grub/util/mkisofs/joliet.c

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/*
* File joliet.c - handle Win95/WinNT long file/unicode extensions for iso9660.
Copyright 1997 Eric Youngdale.
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, 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. */
static char rcsid[] ="$Id: joliet.c,v 1.12 1998/06/02 02:40:37 eric Exp $";
/*
* Joliet extensions for ISO9660. These are spottily documented by
* Microsoft. In their infinite stupidity, they completely ignored
* the possibility of using an SUSP record with the long filename
* in it, and instead wrote out a duplicate directory tree with the
* long filenames in it.
*
* I am not sure why they did this. One reason is that they get the path
* tables with the long filenames in them.
*
* There are two basic principles to Joliet, and the non-Unicode variant
* known as Romeo. Long filenames seem to be the main one, and the second
* is that the character set and a few other things is substantially relaxed.
*
* The SVD is identical to the PVD, except:
*
* Id is 2, not 1 (indicates SVD).
* escape_sequences contains UCS-2 indicator (levels 1, 2 or 3).
* The root directory record points to a different extent (with different
* size).
* There are different path tables for the two sets of directory trees.
*
* The following fields are recorded in Unicode:
* system_id
* volume_id
* volume_set_id
* publisher_id
* preparer_id
* application_id
* copyright_file_id
* abstract_file_id
* bibliographic_file_id
*
* Unicode strings are always encoded in big-endian format.
*
* In a directory record, everything is the same as with iso9660, except
* that the name is recorded in unicode. The name length is specified in
* total bytes, not in number of unicode characters.
*
* The character set used for the names is different with UCS - the
* restrictions are that the following are not allowed:
*
* Characters (00)(00) through (00)(1f) (control chars)
* (00)(2a) '*'
* (00)(2f) '/'
* (00)(3a) ':'
* (00)(3b) ';'
* (00)(3f) '?'
* (00)(5c) '\'
*/
#include "config.h"
#include "mkisofs.h"
#include "iso9660.h"
#include <stdlib.h>
#include <time.h>
static jpath_table_index;
static struct directory ** jpathlist;
static next_jpath_index = 1;
static int sort_goof;
static int DECL(joliet_sort_directory, (struct directory_entry ** sort_dir));
static void DECL(assign_joliet_directory_addresses, (struct directory * node));
/*
* Function: convert_to_unicode
*
* Purpose: Perform a 1/2 assed unicode conversion on a text
* string.
*
* Notes:
*/
static void FDECL3(convert_to_unicode, unsigned char *, buffer, int, size, char *, source )
{
unsigned char * tmpbuf;
int i;
int j;
/*
* If we get a NULL pointer for the source, it means we have an inplace
* copy, and we need to make a temporary working copy first.
*/
if( source == NULL )
{
tmpbuf = (u_char *) e_malloc(size);
memcpy( tmpbuf, buffer, size);
}
else
{
tmpbuf = (u_char *)source;
}
/*
* Now start copying characters. If the size was specified to be 0, then
* assume the input was 0 terminated.
*/
j = 0;
for(i=0; i < size ; i += 2, j++)
{
buffer[i] = 0;
if( tmpbuf[j] < 0x1f && tmpbuf[j] != 0 )
{
buffer[i+1] = '_';
}
else
{
switch(tmpbuf[j])
{
case '*':
case '/':
case ':':
case ';':
case '?':
case '\\':
/*
* Even Joliet has some standards as to what is allowed in a pathname.
* Pretty tame in comparison to what DOS restricts you to.
*/
buffer[i+1] = '_';
break;
default:
buffer[i+1] = tmpbuf[j];
break;
}
}
}
if( source == NULL )
{
free(tmpbuf);
}
}
/*
* Function: joliet_strlen
*
* Purpose: Return length in bytes of string after conversion to unicode.
*
* Notes: This is provided mainly as a convenience so that when more intelligent
* Unicode conversion for either Multibyte or 8-bit codes is available that
* we can easily adapt.
*/
static int FDECL1(joliet_strlen, const char *, string)
{
int rtn;
struct iso_directory_record foobar;
rtn = strlen(string) << 1;
/*
* We do clamp the maximum length of a Joliet string to be the
* maximum path size. This helps to ensure that we don't completely
* bolix things up with very long paths. The Joliet specs say
* that the maximum length is 128 bytes, or 64 unicode characters.
*/
if( rtn > 0x80)
{
rtn = 0x80;
}
return rtn;
}
/*
* Function: get_joliet_vol_desc
*
* Purpose: generate a Joliet compatible volume desc.
*
* Notes: Assume that we have the non-joliet vol desc
* already present in the buffer. Just modifiy the
* appropriate fields.
*/
static void FDECL1(get_joliet_vol_desc, struct iso_primary_descriptor *, vol_desc)
{
vol_desc->type[0] = ISO_VD_SUPPLEMENTARY;
/*
* For now, always do Unicode level 3. I don't really know what 1 and 2
* are - perhaps a more limited Unicode set.
*
* FIXME(eric) - how does Romeo fit in here?
*/
strcpy(vol_desc->escape_sequences, "%/E");
/*
* Until we have Unicode path tables, leave these unset.
*/
set_733((char *) vol_desc->path_table_size, jpath_table_size);
set_731(vol_desc->type_l_path_table, jpath_table[0]);
set_731(vol_desc->opt_type_l_path_table, jpath_table[1]);
set_732(vol_desc->type_m_path_table, jpath_table[2]);
set_732(vol_desc->opt_type_m_path_table, jpath_table[3]);
/*
* Set this one up.
*/
memcpy(vol_desc->root_directory_record, &jroot_record,
sizeof(struct iso_directory_record) + 1);
/*
* Finally, we have a bunch of strings to convert to Unicode.
* FIXME(eric) - I don't know how to do this in general, so we will
* just be really lazy and do a char -> short conversion. We probably
* will want to filter any characters >= 0x80.
*/
convert_to_unicode((u_char *)vol_desc->system_id, sizeof(vol_desc->system_id), NULL);
convert_to_unicode((u_char *)vol_desc->volume_id, sizeof(vol_desc->volume_id), NULL);
convert_to_unicode((u_char *)vol_desc->volume_set_id, sizeof(vol_desc->volume_set_id), NULL);
convert_to_unicode((u_char *)vol_desc->publisher_id, sizeof(vol_desc->publisher_id), NULL);
convert_to_unicode((u_char *)vol_desc->preparer_id, sizeof(vol_desc->preparer_id), NULL);
convert_to_unicode((u_char *)vol_desc->application_id, sizeof(vol_desc->application_id), NULL);
convert_to_unicode((u_char *)vol_desc->copyright_file_id, sizeof(vol_desc->copyright_file_id), NULL);
convert_to_unicode((u_char *)vol_desc->abstract_file_id, sizeof(vol_desc->abstract_file_id), NULL);
convert_to_unicode((u_char *)vol_desc->bibliographic_file_id, sizeof(vol_desc->bibliographic_file_id), NULL);
}
static void FDECL1(assign_joliet_directory_addresses, struct directory *, node)
{
int dir_size;
struct directory * dpnt;
dpnt = node;
while (dpnt)
{
if( (dpnt->dir_flags & INHIBIT_JOLIET_ENTRY) == 0 )
{
/*
* If we already have an extent for this (i.e. it came from
* a multisession disc), then don't reassign a new extent.
*/
dpnt->jpath_index = next_jpath_index++;
if( dpnt->jextent == 0 )
{
dpnt->jextent = last_extent;
dir_size = (dpnt->jsize + (SECTOR_SIZE - 1)) >> 11;
last_extent += dir_size;
}
}
if(dpnt->subdir)
{
assign_joliet_directory_addresses(dpnt->subdir);
}
dpnt = dpnt->next;
}
}
static
void FDECL1(build_jpathlist, struct directory *, node)
{
struct directory * dpnt;
dpnt = node;
while (dpnt)
{
if( (dpnt->dir_flags & INHIBIT_JOLIET_ENTRY) == 0 )
{
jpathlist[dpnt->jpath_index] = dpnt;
}
if(dpnt->subdir) build_jpathlist(dpnt->subdir);
dpnt = dpnt->next;
}
} /* build_jpathlist(... */
static int FDECL2(joliet_compare_paths, void const *, r, void const *, l)
{
struct directory const *ll = *(struct directory * const *)l;
struct directory const *rr = *(struct directory * const *)r;
int rparent, lparent;
rparent = rr->parent->jpath_index;
lparent = ll->parent->jpath_index;
if( rr->parent == reloc_dir )
{
rparent = rr->self->parent_rec->filedir->jpath_index;
}
if( ll->parent == reloc_dir )
{
lparent = ll->self->parent_rec->filedir->jpath_index;
}
if (rparent < lparent)
{
return -1;
}
if (rparent > lparent)
{
return 1;
}
return strcmp(rr->self->name, ll->self->name);
} /* compare_paths(... */
static int generate_joliet_path_tables()
{
struct directory_entry * de;
struct directory * dpnt;
int fix;
int j;
int namelen;
char * npnt;
char * npnt1;
int tablesize;
/*
* First allocate memory for the tables and initialize the memory
*/
tablesize = jpath_blocks << 11;
jpath_table_m = (char *) e_malloc(tablesize);
jpath_table_l = (char *) e_malloc(tablesize);
memset(jpath_table_l, 0, tablesize);
memset(jpath_table_m, 0, tablesize);
/*
* Now start filling in the path tables. Start with root directory
*/
jpath_table_index = 0;
jpathlist = (struct directory **) e_malloc(sizeof(struct directory *)
* next_jpath_index);
memset(jpathlist, 0, sizeof(struct directory *) * next_jpath_index);
build_jpathlist(root);
do
{
fix = 0;
qsort(&jpathlist[1], next_jpath_index-1, sizeof(struct directory *),
(int (*)(const void *, const void *))joliet_compare_paths);
for(j=1; j<next_jpath_index; j++)
{
if(jpathlist[j]->jpath_index != j)
{
jpathlist[j]->jpath_index = j;
fix++;
}
}
} while(fix);
for(j=1; j<next_jpath_index; j++)
{
dpnt = jpathlist[j];
if(!dpnt)
{
fprintf(stderr,"Entry %d not in path tables\n", j);
exit(1);
}
npnt = dpnt->de_name;
npnt1 = strrchr(npnt, PATH_SEPARATOR);
if(npnt1)
{
npnt = npnt1 + 1;
}
de = dpnt->self;
if(!de)
{
fprintf(stderr,"Fatal goof - directory has amnesia\n");
exit(1);
}
namelen = joliet_strlen(de->name);
if( dpnt == root )
{
jpath_table_l[jpath_table_index] = 1;
jpath_table_m[jpath_table_index] = 1;
}
else
{
jpath_table_l[jpath_table_index] = namelen;
jpath_table_m[jpath_table_index] = namelen;
}
jpath_table_index += 2;
set_731(jpath_table_l + jpath_table_index, dpnt->jextent);
set_732(jpath_table_m + jpath_table_index, dpnt->jextent);
jpath_table_index += 4;
if( dpnt->parent != reloc_dir )
{
set_721(jpath_table_l + jpath_table_index,
dpnt->parent->jpath_index);
set_722(jpath_table_m + jpath_table_index,
dpnt->parent->jpath_index);
}
else
{
set_721(jpath_table_l + jpath_table_index,
dpnt->self->parent_rec->filedir->jpath_index);
set_722(jpath_table_m + jpath_table_index,
dpnt->self->parent_rec->filedir->jpath_index);
}
jpath_table_index += 2;
/*
* The root directory is still represented in non-unicode fashion.
*/
if( dpnt == root )
{
jpath_table_l[jpath_table_index] = 0;
jpath_table_m[jpath_table_index] = 0;
jpath_table_index ++;
}
else
{
convert_to_unicode((u_char *)jpath_table_l + jpath_table_index,
namelen, de->name);
convert_to_unicode((u_char *)jpath_table_m + jpath_table_index,
namelen, de->name);
jpath_table_index += namelen;
}
if(jpath_table_index & 1)
{
jpath_table_index++; /* For odd lengths we pad */
}
}
free(jpathlist);
if(jpath_table_index != jpath_table_size)
{
fprintf(stderr,"Joliet path table lengths do not match %d %d\n",
jpath_table_index,
jpath_table_size);
}
return 0;
} /* generate_path_tables(... */
static void FDECL2(generate_one_joliet_directory, struct directory *, dpnt, FILE *, outfile)
{
unsigned int dir_index;
char * directory_buffer;
int new_reclen;
struct directory_entry * s_entry;
struct directory_entry * s_entry1;
struct iso_directory_record jrec;
unsigned int total_size;
int cvt_len;
struct directory * finddir;
total_size = (dpnt->jsize + (SECTOR_SIZE - 1)) & ~(SECTOR_SIZE - 1);
directory_buffer = (char *) e_malloc(total_size);
memset(directory_buffer, 0, total_size);
dir_index = 0;
s_entry = dpnt->jcontents;
while(s_entry)
{
if( (s_entry->de_flags & INHIBIT_JOLIET_ENTRY) == 0 )
{
/*
* If this entry was a directory that was relocated, we have a bit
* of trouble here. We need to dig out the real thing and put it
* back here. In the Joliet tree, there is no relocated rock
* ridge, as there are no depth limits to a directory tree.
*/
if( (s_entry->de_flags & RELOCATED_DIRECTORY) != 0 )
{
for(s_entry1 = reloc_dir->contents; s_entry1; s_entry1 = s_entry1->next)
{
if( s_entry1->parent_rec == s_entry )
{
break;
}
}
if( s_entry1 == NULL )
{
/*
* We got trouble.
*/
fprintf(stderr, "Unable to locate relocated directory\n");
exit(1);
}
}
else
{
s_entry1 = s_entry;
}
/*
* We do not allow directory entries to cross sector boundaries.
* Simply pad, and then start the next entry at the next sector
*/
new_reclen = s_entry1->jreclen;
if( (dir_index & (SECTOR_SIZE - 1)) + new_reclen >= SECTOR_SIZE )
{
dir_index = (dir_index + (SECTOR_SIZE - 1)) &
~(SECTOR_SIZE - 1);
}
memcpy(&jrec, &s_entry1->isorec, sizeof(struct iso_directory_record) -
sizeof(s_entry1->isorec.name));
cvt_len = joliet_strlen(s_entry1->name);
/*
* Fix the record length - this was the non-Joliet version we
* were seeing.
*/
jrec.name_len[0] = cvt_len;
jrec.length[0] = s_entry1->jreclen;
/*
* If this is a directory, fix the correct size and extent
* number.
*/
if( (jrec.flags[0] & 2) != 0 )
{
if(strcmp(s_entry1->name,".") == 0)
{
jrec.name_len[0] = 1;
set_733((char *) jrec.extent, dpnt->jextent);
set_733((char *) jrec.size, ROUND_UP(dpnt->jsize));
}
else if(strcmp(s_entry1->name,"..") == 0)
{
jrec.name_len[0] = 1;
if( dpnt->parent == reloc_dir )
{
set_733((char *) jrec.extent, dpnt->self->parent_rec->filedir->jextent);
set_733((char *) jrec.size, ROUND_UP(dpnt->self->parent_rec->filedir->jsize));
}
else
{
set_733((char *) jrec.extent, dpnt->parent->jextent);
set_733((char *) jrec.size, ROUND_UP(dpnt->parent->jsize));
}
}
else
{
if( (s_entry->de_flags & RELOCATED_DIRECTORY) != 0 )
{
finddir = reloc_dir->subdir;
}
else
{
finddir = dpnt->subdir;
}
while(1==1)
{
if(finddir->self == s_entry1) break;
finddir = finddir->next;
if(!finddir)
{
fprintf(stderr,"Fatal goof - unable to find directory location\n"); exit(1);
}
}
set_733((char *) jrec.extent, finddir->jextent);
set_733((char *) jrec.size, ROUND_UP(finddir->jsize));
}
}
memcpy(directory_buffer + dir_index, &jrec,
sizeof(struct iso_directory_record) -
sizeof(s_entry1->isorec.name));
dir_index += sizeof(struct iso_directory_record) -
sizeof (s_entry1->isorec.name);
/*
* Finally dump the Unicode version of the filename.
* Note - . and .. are the same as with non-Joliet discs.
*/
if( (jrec.flags[0] & 2) != 0
&& strcmp(s_entry1->name, ".") == 0 )
{
directory_buffer[dir_index++] = 0;
}
else if( (jrec.flags[0] & 2) != 0
&& strcmp(s_entry1->name, "..") == 0 )
{
directory_buffer[dir_index++] = 1;
}
else
{
convert_to_unicode((u_char *)directory_buffer + dir_index,
cvt_len,
s_entry1->name);
dir_index += cvt_len;
}
if(dir_index & 1)
{
directory_buffer[dir_index++] = 0;
}
}
s_entry = s_entry->jnext;
}
if(dpnt->jsize != dir_index)
{
fprintf(stderr,"Unexpected joliet directory length %d %d %s\n",dpnt->jsize,
dir_index, dpnt->de_name);
}
xfwrite(directory_buffer, 1, total_size, outfile);
last_extent_written += total_size >> 11;
free(directory_buffer);
} /* generate_one_joliet_directory(... */
static int FDECL1(joliet_sort_n_finish, struct directory *, this_dir)
{
struct directory_entry * s_entry;
int status = 0;
for(s_entry = this_dir->contents; s_entry; s_entry = s_entry->next)
{
if( (s_entry->de_flags & INHIBIT_JOLIET_ENTRY) != 0 )
{
continue;
}
/*
* First update the path table sizes for directories.
*
* Finally, set the length of the directory entry if Joliet is used.
* The name is longer, but no Rock Ridge is ever used here, so
* depending upon the options the entry size might turn out to be about
* the same. The Unicode name is always a multiple of 2 bytes, so
* we always add 1 to make it an even number.
*/
if(s_entry->isorec.flags[0] == 2)
{
if (strcmp(s_entry->name,".") && strcmp(s_entry->name,".."))
{
jpath_table_size += joliet_strlen(s_entry->name) + sizeof(struct iso_path_table) - 1;
if (jpath_table_size & 1)
{
jpath_table_size++;
}
}
else
{
if (this_dir == root && strlen(s_entry->name) == 1)
{
jpath_table_size += sizeof(struct iso_path_table);
if (jpath_table_size & 1) jpath_table_size++;
}
}
}
if (strcmp(s_entry->name,".") && strcmp(s_entry->name,".."))
{
s_entry->jreclen = sizeof(struct iso_directory_record)
- sizeof(s_entry->isorec.name)
+ joliet_strlen(s_entry->name)
+ 1;
}
else
{
/*
* Special - for '.' and '..' we generate the same records we
* did for non-Joliet discs.
*/
s_entry->jreclen = sizeof(struct iso_directory_record)
- sizeof(s_entry->isorec.name)
+ 1;
}
}
if( (this_dir->dir_flags & INHIBIT_JOLIET_ENTRY) != 0 )
{
return 0;
}
this_dir->jcontents = this_dir->contents;
status = joliet_sort_directory(&this_dir->jcontents);
/*
* Now go through the directory and figure out how large this one will be.
* Do not split a directory entry across a sector boundary
*/
s_entry = this_dir->jcontents;
for(s_entry = this_dir->jcontents; s_entry; s_entry = s_entry->jnext)
{
int jreclen;
if( (s_entry->de_flags & INHIBIT_JOLIET_ENTRY) != 0 )
{
continue;
}
jreclen = s_entry->jreclen;
if ((this_dir->jsize & (SECTOR_SIZE - 1)) + jreclen >= SECTOR_SIZE)
{
this_dir->jsize = (this_dir->jsize + (SECTOR_SIZE - 1)) &
~(SECTOR_SIZE - 1);
}
this_dir->jsize += jreclen;
}
return status;
}
/*
* Similar to the iso9660 case, except here we perform a full sort based upon the
* regular name of the file, not the 8.3 version.
*/
static int FDECL2(joliet_compare_dirs, const void *, rr, const void *, ll)
{
char * rpnt, *lpnt;
struct directory_entry ** r, **l;
r = (struct directory_entry **) rr;
l = (struct directory_entry **) ll;
rpnt = (*r)->name;
lpnt = (*l)->name;
/*
* If the entries are the same, this is an error.
*/
if( strcmp(rpnt, lpnt) == 0 )
{
sort_goof++;
}
/*
* Put the '.' and '..' entries on the head of the sorted list.
* For normal ASCII, this always happens to be the case, but out of
* band characters cause this not to be the case sometimes.
*/
if( strcmp(rpnt, ".") == 0 ) return -1;
if( strcmp(lpnt, ".") == 0 ) return 1;
if( strcmp(rpnt, "..") == 0 ) return -1;
if( strcmp(lpnt, "..") == 0 ) return 1;
while(*rpnt && *lpnt)
{
if(*rpnt == ';' && *lpnt != ';') return -1;
if(*rpnt != ';' && *lpnt == ';') return 1;
if(*rpnt == ';' && *lpnt == ';') return 0;
/*
* Extensions are not special here. Don't treat the dot as something that
* must be bumped to the start of the list.
*/
#if 0
if(*rpnt == '.' && *lpnt != '.') return -1;
if(*rpnt != '.' && *lpnt == '.') return 1;
#endif
if(*rpnt < *lpnt) return -1;
if(*rpnt > *lpnt) return 1;
rpnt++; lpnt++;
}
if(*rpnt) return 1;
if(*lpnt) return -1;
return 0;
}
/*
* Function: sort_directory
*
* Purpose: Sort the directory in the appropriate ISO9660
* order.
*
* Notes: Returns 0 if OK, returns > 0 if an error occurred.
*/
static int FDECL1(joliet_sort_directory, struct directory_entry **, sort_dir)
{
int dcount = 0;
int i, len;
struct directory_entry * s_entry;
struct directory_entry ** sortlist;
s_entry = *sort_dir;
while(s_entry)
{
dcount++;
s_entry = s_entry->next;
}
/*
* OK, now we know how many there are. Build a vector for sorting.
*/
sortlist = (struct directory_entry **)
e_malloc(sizeof(struct directory_entry *) * dcount);
dcount = 0;
s_entry = *sort_dir;
while(s_entry)
{
sortlist[dcount] = s_entry;
dcount++;
s_entry = s_entry->next;
}
sort_goof = 0;
qsort(sortlist, dcount, sizeof(struct directory_entry *),
(int (*)(const void *, const void *))joliet_compare_dirs);
/*
* Now reassemble the linked list in the proper sorted order
*/
for(i=0; i<dcount-1; i++)
{
sortlist[i]->jnext = sortlist[i+1];
}
sortlist[dcount-1]->jnext = NULL;
*sort_dir = sortlist[0];
free(sortlist);
return sort_goof;
}
int FDECL1(joliet_sort_tree, struct directory *, node)
{
struct directory * dpnt;
int goof = 0;
dpnt = node;
while (dpnt){
goof = joliet_sort_n_finish(dpnt);
if( goof )
{
break;
}
if(dpnt->subdir) goof = joliet_sort_tree(dpnt->subdir);
if( goof )
{
break;
}
dpnt = dpnt->next;
}
return goof;
}
static void FDECL2(generate_joliet_directories, struct directory *, node, FILE*, outfile){
struct directory * dpnt;
dpnt = node;
while (dpnt)
{
if( (dpnt->dir_flags & INHIBIT_JOLIET_ENTRY) == 0 )
{
/*
* In theory we should never reuse a directory, so this doesn't
* make much sense.
*/
if( dpnt->extent > session_start )
{
generate_one_joliet_directory(dpnt, outfile);
}
}
if(dpnt->subdir) generate_joliet_directories(dpnt->subdir, outfile);
dpnt = dpnt->next;
}
}
/*
* Function to write the EVD for the disc.
*/
static int FDECL1(jpathtab_write, FILE *, outfile)
{
/*
* Next we write the path tables
*/
xfwrite(jpath_table_l, 1, jpath_blocks << 11, outfile);
xfwrite(jpath_table_m, 1, jpath_blocks << 11, outfile);
last_extent_written += 2*jpath_blocks;
free(jpath_table_l);
free(jpath_table_m);
jpath_table_l = NULL;
jpath_table_m = NULL;
return 0;
}
static int FDECL1(jdirtree_size, int, starting_extent)
{
assign_joliet_directory_addresses(root);
return 0;
}
static int jroot_gen()
{
jroot_record.length[0] = 1 + sizeof(struct iso_directory_record)
- sizeof(jroot_record.name);
jroot_record.ext_attr_length[0] = 0;
set_733((char *) jroot_record.extent, root->jextent);
set_733((char *) jroot_record.size, ROUND_UP(root->jsize));
iso9660_date(jroot_record.date, root_statbuf.st_mtime);
jroot_record.flags[0] = 2;
jroot_record.file_unit_size[0] = 0;
jroot_record.interleave[0] = 0;
set_723(jroot_record.volume_sequence_number, DEF_VSN);
jroot_record.name_len[0] = 1;
return 0;
}
static int FDECL1(jdirtree_write, FILE *, outfile)
{
generate_joliet_directories(root, outfile);
return 0;
}
/*
* Function to write the EVD for the disc.
*/
static int FDECL1(jvd_write, FILE *, outfile)
{
struct iso_primary_descriptor jvol_desc;
/*
* Next we write out the boot volume descriptor for the disc
*/
jvol_desc = vol_desc;
get_joliet_vol_desc(&jvol_desc);
xfwrite(&jvol_desc, 1, 2048, outfile);
last_extent_written ++;
return 0;
}
/*
* Functions to describe padding block at the start of the disc.
*/
static int FDECL1(jpathtab_size, int, starting_extent)
{
jpath_table[0] = starting_extent;
jpath_table[1] = 0;
jpath_table[2] = jpath_table[0] + jpath_blocks;
jpath_table[3] = 0;
last_extent += 2*jpath_blocks;
return 0;
}
struct output_fragment joliet_desc = {NULL, oneblock_size, jroot_gen,jvd_write};
struct output_fragment jpathtable_desc= {NULL, jpathtab_size, generate_joliet_path_tables, jpathtab_write};
struct output_fragment jdirtree_desc = {NULL, jdirtree_size, NULL, jdirtree_write};