board/hymod/eeprom.c - platform/external/u-boot - Gitiles

 /*
  * (C) Copyright 2001
  * Murray Jensen, CSIRO Manufacturing Science and Technology,
  * <Murray.Jensen@cmst.csiro.au>
  *
  * See file CREDITS for list of people who contributed to this
  * project.
  *
  * 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., 59 Temple Place, Suite 330, Boston,
  * MA 02111-1307 USA
  */

 #include <common.h>
 #include <mpc8260.h>

 /* imports from fetch.c */
 extern int fetch_and_parse(bd_t *, char *, ulong, int (*)(uchar *, uchar *));

 int
 eeprom_load(unsigned offset, hymod_eeprom_t *ep)
 {
     uchar data[HYMOD_EEPROM_SIZE], *dp, *edp;
     hymod_eehdr_t *hp;
     ulong len, crc;

     memset(ep, 0, sizeof *ep);
     memset(data, 0, HYMOD_EEPROM_SIZE);
     crc = 0;

     hp = (hymod_eehdr_t *)data;
     eeprom_read(CFG_DEF_EEPROM_ADDR, offset, (uchar *)hp, sizeof (*hp));
     offset += sizeof (*hp);

     if (hp->id != HYMOD_EEPROM_ID || hp->ver > HYMOD_EEPROM_VER ||
       (len = hp->len) > HYMOD_EEPROM_MAXLEN)
 	return (0);

     dp = (uchar *)(hp + 1); edp = dp + len;
     eeprom_read(CFG_DEF_EEPROM_ADDR, offset, dp, len);
     offset += len;

     eeprom_read(CFG_DEF_EEPROM_ADDR, offset, (uchar *)&crc, sizeof (ulong));

     if (crc32(0, data, edp - data) != crc)
 	return (0);

     ep->ver = hp->ver;

     for (;;) {
 	hymod_eerec_t *rp = (hymod_eerec_t *)dp;
 	ulong rtyp;
 	uchar rlen, *rdat;
 	uint rsiz;

 	if (rp->small.topbit == 0) {
 	    rtyp = rp->small.type;
 	    rlen = rp->small.len;
 	    rdat = rp->small.data;
 	    rsiz = offsetof(hymod_eerec_t, small.data) + rlen;
 	}
 	else if (rp->medium.nxtbit == 0) {
 	    rtyp = rp->medium.type;
 	    rlen = rp->medium.len;
 	    rdat = rp->medium.data;
 	    rsiz = offsetof(hymod_eerec_t, medium.data) + rlen;
 	}
 	else {
 	    rtyp = rp->large.type;
 	    rlen = rp->large.len;
 	    rdat = rp->large.data;
 	    rsiz = offsetof(hymod_eerec_t, large.data) + rlen;
 	}

 	if (rtyp == 0)
 	    break;

 	dp += rsiz;
 	if (dp > edp)	/* error? */
 	    break;

 	switch (rtyp) {

 	case HYMOD_EEREC_SERNO:		/* serial number */
 	    if (rlen == sizeof (ulong))
 		memcpy(&ep->serno, rdat, sizeof (ulong));
 	    break;

 	case HYMOD_EEREC_DATE:		/* date */
 	    if (rlen == sizeof (hymod_date_t))
 		memcpy(&ep->date, rdat, sizeof (hymod_date_t));
 	    break;

 	case HYMOD_EEREC_BATCH:		/* batch */
 	    if (rlen <= HYMOD_MAX_BATCH)
 		memcpy(ep->batch, rdat, ep->batchlen = rlen);
 	    break;

 	case HYMOD_EEREC_TYPE:		/* board type */
 	    if (rlen == 1)
 		ep->bdtype = *rdat;
 	    break;

 	case HYMOD_EEREC_REV:		/* board revision */
 	    if (rlen == 1)
 		ep->bdrev = *rdat;
 	    break;

 	case HYMOD_EEREC_SDRAM:		/* sdram size(s) */
 	    if (rlen > 0 && rlen <= HYMOD_MAX_SDRAM) {
 		int i;

 		for (i = 0; i < rlen; i++)
 		    ep->sdramsz[i] = rdat[i];
 		ep->nsdram = rlen;
 	    }
 	    break;

 	case HYMOD_EEREC_FLASH:		/* flash size(s) */
 	    if (rlen > 0 && rlen <= HYMOD_MAX_FLASH) {
 		int i;

 		for (i = 0; i < rlen; i++)
 		    ep->flashsz[i] = rdat[i];
 		ep->nflash = rlen;
 	    }
 	    break;

 	case HYMOD_EEREC_ZBT:		/* zbt ram size(s) */
 	    if (rlen > 0 && rlen <= HYMOD_MAX_ZBT) {
 		int i;

 		for (i = 0; i < rlen; i++)
 		    ep->zbtsz[i] = rdat[i];
 		ep->nzbt = rlen;
 	    }
 	    break;

 	case HYMOD_EEREC_XLXTYP:	/* xilinx fpga type(s) */
 	    if (rlen > 0 && rlen <= HYMOD_MAX_XLX) {
 		int i;

 		for (i = 0; i < rlen; i++)
 		    ep->xlx[i].type = rdat[i];
 		ep->nxlx = rlen;
 	    }
 	    break;

 	case HYMOD_EEREC_XLXSPD:	/* xilinx fpga speed(s) */
 	    if (rlen > 0 && rlen <= HYMOD_MAX_XLX) {
 		int i;

 		for (i = 0; i < rlen; i++)
 		    ep->xlx[i].speed = rdat[i];
 	    }
 	    break;

 	case HYMOD_EEREC_XLXTMP:	/* xilinx fpga temperature(s) */
 	    if (rlen > 0 && rlen <= HYMOD_MAX_XLX) {
 		int i;

 		for (i = 0; i < rlen; i++)
 		    ep->xlx[i].temp = rdat[i];
 	    }
 	    break;

 	case HYMOD_EEREC_XLXGRD:	/* xilinx fpga grade(s) */
 	    if (rlen > 0 && rlen <= HYMOD_MAX_XLX) {
 		int i;

 		for (i = 0; i < rlen; i++)
 		    ep->xlx[i].grade = rdat[i];
 	    }
 	    break;

 	case HYMOD_EEREC_CPUTYP:	/* CPU type */
 	    if (rlen == 1)
 		ep->mpc.type = *rdat;
 	    break;

 	case HYMOD_EEREC_CPUSPD:	/* CPU speed */
 	    if (rlen == 1)
 		ep->mpc.cpuspd = *rdat;
 	    break;

 	case HYMOD_EEREC_CPMSPD:	/* CPM speed */
 	    if (rlen == 1)
 		ep->mpc.cpmspd = *rdat;
 	    break;

 	case HYMOD_EEREC_BUSSPD:	/* bus speed */
 	    if (rlen == 1)
 		ep->mpc.busspd = *rdat;
 	    break;

 	case HYMOD_EEREC_HSTYPE:	/* high-speed serial chip type */
 	    if (rlen == 1)
 		ep->hss.type = *rdat;
 	    break;

 	case HYMOD_EEREC_HSCHIN:	/* high-speed serial input channels */
 	    if (rlen == 1)
 		ep->hss.nchin = *rdat;
 	    break;

 	case HYMOD_EEREC_HSCHOUT:	/* high-speed serial output channels */
 	    if (rlen == 1)
 		ep->hss.nchout = *rdat;
 	    break;

 	default:	/* ignore */
 	    break;
 	}
     }

     return (1);
 }

 /* maps an ascii "name=value" into a binary eeprom data record */
 typedef
     struct _eerec_map {
 	char *name;
 	uint type;
 	uchar *(*handler)(struct _eerec_map *, uchar *, uchar *, uchar *);
 	uint length;
 	uint maxlen;
     }
 eerec_map_t;

 static uchar *
 uint_handler(eerec_map_t *rp, uchar *value, uchar *dp, uchar *edp)
 {
     uchar *eval;
     union {
 	uchar cval[4];
 	ushort sval[2];
 	ulong lval;
     } rdata;

     rdata.lval = simple_strtol(value, (char **)&eval, 10);

     if (eval == value || *eval != '\0') {
 	printf("%s record (%s) is not a valid uint\n", rp->name, value);
 	return (NULL);
     }

     if (dp + 2 + rp->length > edp) {
 	printf("can't fit %s record into eeprom\n", rp->name);
 	return (NULL);
     }

     *dp++ = rp->type;
     *dp++ = rp->length;

     switch (rp->length) {

     case 1:
 	if (rdata.lval >= 256) {
 	    printf("%s record value (%lu) out of range (0-255)\n",
 		rp->name, rdata.lval);
 	    return (NULL);
 	}
 	*dp++ = rdata.cval[3];
 	break;

     case 2:
 	if (rdata.lval >= 65536) {
 	    printf("%s record value (%lu) out of range (0-65535)\n",
 		rp->name, rdata.lval);
 	    return (NULL);
 	}
 	memcpy(dp, &rdata.sval[1], 2);
 	dp += 2;
 	break;

     case 4:
 	memcpy(dp, &rdata.lval, 4);
 	dp += 4;
 	break;

     default:
 	printf("huh? rp->length not 1, 2 or 4! (%d)\n", rp->length);
 	return (NULL);
     }

     return (dp);
 }

 static uchar *
 date_handler(eerec_map_t *rp, uchar *value, uchar *dp, uchar *edp)
 {
     hymod_date_t date;
     uchar *p = value, *ep;

     date.year = simple_strtol(p, (char **)&ep, 10);
     if (ep == p || *ep++ != '-') {
 bad_date:
 	printf("%s record (%s) is not a valid date\n", rp->name, value);
 	return (NULL);
     }

     date.month = simple_strtol(p = ep, (char **)&ep, 10);
     if (ep == p || *ep++ != '-' || date.month == 0 || date.month > 12)
 	goto bad_date;

     date.day = simple_strtol(p = ep, (char **)&ep, 10);
     if (ep == p || *ep != '\0' || date.day == 0 || date.day > 31)
 	goto bad_date;

     if (dp + 2 + sizeof (hymod_date_t) > edp) {
 	printf("can't fit %s record into eeprom\n", rp->name);
 	return (NULL);
     }

     *dp++ = rp->type;
     *dp++ = sizeof (hymod_date_t);
     memcpy(dp, &date, sizeof (hymod_date_t));
     dp += sizeof (hymod_date_t);

     return (dp);
 }

 static uchar *
 string_handler(eerec_map_t *rp, uchar *value, uchar *dp, uchar *edp)
 {
     uint len;

     if ((len = strlen(value)) > rp->maxlen) {
 	printf("%s record (%s) string is too long (%d>%d)\n",
 	    rp->name, value, len, rp->maxlen);
 	return (NULL);
     }

     if (dp + 2 + len > edp) {
 	printf("can't fit %s record into eeprom\n", rp->name);
 	return (NULL);
     }

     *dp++ = rp->type;
     *dp++ = len;
     memcpy(dp, value, len);
     dp += len;

     return (dp);
 }

 static uchar *
 bytes_handler(eerec_map_t *rp, uchar *value, uchar *dp, uchar *edp)
 {
     uchar bytes[HYMOD_MAX_BYTES], nbytes = 0;
     uchar *p = value, *ep;

     for (;;) {

 	if (nbytes >= HYMOD_MAX_BYTES) {
 	    printf("%s record (%s) byte array too long\n", rp->name, value);
 	    return (NULL);
 	}

 	bytes[nbytes++] = simple_strtol(p, (char **)&ep, 10);

 	if (ep == p || (*ep != '\0' && *ep != ',')) {
 	    printf("%s record (%s) byte array has invalid uint\n",
 		rp->name, value);
 	    return (NULL);
 	}

 	if (*ep++ == '\0')
 	    break;

 	p = ep;
     }

     if (dp + 2 + nbytes > edp) {
 	printf("can't fit %s record into eeprom\n", rp->name);
 	return (NULL);
     }

     *dp++ = rp->type;
     *dp++ = nbytes;
     memcpy(dp, bytes, nbytes);
     dp += nbytes;

     return (dp);
 }

 static eerec_map_t eerec_map[] = {
    /* name       type                 handler         len max             */
     { "serno",   HYMOD_EEREC_SERNO,   uint_handler,   4,  0               },
     { "date",    HYMOD_EEREC_DATE,    date_handler,   4,  0               },
     { "batch",   HYMOD_EEREC_BATCH,   string_handler, 0,  HYMOD_MAX_BATCH },
     { "type",    HYMOD_EEREC_TYPE,    uint_handler,   1,  0               },
     { "rev",     HYMOD_EEREC_REV,     uint_handler,   1,  0               },
     { "sdram",   HYMOD_EEREC_SDRAM,   bytes_handler,  0,  HYMOD_MAX_SDRAM },
     { "flash",   HYMOD_EEREC_FLASH,   bytes_handler,  0,  HYMOD_MAX_FLASH },
     { "zbt",     HYMOD_EEREC_ZBT,     bytes_handler,  0,  HYMOD_MAX_ZBT   },
     { "xlxtyp",  HYMOD_EEREC_XLXTYP,  bytes_handler,  0,  HYMOD_MAX_XLX   },
     { "xlxspd",  HYMOD_EEREC_XLXSPD,  bytes_handler,  0,  HYMOD_MAX_XLX   },
     { "xlxtmp",  HYMOD_EEREC_XLXTMP,  bytes_handler,  0,  HYMOD_MAX_XLX   },
     { "xlxgrd",  HYMOD_EEREC_XLXGRD,  bytes_handler,  0,  HYMOD_MAX_XLX   },
     { "cputyp",  HYMOD_EEREC_CPUTYP,  uint_handler,   1,  0               },
     { "cpuspd",  HYMOD_EEREC_CPUSPD,  uint_handler,   1,  0               },
     { "cpmspd",  HYMOD_EEREC_CPMSPD,  uint_handler,   1,  0               },
     { "busspd",  HYMOD_EEREC_BUSSPD,  uint_handler,   1,  0               },
     { "hstype",  HYMOD_EEREC_HSTYPE,  uint_handler,   1,  0               },
     { "hschin",  HYMOD_EEREC_HSCHIN,  uint_handler,   1,  0               },
     { "hschout", HYMOD_EEREC_HSCHOUT, uint_handler,   1,  0               },
 };

 static int neerecs = sizeof eerec_map / sizeof eerec_map[0];

 static uchar data[HYMOD_EEPROM_SIZE], *sdp, *dp, *edp;

 static int
 eeprom_fetch_callback(uchar *name, uchar *value)
 {
     eerec_map_t *rp;

     for (rp = eerec_map; rp < &eerec_map[neerecs]; rp++)
 	if (strcmp(name, rp->name) == 0)
 	    break;

     if (rp >= &eerec_map[neerecs])
 	return (0);

     if ((dp = (*rp->handler)(rp, value, dp, edp)) == NULL)
 	return (0);

     return (1);
 }

 int
 eeprom_fetch(unsigned offset, bd_t *bd, char *filename, ulong addr)
 {
     hymod_eehdr_t *hp = (hymod_eehdr_t *)&data[0];
     ulong crc;

     hp->id = HYMOD_EEPROM_ID;
     hp->ver = HYMOD_EEPROM_VER;

     dp = sdp = (uchar *)(hp + 1);
     edp = dp + HYMOD_EEPROM_MAXLEN;

     if (fetch_and_parse(bd, filename, addr, eeprom_fetch_callback) == 0)
 	return (0);

     hp->len = dp - sdp;

     crc = crc32(0, data, dp - data);
     memcpy(dp, &crc, sizeof (ulong));
     dp += sizeof (ulong);

     eeprom_write(CFG_DEF_EEPROM_ADDR, offset, data, dp - data);

     return (1);
 }

 static char *type_vals[] = {
     "NONE", "IO", "CLP", "DSP", "INPUT", "ALT-INPUT", "DISPLAY"
 };

 static char *xlxtyp_vals[] = {
     "NONE", "XCV300E", "XCV400E", "XCV600E"
 };

 static char *xlxspd_vals[] = {
     "NONE", "6", "7", "8"
 };

 static char *xlxtmp_vals[] = {
     "NONE", "COM", "IND"
 };

 static char *xlxgrd_vals[] = {
     "NONE", "NORMAL", "ENGSAMP"
 };

 static char *cputyp_vals[] = {
     "NONE", "MPC8260"
 };

 static char *clk_vals[] = {
     "NONE", "33", "66", "100", "133", "166", "200"
 };

 static char *hstype_vals[] = {
     "NONE", "AMCC-S2064A"
 };

 static void
 print_mem(char *l, char *s, uchar n, uchar a[])
 {
     if (n > 0) {
 	if (n == 1)
 	    printf("%s%dMB %s", s, 1 << (a[0] - 20), l);
 	else {
 	    ulong t = 0;
 	    int i;

 	    for (i = 0; i < n; i++)
 		t += 1 << (a[i] - 20);

 	    printf("%s%luMB %s (%d banks:", s, t, l, n);

 	    for (i = 0; i < n; i++)
 		printf("%dMB%s", 1 << (a[i] - 20), (i == n - 1) ? ")" : ",");
 	}
     }
     else
 	printf("%sNO %s", s, l);
 }

 void
 eeprom_print(hymod_eeprom_t *ep)
 {
     int i;

     printf("         Hymod %s board, rev %03d\n",
 	type_vals[ep->bdtype], ep->bdrev);

     printf("         serial #: %010lu, date %04d-%02d-%02d",
 	ep->serno, ep->date.year, ep->date.month, ep->date.day);
     if (ep->batchlen > 0)
 	printf(", batch \"%.*s\"", ep->batchlen, ep->batch);
     puts("\n");

     switch (ep->bdtype) {

     case HYMOD_BDTYPE_IO:
     case HYMOD_BDTYPE_CLP:
     case HYMOD_BDTYPE_DSP:
 	printf("         Motorola %s CPU, speeds: %s/%s/%s",
 	    cputyp_vals[ep->mpc.type], clk_vals[ep->mpc.cpuspd],
 	    clk_vals[ep->mpc.cpmspd], clk_vals[ep->mpc.busspd]);

 	print_mem("SDRAM", ", ", ep->nsdram, ep->sdramsz);

 	print_mem("FLASH", ", ", ep->nflash, ep->flashsz);

 	puts("\n");

 	print_mem("ZBT", "         ", ep->nzbt, ep->zbtsz);

 	if (ep->nxlx > 0) {
 	    hymod_xlx_t *xp;

 	    if (ep->nxlx == 1) {
 		xp = &ep->xlx[0];
 		printf(", Xilinx %s FPGA (%s/%s/%s)",
 		    xlxtyp_vals[xp->type], xlxspd_vals[xp->speed],
 		    xlxtmp_vals[xp->temp], xlxgrd_vals[xp->grade]);
 	    }
 	    else {
 		printf(", %d Xilinx FPGAs (", ep->nxlx);
 		for (i = 0; i < ep->nxlx; i++) {
 		    xp = &ep->xlx[i];
 		    printf("%s[%s/%s/%s]%s",
 			xlxtyp_vals[xp->type], xlxspd_vals[xp->speed],
 			xlxtmp_vals[xp->temp], xlxgrd_vals[xp->grade],
 			(i == ep->nxlx - 1) ? ")" : ", ");
 		}
 	    }
 	}
 	else
 	    puts(", NO FPGAs");

 	puts("\n");

 	if (ep->hss.type > 0)
 	    printf("         High Speed Serial: %s, %d input%s, %d output%s\n",
 		hstype_vals[ep->hss.type],
 		ep->hss.nchin, (ep->hss.nchin == 1 ? "" : "s"),
 		ep->hss.nchout, (ep->hss.nchout == 1 ? "" : "s"));
 	break;

     case HYMOD_BDTYPE_INPUT:
     case HYMOD_BDTYPE_ALTINPUT:
     case HYMOD_BDTYPE_DISPLAY:
 	break;

     default:
 	/* crap! */
 	printf("         UNKNOWN BOARD TYPE: %d\n", ep->bdtype);
 	break;
     }
 }
	/*
	* (C) Copyright 2001
	* Murray Jensen, CSIRO Manufacturing Science and Technology,
	* <Murray.Jensen@cmst.csiro.au>
	*
	* See file CREDITS for list of people who contributed to this
	* project.
	*
	* 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., 59 Temple Place, Suite 330, Boston,
	* MA 02111-1307 USA
	*/

	#include <common.h>
	#include <mpc8260.h>

	/* imports from fetch.c */
	extern int fetch_and_parse(bd_t , char , ulong, int ()(uchar , uchar *));

	int
	eeprom_load(unsigned offset, hymod_eeprom_t *ep)
	{
	uchar data[HYMOD_EEPROM_SIZE], dp, edp;
	hymod_eehdr_t *hp;
	ulong len, crc;

	memset(ep, 0, sizeof *ep);
	memset(data, 0, HYMOD_EEPROM_SIZE);
	crc = 0;

	hp = (hymod_eehdr_t *)data;
	eeprom_read(CFG_DEF_EEPROM_ADDR, offset, (uchar )hp, sizeof (hp));
	offset += sizeof (*hp);

	if (hp->id != HYMOD_EEPROM_ID \|\| hp->ver > HYMOD_EEPROM_VER \|\|
	(len = hp->len) > HYMOD_EEPROM_MAXLEN)
	return (0);

	dp = (uchar *)(hp + 1); edp = dp + len;
	eeprom_read(CFG_DEF_EEPROM_ADDR, offset, dp, len);
	offset += len;

	eeprom_read(CFG_DEF_EEPROM_ADDR, offset, (uchar *)&crc, sizeof (ulong));

	if (crc32(0, data, edp - data) != crc)
	return (0);

	ep->ver = hp->ver;

	for (;;) {
	hymod_eerec_t rp = (hymod_eerec_t )dp;
	ulong rtyp;
	uchar rlen, *rdat;
	uint rsiz;

	if (rp->small.topbit == 0) {
	rtyp = rp->small.type;
	rlen = rp->small.len;
	rdat = rp->small.data;
	rsiz = offsetof(hymod_eerec_t, small.data) + rlen;
	}
	else if (rp->medium.nxtbit == 0) {
	rtyp = rp->medium.type;
	rlen = rp->medium.len;
	rdat = rp->medium.data;
	rsiz = offsetof(hymod_eerec_t, medium.data) + rlen;
	}
	else {
	rtyp = rp->large.type;
	rlen = rp->large.len;
	rdat = rp->large.data;
	rsiz = offsetof(hymod_eerec_t, large.data) + rlen;
	}

	if (rtyp == 0)
	break;

	dp += rsiz;
	if (dp > edp) /* error? */
	break;

	switch (rtyp) {

	case HYMOD_EEREC_SERNO: /* serial number */
	if (rlen == sizeof (ulong))
	memcpy(&ep->serno, rdat, sizeof (ulong));
	break;

	case HYMOD_EEREC_DATE: /* date */
	if (rlen == sizeof (hymod_date_t))
	memcpy(&ep->date, rdat, sizeof (hymod_date_t));
	break;

	case HYMOD_EEREC_BATCH: /* batch */
	if (rlen <= HYMOD_MAX_BATCH)
	memcpy(ep->batch, rdat, ep->batchlen = rlen);
	break;

	case HYMOD_EEREC_TYPE: /* board type */
	if (rlen == 1)
	ep->bdtype = *rdat;
	break;

	case HYMOD_EEREC_REV: /* board revision */
	if (rlen == 1)
	ep->bdrev = *rdat;
	break;

	case HYMOD_EEREC_SDRAM: /* sdram size(s) */
	if (rlen > 0 && rlen <= HYMOD_MAX_SDRAM) {
	int i;

	for (i = 0; i < rlen; i++)
	ep->sdramsz[i] = rdat[i];
	ep->nsdram = rlen;
	}
	break;

	case HYMOD_EEREC_FLASH: /* flash size(s) */
	if (rlen > 0 && rlen <= HYMOD_MAX_FLASH) {
	int i;

	for (i = 0; i < rlen; i++)
	ep->flashsz[i] = rdat[i];
	ep->nflash = rlen;
	}
	break;

	case HYMOD_EEREC_ZBT: /* zbt ram size(s) */
	if (rlen > 0 && rlen <= HYMOD_MAX_ZBT) {
	int i;

	for (i = 0; i < rlen; i++)
	ep->zbtsz[i] = rdat[i];
	ep->nzbt = rlen;
	}
	break;

	case HYMOD_EEREC_XLXTYP: /* xilinx fpga type(s) */
	if (rlen > 0 && rlen <= HYMOD_MAX_XLX) {
	int i;

	for (i = 0; i < rlen; i++)
	ep->xlx[i].type = rdat[i];
	ep->nxlx = rlen;
	}
	break;

	case HYMOD_EEREC_XLXSPD: /* xilinx fpga speed(s) */
	if (rlen > 0 && rlen <= HYMOD_MAX_XLX) {
	int i;

	for (i = 0; i < rlen; i++)
	ep->xlx[i].speed = rdat[i];
	}
	break;

	case HYMOD_EEREC_XLXTMP: /* xilinx fpga temperature(s) */
	if (rlen > 0 && rlen <= HYMOD_MAX_XLX) {
	int i;

	for (i = 0; i < rlen; i++)
	ep->xlx[i].temp = rdat[i];
	}
	break;

	case HYMOD_EEREC_XLXGRD: /* xilinx fpga grade(s) */
	if (rlen > 0 && rlen <= HYMOD_MAX_XLX) {
	int i;

	for (i = 0; i < rlen; i++)
	ep->xlx[i].grade = rdat[i];
	}
	break;

	case HYMOD_EEREC_CPUTYP: /* CPU type */
	if (rlen == 1)
	ep->mpc.type = *rdat;
	break;

	case HYMOD_EEREC_CPUSPD: /* CPU speed */
	if (rlen == 1)
	ep->mpc.cpuspd = *rdat;
	break;

	case HYMOD_EEREC_CPMSPD: /* CPM speed */
	if (rlen == 1)
	ep->mpc.cpmspd = *rdat;
	break;

	case HYMOD_EEREC_BUSSPD: /* bus speed */
	if (rlen == 1)
	ep->mpc.busspd = *rdat;
	break;

	case HYMOD_EEREC_HSTYPE: /* high-speed serial chip type */
	if (rlen == 1)
	ep->hss.type = *rdat;
	break;

	case HYMOD_EEREC_HSCHIN: /* high-speed serial input channels */
	if (rlen == 1)
	ep->hss.nchin = *rdat;
	break;

	case HYMOD_EEREC_HSCHOUT: /* high-speed serial output channels */
	if (rlen == 1)
	ep->hss.nchout = *rdat;
	break;

	default: /* ignore */
	break;
	}
	}

	return (1);
	}

	/* maps an ascii "name=value" into a binary eeprom data record */
	typedef
	struct _eerec_map {
	char *name;
	uint type;
	uchar (handler)(struct _eerec_map , uchar , uchar , uchar );
	uint length;
	uint maxlen;
	}
	eerec_map_t;

	static uchar *
	uint_handler(eerec_map_t rp, uchar value, uchar dp, uchar edp)
	{
	uchar *eval;
	union {
	uchar cval[4];
	ushort sval[2];
	ulong lval;
	} rdata;

	rdata.lval = simple_strtol(value, (char **)&eval, 10);

	if (eval == value \|\| *eval != '\0') {
	printf("%s record (%s) is not a valid uint\n", rp->name, value);
	return (NULL);
	}

	if (dp + 2 + rp->length > edp) {
	printf("can't fit %s record into eeprom\n", rp->name);
	return (NULL);
	}

	*dp++ = rp->type;
	*dp++ = rp->length;

	switch (rp->length) {

	case 1:
	if (rdata.lval >= 256) {
	printf("%s record value (%lu) out of range (0-255)\n",
	rp->name, rdata.lval);
	return (NULL);
	}
	*dp++ = rdata.cval[3];
	break;

	case 2:
	if (rdata.lval >= 65536) {
	printf("%s record value (%lu) out of range (0-65535)\n",
	rp->name, rdata.lval);
	return (NULL);
	}
	memcpy(dp, &rdata.sval[1], 2);
	dp += 2;
	break;

	case 4:
	memcpy(dp, &rdata.lval, 4);
	dp += 4;
	break;

	default:
	printf("huh? rp->length not 1, 2 or 4! (%d)\n", rp->length);
	return (NULL);
	}

	return (dp);
	}

	static uchar *
	date_handler(eerec_map_t rp, uchar value, uchar dp, uchar edp)
	{
	hymod_date_t date;
	uchar p = value, ep;

	date.year = simple_strtol(p, (char **)&ep, 10);
	if (ep == p \|\| *ep++ != '-') {
	bad_date:
	printf("%s record (%s) is not a valid date\n", rp->name, value);
	return (NULL);
	}

	date.month = simple_strtol(p = ep, (char **)&ep, 10);
	if (ep == p \|\| *ep++ != '-' \|\| date.month == 0 \|\| date.month > 12)
	goto bad_date;

	date.day = simple_strtol(p = ep, (char **)&ep, 10);
	if (ep == p \|\| *ep != '\0' \|\| date.day == 0 \|\| date.day > 31)
	goto bad_date;

	if (dp + 2 + sizeof (hymod_date_t) > edp) {
	printf("can't fit %s record into eeprom\n", rp->name);
	return (NULL);
	}

	*dp++ = rp->type;
	*dp++ = sizeof (hymod_date_t);
	memcpy(dp, &date, sizeof (hymod_date_t));
	dp += sizeof (hymod_date_t);

	return (dp);
	}

	static uchar *
	string_handler(eerec_map_t rp, uchar value, uchar dp, uchar edp)
	{
	uint len;

	if ((len = strlen(value)) > rp->maxlen) {
	printf("%s record (%s) string is too long (%d>%d)\n",
	rp->name, value, len, rp->maxlen);
	return (NULL);
	}

	if (dp + 2 + len > edp) {
	printf("can't fit %s record into eeprom\n", rp->name);
	return (NULL);
	}

	*dp++ = rp->type;
	*dp++ = len;
	memcpy(dp, value, len);
	dp += len;

	return (dp);
	}

	static uchar *
	bytes_handler(eerec_map_t rp, uchar value, uchar dp, uchar edp)
	{
	uchar bytes[HYMOD_MAX_BYTES], nbytes = 0;
	uchar p = value, ep;

	for (;;) {

	if (nbytes >= HYMOD_MAX_BYTES) {
	printf("%s record (%s) byte array too long\n", rp->name, value);
	return (NULL);
	}

	bytes[nbytes++] = simple_strtol(p, (char **)&ep, 10);

	if (ep == p \|\| (ep != '\0' && ep != ',')) {
	printf("%s record (%s) byte array has invalid uint\n",
	rp->name, value);
	return (NULL);
	}

	if (*ep++ == '\0')
	break;

	p = ep;
	}

	if (dp + 2 + nbytes > edp) {
	printf("can't fit %s record into eeprom\n", rp->name);
	return (NULL);
	}

	*dp++ = rp->type;
	*dp++ = nbytes;
	memcpy(dp, bytes, nbytes);
	dp += nbytes;

	return (dp);
	}

	static eerec_map_t eerec_map[] = {
	/* name type handler len max */
	{ "serno", HYMOD_EEREC_SERNO, uint_handler, 4, 0 },
	{ "date", HYMOD_EEREC_DATE, date_handler, 4, 0 },
	{ "batch", HYMOD_EEREC_BATCH, string_handler, 0, HYMOD_MAX_BATCH },
	{ "type", HYMOD_EEREC_TYPE, uint_handler, 1, 0 },
	{ "rev", HYMOD_EEREC_REV, uint_handler, 1, 0 },
	{ "sdram", HYMOD_EEREC_SDRAM, bytes_handler, 0, HYMOD_MAX_SDRAM },
	{ "flash", HYMOD_EEREC_FLASH, bytes_handler, 0, HYMOD_MAX_FLASH },
	{ "zbt", HYMOD_EEREC_ZBT, bytes_handler, 0, HYMOD_MAX_ZBT },
	{ "xlxtyp", HYMOD_EEREC_XLXTYP, bytes_handler, 0, HYMOD_MAX_XLX },
	{ "xlxspd", HYMOD_EEREC_XLXSPD, bytes_handler, 0, HYMOD_MAX_XLX },
	{ "xlxtmp", HYMOD_EEREC_XLXTMP, bytes_handler, 0, HYMOD_MAX_XLX },
	{ "xlxgrd", HYMOD_EEREC_XLXGRD, bytes_handler, 0, HYMOD_MAX_XLX },
	{ "cputyp", HYMOD_EEREC_CPUTYP, uint_handler, 1, 0 },
	{ "cpuspd", HYMOD_EEREC_CPUSPD, uint_handler, 1, 0 },
	{ "cpmspd", HYMOD_EEREC_CPMSPD, uint_handler, 1, 0 },
	{ "busspd", HYMOD_EEREC_BUSSPD, uint_handler, 1, 0 },
	{ "hstype", HYMOD_EEREC_HSTYPE, uint_handler, 1, 0 },
	{ "hschin", HYMOD_EEREC_HSCHIN, uint_handler, 1, 0 },
	{ "hschout", HYMOD_EEREC_HSCHOUT, uint_handler, 1, 0 },
	};

	static int neerecs = sizeof eerec_map / sizeof eerec_map[0];

	static uchar data[HYMOD_EEPROM_SIZE], sdp, dp, *edp;

	static int
	eeprom_fetch_callback(uchar name, uchar value)
	{
	eerec_map_t *rp;

	for (rp = eerec_map; rp < &eerec_map[neerecs]; rp++)
	if (strcmp(name, rp->name) == 0)
	break;

	if (rp >= &eerec_map[neerecs])
	return (0);

	if ((dp = (*rp->handler)(rp, value, dp, edp)) == NULL)
	return (0);

	return (1);
	}

	int
	eeprom_fetch(unsigned offset, bd_t bd, char filename, ulong addr)
	{
	hymod_eehdr_t hp = (hymod_eehdr_t )&data[0];
	ulong crc;

	hp->id = HYMOD_EEPROM_ID;
	hp->ver = HYMOD_EEPROM_VER;

	dp = sdp = (uchar *)(hp + 1);
	edp = dp + HYMOD_EEPROM_MAXLEN;

	if (fetch_and_parse(bd, filename, addr, eeprom_fetch_callback) == 0)
	return (0);

	hp->len = dp - sdp;

	crc = crc32(0, data, dp - data);
	memcpy(dp, &crc, sizeof (ulong));
	dp += sizeof (ulong);

	eeprom_write(CFG_DEF_EEPROM_ADDR, offset, data, dp - data);

	return (1);
	}

	static char *type_vals[] = {
	"NONE", "IO", "CLP", "DSP", "INPUT", "ALT-INPUT", "DISPLAY"
	};

	static char *xlxtyp_vals[] = {
	"NONE", "XCV300E", "XCV400E", "XCV600E"
	};

	static char *xlxspd_vals[] = {
	"NONE", "6", "7", "8"
	};

	static char *xlxtmp_vals[] = {
	"NONE", "COM", "IND"
	};

	static char *xlxgrd_vals[] = {
	"NONE", "NORMAL", "ENGSAMP"
	};

	static char *cputyp_vals[] = {
	"NONE", "MPC8260"
	};

	static char *clk_vals[] = {
	"NONE", "33", "66", "100", "133", "166", "200"
	};

	static char *hstype_vals[] = {
	"NONE", "AMCC-S2064A"
	};

	static void
	print_mem(char l, char s, uchar n, uchar a[])
	{
	if (n > 0) {
	if (n == 1)
	printf("%s%dMB %s", s, 1 << (a[0] - 20), l);
	else {
	ulong t = 0;
	int i;

	for (i = 0; i < n; i++)
	t += 1 << (a[i] - 20);

	printf("%s%luMB %s (%d banks:", s, t, l, n);

	for (i = 0; i < n; i++)
	printf("%dMB%s", 1 << (a[i] - 20), (i == n - 1) ? ")" : ",");
	}
	}
	else
	printf("%sNO %s", s, l);
	}

	void
	eeprom_print(hymod_eeprom_t *ep)
	{
	int i;

	printf(" Hymod %s board, rev %03d\n",
	type_vals[ep->bdtype], ep->bdrev);

	printf(" serial #: %010lu, date %04d-%02d-%02d",
	ep->serno, ep->date.year, ep->date.month, ep->date.day);
	if (ep->batchlen > 0)
	printf(", batch \"%.*s\"", ep->batchlen, ep->batch);
	puts("\n");

	switch (ep->bdtype) {

	case HYMOD_BDTYPE_IO:
	case HYMOD_BDTYPE_CLP:
	case HYMOD_BDTYPE_DSP:
	printf(" Motorola %s CPU, speeds: %s/%s/%s",
	cputyp_vals[ep->mpc.type], clk_vals[ep->mpc.cpuspd],
	clk_vals[ep->mpc.cpmspd], clk_vals[ep->mpc.busspd]);

	print_mem("SDRAM", ", ", ep->nsdram, ep->sdramsz);

	print_mem("FLASH", ", ", ep->nflash, ep->flashsz);

	puts("\n");

	print_mem("ZBT", " ", ep->nzbt, ep->zbtsz);

	if (ep->nxlx > 0) {
	hymod_xlx_t *xp;

	if (ep->nxlx == 1) {
	xp = &ep->xlx[0];
	printf(", Xilinx %s FPGA (%s/%s/%s)",
	xlxtyp_vals[xp->type], xlxspd_vals[xp->speed],
	xlxtmp_vals[xp->temp], xlxgrd_vals[xp->grade]);
	}
	else {
	printf(", %d Xilinx FPGAs (", ep->nxlx);
	for (i = 0; i < ep->nxlx; i++) {
	xp = &ep->xlx[i];
	printf("%s[%s/%s/%s]%s",
	xlxtyp_vals[xp->type], xlxspd_vals[xp->speed],
	xlxtmp_vals[xp->temp], xlxgrd_vals[xp->grade],
	(i == ep->nxlx - 1) ? ")" : ", ");
	}
	}
	}
	else
	puts(", NO FPGAs");

	puts("\n");

	if (ep->hss.type > 0)
	printf(" High Speed Serial: %s, %d input%s, %d output%s\n",
	hstype_vals[ep->hss.type],
	ep->hss.nchin, (ep->hss.nchin == 1 ? "" : "s"),
	ep->hss.nchout, (ep->hss.nchout == 1 ? "" : "s"));
	break;

	case HYMOD_BDTYPE_INPUT:
	case HYMOD_BDTYPE_ALTINPUT:
	case HYMOD_BDTYPE_DISPLAY:
	break;

	default:
	/* crap! */
	printf(" UNKNOWN BOARD TYPE: %d\n", ep->bdtype);
	break;
	}
	}