freebsd-skq/usr.sbin/makefs/cd9660/cd9660_eltorito.c
benno 5adbffdac8 Synchronise with NetBSD's version of EFI handling for El Torito images.
When I implemented my EFI support I failed to check if the upstream version
of makefs in NetBSD had done the same. Override my version with theirs to
make it easier to stay in sync with them in the future.

Reviewed by:	imp, mav
Obtained from:	NetBSD
MFC after:	1 week
Sponsored by:	iXsystems, Inc.
Differential Revision:	https://reviews.freebsd.org/D14913
2018-03-31 15:04:41 +00:00

743 lines
20 KiB
C

/* $NetBSD: cd9660_eltorito.c,v 1.23 2018/03/28 06:48:55 nonaka Exp $ */
/*-
* SPDX-License-Identifier: BSD-2-Clause-NetBSD
*
* Copyright (c) 2005 Daniel Watt, Walter Deignan, Ryan Gabrys, Alan
* Perez-Rathke and Ram Vedam. All rights reserved.
*
* This code was written by Daniel Watt, Walter Deignan, Ryan Gabrys,
* Alan Perez-Rathke and Ram Vedam.
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
* conditions are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
*
* THIS SOFTWARE IS PROVIDED BY DANIEL WATT, WALTER DEIGNAN, RYAN
* GABRYS, ALAN PEREZ-RATHKE AND RAM VEDAM ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL DANIEL WATT, WALTER DEIGNAN, RYAN
* GABRYS, ALAN PEREZ-RATHKE AND RAM VEDAM BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
* USE,DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
* OF SUCH DAMAGE.
*/
#include "cd9660.h"
#include "cd9660_eltorito.h"
#include <util.h>
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#ifdef DEBUG
#define ELTORITO_DPRINTF(__x) printf __x
#else
#define ELTORITO_DPRINTF(__x)
#endif
#include <util.h>
static struct boot_catalog_entry *cd9660_init_boot_catalog_entry(void);
static struct boot_catalog_entry *cd9660_boot_setup_validation_entry(char);
static struct boot_catalog_entry *cd9660_boot_setup_default_entry(
struct cd9660_boot_image *);
static struct boot_catalog_entry *cd9660_boot_setup_section_head(char);
#if 0
static u_char cd9660_boot_get_system_type(struct cd9660_boot_image *);
#endif
static struct cd9660_boot_image *default_boot_image;
int
cd9660_add_boot_disk(iso9660_disk *diskStructure, const char *boot_info)
{
struct stat stbuf;
const char *mode_msg;
char *temp;
char *sysname;
char *filename;
struct cd9660_boot_image *new_image, *tmp_image;
assert(boot_info != NULL);
if (*boot_info == '\0') {
warnx("Error: Boot disk information must be in the "
"format 'system;filename'");
return 0;
}
/* First decode the boot information */
temp = estrdup(boot_info);
sysname = temp;
filename = strchr(sysname, ';');
if (filename == NULL) {
warnx("supply boot disk information in the format "
"'system;filename'");
free(temp);
return 0;
}
*filename++ = '\0';
if (diskStructure->verbose_level > 0) {
printf("Found bootdisk with system %s, and filename %s\n",
sysname, filename);
}
new_image = ecalloc(1, sizeof(*new_image));
new_image->loadSegment = 0; /* default for now */
/* Decode System */
if (strcmp(sysname, "i386") == 0)
new_image->system = ET_SYS_X86;
else if (strcmp(sysname, "powerpc") == 0)
new_image->system = ET_SYS_PPC;
else if (strcmp(sysname, "macppc") == 0 ||
strcmp(sysname, "mac68k") == 0)
new_image->system = ET_SYS_MAC;
else {
warnx("boot disk system must be "
"i386, powerpc, macppc, or mac68k");
free(temp);
free(new_image);
return 0;
}
new_image->filename = estrdup(filename);
free(temp);
/* Get information about the file */
if (lstat(new_image->filename, &stbuf) == -1)
err(EXIT_FAILURE, "%s: lstat(\"%s\")", __func__,
new_image->filename);
switch (stbuf.st_size) {
case 1440 * 1024:
new_image->targetMode = ET_MEDIA_144FDD;
mode_msg = "Assigned boot image to 1.44 emulation mode";
break;
case 1200 * 1024:
new_image->targetMode = ET_MEDIA_12FDD;
mode_msg = "Assigned boot image to 1.2 emulation mode";
break;
case 2880 * 1024:
new_image->targetMode = ET_MEDIA_288FDD;
mode_msg = "Assigned boot image to 2.88 emulation mode";
break;
default:
new_image->targetMode = ET_MEDIA_NOEM;
mode_msg = "Assigned boot image to no emulation mode";
break;
}
if (diskStructure->verbose_level > 0)
printf("%s\n", mode_msg);
new_image->size = stbuf.st_size;
new_image->num_sectors =
howmany(new_image->size, diskStructure->sectorSize) *
howmany(diskStructure->sectorSize, 512);
if (diskStructure->verbose_level > 0) {
printf("New image has size %d, uses %d 512-byte sectors\n",
new_image->size, new_image->num_sectors);
}
new_image->sector = -1;
/* Bootable by default */
new_image->bootable = ET_BOOTABLE;
/* Add boot disk */
/* Group images for the same platform together. */
TAILQ_FOREACH(tmp_image, &diskStructure->boot_images, image_list) {
if (tmp_image->system != new_image->system)
break;
}
if (tmp_image == NULL) {
TAILQ_INSERT_HEAD(&diskStructure->boot_images, new_image,
image_list);
} else
TAILQ_INSERT_BEFORE(tmp_image, new_image, image_list);
new_image->serialno = diskStructure->image_serialno++;
new_image->platform_id = new_image->system;
/* TODO : Need to do anything about the boot image in the tree? */
diskStructure->is_bootable = 1;
/* First boot image is initial/default entry. */
if (default_boot_image == NULL)
default_boot_image = new_image;
return 1;
}
int
cd9660_eltorito_add_boot_option(iso9660_disk *diskStructure,
const char *option_string, const char *value)
{
char *eptr;
struct cd9660_boot_image *image;
assert(option_string != NULL);
/* Find the last image added */
TAILQ_FOREACH(image, &diskStructure->boot_images, image_list) {
if (image->serialno + 1 == diskStructure->image_serialno)
break;
}
if (image == NULL)
errx(EXIT_FAILURE, "Attempted to add boot option, "
"but no boot images have been specified");
if (strcmp(option_string, "no-emul-boot") == 0) {
image->targetMode = ET_MEDIA_NOEM;
} else if (strcmp(option_string, "no-boot") == 0) {
image->bootable = ET_NOT_BOOTABLE;
} else if (strcmp(option_string, "hard-disk-boot") == 0) {
image->targetMode = ET_MEDIA_HDD;
} else if (strcmp(option_string, "boot-load-segment") == 0) {
image->loadSegment = strtoul(value, &eptr, 16);
if (eptr == value || *eptr != '\0' || errno != ERANGE) {
warn("%s: strtoul", __func__);
return 0;
}
} else if (strcmp(option_string, "platformid") == 0) {
if (strcmp(value, "efi") == 0)
image->platform_id = ET_SYS_EFI;
else {
warn("%s: unknown platform: %s", __func__, value);
return 0;
}
} else {
return 0;
}
return 1;
}
static struct boot_catalog_entry *
cd9660_init_boot_catalog_entry(void)
{
return ecalloc(1, sizeof(struct boot_catalog_entry));
}
static struct boot_catalog_entry *
cd9660_boot_setup_validation_entry(char sys)
{
struct boot_catalog_entry *entry;
boot_catalog_validation_entry *ve;
int16_t checksum;
unsigned char *csptr;
size_t i;
entry = cd9660_init_boot_catalog_entry();
entry->entry_type = ET_ENTRY_VE;
ve = &entry->entry_data.VE;
ve->header_id[0] = 1;
ve->platform_id[0] = sys;
ve->key[0] = 0x55;
ve->key[1] = 0xAA;
/* Calculate checksum */
checksum = 0;
cd9660_721(0, ve->checksum);
csptr = (unsigned char*)ve;
for (i = 0; i < sizeof(*ve); i += 2) {
checksum += (int16_t)csptr[i];
checksum += 256 * (int16_t)csptr[i + 1];
}
checksum = -checksum;
cd9660_721(checksum, ve->checksum);
ELTORITO_DPRINTF(("%s: header_id %d, platform_id %d, key[0] %d, key[1] %d, "
"checksum %04x\n", __func__, ve->header_id[0], ve->platform_id[0],
ve->key[0], ve->key[1], checksum));
return entry;
}
static struct boot_catalog_entry *
cd9660_boot_setup_default_entry(struct cd9660_boot_image *disk)
{
struct boot_catalog_entry *default_entry;
boot_catalog_initial_entry *ie;
default_entry = cd9660_init_boot_catalog_entry();
if (default_entry == NULL)
return NULL;
default_entry->entry_type = ET_ENTRY_IE;
ie = &default_entry->entry_data.IE;
ie->boot_indicator[0] = disk->bootable;
ie->media_type[0] = disk->targetMode;
cd9660_721(disk->loadSegment, ie->load_segment);
ie->system_type[0] = disk->system;
cd9660_721(disk->num_sectors, ie->sector_count);
cd9660_731(disk->sector, ie->load_rba);
ELTORITO_DPRINTF(("%s: boot indicator %d, media type %d, "
"load segment %04x, system type %d, sector count %d, "
"load rba %d\n", __func__, ie->boot_indicator[0],
ie->media_type[0], disk->loadSegment, ie->system_type[0],
disk->num_sectors, disk->sector));
return default_entry;
}
static struct boot_catalog_entry *
cd9660_boot_setup_section_head(char platform)
{
struct boot_catalog_entry *entry;
boot_catalog_section_header *sh;
entry = cd9660_init_boot_catalog_entry();
if (entry == NULL)
return NULL;
entry->entry_type = ET_ENTRY_SH;
sh = &entry->entry_data.SH;
/*
* More by default.
* The last one will manually be set to ET_SECTION_HEADER_LAST
*/
sh->header_indicator[0] = ET_SECTION_HEADER_MORE;
sh->platform_id[0] = platform;
sh->num_section_entries[0] = 0;
return entry;
}
static struct boot_catalog_entry *
cd9660_boot_setup_section_entry(struct cd9660_boot_image *disk)
{
struct boot_catalog_entry *entry;
boot_catalog_section_entry *se;
if ((entry = cd9660_init_boot_catalog_entry()) == NULL)
return NULL;
entry->entry_type = ET_ENTRY_SE;
se = &entry->entry_data.SE;
se->boot_indicator[0] = ET_BOOTABLE;
se->media_type[0] = disk->targetMode;
cd9660_721(disk->loadSegment, se->load_segment);
cd9660_721(disk->num_sectors, se->sector_count);
cd9660_731(disk->sector, se->load_rba);
return entry;
}
#if 0
static u_char
cd9660_boot_get_system_type(struct cd9660_boot_image *disk)
{
/*
For hard drive booting, we need to examine the MBR to figure
out what the partition type is
*/
return 0;
}
#endif
/*
* Set up the BVD, Boot catalog, and the boot entries, but do no writing
*/
int
cd9660_setup_boot(iso9660_disk *diskStructure, int first_sector)
{
int sector;
int used_sectors;
int num_entries = 0;
int catalog_sectors;
struct boot_catalog_entry *x86_head, *mac_head, *ppc_head, *efi_head,
*valid_entry, *default_entry, *temp, *head, **headp, *next;
struct cd9660_boot_image *tmp_disk;
headp = NULL;
x86_head = mac_head = ppc_head = efi_head = NULL;
/* If there are no boot disks, don't bother building boot information */
if (TAILQ_EMPTY(&diskStructure->boot_images))
return 0;
/* Point to catalog: For now assume it consumes one sector */
ELTORITO_DPRINTF(("Boot catalog will go in sector %d\n", first_sector));
diskStructure->boot_catalog_sector = first_sector;
cd9660_bothendian_dword(first_sector,
diskStructure->boot_descriptor->boot_catalog_pointer);
/* Step 1: Generate boot catalog */
/* Step 1a: Validation entry */
valid_entry = cd9660_boot_setup_validation_entry(ET_SYS_X86);
if (valid_entry == NULL)
return -1;
/*
* Count how many boot images there are,
* and how many sectors they consume.
*/
num_entries = 1;
used_sectors = 0;
TAILQ_FOREACH(tmp_disk, &diskStructure->boot_images, image_list) {
used_sectors += tmp_disk->num_sectors;
/* One default entry per image */
num_entries++;
}
catalog_sectors = howmany(num_entries * 0x20, diskStructure->sectorSize);
used_sectors += catalog_sectors;
if (diskStructure->verbose_level > 0) {
printf("%s: there will be %i entries consuming %i sectors. "
"Catalog is %i sectors\n", __func__, num_entries,
used_sectors, catalog_sectors);
}
/* Populate sector numbers */
sector = first_sector + catalog_sectors;
TAILQ_FOREACH(tmp_disk, &diskStructure->boot_images, image_list) {
tmp_disk->sector = sector;
sector += tmp_disk->num_sectors /
(diskStructure->sectorSize / 512);
}
LIST_INSERT_HEAD(&diskStructure->boot_entries, valid_entry, ll_struct);
/* Step 1b: Initial/default entry */
/* TODO : PARAM */
if (default_boot_image != NULL) {
struct cd9660_boot_image *tcbi;
TAILQ_FOREACH(tcbi, &diskStructure->boot_images, image_list) {
if (tcbi == default_boot_image) {
tmp_disk = tcbi;
break;
}
}
}
if (tmp_disk == NULL)
tmp_disk = TAILQ_FIRST(&diskStructure->boot_images);
default_entry = cd9660_boot_setup_default_entry(tmp_disk);
if (default_entry == NULL) {
warnx("Error: memory allocation failed in cd9660_setup_boot");
return -1;
}
LIST_INSERT_AFTER(valid_entry, default_entry, ll_struct);
/* Todo: multiple default entries? */
tmp_disk = TAILQ_FIRST(&diskStructure->boot_images);
head = NULL;
temp = default_entry;
/* If multiple boot images are given : */
for (; tmp_disk != NULL; tmp_disk = TAILQ_NEXT(tmp_disk, image_list)) {
if (tmp_disk == default_boot_image)
continue;
/* Step 2: Section header */
switch (tmp_disk->platform_id) {
case ET_SYS_X86:
headp = &x86_head;
break;
case ET_SYS_PPC:
headp = &ppc_head;
break;
case ET_SYS_MAC:
headp = &mac_head;
break;
case ET_SYS_EFI:
headp = &efi_head;
break;
default:
warnx("%s: internal error: unknown system type",
__func__);
return -1;
}
if (*headp == NULL) {
head =
cd9660_boot_setup_section_head(tmp_disk->platform_id);
if (head == NULL) {
warnx("Error: memory allocation failed in "
"cd9660_setup_boot");
return -1;
}
LIST_INSERT_AFTER(default_entry, head, ll_struct);
*headp = head;
} else
head = *headp;
head->entry_data.SH.num_section_entries[0]++;
/* Step 2a: Section entry and extensions */
temp = cd9660_boot_setup_section_entry(tmp_disk);
if (temp == NULL) {
warn("%s: cd9660_boot_setup_section_entry", __func__);
return -1;
}
while ((next = LIST_NEXT(head, ll_struct)) != NULL &&
next->entry_type == ET_ENTRY_SE)
head = next;
LIST_INSERT_AFTER(head, temp, ll_struct);
}
/* Find the last Section Header entry and mark it as the last. */
head = NULL;
LIST_FOREACH(next, &diskStructure->boot_entries, ll_struct) {
if (next->entry_type == ET_ENTRY_SH)
head = next;
}
if (head != NULL)
head->entry_data.SH.header_indicator[0] = ET_SECTION_HEADER_LAST;
/* TODO: Remaining boot disks when implemented */
return first_sector + used_sectors;
}
int
cd9660_setup_boot_volume_descriptor(iso9660_disk *diskStructure,
volume_descriptor *bvd)
{
boot_volume_descriptor *bvdData =
(boot_volume_descriptor*)bvd->volumeDescriptorData;
bvdData->boot_record_indicator[0] = ISO_VOLUME_DESCRIPTOR_BOOT;
memcpy(bvdData->identifier, ISO_VOLUME_DESCRIPTOR_STANDARD_ID, 5);
bvdData->version[0] = 1;
memcpy(bvdData->boot_system_identifier, ET_ID, 23);
memcpy(bvdData->identifier, ISO_VOLUME_DESCRIPTOR_STANDARD_ID, 5);
diskStructure->boot_descriptor =
(boot_volume_descriptor*) bvd->volumeDescriptorData;
return 1;
}
static int
cd9660_write_mbr_partition_entry(FILE *fd, int idx, off_t sector_start,
off_t nsectors, int type)
{
uint8_t val;
uint32_t lba;
if (fseeko(fd, (off_t)(idx) * 16 + 0x1be, SEEK_SET) == -1)
err(1, "fseeko");
val = 0x80; /* Bootable */
fwrite(&val, sizeof(val), 1, fd);
val = 0xff; /* CHS begin */
fwrite(&val, sizeof(val), 1, fd);
fwrite(&val, sizeof(val), 1, fd);
fwrite(&val, sizeof(val), 1, fd);
val = type; /* Part type */
fwrite(&val, sizeof(val), 1, fd);
val = 0xff; /* CHS end */
fwrite(&val, sizeof(val), 1, fd);
fwrite(&val, sizeof(val), 1, fd);
fwrite(&val, sizeof(val), 1, fd);
/* LBA extent */
lba = htole32(sector_start);
fwrite(&lba, sizeof(lba), 1, fd);
lba = htole32(nsectors);
fwrite(&lba, sizeof(lba), 1, fd);
return 0;
}
static int
cd9660_write_apm_partition_entry(FILE *fd, int idx, int total_partitions,
off_t sector_start, off_t nsectors, off_t sector_size,
const char *part_name, const char *part_type)
{
uint32_t apm32, part_status;
uint16_t apm16;
/* See Apple Tech Note 1189 for the details about the pmPartStatus
* flags.
* Below the flags which are default:
* - IsValid 0x01
* - IsAllocated 0x02
* - IsReadable 0x10
* - IsWritable 0x20
*/
part_status = 0x01 | 0x02 | 0x10 | 0x20;
if (fseeko(fd, (off_t)(idx + 1) * sector_size, SEEK_SET) == -1)
err(1, "fseeko");
/* Signature */
apm16 = htobe16(0x504d);
fwrite(&apm16, sizeof(apm16), 1, fd);
apm16 = 0;
fwrite(&apm16, sizeof(apm16), 1, fd);
/* Total number of partitions */
apm32 = htobe32(total_partitions);
fwrite(&apm32, sizeof(apm32), 1, fd);
/* Bounds */
apm32 = htobe32(sector_start);
fwrite(&apm32, sizeof(apm32), 1, fd);
apm32 = htobe32(nsectors);
fwrite(&apm32, sizeof(apm32), 1, fd);
fwrite(part_name, strlen(part_name) + 1, 1, fd);
fseek(fd, 32 - strlen(part_name) - 1, SEEK_CUR);
fwrite(part_type, strlen(part_type) + 1, 1, fd);
fseek(fd, 32 - strlen(part_type) - 1, SEEK_CUR);
apm32 = 0;
/* pmLgDataStart */
fwrite(&apm32, sizeof(apm32), 1, fd);
/* pmDataCnt */
apm32 = htobe32(nsectors);
fwrite(&apm32, sizeof(apm32), 1, fd);
/* pmPartStatus */
apm32 = htobe32(part_status);
fwrite(&apm32, sizeof(apm32), 1, fd);
return 0;
}
int
cd9660_write_boot(iso9660_disk *diskStructure, FILE *fd)
{
struct boot_catalog_entry *e;
struct cd9660_boot_image *t;
int apm_partitions = 0;
int mbr_partitions = 0;
/* write boot catalog */
if (fseeko(fd, (off_t)diskStructure->boot_catalog_sector *
diskStructure->sectorSize, SEEK_SET) == -1)
err(1, "fseeko");
if (diskStructure->verbose_level > 0) {
printf("Writing boot catalog to sector %" PRId64 "\n",
diskStructure->boot_catalog_sector);
}
LIST_FOREACH(e, &diskStructure->boot_entries, ll_struct) {
if (diskStructure->verbose_level > 0) {
printf("Writing catalog entry of type %d\n",
e->entry_type);
}
/*
* It doesn't matter which one gets written
* since they are the same size
*/
fwrite(&(e->entry_data.VE), 1, 32, fd);
}
if (diskStructure->verbose_level > 0)
printf("Finished writing boot catalog\n");
/* copy boot images */
TAILQ_FOREACH(t, &diskStructure->boot_images, image_list) {
if (diskStructure->verbose_level > 0) {
printf("Writing boot image from %s to sectors %d\n",
t->filename, t->sector);
}
cd9660_copy_file(diskStructure, fd, t->sector, t->filename);
if (t->system == ET_SYS_MAC)
apm_partitions++;
if (t->system == ET_SYS_PPC)
mbr_partitions++;
}
/* some systems need partition tables as well */
if (mbr_partitions > 0 || diskStructure->chrp_boot) {
uint16_t sig;
fseek(fd, 0x1fe, SEEK_SET);
sig = htole16(0xaa55);
fwrite(&sig, sizeof(sig), 1, fd);
mbr_partitions = 0;
/* Write ISO9660 descriptor, enclosing the whole disk */
if (diskStructure->chrp_boot)
cd9660_write_mbr_partition_entry(fd, mbr_partitions++,
0, diskStructure->totalSectors *
(diskStructure->sectorSize / 512), 0x96);
/* Write all partition entries */
TAILQ_FOREACH(t, &diskStructure->boot_images, image_list) {
if (t->system != ET_SYS_PPC)
continue;
cd9660_write_mbr_partition_entry(fd, mbr_partitions++,
t->sector * (diskStructure->sectorSize / 512),
t->num_sectors * (diskStructure->sectorSize / 512),
0x41 /* PReP Boot */);
}
}
if (apm_partitions > 0) {
/* Write DDR and global APM info */
uint32_t apm32;
uint16_t apm16;
int total_parts;
fseek(fd, 0, SEEK_SET);
apm16 = htobe16(0x4552);
fwrite(&apm16, sizeof(apm16), 1, fd);
/* Device block size */
apm16 = htobe16(512);
fwrite(&apm16, sizeof(apm16), 1, fd);
/* Device block count */
apm32 = htobe32(diskStructure->totalSectors *
(diskStructure->sectorSize / 512));
fwrite(&apm32, sizeof(apm32), 1, fd);
/* Device type/id */
apm16 = htobe16(1);
fwrite(&apm16, sizeof(apm16), 1, fd);
fwrite(&apm16, sizeof(apm16), 1, fd);
/* Count total needed entries */
total_parts = 2 + apm_partitions; /* Self + ISO9660 */
/* Write self-descriptor */
cd9660_write_apm_partition_entry(fd, 0, total_parts, 1,
total_parts, 512, "Apple", "Apple_partition_map");
/* Write all partition entries */
apm_partitions = 0;
TAILQ_FOREACH(t, &diskStructure->boot_images, image_list) {
if (t->system != ET_SYS_MAC)
continue;
cd9660_write_apm_partition_entry(fd,
1 + apm_partitions++, total_parts,
t->sector * (diskStructure->sectorSize / 512),
t->num_sectors * (diskStructure->sectorSize / 512),
512, "CD Boot", "Apple_Bootstrap");
}
/* Write ISO9660 descriptor, enclosing the whole disk */
cd9660_write_apm_partition_entry(fd, 2 + apm_partitions,
total_parts, 0, diskStructure->totalSectors *
(diskStructure->sectorSize / 512), 512, "ISO9660",
"CD_ROM_Mode_1");
}
return 0;
}