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/* -*- linux-c -*- */

/* 
 *
 * $Id: io.c,v 1.15 2002/09/20 20:49:36 germeier Exp $
 *
 * Library for USB MPIO-*
 *
 * Markus Germeier (mager@tzi.de)
 *
 * uses code from mpio_stat.c by
 * Yuji Touya (salmoon@users.sourceforge.net)
 *
 * 
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License as
 * published by the Free Software Foundation; either version 2 of the
 * License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
 *
 * */

/* 
 *
 * low level I/O 
 *
 *
 */

#include <unistd.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#include "io.h"
#include "debug.h"
#include "ecc.h"

BYTE model2externalmem(mpio_model_t);
WORD index2blockaddress(WORD);
WORD cluster2blockaddress(DWORD, BYTE);
int  cluster2block(int mem, int sector);
void fatentry2hw(mpio_fatentry_t *, BYTE *, DWORD *);

BYTE 
model2externalmem(mpio_model_t model)
{
  BYTE m;

  switch(model) 
    {
    case MPIO_MODEL_DMG:
    case MPIO_MODEL_DMG_PLUS:
      m = 0x80;
      break;
    default:
      m = 0x10;
    }

  return m;
}      

void 
fatentry2hw(mpio_fatentry_t *f, BYTE *chip, DWORD *address)
{
  mpio_smartmedia_t *sm;
  
  if (f->mem == MPIO_INTERNAL_MEM) 
    {
      sm       = &f->m->internal;
      /*       hexdump((char *)&f->entry, 4); */
      /*       hexdump((char *)&f->hw_address, 4); */
      *chip    = f->hw_address / 0x1000000;    
      *address = f->hw_address & 0x0ffffff;
    }
  if (f->mem == MPIO_EXTERNAL_MEM) 
    {
      sm        = &f->m->external;
      *chip     = MPIO_EXTERNAL_MEM;
      *address  = cluster2block(sm->size, f->entry);
      *address *= BLOCK_SECTORS;

      /* add offset to start of "data" area! */
      *address += (sm->dir_offset + DIR_NUM - (2 * BLOCK_SECTORS));	
    }
  return;
}



/*
 * HELP!
 *
 * somebody explain me these values!!!
 *
 */

int 
cluster2block(int mem, int sector)
{
  int a = sector;

  /* No Zone-based block management for SmartMedia below 32MB !!*/

  /* The jumps are defect sectors on a specific SM medium and have to
     be handled with a proper logic block -> physical block which
     include a bad block management */

/*   if (mem == 32)  */
/*     { */
/*       if (sector >= 830) */
/*       	a++; */
/*       if (a >= 1001) */
/* 	a += 21; */
/*     }   */

/*   if (mem == 64)  */
/*     { */
/*       /\* I'm so large in *not* knowing! *\/ */
/*       if (sector >= 89) */
/* 	a++; */
/*       if (a >= 1000) */
/* 	a += 21;     */
/*       if (a >= 2021) */
/* 	a += 24; */
/*       if (a >= 3045) */
/* 	a += 24;     */
/*       /\* WHAT? *\/ */
/*       if (a >= 3755) */
/* 	a++;       */
/*     } */

  if (mem > 16)
    {
      /* two blocks are already spent elsewhere */
      /* question is: where (CIS and ??) */
      if (sector >= 998) 
	a += 22;
      /* ... and then add 24 empty blocks every 1000 sectors */
      a += ((sector - 998) / 1000 * 24);
    }
  
  return a;
}

WORD 
index2blockaddress(WORD ba)
{
  WORD addr;
  BYTE p = 0, c = 0;
  BYTE high, low;

  high = 0x10 | ((ba / 0x80) & 0x07);
  low  = (ba * 2) & 0xff;
    
  c = high;
  while (c) 
    {
      if (c & 0x01)
	p ^= 1;
      c /= 2;
    }

  c = low;
  while (c) 
    {
      if (c & 0x01)
	p ^= 0x01;
      c /= 2;
    }  
  
  addr = (high * 0x100) + low + p;

  return addr;
}

WORD 
cluster2blockaddress(DWORD index, BYTE size)
{
  DWORD ba;
  WORD  block_address;

  /* The jumps are defect sectors on a specific SM medium and have to
     be handled with a proper logic block -> physical block which
     include a bad block management */
  
  if (index<0x40) 
    {
      block_address=0;
    } else {  
      if (index >= 0x8000) 
	{	  
	  ba = ((index % 0x8000) / 0x20);
/* 	  if (size == 64) */
/* 	    { */
/* 	      if (index >= 0x1d5e0) */
/* 		ba--;	       */
/* 	    } */
	} else {       
	  ba = (index / 0x20) - 2;
/* 	  if (size == 32)  */
/* 	    { */
/* 	      if (ba >= 0x33f) */
/* 		ba--;	       */
/* 	    }	   */
/* 	  if (size == 64) */
/* 	    { */
/* 	      if (ba >= 0x05b) */
/* 		ba--;	       */
/* 	    }	   */
	}
      block_address= index2blockaddress(ba);
      debugn(2, "block-foo: %06x %04x %04x\n", index, ba, block_address);
    }
  
  return block_address;
}


/*
 * low-low level functions
 */

/* 
 * Set command packet  
 *
 * parameter:
 *
 * cmd:       commando code
 * mem:       internal/external
 * index:     sector/block
 * size:      size of used memory chip
 * wsize:     write size, only for PUT_BLOCK
 * buffer:    output buffer of command packet
 *
 */

int
mpio_io_set_cmdpacket(mpio_t *m, mpio_cmd_t cmd, mpio_mem_t mem, DWORD index,
		      BYTE size, BYTE wsize, BYTE *buffer) 
{
  BYTE memory;

  /* clear cmdpacket*/
  memset(buffer, 0, 0x40);  

  *buffer = cmd;
  memory = mem;
  if (mem == MPIO_EXTERNAL_MEM)
    memory = model2externalmem(m->model);
  
  *(buffer + 0x01) =   memory;
  *(buffer + 0x03) =   (BYTE) (index & 0x00ff);
  *(buffer + 0x04) =   (BYTE)((index & 0xff00) >> 8);
  /*  SM cards with less or equal 32 MB only need 2 Bytes
   *  to address sectors or blocks.
   *  The highest byte has to be 0xff in that case!
   */
  if (size <= 32) 
    {
      *(buffer + 0x05) = 0xff;
    } else {  
      *(buffer + 0x05) = (BYTE) (index >> 16);
    }  
  /* is this always 0x48 in case of a block write ?? */
  *(buffer + 0x06) = wsize;  

  memcpy((buffer + 0x3b), "jykim", 5);

  return (0);
}

/*
 * write chunk of data to MPIO filedescriptor
 *
 * parameter:
 *
 * fd:        filedescriptor
 * block:     data buffer (has to be num_bytes)
 * num_bytes: size of data buffer
 *
 */
int
mpio_io_bulk_write(int fd, BYTE *block, int num_bytes)
{
  BYTE *p;
  int count, bytes_left, bytes_written;

  bytes_left = num_bytes;
  bytes_written = 0;
  p = block;

  do
  {
    count = write (fd, p, bytes_left);
    if (count > 0)
    {
      p += count;
      bytes_written += count;
      bytes_left -= count;
    }
  } while (bytes_left > 0 && count > 0);

  return bytes_written;
}

/*
 * read chunk of data from MPIO filedescriptor
 *
 * parameter:
 *
 * fd:        filedescriptor
 * block:     return buffer (has to be num_bytes)
 * num_bytes: size of return buffer
 *
 */
int
mpio_io_bulk_read (int fd, BYTE *block, int num_bytes)
{
  int total_read, count, bytes_left;
  BYTE *p;

  total_read = 0;
  bytes_left = num_bytes;
  p = block;

  do
  {
    count = read (fd, p, bytes_left);

    if (count > 0)
      {
        total_read += count;
	bytes_left -= count;
	p += count;
      }
  } while (total_read < num_bytes && count > 0);

  return total_read;
}

/*
 * low level functions
 */

/* 
 * read version block from MPIO
 *
 * parameter:
 *
 * m:         mpio context
 * buffer:    return buffer (has to be CMD_SIZE)
 *
 */
int
mpio_io_version_read(mpio_t *m, BYTE *buffer)
{
  int nwrite, nread;
  BYTE cmdpacket[CMD_SIZE], status[CMD_SIZE];

  /*  Send command packet to MPIO  */
  mpio_io_set_cmdpacket (m, GET_VERSION, 0, 0, 0xff, 0, cmdpacket);

  debugn  (5, ">>> MPIO\n");
  hexdump (cmdpacket, sizeof(cmdpacket));

  nwrite = mpio_io_bulk_write (m->fd, cmdpacket, 0x40);

  if (nwrite != CMD_SIZE) 
    {
      debug ("Failed to send command.\n\n");
      close (m->fd);
      return 0;    
    }

  /*  Receive packet from MPIO  */
  nread = mpio_io_bulk_read (m->fd, status, 0x40);

  if (nread == -1 || nread != 0x40) 
    {
      debug ("Failed to read Sector.\n%x\n",nread);
      close (m->fd);
      return 0;    
    }

  debugn (5, "<<< MPIO\n");
  hexdump (status, 0x40);

  memcpy(buffer, status, 0x40);
  
  return CMD_SIZE;
}

/* 
 * read sector from SmartMedia
 *
 * parameter:
 *
 * m:         mpio context
 * mem:       MPIO_{INTERNAL,EXTERNAL}_MEM
 * index:     index number of sector to read
 * output:    return buffer (has to be SECTOR_SIZE)
 *
 */

/* right now we assume we only want to read single sectors from 
 * the _first_ internal memory chip 
 */

int
mpio_io_sector_read(mpio_t *m, BYTE mem, DWORD index, BYTE *output)
{
  mpio_smartmedia_t *sm=0;
  
  int nwrite, nread;
  BYTE cmdpacket[CMD_SIZE], recvbuff[SECTOR_TRANS];

  if (mem == MPIO_INTERNAL_MEM) sm = &m->internal;
  if (mem == MPIO_EXTERNAL_MEM) sm = &m->external;
  if (!sm)
    {
      debug("error in memory selection, aborting\n");      
      exit (-1);
    }

  mpio_io_set_cmdpacket (m, GET_SECTOR, mem, index, sm->size, 0, cmdpacket);

  debugn (5, "\n>>> MPIO\n");
  hexdump (cmdpacket, sizeof(cmdpacket));
    
  nwrite = mpio_io_bulk_write (m->fd, cmdpacket, 0x40);

  if(nwrite != CMD_SIZE) 
    {
      debug ("\nFailed to send command.\n\n");
      close (m->fd);
      return 1;
    }

  /*  Receive packet from MPIO   */
  nread = mpio_io_bulk_read (m->fd, recvbuff, SECTOR_TRANS);

  if(nread != SECTOR_TRANS) 
    {
      debug ("\nFailed to read Sector.\n%x\n", nread);
      close (m->fd);
      return 1;
    }

  /* check ECC Area information */
  if (mem==MPIO_EXTERNAL_MEM) 
    {    
      if (mpio_ecc_256_check (recvbuff,
			      (recvbuff + SECTOR_SIZE + 13)) ||
          mpio_ecc_256_check ((recvbuff + (SECTOR_SIZE / 2)),
			      (recvbuff + SECTOR_SIZE + 8))    )
      	debug ("ECC error @ (%02x : %06x)\n", mem, index);
    }

  /* This should not be needed:
     * we don't have ECC information for the internal memory
     * we only read the directory through this function
   */
  /*   if (mem==MPIO_INTERNAL_MEM)  */
  /*     { */
  /*       debugn(2, "WARNING, code for internal FAT entry (in ECC area)" */
  /* 	    " not yet in place!!\n"); */
  /*     } */
  
  debugn (5, "\n<<< MPIO\n");
  hexdump (recvbuff, SECTOR_TRANS);

  memcpy(output, recvbuff, SECTOR_SIZE);  

  return 0;  
}

/* 
 * write sector to SmartMedia
 *
 * parameter:
 *
 * m:         mpio context
 * mem:       MPIO_{INTERNAL,EXTERNAL}_MEM
 * index:     index number of sector to read
 * input:     data buffer (has to be SECTOR_SIZE)
 *
 */

/* right now we assume we only want to write single sectors from 
 * the _first_ internal memory chip 
 */

int  
mpio_io_sector_write(mpio_t *m, BYTE mem, DWORD index, BYTE *input)
{
  int nwrite;
  mpio_smartmedia_t *sm;
  DWORD block_address, ba;
  BYTE cmdpacket[CMD_SIZE], sendbuff[SECTOR_TRANS];

  if (mem == MPIO_INTERNAL_MEM) sm = &m->internal;
  if (mem == MPIO_EXTERNAL_MEM) sm = &m->external;
  if (!sm)
    {
      debug("error in memory selection, aborting\n");      
      exit (-1);
    }

  mpio_io_set_cmdpacket(m, PUT_SECTOR, mem, index, sm->size, 0, cmdpacket);

  debugn (5, "\n>>> MPIO\n");
  hexdump (cmdpacket, sizeof(cmdpacket));
    
  nwrite = mpio_io_bulk_write(m->fd, cmdpacket, 0x40);

  if(nwrite != CMD_SIZE) 
    {
      debug ("\nFailed to send command.\n\n");
      close (m->fd);
      return 1;
    }

  memset(sendbuff, 0, SECTOR_TRANS);
  memset(sendbuff + SECTOR_SIZE, 0xff, 0x10);
  memcpy(sendbuff, input, SECTOR_SIZE);
  
  if (mem==MPIO_EXTERNAL_MEM) 
    block_address = cluster2blockaddress(index, sm->size);
  
    {    
      /* generate ECC information for spare area ! */
      mpio_ecc_256_gen(sendbuff, 
		       sendbuff + SECTOR_SIZE + 0x0d);
      mpio_ecc_256_gen(sendbuff + (SECTOR_SIZE / 2), 
		       sendbuff + SECTOR_SIZE + 0x08);
      
      ba = (block_address / 0x100) & 0xff;
      sendbuff[SECTOR_SIZE + 0x06] = ba;
      sendbuff[SECTOR_SIZE + 0x0b] = ba;
      
      ba = block_address & 0xff;
      sendbuff[SECTOR_SIZE + 0x07] = ba;
      sendbuff[SECTOR_SIZE + 0x0c] = ba;
    }
  
  /* easy but working, we write back the FAT info we read before */
  if (mem==MPIO_INTERNAL_MEM) 
      memcpy((sendbuff+SECTOR_SIZE), sm->fat, 0x10);

  debugn (5, "\n>>> MPIO\n");
  hexdump(sendbuff, SECTOR_TRANS);

  /*  write sector MPIO   */
  nwrite = mpio_io_bulk_write(m->fd, sendbuff, SECTOR_TRANS);

  if(nwrite != SECTOR_TRANS) 
    {
      debug ("\nFailed to read Sector.\n%x\n", nwrite);
      close (m->fd);
      return 1;
    }

  return 0;  
}

/*
 * read/write of blocks
 */
int
mpio_io_block_read(mpio_t *m, BYTE mem, mpio_fatentry_t *f, BYTE *output)
{
  int i=0;
  int nwrite, nread;
  mpio_smartmedia_t *sm;
  BYTE  chip;
  DWORD address;
  BYTE cmdpacket[CMD_SIZE], recvbuff[BLOCK_TRANS];
  DWORD block_address, ba;

  if (mem == MPIO_INTERNAL_MEM) sm = &m->internal;
  if (mem == MPIO_EXTERNAL_MEM) sm = &m->external;

  fatentry2hw(f, &chip, &address);

  mpio_io_set_cmdpacket(m, GET_BLOCK, chip, address, sm->size, 0, cmdpacket);

  debugn(5, "\n>>> MPIO\n");
  hexdump(cmdpacket, sizeof(cmdpacket));
    
  nwrite = mpio_io_bulk_write(m->fd, cmdpacket, CMD_SIZE);

  if(nwrite != CMD_SIZE) 
    {
      debug ("\nFailed to send command.\n\n");
      close (m->fd);
      return 1;
    }

  /*  Receive packet from MPIO   */
  nread = mpio_io_bulk_read(m->fd, recvbuff, BLOCK_TRANS);

  if(nread != BLOCK_TRANS) 
    {
      debug ("\nFailed to read Block.\n%x\n",nread);
      close (m->fd);
      return 1;
    }

  debugn(5, "\n<<< MPIO\n");
  hexdump(recvbuff, BLOCK_TRANS);

  for (i = 0; i < BLOCK_SECTORS; i++) 
    {
      /* check ECC Area information */
      if (mem==MPIO_EXTERNAL_MEM) {      
	if (mpio_ecc_256_check ((recvbuff + (i * SECTOR_TRANS)),
				((recvbuff +(i * SECTOR_TRANS) 
				  + SECTOR_SIZE +13))) ||	
	    mpio_ecc_256_check ((recvbuff + (i * SECTOR_TRANS) 
				 + (SECTOR_SIZE / 2)),
				((recvbuff +(i * SECTOR_TRANS) 
				  + SECTOR_SIZE + 8))))
	  debug ("ECC error @ (%02x : %06x)\n", chip, address);

	if (i==0) 
	  {	    
	    block_address = cluster2blockaddress(address, sm->size);
	    
	    ba = recvbuff[(i * SECTOR_TRANS) + SECTOR_SIZE + 0x06] * 0x100 + 
	         recvbuff[(i * SECTOR_TRANS) + SECTOR_SIZE + 0x07] ;
	    if (block_address != ba)
	      debugn(2,"different block_addresses during read: %04x vs. %04x\n",
		     block_address, ba);
	  }
	
      }
      
      memcpy(output + (i * SECTOR_SIZE), 
	     recvbuff + (i * SECTOR_TRANS), 
	     SECTOR_SIZE);
    }

  return 0;  
}

/* Read spare is only usefull for the internal memory,
 * the FAT lies there. It is updated during the
 * mpio_io_{sector,block}_{read,write} operations.
 *
 * For external SmartMedia cards we have a "seperate" FAT
 * which is read and updated just like on a regular floppy
 * disc or hard drive.
 *
 */

int
mpio_io_spare_read(mpio_t *m, BYTE area, DWORD index, BYTE size,
		   BYTE wsize, BYTE *output, int toread,
		   BYTE (*progress_callback)(int, int))
{
  int i;
  int nwrite, nread;
  int chip = 0;
  int chips = 0;
  BYTE cmdpacket[CMD_SIZE];

  if (area != MPIO_INTERNAL_MEM) {
    debug("Something fishy happened, aborting!n");
    exit(1);
  }

  chips = m->internal.chips;  
  
  for (chip = 1; chip <= chips; chip++) 
    {    
      mpio_io_set_cmdpacket(m, GET_SPARE_AREA, chip, index, size, 
			    wsize, cmdpacket);
      debugn(5, "\n>>> MPIO\n");
      hexdump(cmdpacket, sizeof(cmdpacket));
      
      nwrite = mpio_io_bulk_write(m->fd, cmdpacket, CMD_SIZE);
      
      if(nwrite != CMD_SIZE) {
	debug ("\nFailed to send command.\n\n");
	close (m->fd);
	return 1;
      }
      
      /*  Receive packet from MPIO   */
      for (i = 0; i < (toread / chips / CMD_SIZE); i++) 
	{	  
	  nread = mpio_io_bulk_read (m->fd,
				     output + (i * CMD_SIZE) +
				     (toread / chips * (chip - 1)),
				     CMD_SIZE);

	  if ((progress_callback) && (i % 256))
	    (*progress_callback)((i*CMD_SIZE), toread);
      
	  if(nread != CMD_SIZE) 
	    {
	      debug ("\nFailed to read Block.\n%x\n",nread);
	      close (m->fd);
	      return 1;
	    }
	  debugn(5, "\n<<< MPIO\n");
	  hexdump(output + (i * CMD_SIZE) + (toread / chips * (chip - 1)), 
		  CMD_SIZE);
	}
    }
  if (progress_callback)
    (*progress_callback)(toread, toread);
  
  return 0;  
}

int  
mpio_io_block_delete(mpio_t *m, BYTE mem, mpio_fatentry_t *f)
{
  mpio_smartmedia_t *sm;
  int nwrite, nread;
  BYTE cmdpacket[CMD_SIZE], status[CMD_SIZE];
  BYTE  chip=0;
  DWORD address;

  if (mem == MPIO_INTERNAL_MEM) sm = &m->internal;
  if (mem == MPIO_EXTERNAL_MEM) sm = &m->external;

  fatentry2hw(f, &chip, &address);

/*  Send command packet to MPIO  */

  mpio_io_set_cmdpacket(m, DEL_BLOCK, chip, address, sm->size, 0, cmdpacket);

  debugn  (5, ">>> MPIO\n");
  hexdump (cmdpacket, sizeof(cmdpacket));

  nwrite = mpio_io_bulk_write(m->fd, cmdpacket, 0x40);

  if (nwrite != CMD_SIZE) 
    {
      debug ("Failed to send command.\n\n");
      close (m->fd);
      return 0;
    }

/*  Receive packet from MPIO  */
  nread = mpio_io_bulk_read (m->fd, status, CMD_SIZE);

  if ((nread == -1) || (nread != CMD_SIZE)) 
    {
      debug ("Failed to read Sector.\n%x\n",nread);
      close (m->fd);
      return 0;
    }

  debugn(5, "<<< MPIO\n");
  hexdump(status, CMD_SIZE);

  if (status[0] != 0xc0) 
    {
      debug ("error formatting Block (%04x) %02x:%06x\n", 
	     f->entry, chip, address);
      return 0;
    }
  
  return CMD_SIZE;
}

int  
mpio_io_block_write(mpio_t *m, BYTE mem, mpio_fatentry_t *f, BYTE *data)
{
  mpio_smartmedia_t *sm;
  int nwrite;
  int i;
  DWORD block_address, ba;
  BYTE cmdpacket[CMD_SIZE], sendbuff[BLOCK_TRANS];
  BYTE  chip=0;
  DWORD address;

  if (mem == MPIO_INTERNAL_MEM) sm = &m->internal;
  if (mem == MPIO_EXTERNAL_MEM) sm = &m->external;
  
  fatentry2hw(f, &chip, &address);

  /* build block for transfer to MPIO */
  for (i = 0; i < BLOCK_SECTORS; i++) 
    {
      memcpy(sendbuff + (i * SECTOR_TRANS), 
	     data + (i * SECTOR_SIZE),	   
	     SECTOR_SIZE);
      memset(sendbuff + (i * SECTOR_TRANS) + SECTOR_SIZE,
	     0xff, CMD_SIZE);

      if (mem == MPIO_INTERNAL_MEM) 
	{	  
	  if (i == 0)
	    {	      
	      memcpy((sendbuff+SECTOR_SIZE+(i * SECTOR_TRANS)), 
		     f->i_fat, 0x10);
/* 	      debug("address %02x:%06x\n", chip, address); */
/* 	      hexdumpn(0, f->i_fat, 0x10); */
	    }	  
	}      

      /* fill in block information */
      if (mem == MPIO_EXTERNAL_MEM) 
	{      
	  block_address = cluster2blockaddress(address, sm->size);

	  ba = (block_address / 0x100) & 0xff;
	  sendbuff[(i * SECTOR_TRANS) + SECTOR_SIZE + 0x06] = ba;
	  sendbuff[(i * SECTOR_TRANS) + SECTOR_SIZE + 0x0b] = ba;
	  
	  ba = block_address & 0xff;
	  sendbuff[(i * SECTOR_TRANS) + SECTOR_SIZE + 0x07] = ba;
	  sendbuff[(i * SECTOR_TRANS) + SECTOR_SIZE + 0x0c] = ba;
	  
	  /* generate ECC Area information */
	  mpio_ecc_256_gen ((sendbuff + (i * SECTOR_TRANS)),                   
			    ((sendbuff + (i * SECTOR_TRANS) 
			      + SECTOR_SIZE + 13)));
	  mpio_ecc_256_gen ((sendbuff + (i * SECTOR_TRANS) 
			      + (SECTOR_SIZE / 2)), 
			    ((sendbuff + (i * SECTOR_TRANS) 
			      + SECTOR_SIZE + 8)));
	}
  }

  mpio_io_set_cmdpacket(m, PUT_BLOCK, chip, address, sm->size, 0x48 , cmdpacket);

  debugn(5, "\n>>> MPIO\n");
  hexdump(cmdpacket, sizeof(cmdpacket));
    
  nwrite = mpio_io_bulk_write(m->fd, cmdpacket, CMD_SIZE);

  if(nwrite != CMD_SIZE) 
    {
      debug ("\nFailed to send command.\n\n");
      close (m->fd);
      return 1;
    }

  /*  send packet to MPIO   */
  debugn(5, "\n<<< MPIO\n");
  hexdump(sendbuff, BLOCK_TRANS);
  nwrite = mpio_io_bulk_write (m->fd, sendbuff, BLOCK_TRANS);

  if(nwrite != BLOCK_TRANS) 
    {
      debug ("\nFailed to read Block.\n%x\n",nwrite);
      close (m->fd);
      return 1;
    }

  return 0;
}