            		{
                		minMargin   = margin;
                		actualFreq  = freq;
                		actualN     = n;
                		actualM     = m;
            		}
        	}
		}
	DB(mvOsPrintf("TWSI: mvTwsiInit - actN %d actM %d actFreq %d\n",actualN , actualM, actualFreq));
	/* Reset the TWSI logic */
	twsiReset(chanNum);

	/* Set the baud rate */
	val = ((actualM<< TWSI_BAUD_RATE_M_OFFS) | actualN << TWSI_BAUD_RATE_N_OFFS);
    	MV_REG_WRITE(TWSI_STATUS_BAUDE_RATE_REG(chanNum),val);

    	/* Enable the TWSI and slave */
	MV_REG_WRITE(TWSI_CONTROL_REG(chanNum), TWSI_CONTROL_ENA | TWSI_CONTROL_ACK); 

	/* set the TWSI slave address */
	if( pTwsiAddr->type == ADDR10_BIT )/* 10 Bit deviceAddress */
    	{
		/* writing the 2 most significant bits of the 10 bit address*/
		val = ((pTwsiAddr->address & TWSI_SLAVE_ADDR_10BIT_MASK) >> TWSI_SLAVE_ADDR_10BIT_OFFS );
		/* bits 7:3 must be 0x11110 */
		val |= TWSI_SLAVE_ADDR_10BIT_CONST;
		/* set GCE bit */
		if(generalCallEnable)
			val |= TWSI_SLAVE_ADDR_GCE_ENA;
		/* write slave address */
		MV_REG_WRITE(TWSI_SLAVE_ADDR_REG(chanNum),val);

         	/* writing the 8 least significant bits of the 10 bit address*/
        	val = (pTwsiAddr->address << TWSI_EXTENDED_SLAVE_OFFS) & TWSI_EXTENDED_SLAVE_MASK;  
        	MV_REG_WRITE(TWSI_EXTENDED_SLAVE_ADDR_REG(chanNum), val);
    	}
    	else /*7 bit address*/
    	{
		/* set the 7 Bits address */
        	MV_REG_WRITE(TWSI_EXTENDED_SLAVE_ADDR_REG(chanNum),0x0);
		val = (pTwsiAddr->address << TWSI_SLAVE_ADDR_7BIT_OFFS) & TWSI_SLAVE_ADDR_7BIT_MASK;
        	MV_REG_WRITE(TWSI_SLAVE_ADDR_REG(chanNum), val);
    	}

	/* unmask twsi int */
    val = MV_REG_READ(TWSI_CONTROL_REG(chanNum));
	MV_REG_WRITE(TWSI_CONTROL_REG(chanNum), val | TWSI_CONTROL_INT_ENA);
	/* Add delay of 1ms */
	mvOsDelay(1);
	
   return actualFreq;
} 


/*******************************************************************************
* twsiStsGet - Get the TWSI status value.
*
* DESCRIPTION:
*       This routine returns the TWSI status value.
*
* INPUT:
*	chanNum - TWSI channel
*
* OUTPUT:
*       None.
*
* RETURN:
*       MV_U32 - the TWSI status.
*
*******************************************************************************/
static MV_U32 twsiStsGet(MV_U8 chanNum)
{
    return MV_REG_READ(TWSI_STATUS_BAUDE_RATE_REG(chanNum));

}

/*******************************************************************************
* twsiReset - Reset the TWSI.
*
* DESCRIPTION:
*       Resets the TWSI logic and sets all TWSI registers to their reset values.
*
* INPUT:
*      chanNum - TWSI channel
*
* OUTPUT:
*       None.
*
* RETURN:
*       None
*
*******************************************************************************/
static MV_VOID twsiReset(MV_U8 chanNum)
{
    	/* Reset the TWSI logic */
    	MV_REG_WRITE(TWSI_SOFT_RESET_REG(chanNum),0);

	/* wait for 2 mili sec */
   	mvOsDelay(2);

	return;
}




/******************************* POLICY ****************************************/



/*******************************************************************************
* mvTwsiAddrSet - Set address on TWSI bus.
*
* DESCRIPTION:
*       This function Set address (7 or 10 Bit address) on the Twsi Bus.
*
* INPUT:
*	chanNum - TWSI channel
*       pTwsiAddr - twsi address.
*	command	 - read / write .
*
* OUTPUT:
*       None.
*
* RETURN:
*       MV_OK - if setting the address completed succesfully.
*	MV_FAIL otherwmise.
*
*******************************************************************************/
MV_STATUS mvTwsiAddrSet(MV_U8 chanNum, MV_TWSI_ADDR *pTwsiAddr, MV_TWSI_CMD command)
{
	DB(mvOsPrintf("TWSI: mvTwsiAddr7BitSet addr %x , type %d, cmd is %s\n",pTwsiAddr->address,\
		 			pTwsiAddr->type, ((command==MV_TWSI_WRITE)?"Write":"Read") ));
	/* 10 Bit address */
	if(pTwsiAddr->type == ADDR10_BIT)
	{
		return twsiAddr10BitSet(chanNum, pTwsiAddr->address,command);
	}
	/* 7 Bit address */
	else
	{
		return twsiAddr7BitSet(chanNum, pTwsiAddr->address,command);
	}

}

/*******************************************************************************
* twsiAddr10BitSet - Set 10 Bit address on TWSI bus.
*
* DESCRIPTION:
*       There are two address phases:
*       1) Write '11110' to data register bits [7:3] and 10-bit address MSB 
*          (bits [9:8]) to data register bits [2:1] plus a write(0) or read(1) bit 
*          to the Data register. Then it clears interrupt flag which drive 
*          the address on the TWSI bus. The function then waits for interrupt 
*          flag to be active and status 0x18 (write) or 0x40 (read) to be set.
*       2) write the rest of 10-bit address to data register and clears 
*          interrupt flag which drive the address on the TWSI bus. The 
*          function then waits for interrupt flag to be active and status 
*          0xD0 (write) or 0xE0 (read) to be set. 
*
* INPUT:
*	chanNum - TWSI channel
*       deviceAddress - twsi address.
*	command	 - read / write .
*
* OUTPUT:
*       None.
*
* RETURN:
*       MV_OK - if setting the address completed succesfully.
*	MV_FAIL otherwmise.
*
*******************************************************************************/
static MV_STATUS twsiAddr10BitSet(MV_U8 chanNum, MV_U32 deviceAddress,MV_TWSI_CMD command)
{
	MV_U32 val,timeout;

	/* writing the 2 most significant bits of the 10 bit address*/
	val = ((deviceAddress & TWSI_DATA_ADDR_10BIT_MASK) >> TWSI_DATA_ADDR_10BIT_OFFS );
	/* bits 7:3 must be 0x11110 */
	val |= TWSI_DATA_ADDR_10BIT_CONST;
	/* set command */
	val |= command;
	MV_REG_WRITE(TWSI_DATA_REG(chanNum), val);
	/* WA add a delay */
	mvOsDelay(1);

	/* clear Int flag */
	twsiIntFlgClr(chanNum);

	/* wait for Int to be Set */
	timeout = 0;
	while( !twsiMainIntGet(chanNum) && (timeout++ < TWSI_TIMEOUT_VALUE));

	/* check for timeout */
	if(MV_TRUE == twsiTimeoutChk(timeout,(MV_U8 *)"TWSI: twsiAddr10BitSet ERROR - 1st addr (10Bit) Int TimeOut.\n"))
		return MV_TIMEOUT;
	
	/* check the status */
	val = twsiStsGet(chanNum);
	if(( (val != TWSI_AD_PLS_RD_BIT_TRA_ACK_REC) && (command == MV_TWSI_READ ) ) || 
	   ( (val != TWSI_AD_PLS_WR_BIT_TRA_ACK_REC) && (command == MV_TWSI_WRITE) ))
	{
		mvOsPrintf("TWSI: twsiAddr10BitSet ERROR - status %x 1st addr (10 Bit) in %s mode.\n"\
						,val, ((command==MV_TWSI_WRITE)?"Write":"Read") );
		return MV_FAIL;
	}

	/* set 	8 LSB of the address */
	val = (deviceAddress << TWSI_DATA_ADDR_7BIT_OFFS) & TWSI_DATA_ADDR_7BIT_MASK;
	MV_REG_WRITE(TWSI_DATA_REG(chanNum), val);

	/* clear Int flag */
	twsiIntFlgClr(chanNum);

	/* wait for Int to be Set */
	timeout = 0;
	while( !twsiMainIntGet(chanNum) && (timeout++ < TWSI_TIMEOUT_VALUE));

	/* check for timeout */
	if(MV_TRUE == twsiTimeoutChk(timeout,(MV_U8 *)"TWSI: twsiAddr10BitSet ERROR - 2nd (10 Bit) Int TimOut.\n"))
		return MV_TIMEOUT;
	
	/* check the status */
	val = twsiStsGet(chanNum);
	if(( (val != TWSI_SEC_AD_PLS_RD_BIT_TRA_ACK_REC) && (command == MV_TWSI_READ ) ) || 
	   ( (val != TWSI_SEC_AD_PLS_WR_BIT_TRA_ACK_REC) && (command == MV_TWSI_WRITE) ))
	{
		mvOsPrintf("TWSI: twsiAddr10BitSet ERROR - status %x 2nd addr(10 Bit) in %s mode.\n"\
						,val, ((command==MV_TWSI_WRITE)?"Write":"Read") );
		return MV_FAIL;
	}
	
	return MV_OK;
}

/*******************************************************************************
* twsiAddr7BitSet - Set 7 Bit address on TWSI bus.
*
* DESCRIPTION:
*       This function writes 7 bit address plus a write or read bit to the 
*       Data register. Then it clears interrupt flag which drive the address on 
*       the TWSI bus. The function then waits for interrupt flag to be active
*       and status 0x18 (write) or 0x40 (read) to be set.
*
* INPUT:
*	chanNum - TWSI channel
*       deviceAddress - twsi address.
*	command	 - read / write .
*
* OUTPUT:
*       None.
*
* RETURN:
*       MV_OK - if setting the address completed succesfully.
*	MV_FAIL otherwmise.
*
*******************************************************************************/
static MV_STATUS twsiAddr7BitSet(MV_U8 chanNum, MV_U32 deviceAddress,MV_TWSI_CMD command)
{
	MV_U32 val,timeout;

	/* set the address */
	val = (deviceAddress << TWSI_DATA_ADDR_7BIT_OFFS) & TWSI_DATA_ADDR_7BIT_MASK;
	/* set command */
	val |= command;	
	MV_REG_WRITE(TWSI_DATA_REG(chanNum), val);
	/* WA add a delay */
	mvOsDelay(1);

	/* clear Int flag */
	twsiIntFlgClr(chanNum);

	/* wait for Int to be Set */
	timeout = 0;
	while( !twsiMainIntGet(chanNum) && (timeout++ < TWSI_TIMEOUT_VALUE));

	/* check for timeout */
	if(MV_TRUE == twsiTimeoutChk(timeout,(MV_U8 *)"TWSI: twsiAddr7BitSet ERROR - Addr (7 Bit) int TimeOut.\n"))
		return MV_TIMEOUT;
	
	/* check the status */
	val = twsiStsGet(chanNum);
	if(( (val != TWSI_AD_PLS_RD_BIT_TRA_ACK_REC) && (command == MV_TWSI_READ ) ) || 
	   ( (val != TWSI_AD_PLS_WR_BIT_TRA_ACK_REC) && (command == MV_TWSI_WRITE) ))
	{
		/* only in debug, since in boot we try to read the SPD of both DRAM, and we don't
			want error messeges in case DIMM doesn't exist. */
		DB(mvOsPrintf("TWSI: twsiAddr7BitSet ERROR - status %x addr (7 Bit) in %s mode.\n"\
						,val,((command==MV_TWSI_WRITE)?"Write":"Read") ));
		return MV_FAIL;
	}
	
	return MV_OK;
}

/*******************************************************************************
* twsiDataWrite - Trnasmit a data block over TWSI bus.
*
* DESCRIPTION:
*       This function writes a given data block to TWSI bus in 8 bit granularity.
*	first The function waits for interrupt flag to be active then
*       For each 8-bit data:
*        The function writes data to data register. It then clears 
*        interrupt flag which drives the data on the TWSI bus. 
*        The function then waits for interrupt flag to be active and status 
*        0x28 to be set. 
*      
*
* INPUT:
*	chanNum - TWSI channel
*       pBlock - Data block.
*	blockSize - number of chars in pBlock.
*
* OUTPUT:
*       None.
*
* RETURN:
*       MV_OK - if transmiting the block completed succesfully,
*	MV_BAD_PARAM - if pBlock is NULL,
*	MV_FAIL otherwmise.
*
*******************************************************************************/
static MV_STATUS twsiDataTransmit(MV_U8 chanNum, MV_U8 *pBlock, MV_U32 blockSize)
{
	MV_U32 timeout, temp, blockSizeWr = blockSize;

	if(NULL == pBlock)
		return MV_BAD_PARAM;

	/* wait for Int to be Set */
	timeout = 0;
	while( !twsiMainIntGet(chanNum) && (timeout++ < TWSI_TIMEOUT_VALUE));

	/* check for timeout */
	if(MV_TRUE == twsiTimeoutChk(timeout,(MV_U8 *)"TWSI: twsiDataTransmit ERROR - Read Data Int TimeOut.\n"))
		return MV_TIMEOUT;

	while(blockSizeWr)
	{
		/* write the data*/
		MV_REG_WRITE(TWSI_DATA_REG(chanNum),(MV_U32)*pBlock);
		DB(mvOsPrintf("TWSI: twsiDataTransmit place = %d write %x \n",\
						blockSize - blockSizeWr, *pBlock));
		pBlock++;
		blockSizeWr--;

		twsiIntFlgClr(chanNum);

		/* wait for Int to be Set */
		timeout = 0;
		while( !twsiMainIntGet(chanNum) && (timeout++ < TWSI_TIMEOUT_VALUE));

		/* check for timeout */
		if(MV_TRUE == twsiTimeoutChk(timeout,(MV_U8 *)"TWSI: twsiDataTransmit ERROR - Read Data Int TimeOut.\n"))
			return MV_TIMEOUT;

		/* check the status */
		temp = twsiStsGet(chanNum);
		if(temp != TWSI_M_TRAN_DATA_BYTE_ACK_REC) 
		{
			mvOsPrintf("TWSI: twsiDataTransmit ERROR - status %x in write trans\n",temp);
			return MV_FAIL;
		}
		
	}

	return MV_OK;
}

/*******************************************************************************
* twsiDataReceive - Receive data block from TWSI bus.
*
* DESCRIPTION:
*       This function receive data block from TWSI bus in 8bit granularity 
*       into pBlock buffer.
*	first The function waits for interrupt flag to be active then
*       For each 8-bit data:
*        It clears the interrupt flag which allows the next data to be 
*        received from TWSI bus.
*	 The function waits for interrupt flag to be active,
*	 and status reg is 0x50. 
*	 Then the function reads data from data register, and copies it to 
*	 the given buffer. 
*
* INPUT:
*	chanNum - TWSI channel
*       blockSize - number of bytes to read.
*
* OUTPUT:
*       pBlock - Data block.
*
* RETURN:
*       MV_OK - if receive transaction completed succesfully,
*	MV_BAD_PARAM - if pBlock is NULL,
*	MV_FAIL otherwmise.
*
*******************************************************************************/
static MV_STATUS twsiDataReceive(MV_U8 chanNum, MV_U8 *pBlock, MV_U32 blockSize)
{
	MV_U32 timeout, temp, blockSizeRd = blockSize;
	if(NULL == pBlock)
		return MV_BAD_PARAM;

	/* wait for Int to be Set */
	timeout = 0;
	while( !twsiMainIntGet(chanNum) && (timeout++ < TWSI_TIMEOUT_VALUE));

	/* check for timeout */
	if(MV_TRUE == twsiTimeoutChk(timeout,(MV_U8 *)"TWSI: twsiDataReceive ERROR - Read Data int Time out .\n"))
		return MV_TIMEOUT;

	while(blockSizeRd)
	{
		if(blockSizeRd == 1)
		{
			/* clear ack and Int flag */
			temp = MV_REG_READ(TWSI_CONTROL_REG(chanNum));
			temp &=  ~(TWSI_CONTROL_ACK);
			MV_REG_WRITE(TWSI_CONTROL_REG(chanNum), temp);
		}
		twsiIntFlgClr(chanNum);
		/* wait for Int to be Set */
		timeout = 0;
		while( (!twsiMainIntGet(chanNum)) && (timeout++ < TWSI_TIMEOUT_VALUE));

		/* check for timeout */
		if(MV_TRUE == twsiTimeoutChk(timeout,(MV_U8 *)"TWSI: twsiDataReceive ERROR - Read Data Int Time out .\n"))
			return MV_TIMEOUT;

		/* check the status */
		temp = twsiStsGet(chanNum);
		if((temp != TWSI_M_REC_RD_DATA_ACK_TRA) && (blockSizeRd !=1))
		{
			mvOsPrintf("TWSI: twsiDataReceive ERROR - status %x in read trans \n",temp);
			return MV_FAIL;
		}
		else if((temp != TWSI_M_REC_RD_DATA_ACK_NOT_TRA) && (blockSizeRd ==1))
		{
			mvOsPrintf("TWSI: twsiDataReceive ERROR - status %x in Rd Terminate\n",temp);
			return MV_FAIL;
		}
		
		/* read the data*/
		*pBlock = (MV_U8)MV_REG_READ(TWSI_DATA_REG(chanNum));
		DB(mvOsPrintf("TWSI: twsiDataReceive  place %d read %x \n",\
						blockSize - blockSizeRd,*pBlock));
		pBlock++;
		blockSizeRd--;
	}

	return MV_OK;
}



/*******************************************************************************
* twsiTargetOffsSet - Set TWST target offset on TWSI bus.
*
* DESCRIPTION:
*       The function support TWSI targets that have inside address space (for
*       example EEPROMs). The function:
*       1) Convert the given offset into pBlock and size.
*		in case the offset should be set to a TWSI slave which support 
*		more then 256 bytes offset, the offset setting will be done
*		in 2 transactions.
*       2) Use twsiDataTransmit to place those on the bus.
*
* INPUT:
*	chanNum - TWSI channel
*       offset - offset to be set on the EEPROM device.
*	moreThen256 - whether the EEPROM device support more then 256 byte offset. 
*
* OUTPUT:
*       None.
*
* RETURN:
*       MV_OK - if setting the offset completed succesfully.
*	MV_FAIL otherwmise.
*
*******************************************************************************/
static MV_STATUS twsiTargetOffsSet(MV_U8 chanNum, MV_U32 offset, MV_BOOL moreThen256)
{
	MV_U8 offBlock[4];
	MV_U32 offSize;
	
	if(moreThen256 == MV_TRUE)
	{
		offBlock[0] = (offset >> 24) & 0xff;
		offBlock[1] = (offset >> 16) & 0xff;
		offBlock[2] = (offset >> 8) & 0xff;
		offBlock[3] = offset & 0xff;
		offSize = 4;
	}
	else
	{
		offBlock[0] = offset & 0xff;
		offSize = 1;
	}

	DB(mvOsPrintf("TWSI: twsiTargetOffsSet offSize = %x addr1 = %x addr2 = %x\n",\
							offSize,offBlock[0],offBlock[1]));
	return twsiDataTransmit(chanNum, offBlock, offSize);

}

/*******************************************************************************
* mvTwsiRead - Read data block from a TWSI Slave.
*
* DESCRIPTION:
*       The function calls the following functions:
*       -) mvTwsiStartBitSet();
*	if(EEPROM device)
*       	-) mvTwsiAddrSet(w);
*       	-) twsiTargetOffsSet();
*       	-) mvTwsiStartBitSet();
*       -) mvTwsiAddrSet(r);
*       -) twsiDataReceive();
*       -) mvTwsiStopBitSet();
*
* INPUT:
*	chanNum - TWSI channel
*      	pTwsiSlave - Twsi Slave structure. 
*       blockSize - number of bytes to read.	
*
* OUTPUT:
*      	pBlock - Data block.
*
* RETURN:
*       MV_OK - if EEPROM read transaction completed succesfully,
* 	MV_BAD_PARAM - if pBlock is NULL,
*	MV_FAIL otherwmise.
*
*******************************************************************************/
MV_STATUS mvTwsiRead(MV_U8 chanNum, MV_TWSI_SLAVE *pTwsiSlave, MV_U8 *pBlock, MV_U32 blockSize)
{
	if((NULL == pBlock) || (NULL == pTwsiSlave))
		return MV_BAD_PARAM;
	if(MV_OK != mvTwsiStartBitSet(chanNum))
	{
		mvTwsiStopBitSet(chanNum);
		 return MV_FAIL;
	}
	
	DB(mvOsPrintf("TWSI: mvTwsiEepromRead after mvTwsiStartBitSet\n"));
	
	/* in case offset exsist (i.e. eeprom ) */
	if(MV_TRUE == pTwsiSlave->validOffset)
	{
		if(MV_OK != mvTwsiAddrSet(chanNum, &(pTwsiSlave->slaveAddr), MV_TWSI_WRITE)) 
		{
			mvTwsiStopBitSet(chanNum);
			return MV_FAIL;
		} 
		DB(mvOsPrintf("TWSI: mvTwsiEepromRead after mvTwsiAddrSet\n"));
		if(MV_OK != twsiTargetOffsSet(chanNum, pTwsiSlave->offset, pTwsiSlave->moreThen256)) 
		{
			mvTwsiStopBitSet(chanNum);
			return MV_FAIL;
		}
		DB(mvOsPrintf("TWSI: mvTwsiEepromRead after twsiTargetOffsSet\n"));
		if(MV_OK != mvTwsiStartBitSet(chanNum)) 
		{
			mvTwsiStopBitSet(chanNum);
			return MV_FAIL;
		}
		DB(mvOsPrintf("TWSI: mvTwsiEepromRead after mvTwsiStartBitSet\n"));
	}
	if(MV_OK != mvTwsiAddrSet(chanNum, &(pTwsiSlave->slaveAddr), MV_TWSI_READ)) 
	{
		mvTwsiStopBitSet(chanNum);
		return MV_FAIL;
	} 
	DB(mvOsPrintf("TWSI: mvTwsiEepromRead after mvTwsiAddrSet\n"));
	if(MV_OK != twsiDataReceive(chanNum, pBlock, blockSize))
	{
		mvTwsiStopBitSet(chanNum);
		return MV_FAIL;
	}
	DB(mvOsPrintf("TWSI: mvTwsiEepromRead after twsiDataReceive\n"));

	if(MV_OK != mvTwsiStopBitSet(chanNum))
	{
		return MV_FAIL;
	}

	twsiAckBitSet(chanNum);

	DB(mvOsPrintf("TWSI: mvTwsiEepromRead after mvTwsiStopBitSet\n"));

	return MV_OK;
}

/*******************************************************************************
* mvTwsiWrite - Write data block to a TWSI Slave.
*
* DESCRIPTION:
*       The function calls the following functions:
*       -) mvTwsiStartBitSet();
*       -) mvTwsiAddrSet();
*	-)if(EEPROM device)
*       	-) twsiTargetOffsSet();
*       -) twsiDataTransmit();
*       -) mvTwsiStopBitSet();
*
* INPUT:
*	chanNum - TWSI channel
*      	eepromAddress - eeprom address. 
*       blockSize - number of bytes to write.	
*      	pBlock - Data block.
*
* OUTPUT:
*	None
*
* RETURN:
*       MV_OK - if EEPROM read transaction completed succesfully.
*	MV_BAD_PARAM - if pBlock is NULL,
*	MV_FAIL otherwmise.
*
* NOTE: Part of the EEPROM, required that the offset will be aligned to the
*	max write burst supported.
*******************************************************************************/
MV_STATUS mvTwsiWrite(MV_U8 chanNum, MV_TWSI_SLAVE *pTwsiSlave, MV_U8 *pBlock, MV_U32 blockSize)
{
	if((NULL == pBlock) || (NULL == pTwsiSlave))
		return MV_BAD_PARAM;

	if(MV_OK != mvTwsiStartBitSet(chanNum)) 
	{
		mvTwsiStopBitSet(chanNum);
		return MV_FAIL;
	}

	DB(mvOsPrintf("TWSI: mvTwsiEepromWrite after mvTwsiStartBitSet\n"));
	if(MV_OK != mvTwsiAddrSet(chanNum, &(pTwsiSlave->slaveAddr), MV_TWSI_WRITE))
	{
		mvTwsiStopBitSet(chanNum);
		return MV_FAIL;
	}
	DB(mvOsPrintf("TWSI :mvTwsiEepromWrite after mvTwsiAddrSet\n"));

	/* in case offset exsist (i.e. eeprom ) */
	if(MV_TRUE == pTwsiSlave->validOffset)
	{
		if(MV_OK != twsiTargetOffsSet(chanNum, pTwsiSlave->offset, pTwsiSlave->moreThen256)) 
		{
			mvTwsiStopBitSet(chanNum);
			return MV_FAIL;
		}
		DB(mvOsPrintf("TWSI: mvTwsiEepromWrite after twsiTargetOffsSet\n"));
	}
	if(MV_OK != twsiDataTransmit(chanNum, pBlock, blockSize)) 
	{
		mvTwsiStopBitSet(chanNum);
		return MV_FAIL;
	}
	DB(mvOsPrintf("TWSI: mvTwsiEepromWrite after twsiDataTransmit\n"));
	if(MV_OK != mvTwsiStopBitSet(chanNum)) 
	{
		return MV_FAIL;
	}
	DB(mvOsPrintf("TWSI: mvTwsiEepromWrite after mvTwsiStopBitSet\n"));

	return MV_OK;
}