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fru.c
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/*
* fru.c
* Copyright (C) 2012-2015 Analog Devices
* Author : Robin Getz <[email protected]>
*
* This file is maintained as part of:
* https://github.com/analogdevicesinc/fru_tools
* but is released under this license, so you can use it without having
* your software fall under the GPL. If you make improvements to this,
* although you are not required, it would be nice if you sent me a patch.
*
* 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 of Analog Devices, Inc. nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
* - The use of this software may or may not infringe the patent rights
* of one or more patent holders. This license does not release you
* from the requirement that you obtain separate licenses from these
* patent holders to use this software.
*
* THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT,
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, INTELLECTUAL PROPERTY RIGHTS, 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
*/
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <strings.h>
#include <string.h>
#include <time.h>
#include <stdarg.h>
#include <limits.h>
#if defined(__APPLE__)
#include <libkern/OSByteOrder.h>
#define __bswap_32 OSSwapInt32
#endif
//#define DEBUG 1
#include "fru.h"
#if defined(DEBUG)
# define printd(fmt, ...) printf(fmt, ##__VA_ARGS__)
#else
# define printd(fmt, ...) do {} while (0)
#endif
/*
* This code is based from:
* Platform Management FRU Information
* Storage Definition
* Document Revision 1.1, September 27, 1999
* Available at zero cost at:
* http://download.intel.com/design/servers/ipmi/FRU1011.pdf
*
* ANSI/VITA 57.1
* FPGA Mezzanine Card (FMC) Standard
* Approved July 2008 (Revised February 2010)
* http://www.vita.com/fmc.html
* Available for a small fee
* https://vita.com/secure/online-store.html
* used with permission
* Most info is in section 5.5.1: IPMI Support
*/
#if CHAR_BIT != 8
#error "unsupported char size"
#endif
/*
* FRU information uses a zero checksum everywhere.
* The modulo 256 sum of the preceding bytes (starting with the first byte
* of the header) plus the checksum byte equals zero.
* Platform Management FRU Information Storage Definition : section 16.2.[56]
*/
unsigned char calc_zero_checksum (unsigned char *data, size_t len)
{
size_t i;
unsigned char tmp = 0;
for (i = 0; i <= len; i++)
tmp += data[i];
return tmp;
}
/*
* FRU Board Area Mfg. Date / Time is the
* number of _minutes_ from 0:00 hrs 01Jan1996
* Max is 0xFFFFFF (3 bytes worth) or
* 16777215 minutes; or
* 279620 hours, 15 minutes; or
* 11650 days, 20 hours, 15 minutes; or
* 31 years, 328 days, 7 hours, 56 minutes (assuming 525949 minutes in a year); or
* up to : Wed Nov 24 07:56 2027
* See:
* section 11, Platform Management FRU Information Storage Definition
*/
time_t min2date(unsigned int mins)
{
struct tm tm;
time_t tmp;
/* Set up 01-Jan-1996 , and add the number of minutes to it */
memset(&tm, 0, sizeof(struct tm));
tm.tm_year = 96;
tm.tm_mday = 1;
tm.tm_min += mins;
tmp = mktime(&tm);
return tmp;
}
#ifdef DEBUG
/*
* Used for debugging
*/
static void dump_str(unsigned char * p, unsigned int size, unsigned int space)
{
size_t i, j = 0, k, m, shift;
unsigned char *t, this = 0, last = 0;
t = p;
k = 8 - space;
printf("dump %i bytes as %i-bit\n\t\t", size, space);
for (i = 0; i < size; i++) {
m = 0;
printf("%02zi: 0x%02x : ", i, *t);
last = this;
this = *t;
for (shift = 0x80; shift > 0; shift >>= 1) {
printf("%s", ((*t & shift) == shift) ? "1" : "0");
j++, m++;
if(k == m) {
printf(" ");
k = 8 - space + m;
if (k >= 8)
k -= space;
m = space + 100;
}
}
if (space == 8) {
if (*t) {
if (*t > 0x20)
printf(" '%c' ", *t);
else
printf(" ' ' ");
printf("%i (0x%02x)", *t, *t );
if (*t > 0x20 && *t < 0x70)
printf(" | six-bit: %id (0x%02x)", (*t - 0x20) & 0xFF, (*t - 0x20) & 0xFF);
}else
printf(" (term) NULL");
}
if (space == 6) {
unsigned char x = 0, y = 0;
if (k == 2) {
y = (this >> 2) & 0x3F;
x = (last >> 4) | ((this & 0x3) << 4);
} else if (k == 4) {
x = this & 0x3F;
} else if (k == 6) {
x = (last >> 6) | ((this & 0xF) << 2);
}
if (k == 4 || k == 6)
printf(" (0x%02x) 0x%02x '%c'", x , x + 0x20, x + 0x20);
if (k == 2)
printf(" (0x%02x) 0x%02x '%c' | (%02x) %02x '%c'", x , x + 0x20, x + 0x20, y , y + 0x20, y + 0x20);
}
++t;
printf("\n\t\t");
}
}
#else
static void dump_str(unsigned char * UNUSED(p), unsigned int UNUSED(size), unsigned int UNUSED(space))
{
return;
}
#endif
/*
* 6-bit ASCII Packing
* Platform Management FRU Information Storage Definition: Section 13.[23]
*/
int ascii2six(unsigned char **dest, unsigned char *src, size_t size)
{
size_t i = 0;
ssize_t j;
unsigned int k, m = 0;
unsigned char *p, *d, *e;
if (!src || !size)
return 0;
e = d = x_calloc(1, size);
p = src;
/*
* 6-bit requires uppercase chars, between 0 and 0x3f
*/
while (*p != '\0' && i <= size) {
j = toupper(*p) - 0x20;
if (j < 0 || j >= 0x40) {
printf_warn("%s : trying to convert a string '%s'\n"
"\t\twhich includes char '%c (0x%x)', which can't be converted\n",
__func__, src, *p, *p);
free(e);
return -1;
}
*d = j;
++p, ++d, i++;
}
/* dump_str(d, size, 4); */
/* the length of dest, should be 3/4 of size, it's zero padded at the end */
*dest = x_calloc(1, size + 1);
p = *dest;
printd("\t\t\t%s trying to encode %li bytes\n", __func__, size);
for (i = 0; i < size ; i+= 4) {
k = e[i];
/* printd("encoding byte %i '%x'\n", m, e[i]); */
m++;
if ((i + 1) < size) {
k |= e[i + 1] << 6;
/* printd("encoding byte %i '%x'\n", m, e[i+1]); */
m++;
}
if ((i + 2) < size) {
k |= e[i + 2] << 12;
/* printd("encoding byte %i '%x'\n", m, e[i+2]); */
m++;
}
if ((i + 3) < size) {
k |= e[i + 3] << 18;
/* printd("encoding byte %i '%x'\n", m, e[i+3]); */
}
#ifndef __MINGW32__
#if __BYTE_ORDER == __BIG_ENDIAN
k = __bswap_32(k);
#endif
#endif
memcpy(p, &k, 3);
p += 3;
}
/* dump_str(*dest, m, 6); */
free (e);
printd("\t\t\t%s : encoded, and returning %i bytes\n", __func__, m);
return m;
}
/*
* * 6-bit ASCII Unpacking
* * Platform Management FRU Information Storage Definition: Section 13.[23]
*/
unsigned char * six2ascii(unsigned char *buf, size_t size)
{
unsigned char *p, *dest;
size_t i, j;
if (!size)
return NULL;
printd("%s in: ", __func__); dump_str(buf, size, 6);
/* the length of dest, should be 4/3 of size + 1 for null termination char*/
j = ((size * 4) / 3) + 2;
dest = x_calloc(1, j);
p = dest;
/* we take 3 bytes of packed six-bit ASCII, and turn it into 4 bytes of ASCII
* but, stop processing when we hit the end
*/
for (i = 0; i < size; i += 3) {
*dest = (buf[i] & 0x3F) + 0x20;
/* printd("\t\t%02zu (0): 0x%x (%c)\n", i, *dest, *dest); */
dest++;
if ((i + 1) < size) {
*dest = ((buf[i] & 0xC0) >> 6 | (buf[i+1] & 0x0F) << 2) + 0x20;
/* printd("\t\t%02zu (1): 0x%x (%c)\n", i + 1, *dest, *dest); */
dest++;
}
if ((i + 2) < size) {
*dest = ((buf[i+1] & 0xF0) >> 4 | (buf[i+2] & 0x03) << 4) + 0x20;
/* printd("\t\t%02zu (2): 0x%x (%c)\n", i + 2, *dest, *dest); */
dest++;
}
if ((i + 3) <= size) {
*dest = ((buf[i+2] & 0xFC) >> 2) + 0x20;
/* printd("\t\t%02zu (3): 0x%x (%c)\n", i + 3, *dest, *dest); */
dest++;
}
}
/* make sure strings are null terminated */
*dest = 0;
/* Drop trailing spaces & null chars */
dest--;
while ((*dest == 0 || *dest == ' ') && j) {
*dest = 0;
dest--;
j--;
printd("\tdrop a char\n");
}
printd("\t%s out: ", __func__); dump_str(p, j, 8);
return p;
}
/*
* Extract strings from fields
* Section 13 TYPE/LENGTH BYTE FORMAT
* Platform Management FRU Information Storage Definition
*/
unsigned int parse_string(unsigned char *p, unsigned char **str, const char * field, bool skip)
{
size_t len, i, j;
len = p[0] & 0x3F;
if (!len) {
*str = x_calloc(1, 3);
*str[0] = (FRU_STRING_ASCII << 6);
return 1;
}
switch((p[0] >> 6) & 0x3 ) {
case FRU_STRING_BINARY:
/* binary or unspecified */
*str = x_calloc(1, len + 2);
memcpy(*str, p, len + 1);
break;
case FRU_STRING_BCD:
/* BCD plus */
printf_err("BCD - sorry\n");
break;
case FRU_STRING_SIXBIT:
/* 6-bit ASCII, packed */
{
unsigned char *tmp1, *tmp2;
size_t tlen, start = 1;
if (skip)
start++;
printd("%s skip:%i len:%i\n", __func__, skip, p[0] & 0x3F);
tmp1 = six2ascii(&p[start], skip ? (p[0] & 0x3F) - 1 : p[0]& 0x3F);
tlen = strlen((char *)tmp1);
*str = x_calloc(1, tlen + 2);
tmp2 = *str;
tmp2++;
if (skip) {
tmp2[0] = p[1];
tmp2++;
}
memcpy(tmp2, tmp1, tlen + 1);
if (tlen > 0x3F)
tlen = 0x3F;
*str[0] = (FRU_STRING_ASCII << 6) | tlen;
free(tmp1);
}
break;
case FRU_STRING_ASCII:
/* 8-bit ASCII */
*str = x_calloc(1, len + 2);
memcpy(*str, p, len + 1);
for (i = 1; i < len; i++) {
if (p[i] < 0x20 || p[i] == 0x7F) {
printf_warn("Field '%s' marked as ASCII, but contains non-printable "
"characters:\n", field);
printf_warn(" Length/Type : 0x%x (length:%i; type:ASCII(%i)\n",
p[0], p[0] & 0x3F, FRU_STRING_ASCII);
printf_warn(" Contents : ");
for (j = 1; j < len + 1; j++)
printf_warn("0x%02x ", p[j]);
printf_warn(" |");
for (j = 0; j < len + 1; j++)
printf_warn("%c", ((p[j] < 32) || (p[j] >= 127)) ? '.': p[j]);
printf_warn("|\n");
}
}
break;
}
return len + 1;
}
/*
* Board Info Area Format
* Platform Management FRU Information Storage Definition: Section 11
*/
struct BOARD_INFO * parse_board_area(unsigned char *data)
{
struct BOARD_INFO *fru;
unsigned char *p;
unsigned int len, i, j;
fru = x_calloc(1, sizeof(struct BOARD_INFO));
if (data[0] != 0x01) {
printf_err("Board Area Format Version mismatch: 0x%02x should be 0x01\n", data [0]);
goto err;
}
len = (data[1] * 8) - 1;
if (calc_zero_checksum(data, len)) {
printf_err("Board Area Checksum failed\n");
goto err;
}
if (data[2] != 0 && data[2] != 25) {
printf_err("Board Area is non-English - sorry: Lang code = %i\n", data[2]);
goto err;
}
len--;
while ((data[len] == 0x00) && (len != 0))
len--;
if (len == 0 || data[len] != 0xC1) {
printf_err("BOARD INFO not terminated properly, walking backwards len: "
"%i:0x%02x should be 0xC1\n", len, data[len]);
goto err;
}
fru->mfg_date = data[3] | (data[4] << 8) | (data[5] << 16);
p = &data[6];
len -= 6;
i = parse_string(p, &fru->manufacturer, "Manufacturer", false);
p += i, len -= i;
i = parse_string(p, &fru->product_name, "Product Name", false);
p += i, len -= i;
i = parse_string(p, &fru->serial_number, "Serial Number", false);
p += i, len -= i;
i = parse_string(p, &fru->part_number, "Part Number", false);
p += i, len -= i;
i = parse_string(p, &fru->FRU_file_ID, "FRU File ID", false);
p += i, len -= i;
j = 0;
while (len != 0 && j < CUSTOM_FIELDS) {
i = parse_string(p, &fru->custom[j], "Custom Field", true);
p += i, len -= i, j++;
}
if (*p != 0xC1) {
printf_err("BOARD INFO not terminated properly, "
"offset %02i(0x%02x) : %02i(0x%02x) should be 0xC1\n",
p - data, p - data, *p, *p);
goto err;
}
return fru;
err:
free(fru->manufacturer);
free(fru->product_name);
free(fru->serial_number);
free(fru->part_number);
free(fru->FRU_file_ID);
for( j = 0; j < CUSTOM_FIELDS; j++)
free(fru->custom[j]);
free(fru);
return NULL;
}
/*
* Each record in this area begins with a pre-defined header as specified in the
* section 16 in the Platform Management FRU Information Storage Definition.
* This header contains a ‘Type’ field that identifies what information is
* contained in the record. * There are some FMC specific headers, defined
* in section 5.5.1 of the FMC specification "IPMI Support". These FMC specific
* sections have a 1 byte sub-type, and a 3 byte Unique Organization Identifier
*/
struct MULTIRECORD_INFO * parse_multiboard_area(unsigned char *data)
{
int i = 0, tmp, type;
unsigned char *p;
struct MULTIRECORD_INFO *multi;
multi = x_calloc(1, sizeof(struct MULTIRECORD_INFO));
p = data;
do {
if (i != 0)
p += 5 + p[2];
if (p[0] >= 0x06 && p[0] <= 0xBF) {
printf_err("MultiRecord Area %i: Invalid Record Header\n", i);
return NULL;
}
if (calc_zero_checksum(p, 4)) {
printf_err("MultiRecord Area %i (Record Type 0x%x): "
"Header Checksum failed\n", i, p[0]);
return NULL;
}
if (!p[2] || ((calc_zero_checksum(p+5, p[2] - 1) + p[3]) & 0xFF)) {
printf_err("MultiRecord Area %i (Record Type 0x%x): "
"Record Checksum failed\n", i, p[0]);
return NULL;
}
/*
* Record Type ID
*/
switch(p[0]) {
case MULTIRECORD_DC_OUTPUT:
case MULTIRECORD_DC_INPUT:
tmp = p[5] & 0xF;
if ((tmp) >= NUM_SUPPLIES)
printf_err("Too many Supplies defined in Multirecords\n");
multi->supplies[tmp] = x_calloc(1, p[2] + 6);
memcpy (multi->supplies[tmp], p, p[2] + 6);
multi->supplies[tmp][1] = multi->supplies[tmp][1] & 0x7F;
break;
case MULTIRECORD_FMC:
/*
* Use VITA's OUI: 0x0012a2 is specified in the FMC spec - Rule 5.77
*/
if ((p[5] | p[6] << 8 | p[7] << 16) != VITA_OUI) {
printf_err("OUI Doesn't match : is 0x%06X, "
"should be 0x%06x\n", p[5] | p[6] << 8 | p[7] << 16, VITA_OUI);
}
/* type field is located: Header + Manufacturer ID = 5 + 3 */
type = p[8] >> 4;
switch (type) {
case MULTIRECORD_CONNECTOR:
/* see table 7 in FMC spec */
multi->connector = x_calloc(1, p[2] + 6);
memcpy (multi->connector, p, p[2] + 6);
/* This isn't the end 'til we re-assemble things */
multi->connector[1] = multi->connector[1] & 0x7F;
break;
case MULTIRECORD_I2C:
if (p[2] <= 5) {
printf_warn("I2C MultiRecord is too short (len:%i)\n"
" (at least 4 is needed for OUI and subtype)\n",
p[2]);
} else {
/* see table 9 in FMC spec */
unsigned char *foo2;
foo2 = six2ascii(&p[9], p[2] - 4);
multi->i2c_devices = x_calloc(1, strlen((char *)foo2) + 1);
strcpy ((char *)multi->i2c_devices, (char *)foo2);
free(foo2);
/* This isn't the end 'til we re-assemble things */
multi->i2c_devices[1] = multi->i2c_devices[1] & 0x7F;
}
break;
default:
printf_err("Unknown multirecord type : %i\n", type);
break;
}
if (type == 1) {
}
break;
default:
printf_err("Unknown MultiRecord Area\n");
}
i++;
} while (!(p[1] & 0x80));
return multi;
}
/*
* Common Header Format
* Section 8 in the Platform Management FRU Information Storage Definition
*/
struct FRU_DATA * parse_FRU (unsigned char *data)
{
struct FRU_DATA *fru;
struct FRU_COMMON_HEADER *header = (struct FRU_COMMON_HEADER *)data;
fru = x_calloc (1, sizeof(struct FRU_DATA));
/* Check FRU version */
if (header->format_ver != 0x01) {
printf_err("FRU Version number mismatch 0x%02x should be 0x01\n", data[0]);
goto err;
}
/* Check Padding */
if (header->pad != 0x00) {
printf_err("FRU byte 6 should be PAD, and be zero -- but it's not\n");
goto err;
}
/* Check header checksum */
if (calc_zero_checksum(data, 7)) {
printf_err("Common Header Checksum failed\n");
goto err;
}
/* Parse Internal Use Area */
if (header->internal_offset) {
printf_err("Internal Use Area not yet implemented - sorry\n");
goto err;
}
/* Parse Chassis Info Area */
if (header->chassis_offset) {
printf_err("Chassis Info Area not yet implmented - sorry\n");
goto err;
}
/* Parse Board Area */
if (header->board_offset) {
fru->Board_Area = parse_board_area(&data[data[3] * 8]);
if (!fru->Board_Area)
goto err;
}
/* Parse Product Info Area */
if (header->product_offset) {
printf_err("Product Info Area parsing not yet implemented - sorry\n");
goto err;
}
/* Parse MultiRecord Area */
if (header->multirecord_offset)
fru->MultiRecord_Area = parse_multiboard_area(&data[data[5] * 8]);
return fru;
err:
free(fru);
return NULL;
}
void free_FRU(struct FRU_DATA *fru)
{
int j;
free(fru->Board_Area->manufacturer);
free(fru->Board_Area->product_name);
free(fru->Board_Area->serial_number);
free(fru->Board_Area->part_number);
free(fru->Board_Area->FRU_file_ID);
for(j = 0; j < CUSTOM_FIELDS; j++)
free(fru->Board_Area->custom[j]);
free(fru->Board_Area);
for(j = 0; j < NUM_SUPPLIES; j++)
free(fru->MultiRecord_Area->supplies[j]);
free(fru->MultiRecord_Area->i2c_devices);
free(fru->MultiRecord_Area->connector);
free(fru->MultiRecord_Area);
free(fru);
}
/*
* take string, and put in into the buffer
* return the number of bytes copied
*/
static unsigned int insert_str(unsigned char *buf, const unsigned char * str, bool force, bool skip)
{
int tmp, start = 1;
bool force_six = false;
printd("%s ", __func__);
if (TYPE_CODE(str) == FRU_STRING_ASCII) {
if (skip)
start++;
tmp = strlen((const char *)&str[start]);
printd("ASCII (0x%x) ", TYPE_CODE(str));
dump_str((unsigned char*)&str[start], tmp + 1 , 8);
} else {
tmp = FIELD_LEN(str);
if (TYPE_CODE(str) == FRU_STRING_BINARY)
printd("binary (0x%x) ", TYPE_CODE(str));
else if (TYPE_CODE(str) == FRU_STRING_BCD)
printd("BCD (0x%x) ", TYPE_CODE(str));
else if (TYPE_CODE(str) == FRU_STRING_SIXBIT)
printd("Packed six bit (0x%x) ", TYPE_CODE(str));
dump_str((unsigned char*)str, tmp + 1 , 8);
}
/* check to see if iy can be packed */
if (tmp >= 4 && skip && force && TYPE_CODE(str) == FRU_STRING_BINARY) {
int j, i;
force_six = true;
for (i = start + 1; str[i] != '\0' && i <= tmp; i++) {
j = toupper(str[i]) - 0x20;
if (j < 0 || j >= 0x40) {
force_six = false;
break;
}
}
if (force_six) {
start++;
tmp = strlen((const char *)&str[start]);
}
}
/* Turn ASCII into 6 bit if possible */
if ((!force_six && TYPE_CODE(str) != FRU_STRING_ASCII) || (tmp <= 0x3F && !force)) {
/* It fits, so just leave it as ASCII/binary/whatever format it's in */
buf[0] = tmp | (TYPE_CODE(str) << 6);
memcpy(&buf[1], &str[1], tmp);
} else {
/* turn it into 6-bit ASCII */
unsigned char *six = NULL;
printd("\t%s six in : 0x%x : len: %2d : ", __func__, (str[0] >> 6) && 0x3, str[0] & 0x3F);
if (skip)
printd(" skipping byte : 0x%02x", str[1]);
printd(" %s\n" , &str[start]);
/* dump_str((unsigned char*)&str[start], tmp + 1 , 8); */
tmp = ascii2six(&six, (unsigned char *)&str[start], skip ? tmp : tmp);
if (tmp < 0) {
printd("error\n");
/* Counldn't encode things */
printf_warn("couldn't encode '%s' string\n", &str[1]);
tmp = strlen((const char *)&str[1]);
if (tmp > 0x3F) {
printf_warn("fail : %d\n", tmp);
printf_err("String too long to fit\n");
}
buf[0] = tmp | (FRU_STRING_ASCII << 6);
memcpy(&buf[1], &str[1], tmp);
return tmp + 1;
}
printd("\t%s resulting encode : ", __func__); dump_str(six, tmp, 6);
if (tmp > 0x3F || (skip && tmp > 0x3E)) {
printf_warn("fail : %d\n", tmp);
printf_err("String too long to fit\n");
}
memcpy(&buf[start], six, tmp);
if (skip) {
buf[1] = str[1];
tmp++;
}
buf[0] = tmp | (FRU_STRING_SIXBIT << 6);
free(six);
}
return tmp + 1;
}
/*
* Takes the FRU structure, and builds the binary blob
*/
unsigned char * build_FRU_blob (struct FRU_DATA *fru, size_t *length, bool packed)
{
unsigned char *p, *buf;
unsigned int st, len, tmp, last = 0, i = 0, j;
buf = x_calloc(1, 1024);
len = 256;
buf[0] = 0x01;
i = 8;
if (fru->Internal_Area)
printf_err("Internal Use Area not yet implemented - sorry\n");
if (fru->Chassis_Info)
printf_err("Chassis Info not yet implemented - sorry\n");
printd("len start %i\n", i);
if (fru->Board_Area) {
len = st = i;
buf[3] = i / 8;
buf[i] = 0x1; /* Magic number */
/* buf[i+1] = length, which needs to be determined later */
buf[i+2] = 25; /* English */
buf[i+3] = (fru->Board_Area->mfg_date) & 0xFF;
buf[i+4] = (fru->Board_Area->mfg_date >> 8) & 0xFF;
buf[i+5] = (fru->Board_Area->mfg_date >> 16) & 0xFF;
i += 6;
printd("len : manufacture : %i\n", i);
i += insert_str(&buf[i], fru->Board_Area->manufacturer, packed, false);
printd("len : product_name : %i\n", i);
i += insert_str(&buf[i], fru->Board_Area->product_name, packed, false);
printd("len : serial : %i\n", i);
i += insert_str(&buf[i], fru->Board_Area->serial_number, packed, false);
printd("len : part : %i\n", i);
i += insert_str(&buf[i], fru->Board_Area->part_number, packed, false);
printd("len : File ID : %i\n", i);
i += insert_str(&buf[i], fru->Board_Area->FRU_file_ID, packed, false);
printd("len : custom : %i\n", i);
for (j = 0; j < CUSTOM_FIELDS; j++) {
if (fru->Board_Area->custom[j]) {
i += insert_str(&buf[i], fru->Board_Area->custom[j], packed, true);
printd("custom field %i '%s' overall length: %i\n", j, fru->Board_Area->custom[j], i);
}
}
/* 0xC1 = type/length byte encoded to indicate no more info fields */
buf[i] = 0xC1;
i++;
printd("len : before pad: %i\n", i);
/* header counts in multiples of 8 bytes
* 00h - any remaining unused space
*/
i = (((i >> 3) + 1) << 3) - 1;
printd("len : after pad: %i\n", i);
len = i - st;
printd("len of board area = %i\n", len);
buf[st + 1] = len / 8 + 1;
buf[i] = 256 - calc_zero_checksum(&buf[st], len);
i++;
}
printd("len after board area: %i\n", i);
if (fru->Product_Info) {
}
if (fru->MultiRecord_Area) {
st = i;
buf[5] = st / 8;
for (tmp = 0; tmp < NUM_SUPPLIES; tmp++) {
p = fru->MultiRecord_Area->supplies[tmp];
if (!p)
continue;
memcpy(&buf[i], p, p[2]+ 5);
/* Record Checksum */
buf[i+3] = 0x100 - calc_zero_checksum(&buf[i+5], buf[i+2] - 1);
/* Header Checksum */
buf[i+4] = 0;
buf[i+4] = 0x100 - calc_zero_checksum(&buf[i], 4);
last = i + 1;
i += p[2] + 5;
}
p = fru->MultiRecord_Area->connector;
if (p) {
memcpy(&buf[i], p, p[2]+ 5);
/* Record Checksum */
buf[i+3] = 0x100 - calc_zero_checksum(&buf[i+5], buf[i+2] - 1);
/* Header Checksum */
buf[i+4] = 0;
buf[i+4] = 0x100 - calc_zero_checksum(&buf[i], 4);
last = i + 1;
i += p[2] + 5;
}
p = fru->MultiRecord_Area->i2c_devices;
if (p) {
unsigned int len, oui = VITA_OUI;
unsigned char *six = NULL;
len = ascii2six(&six, p, strlen((char *)p));
/* Type ID, Record Format version, Length, checksum, checksum */
sprintf((char *)&buf[i], "%c%c%c%c%c", MULTIRECORD_FMC, 0x02, len + 4, 0, 0);
/* Store OUI */
#ifndef __MINGW32__
# if __BYTE_ORDER == __BIG_ENDIAN
oui = __bswap_32(oui);
#endif
#endif
memcpy(&buf[i+5], &oui, 3);
/* Subtype & version - see Table 9 in FMC spec*/
sprintf((char *)&buf[i+8], "%c", (0x1 << 4) | (0));
/* finally copy over the string */
memcpy(&buf[i+9], six, len);
/* Record Checksum */
buf[i+3] = 0x100 - calc_zero_checksum(&buf[i+5], len + 3);
/* Header Checksum */
buf[i+4] = 0x100 - calc_zero_checksum(&buf[i], 4);
last = i + 1;
i += len + 9;
free(six);
}
if (last) {
buf[last] = buf[last] | 0x80;
/* redo the header checksum, since we just changed the header :( */
buf[last + 3] = 0;
buf[last + 3] = 0x100 - calc_zero_checksum(&buf[last - 1], 4);
}
}
printd("len after multi-record %i\n", i);
buf[7] = 256 - calc_zero_checksum(buf, 6);
*length = i;
return buf;
}