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|
/*
* This file has been modified for the cdrkit suite.
*
* The behaviour and appearence of the program code below can differ to a major
* extent from the version distributed by the original author(s).
*
* For details, see Changelog file distributed with the cdrkit package. If you
* received this file from another source then ask the distributing person for
* a log of modifications.
*
*/
/* @(#)write.c 1.88 06/02/01 joerg */
/* Parts from @(#)write.c 1.106 07/02/17 joerg */
/*
* Program write.c - dump memory structures to file for iso9660 filesystem.
*
* Written by Eric Youngdale (1993).
*
* Copyright 1993 Yggdrasil Computing, Incorporated
* Copyright (c) 1999-2003 J. Schilling
*
* 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.
*/
/* APPLE_HYB James Pearson j.pearson@ge.ucl.ac.uk 23/2/2000 */
#include <mconfig.h>
#include "genisoimage.h"
#include <timedefs.h>
#include <fctldefs.h>
#ifdef SORTING
#include "match.h"
#endif /* SORTING */
#include <errno.h>
#include <schily.h>
#ifdef DVD_VIDEO
#include "dvd_reader.h"
#include "dvd_file.h"
#include "ifo_read.h"
#endif
#ifdef APPLE_HYB
#include <ctype.h>
#endif
#ifdef VMS
#include "vms.h"
#endif
/* Max number of sectors we will write at one time */
#define NSECT 16
/* Counters for statistics */
static int table_size = 0;
static int total_dir_size = 0;
static int rockridge_size = 0;
static struct directory **pathlist;
static int next_path_index = 1;
static int sort_goof;
static int is_rr_dir = 0;
struct output_fragment *out_tail;
struct output_fragment *out_list;
struct iso_primary_descriptor vol_desc;
void set_721(char *pnt, unsigned int i);
void set_722(char *pnt, unsigned int i);
void set_723(char *pnt, unsigned int i);
void set_731(char *pnt, unsigned int i);
void set_732(char *pnt, unsigned int i);
void set_733(char *pnt, unsigned int i);
int get_731(char *p);
int get_732(char *p);
int get_733(char *p);
static int xawrite(void *buffer, int size, int count, FILE *file,
int submode, BOOL islast);
void xfwrite(void *buffer, int size, int count, FILE *file, int submode,
BOOL islast);
static int assign_directory_addresses(struct directory *node);
#ifdef APPLE_HYB
static void write_one_file(char *filename, off_t size, FILE *outfile,
off_t off);
#else
static void write_one_file(char *filename, off_t size, FILE *outfile);
#endif
static void write_files(FILE *outfile);
#if 0
static void dump_filelist __PR((void));
#endif
static int compare_dirs(const void *rr, const void *ll);
int sort_directory(struct directory_entry **sort_dir, int rr);
static int root_gen(void);
static BOOL assign_file_addresses(struct directory *dpnt, BOOL isnest);
static void free_one_directory(struct directory *dpnt);
static void free_directories(struct directory *dpnt);
void generate_one_directory(struct directory *dpnt, FILE *outfile);
static void build_pathlist(struct directory *node);
static int compare_paths(void const *r, void const *l);
static int generate_path_tables(void);
void memcpy_max(char *to, char *from, int max);
void outputlist_insert(struct output_fragment *frag);
static int file_write(FILE *outfile);
static int pvd_write(FILE *outfile);
static int xpvd_write(FILE *outfile);
static int evd_write(FILE *outfile);
static int vers_write(FILE *outfile);
static int graftcp(char *to, char *from, char *ep);
static int pathcp(char *to, char *from, char *ep);
static int pathtab_write(FILE *outfile);
static int exten_write(FILE *outfile);
int oneblock_size(int starting_extent);
static int pathtab_size(int starting_extent);
static int startpad_size(int starting_extent);
static int interpad_size(int starting_extent);
static int endpad_size(int starting_extent);
static int file_gen(void);
static int dirtree_dump(void);
static int dirtree_fixup(int starting_extent);
static int dirtree_size(int starting_extent);
static int ext_size(int starting_extent);
static int dirtree_write(FILE *outfile);
static int dirtree_cleanup(FILE *outfile);
static int startpad_write(FILE *outfile);
static int interpad_write(FILE *outfile);
static int endpad_write(FILE *outfile);
#ifdef APPLE_HYB
static int hfs_pad;
static int hfs_get_parms(char *key);
static void hfs_file_gen(int start_extent);
static void gen_prepboot(void);
Ulong get_adj_size(int Csize);
int adj_size(int Csize, int start_extent, int extra);
void adj_size_other(struct directory *dpnt);
static int hfs_hce_write(FILE * outfile);
int insert_padding_file(int size);
#endif /* APPLE_HYB */
#ifdef SORTING
static int compare_sort(const void * rr, const void * ll);
static void reassign_link_addresses(struct directory * dpnt);
static int sort_file_addresses(void);
#endif /* SORTING */
/*
* Routines to actually write the disc. We write sequentially so that
* we could write a tape, or write the disc directly
*/
#define FILL_SPACE(X) memset(vol_desc.X, ' ', sizeof (vol_desc.X))
void
set_721(char *pnt, unsigned int i)
{
pnt[0] = i & 0xff;
pnt[1] = (i >> 8) & 0xff;
}
void
set_722(char *pnt, unsigned int i)
{
pnt[0] = (i >> 8) & 0xff;
pnt[1] = i & 0xff;
}
void
set_723(char *pnt, unsigned int i)
{
pnt[3] = pnt[0] = i & 0xff;
pnt[2] = pnt[1] = (i >> 8) & 0xff;
}
void
set_731(char *pnt, unsigned int i)
{
pnt[0] = i & 0xff;
pnt[1] = (i >> 8) & 0xff;
pnt[2] = (i >> 16) & 0xff;
pnt[3] = (i >> 24) & 0xff;
}
void
set_732(char *pnt, unsigned int i)
{
pnt[3] = i & 0xff;
pnt[2] = (i >> 8) & 0xff;
pnt[1] = (i >> 16) & 0xff;
pnt[0] = (i >> 24) & 0xff;
}
void
set_733(char *pnt, unsigned int i)
{
pnt[7] = pnt[0] = i & 0xff;
pnt[6] = pnt[1] = (i >> 8) & 0xff;
pnt[5] = pnt[2] = (i >> 16) & 0xff;
pnt[4] = pnt[3] = (i >> 24) & 0xff;
}
int
get_731(char *p)
{
return ((p[0] & 0xff)
| ((p[1] & 0xff) << 8)
| ((p[2] & 0xff) << 16)
| ((p[3] & 0xff) << 24));
}
int
get_732(char *p)
{
return ((p[3] & 0xff)
| ((p[2] & 0xff) << 8)
| ((p[1] & 0xff) << 16)
| ((p[0] & 0xff) << 24));
}
int
get_733(char *p)
{
return ((p[0] & 0xff)
| ((p[1] & 0xff) << 8)
| ((p[2] & 0xff) << 16)
| ((p[3] & 0xff) << 24));
}
void
xfwrite(void *buffer, int size, int count, FILE *file, int submode, BOOL islast)
{
/*
* This is a hack that could be made better.
* XXXIs this the only place?
* It is definitely needed on Operating Systems that do not allow to
* write files that are > 2GB. If the system is fast enough to be able
* to feed 1400 KB/s writing speed of a DVD-R drive, use stdout.
* If the system cannot do this reliable, you need to use this hacky
* option.
*/
static int idx = 0;
#ifdef XFWRITE_DEBUG
if (count != 1 || (size % 2048) != 0)
fprintf(stderr, "Count: %d, size: %d\n", count, size);
#endif
if (split_output != 0 &&
(idx == 0 || ftell(file) >= ((off_t)1024 * 1024 * 1024))) {
char nbuf[512];
extern char *outfile;
if (idx == 0)
unlink(outfile);
sprintf(nbuf, "%s_%02d", outfile, idx++);
file = freopen(nbuf, "wb", file);
if (file == NULL) {
#ifdef USE_LIBSCHILY
comerr("Cannot open '%s'.\n", nbuf);
#else
fprintf(stderr, "Cannot open '%s'.\n", nbuf);
exit(1);
#endif
}
}
while (count) {
int got;
seterrno(0);
if (osecsize != 0)
got = xawrite(buffer, size, count, file, submode, islast);
else
got = fwrite(buffer, size, count, file);
if (got <= 0) {
#ifdef USE_LIBSCHILY
comerr("cannot fwrite %d*%d\n", size, count);
#else
fprintf(stderr, "cannot fwrite %d*%d\n", size, count);
exit(1);
#endif
}
/*
* This comment is in hope to prevent silly people from
* e.g. SuSE (who did not yet learn C but believe that
* they need to patch other peoples code) from changing the
* next cast into an illegal lhs cast expression.
* The cast below is the correct way to handle the problem.
* The (void *) cast is to avoid a GCC warning like:
* "warning: dereferencing type-punned pointer will break \
* strict-aliasing rules"
* which is wrong this code. (void *) introduces a compatible
* intermediate type in the cast list.
*/
count -= got;
buffer = (void *)(((char *)buffer) + size * got);
}
}
static int
xawrite(void *buffer, int size, int count, FILE *file, int submode, BOOL islast)
{
register char *p = buffer;
register int amt = size * count;
register int n;
struct xa_subhdr subhdr[2];
if (osecsize == 2048)
return (fwrite(buffer, size, count, file));
if (amt % 2048)
comerrno(EX_BAD,
"Trying to write %d bytes (not a multiple of 2048).\n",
amt);
subhdr[0].file_number = subhdr[1].file_number = 0;
subhdr[0].channel_number = subhdr[1].channel_number = 0;
subhdr[0].coding = subhdr[1].coding = 0;
while (amt > 0) {
#ifdef LATER
if (submode < 0)
subhdr[0].sub_mode = subhdr[1].sub_mode = XA_SUBH_DATA;
else
subhdr[0].sub_mode = subhdr[1].sub_mode = submode;
#else
subhdr[0].sub_mode = subhdr[1].sub_mode = XA_SUBH_DATA;
#endif
if ((amt <= 2048) && islast) {
subhdr[0].sub_mode = subhdr[1].sub_mode
|= (XA_SUBH_EOR|XA_SUBH_EOF);
}
n = fwrite(&subhdr, sizeof (subhdr), 1, file);
if (n <= 0)
return (n);
n = fwrite(p, 2048, 1, file);
if (n <= 0)
return (n);
p += 2048;
amt -= 2048;
}
return (1);
}
#ifdef APPLE_HYB
/*
* use the deferred_write struct to store info about the hfs_boot_file
*/
static struct deferred_write mac_boot;
#endif /* APPLE_HYB */
static struct deferred_write *dw_head = NULL,
*dw_tail = NULL;
unsigned int last_extent_written = 0;
static Uint path_table_index;
time_t begun;
/*
* We recursively walk through all of the directories and assign extent
* numbers to them. We have already assigned extent numbers to everything that
* goes in front of them
*/
static int
assign_directory_addresses(struct directory *node)
{
int dir_size;
struct directory *dpnt;
dpnt = node;
while (dpnt) {
/* skip if it's hidden */
if (dpnt->dir_flags & INHIBIT_ISO9660_ENTRY) {
dpnt = dpnt->next;
continue;
}
/*
* If we already have an extent for this (i.e. it came from a
* multisession disc), then don't reassign a new extent.
*/
dpnt->path_index = next_path_index++;
if (dpnt->extent == 0) {
dpnt->extent = last_extent;
dir_size = ISO_BLOCKS(dpnt->size);
last_extent += dir_size;
/*
* Leave room for the CE entries for this directory.
* Keep them close to the reference directory so that
* access will be quick.
*/
if (dpnt->ce_bytes) {
last_extent += ISO_BLOCKS(dpnt->ce_bytes);
}
}
if (dpnt->subdir) {
assign_directory_addresses(dpnt->subdir);
}
dpnt = dpnt->next;
}
return (0);
}
#ifdef APPLE_HYB
static void
write_one_file(char *filename, off_t size, FILE *outfile, off_t off)
#else
static void
write_one_file(char *filename, off_t size, FILE *outfile)
#endif /* APPLE_HYB */
{
/*
* It seems that there are still stone age C-compilers
* around.
* The Metrowerks C found on BeOS/PPC does not allow
* more than 32kB of local vars.
* As we do not need to call write_one_file() recursively
* we make buffer static.
*/
static char buffer[SECTOR_SIZE * NSECT];
FILE *infile;
off_t remain;
int use;
char *mirror_name;
unsigned char md5[16];
int include_in_jigdo = list_file_in_jigdo(filename, size, &mirror_name, md5);
if ((infile = fopen(filename, "rb")) == NULL) {
#ifdef USE_LIBSCHILY
comerr("cannot open '%s'\n", filename);
#else
#ifndef HAVE_STRERROR
fprintf(stderr, "cannot open '%s': (%d)\n",
filename, errno);
#else
fprintf(stderr, "cannot open '%s': %s\n",
filename, strerror(errno));
#endif
exit(1);
#endif
}
#ifdef APPLE_HYB
fseek(infile, off, SEEK_SET);
#endif /* APPLE_HYB */
remain = size;
if (include_in_jigdo)
write_jt_match_record(filename, mirror_name, SECTOR_SIZE, size, md5);
while (remain > 0) {
int amt;
use = (remain > SECTOR_SIZE * NSECT - 1 ?
NSECT * SECTOR_SIZE : remain);
use = ISO_ROUND_UP(use); /* Round up to nearest sector */
/* boundary */
memset(buffer, 0, use);
seterrno(0);
amt = fread(buffer, 1, use, infile);
if (amt < use && amt < remain) {
/*
* Note that genisoimage is not star and no 100% archiver.
* We only detect file growth if the new size does not
* match 'use' at the last read.
*/
if (geterrno() == 0) {
#ifdef USE_LIBSCHILY
comerrno(EX_BAD,
"File '%s' did shrink.\n"
"Files must not be changed while genisoimage runs!\n",
filename);
#else
fprintf(stderr,
"File '%s' did shrink.\n"
"Files must not be changed while genisoimage runs!\n",
filename);
exit(EX_BAD);
#endif
}
#ifdef USE_LIBSCHILY
comerr("Cannot read from '%s'\n", filename);
#else
fprintf(stderr, "Cannot read from '%s'\n", filename);
exit(1);
#endif
}
if (!include_in_jigdo)
jtwrite(buffer, use, 1,
XA_SUBH_DATA, remain <= (SECTOR_SIZE * NSECT));
xfwrite(buffer, use, 1, outfile,
XA_SUBH_DATA, remain <= (SECTOR_SIZE * NSECT));
last_extent_written += use / SECTOR_SIZE;
#if 0
if ((last_extent_written % 1000) < use / SECTOR_SIZE) {
fprintf(stderr, "%d..", last_extent_written);
}
#else
if (verbose > 0 &&
(int)(last_extent_written % (gui ? 500 : 5000)) <
use / SECTOR_SIZE) {
time_t now;
time_t the_end;
double frac;
time(&now);
frac = last_extent_written / (1.0 * last_extent);
the_end = begun + (now - begun) / frac;
#ifndef NO_FLOATINGPOINT
fprintf(stderr, "%6.2f%% done, estimate finish %s",
frac * 100., ctime(&the_end));
#else
fprintf(stderr, "%3d.%-02d%% done, estimate finish %s",
(int)(frac * 100.),
(int)((frac+.00005) * 10000.)%100,
ctime(&the_end));
#endif
fflush(stderr);
}
#endif
remain -= use;
}
fclose(infile);
}/* write_one_file(... */
static void
write_files(FILE *outfile)
{
struct deferred_write *dwpnt,
*dwnext;
dwpnt = dw_head;
while (dwpnt) {
/*#define DEBUG*/
#ifdef DEBUG
fprintf(stderr,
"The file name is %s and pad is %d, size is %lld and extent is %d\n",
dwpnt->name, dwpnt->pad,
(Llong)dwpnt->size, dwpnt->extent);
#endif
if (dwpnt->table) {
jtwrite(dwpnt->table, ISO_ROUND_UP(dwpnt->size), 1, XA_SUBH_DATA, TRUE);
xfwrite(dwpnt->table, ISO_ROUND_UP(dwpnt->size), 1,
outfile,
XA_SUBH_DATA, TRUE);
last_extent_written += ISO_BLOCKS(dwpnt->size);
table_size += dwpnt->size;
/* fprintf(stderr, "Size %lld ", (Llong)dwpnt->size); */
free(dwpnt->table);
dwpnt->table = NULL;
} else {
#ifdef VMS
vms_write_one_file(dwpnt->name, dwpnt->size, outfile);
#else
#ifdef APPLE_HYB
write_one_file(dwpnt->name, dwpnt->size, outfile,
dwpnt->off);
#else
write_one_file(dwpnt->name, dwpnt->size, outfile);
#endif /* APPLE_HYB */
#endif
free(dwpnt->name);
dwpnt->name = NULL;
}
#ifndef DVD_VIDEO
#define dvd_video 0
#endif
#ifndef APPLE_HYB
#define apple_hyb 0
#endif
#if defined(APPLE_HYB) || defined(DVD_VIDEO)
if (apple_hyb || dvd_video) {
/*
* we may have to pad out ISO files to work with HFS
* clump sizes
*/
char blk[SECTOR_SIZE];
Uint i;
for (i = 0; i < dwpnt->pad; i++) {
jtwrite(blk, SECTOR_SIZE, 1, 0, FALSE);
xfwrite(blk, SECTOR_SIZE, 1, outfile, 0, FALSE);
last_extent_written++;
}
}
#endif /* APPLE_HYB || DVD_VIDEO */
dwnext = dwpnt;
dwpnt = dwpnt->next;
free(dwnext);
dwnext = NULL;
}
}/* write_files(... */
#if 0
static void
dump_filelist()
{
struct deferred_write *dwpnt;
dwpnt = dw_head;
while (dwpnt) {
fprintf(stderr, "File %s\n", dwpnt->name);
dwpnt = dwpnt->next;
}
fprintf(stderr, "\n");
}
#endif
static int
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)->isorec.name;
lpnt = (*l)->isorec.name;
#ifdef APPLE_HYB
/*
* resource fork MUST (not sure if this is true for HFS volumes) be
* before the data fork - so force it here
*/
if ((*r)->assoc && (*r)->assoc == (*l))
return (1);
if ((*l)->assoc && (*l)->assoc == (*r))
return (-1);
#endif /* APPLE_HYB */
/* If the entries are the same, this is an error. */
if (strcmp(rpnt, lpnt) == 0) {
#ifdef USE_LIBSCHILY
errmsgno(EX_BAD,
"Error: '%s' and '%s' have the same ISO9660 name '%s'.\n",
(*r)->whole_name, (*l)->whole_name,
rpnt);
#else
fprintf(stderr,
"Error: '%s' and '%s' have the same ISO9660 name '%s'.\n",
(*r)->whole_name, (*l)->whole_name,
rpnt);
#endif
sort_goof++;
}
/* Check we don't have the same RR name */
if (use_RockRidge && !is_rr_dir) {
/*
* entries *can* have the same RR name in the "rr_moved"
* directory so skip checks if we're in reloc_dir
*/
if (!(strcmp((*r)->name, (*l)->name))) {
#ifdef USE_LIBSCHILY
errmsgno(EX_BAD,
"Error: '%s' and '%s' have the same Rock Ridge name '%s'.\n",
(*r)->whole_name, (*l)->whole_name,
(*r)->name);
#else
fprintf(stderr,
"Error: '%s' and '%s' have the same Rock Ridge name '%s'.\n",
(*r)->whole_name, (*l)->whole_name,
(*r)->name);
#endif
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.
* FIXME(eric) - these tests seem redundant, in that the name is never
* assigned these values. It will instead be \000 or \001, and thus
* should always be sorted correctly. I need to figure out why I
* thought I needed this in the first place.
*/
#if 0
if (strcmp(rpnt, ".") == 0)
return (-1);
if (strcmp(lpnt, ".") == 0)
return (1);
if (strcmp(rpnt, "..") == 0)
return (-1);
if (strcmp(lpnt, "..") == 0)
return (1);
#else
/*
* The code above is wrong (as explained in Eric's comment), leading to
* incorrect sort order iff the -L option ("allow leading dots") is in
* effect and a directory contains entries that start with a dot.
* (TF, Tue Dec 29 13:49:24 CET 1998)
*/
if ((*r)->isorec.name_len[0] == 1 && *rpnt == 0)
return (-1); /* '.' */
if ((*l)->isorec.name_len[0] == 1 && *lpnt == 0)
return (1);
if ((*r)->isorec.name_len[0] == 1 && *rpnt == 1)
return (-1); /* '..' */
if ((*l)->isorec.name_len[0] == 1 && *lpnt == 1)
return (1);
#endif
while (*rpnt && *lpnt) {
if (*rpnt == ';' && *lpnt != ';')
return (-1);
if (*rpnt != ';' && *lpnt == ';')
return (1);
if (*rpnt == ';' && *lpnt == ';')
return (0);
if (*rpnt == '.' && *lpnt != '.')
return (-1);
if (*rpnt != '.' && *lpnt == '.')
return (1);
if ((unsigned char) *rpnt < (unsigned char) *lpnt)
return (-1);
if ((unsigned char) *rpnt > (unsigned char) *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.
*/
int
sort_directory(struct directory_entry **sort_dir, int rr)
{
int dcount = 0;
int xcount = 0;
int j;
int i,
len;
struct directory_entry *s_entry;
struct directory_entry **sortlist;
/* need to keep a count of how many entries are hidden */
s_entry = *sort_dir;
while (s_entry) {
if (s_entry->de_flags & INHIBIT_ISO9660_ENTRY)
xcount++;
dcount++;
s_entry = s_entry->next;
}
if (dcount == 0) {
return (0);
}
/* OK, now we know how many there are. Build a vector for sorting. */
sortlist = (struct directory_entry **)
e_malloc(sizeof (struct directory_entry *) * dcount);
j = dcount - 1;
dcount = 0;
s_entry = *sort_dir;
while (s_entry) {
if (s_entry->de_flags & INHIBIT_ISO9660_ENTRY) {
/* put any hidden entries at the end of the vector */
sortlist[j--] = s_entry;
} else {
sortlist[dcount] = s_entry;
dcount++;
}
len = s_entry->isorec.name_len[0];
s_entry->isorec.name[len] = 0;
s_entry = s_entry->next;
}
/* Each directory is required to contain at least . and .. */
if (dcount < 2) {
#ifdef USE_LIBSCHILY
errmsgno(EX_BAD,
"Directory size too small (. or .. missing ??%s)\n",
"?"); /* Try to avoid a GCC trigraph warning */
#else
fprintf(stderr,
"Directory size too small (. or .. missing ??%s)\n",
"?"); /* Try to avoid a GCC trigraph warning */
#endif
sort_goof = 1;
} else {
/* only sort the non-hidden entries */
sort_goof = 0;
is_rr_dir = rr;
#ifdef PROTOTYPES
qsort(sortlist, dcount, sizeof (struct directory_entry *),
(int (*) (const void *, const void *)) compare_dirs);
#else
qsort(sortlist, dcount, sizeof (struct directory_entry *),
compare_dirs);
#endif
/*
* Now reassemble the linked list in the proper sorted order
* We still need the hidden entries, as they may be used in
* the Joliet tree.
*/
for (i = 0; i < dcount + xcount - 1; i++) {
sortlist[i]->next = sortlist[i + 1];
}
sortlist[dcount + xcount - 1]->next = NULL;
*sort_dir = sortlist[0];
}
free(sortlist);
sortlist = NULL;
return (sort_goof);
}
static int
root_gen()
{
init_fstatbuf();
root_record.length[0] = 1 +
offsetof(struct iso_directory_record, name[0]);
root_record.ext_attr_length[0] = 0;
set_733((char *) root_record.extent, root->extent);
set_733((char *) root_record.size, ISO_ROUND_UP(root->size));
iso9660_date(root_record.date, root_statbuf.st_mtime);
root_record.flags[0] = ISO_DIRECTORY;
root_record.file_unit_size[0] = 0;
root_record.interleave[0] = 0;
set_723(root_record.volume_sequence_number, volume_sequence_number);
root_record.name_len[0] = 1;
return (0);
}
#ifdef SORTING
/*
* sorts deferred_write entries based on the sort weight
*/
static int
compare_sort(const void *rr, const void *ll)
{
struct deferred_write **r;
struct deferred_write **l;
int r_sort;
int l_sort;
r = (struct deferred_write **) rr;
l = (struct deferred_write **) ll;
r_sort = (*r)->s_entry->sort;
l_sort = (*l)->s_entry->sort;
if (r_sort != l_sort)
return (r_sort < l_sort ? 1 : -1);
else
return ((*r)->extent - (*l)->extent);
}
/*
* reassign start extents to files that are "hard links" to
* files that may have been sorted
*/
static void
reassign_link_addresses(struct directory *dpnt)
{
struct directory_entry *s_entry;
struct file_hash *s_hash;
while (dpnt) {
s_entry = dpnt->contents;
for (s_entry = dpnt->contents; s_entry; s_entry = s_entry->next) {
/* link files have already been given the weight NOT_SORTED */
if (s_entry->sort == NOT_SORTED)
{
/* update the start extent */
s_hash = find_hash(s_entry->dev, s_entry->inode);
if (s_hash) {
set_733((char *) s_entry->isorec.extent,
s_hash->starting_block);
s_entry->starting_block = s_hash->starting_block;
}
}
if (verbose > 2 && s_entry->size != 0) {
fprintf(stderr, "%8u %8u ",
s_entry->starting_block,
(unsigned int)(s_entry->starting_block + ISO_BLOCKS(s_entry->size) - 1));
if (s_entry->inode != TABLE_INODE) {
fprintf(stderr, "%s\n", s_entry->whole_name);
} else {
fprintf(stderr, "%s%s%s\n",
s_entry->filedir->whole_name,
SPATH_SEPARATOR, trans_tbl);
}
}
}
if (dpnt->subdir) {
reassign_link_addresses(dpnt->subdir);
}
dpnt = dpnt->next;
}
}
/*
* sort files in order of the given sort weight
*/
static int
sort_file_addresses()
{
struct deferred_write *dwpnt;
struct deferred_write **sortlist;
struct directory_entry *s_entry;
int start_extent;
int num = 0;
int i;
/* need to store start extents for linked files */
flush_hash();
/* find out how many files we have */
dwpnt = dw_head;
while (dwpnt) {
num++;
dwpnt = dwpnt->next;
}
/* return if we have none */
if (num == 0) {
return (1);
}
/* save the start extent of the first file */
start_extent = dw_head->extent;
/* set up vector to store entries */
sortlist = (struct deferred_write **)
e_malloc(sizeof (struct deferred_write *) * num);
for (i = 0, dwpnt = dw_head; i < num; i++, dwpnt = dwpnt->next)
sortlist[i] = dwpnt;
/* sort the list */
#ifdef PROTOTYPES
qsort(sortlist, num, sizeof (struct deferred_write *),
(int (*)(const void *, const void *))compare_sort);
#else
qsort(sortlist, num, sizeof (struct deferred_write *), compare_sort);
#endif
/* reconstruct the linked list */
for (i = 0; i < num-1; i++) {
sortlist[i]->next = sortlist[i+1];
}
sortlist[num-1]->next = NULL;
dw_head = sortlist[0];
free(sortlist);
/* set the new start extents for the sorted list */
for (i = 0, dwpnt = dw_head; i < num; i++, dwpnt = dwpnt->next) {
s_entry = dwpnt->s_entry;
dwpnt->extent = s_entry->starting_block = start_extent;
set_733((char *) s_entry->isorec.extent, start_extent);
start_extent += ISO_BLOCKS(s_entry->size);
#ifdef DVD_VIDEO
/*
* Shouldn't this be done for every type of sort? Otherwise
* we will loose every pad info we add if we sort the files
*/
if (dvd_video) {
start_extent += dwpnt->pad;
}
#endif /* DVD_VIDEO */
/* cache start extents for any linked files */
add_hash(s_entry);
}
return (0);
}
#endif /* SORTING */
static BOOL
assign_file_addresses(struct directory *dpnt, BOOL isnest)
{
struct directory *finddir;
struct directory_entry *s_entry;
struct file_hash *s_hash;
struct deferred_write *dwpnt;
char whole_path[PATH_MAX];
#ifdef DVD_VIDEO
char dvd_path[PATH_MAX];
title_set_info_t * title_set_info = NULL;
char *p;
#endif
BOOL ret = FALSE;
while (dpnt) {
#ifdef DVD_VIDEO
if (dvd_video && root == dpnt->parent &&
((p = strstr(dpnt->whole_name, "VIDEO_TS")) != 0)&&
strcmp(p, "VIDEO_TS") == 0) {
int maxlen = strlen(dpnt->whole_name)-8;
if (maxlen > (sizeof (dvd_path)-1))
maxlen = sizeof (dvd_path)-1;
strncpy(dvd_path, dpnt->whole_name, maxlen);
dvd_path[maxlen] = '\0';
#ifdef DEBUG
fprintf(stderr, "Found 'VIDEO_TS', the path is %s \n", dvd_path);
#endif
title_set_info = DVDGetFileSet(dvd_path);
if (title_set_info == 0) {
/*
* Do not switch off -dvd-video but let is fail later.
*/
/* dvd_video = 0;*/
errmsgno(EX_BAD, "Unable to parse DVD-Video structures.\n");
} else {
ret = TRUE;
}
}
#endif /* DVD_VIDEO */
s_entry = dpnt->contents;
for (s_entry = dpnt->contents; s_entry;
s_entry = s_entry->next) {
/*
* If we already have an extent for this entry, then
* don't assign a new one. It must have come from a
* previous session on the disc. Note that we don't
* end up scheduling the thing for writing either.
*/
if (get_733(s_entry->isorec.extent) != 0) {
continue;
}
/*
* This saves some space if there are symlinks present
*/
s_hash = find_hash(s_entry->dev, s_entry->inode);
if (s_hash) {
if (verbose > 2) {
fprintf(stderr, "Cache hit for '%s%s%s'\n", s_entry->filedir->de_name,
SPATH_SEPARATOR,
s_entry->name);
}
set_733((char *) s_entry->isorec.extent,
s_hash->starting_block);
set_733((char *) s_entry->isorec.size,
s_hash->size);
#ifdef SORTING
/* check for non-directory files */
if (do_sort && ((s_entry->isorec.flags[0] & ISO_DIRECTORY) == 0)) {
/* make sure the real file has the highest weighting */
s_hash->de->sort = MAX(s_entry->sort, s_hash->de->sort);
/* flag this as a potential non-sorted file */
s_entry->sort = NOT_SORTED;
}
#endif /* SORTING */
continue;
}
/*
* If this is for a directory that is not a . or
* a .. entry, then look up the information for the
* entry. We have already assigned extents for
* directories, so we just need to fill in the blanks
* here.
*/
if (strcmp(s_entry->name, ".") != 0 &&
strcmp(s_entry->name, "..") != 0 &&
s_entry->isorec.flags[0] & ISO_DIRECTORY) {
finddir = dpnt->subdir;
while (1 == 1) {
if (finddir->self == s_entry)
break;
finddir = finddir->next;
if (!finddir) {
#ifdef DVD_VIDEO
if (title_set_info != 0) {
DVDFreeFileSet(title_set_info);
}
#endif
comerrno(EX_BAD,
"Fatal goof - could not find dir entry for '%s'\n",
s_entry->name);
}
}
set_733((char *) s_entry->isorec.extent,
finddir->extent);
s_entry->starting_block = finddir->extent;
s_entry->size = ISO_ROUND_UP(finddir->size);
total_dir_size += s_entry->size;
add_hash(s_entry);
set_733((char *) s_entry->isorec.size,
ISO_ROUND_UP(finddir->size));
continue;
}
/*
* If this is . or .., then look up the relevant info
* from the tables.
*/
if (strcmp(s_entry->name, ".") == 0) {
set_733((char *) s_entry->isorec.extent,
dpnt->extent);
/*
* Set these so that the hash table has the
* correct information
*/
s_entry->starting_block = dpnt->extent;
s_entry->size = ISO_ROUND_UP(dpnt->size);
add_hash(s_entry);
s_entry->starting_block = dpnt->extent;
set_733((char *) s_entry->isorec.size,
ISO_ROUND_UP(dpnt->size));
continue;
}
if (strcmp(s_entry->name, "..") == 0) {
if (dpnt == root) {
total_dir_size += root->size;
}
set_733((char *) s_entry->isorec.extent,
dpnt->parent->extent);
/*
* Set these so that the hash table has the
* correct information
*/
s_entry->starting_block = dpnt->parent->extent;
s_entry->size =
ISO_ROUND_UP(dpnt->parent->size);
add_hash(s_entry);
s_entry->starting_block = dpnt->parent->extent;
set_733((char *) s_entry->isorec.size,
ISO_ROUND_UP(dpnt->parent->size));
continue;
}
/*
* Some ordinary non-directory file. Just schedule
* the file to be written. This is all quite
* straightforward, just make a list and assign
* extents as we go. Once we get through writing all
* of the directories, we should be ready write out
* these files
*/
if (s_entry->size) {
dwpnt = (struct deferred_write *)
e_malloc(sizeof (struct deferred_write));
/* save this directory entry for later use */
dwpnt->s_entry = s_entry;
/* set the initial padding to zero */
dwpnt->pad = 0;
#ifdef DVD_VIDEO
if (dvd_video && (title_set_info != 0)) {
int pad;
pad = DVDGetFilePad(title_set_info, s_entry->name);
if (pad < 0) {
errmsgno(EX_BAD,
"Implementation botch. Video pad for file %s is %d\n",
s_entry->name, pad),
comerrno(EX_BAD,
"Either the *.IFO file is bad or you found a genisoimage bug.\n");
}
dwpnt->pad = pad;
if (verbose > 0 && pad != 0) {
fprintf(stderr,
"The pad was %d for file %s\n", dwpnt->pad, s_entry->name);
}
}
#endif /* DVD_VIDEO */
#ifdef APPLE_HYB
/*
* maybe an offset to start of the real
* file/fork
*/
dwpnt->off = s_entry->hfs_off;
#else
dwpnt->off = (off_t)0;
#endif /* APPLE_HYB */
if (dw_tail) {
dw_tail->next = dwpnt;
dw_tail = dwpnt;
} else {
dw_head = dwpnt;
dw_tail = dwpnt;
}
if (s_entry->inode == TABLE_INODE) {
dwpnt->table = s_entry->table;
dwpnt->name = NULL;
sprintf(whole_path, "%s%s%s",
s_entry->filedir->whole_name,
SPATH_SEPARATOR, trans_tbl);
} else {
dwpnt->table = NULL;
strcpy(whole_path, s_entry->whole_name);
dwpnt->name = strdup(whole_path);
}
dwpnt->next = NULL;
dwpnt->size = s_entry->size;
dwpnt->extent = last_extent;
set_733((char *) s_entry->isorec.extent,
last_extent);
s_entry->starting_block = last_extent;
add_hash(s_entry);
last_extent += ISO_BLOCKS(s_entry->size);
#ifdef DVD_VIDEO
/* Shouldn't we always add the pad info? */
if (dvd_video) {
last_extent += dwpnt->pad;
}
#endif /* DVD_VIDEO */
if (verbose > 2 && !do_sort) {
fprintf(stderr, "%8d %8u %s\n",
s_entry->starting_block,
last_extent - 1, whole_path);
}
#ifdef DBG_ISO
if (ISO_BLOCKS(s_entry->size) > 500) {
fprintf(stderr,
"Warning: large file '%s'\n",
whole_path);
fprintf(stderr,
"Starting block is %d\n",
s_entry->starting_block);
fprintf(stderr,
"Reported file size is %lld\n",
(Llong)s_entry->size);
}
#endif
#ifdef NOT_NEEDED /* Never use this code if you like to create a DVD */
if (last_extent > (800000000 >> 11)) {
/* More than 800Mb? Punt */
fprintf(stderr,
"Extent overflow processing file '%s'\n",
whole_path);
fprintf(stderr,
"Starting block is %d\n",
s_entry->starting_block);
fprintf(stderr,
"Reported file size is %lld\n",
(Llong)s_entry->size);
exit(1);
}
#endif
continue;
}
/*
* This is for zero-length files. If we leave the
* extent 0, then we get screwed, because many readers
* simply drop files that have an extent of zero.
* Thus we leave the size 0, and just assign the
* extent number.
*/
set_733((char *) s_entry->isorec.extent, last_extent);
}
if (dpnt->subdir) {
if (assign_file_addresses(dpnt->subdir, TRUE))
ret = TRUE;
}
dpnt = dpnt->next;
}
#ifdef DVD_VIDEO
if (title_set_info != NULL) {
DVDFreeFileSet(title_set_info);
}
if (dvd_video && !ret && !isnest) {
errmsgno(EX_BAD,
"Could not find correct 'VIDEO_TS' directory.\n");
}
#endif /* DVD_VIDEO */
return (ret);
} /* assign_file_addresses(... */
static void
free_one_directory(struct directory *dpnt)
{
struct directory_entry *s_entry;
struct directory_entry *s_entry_d;
s_entry = dpnt->contents;
while (s_entry) {
s_entry_d = s_entry;
s_entry = s_entry->next;
if (s_entry_d->rr_attributes) {
free(s_entry_d->rr_attributes);
s_entry_d->rr_attributes = NULL;
}
if (s_entry_d->name != NULL) {
free(s_entry_d->name);
s_entry_d->name = NULL;
}
if (s_entry_d->whole_name != NULL) {
free(s_entry_d->whole_name);
s_entry_d->whole_name = NULL;
}
#ifdef APPLE_HYB
if (apple_both && s_entry_d->hfs_ent && !s_entry_d->assoc)
free(s_entry_d->hfs_ent);
#endif /* APPLE_HYB */
free(s_entry_d);
s_entry_d = NULL;
}
dpnt->contents = NULL;
}/* free_one_directory(... */
static void
free_directories(struct directory *dpnt)
{
while (dpnt) {
free_one_directory(dpnt);
if (dpnt->subdir)
free_directories(dpnt->subdir);
dpnt = dpnt->next;
}
}
void
generate_one_directory(struct directory *dpnt, FILE *outfile)
{
unsigned int ce_address = 0;
char *ce_buffer;
unsigned int ce_index = 0;
unsigned int ce_size;
unsigned int dir_index;
char *directory_buffer;
int new_reclen;
struct directory_entry *s_entry;
struct directory_entry *s_entry_d;
unsigned int total_size;
total_size = ISO_ROUND_UP(dpnt->size);
directory_buffer = (char *) e_malloc(total_size);
memset(directory_buffer, 0, total_size);
dir_index = 0;
ce_size = ISO_ROUND_UP(dpnt->ce_bytes);
ce_buffer = NULL;
if (ce_size > 0) {
ce_buffer = (char *) e_malloc(ce_size);
memset(ce_buffer, 0, ce_size);
ce_index = 0;
/* Absolute byte address of CE entries for this directory */
ce_address = last_extent_written + (total_size >> 11);
ce_address = ce_address << 11;
}
s_entry = dpnt->contents;
while (s_entry) {
/* skip if it's hidden */
if (s_entry->de_flags & INHIBIT_ISO9660_ENTRY) {
s_entry = s_entry->next;
continue;
}
/*
* 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_entry->isorec.length[0];
if ((dir_index & (SECTOR_SIZE - 1)) + new_reclen >=
SECTOR_SIZE) {
dir_index = ISO_ROUND_UP(dir_index);
}
memcpy(directory_buffer + dir_index, &s_entry->isorec,
offsetof(struct iso_directory_record, name[0]) +
s_entry->isorec.name_len[0]);
dir_index += offsetof(struct iso_directory_record, name[0]) +
s_entry->isorec.name_len[0];
/* Add the Rock Ridge attributes, if present */
if (s_entry->rr_attr_size) {
if (dir_index & 1) {
directory_buffer[dir_index++] = 0;
}
/*
* If the RR attributes were too long, then write the
* CE records, as required.
*/
if (s_entry->rr_attr_size != s_entry->total_rr_attr_size) {
struct iso_xa_dir_record *xadp;
unsigned char *pnt;
int len,
nbytes;
/*
* Go through the entire record, first skip
* the XA record and then fix up the
* CE entries so that the extent and offset
* are correct
*/
pnt = s_entry->rr_attributes;
len = s_entry->total_rr_attr_size;
if (len >= 14) {
xadp = (struct iso_xa_dir_record *)pnt;
if (xadp->signature[0] == 'X' && xadp->signature[1] == 'A' &&
xadp->reserved[0] == '\0') {
len -= 14;
pnt += 14;
}
}
while (len > 3) {
#ifdef DEBUG
if (ce_size <= 0) {
fprintf(stderr,
"Warning: ce_index(%d) && ce_address(%d) not initialized\n",
ce_index, ce_address);
}
#endif
if (pnt[0] == 'C' && pnt[1] == 'E') {
nbytes = get_733((char *) pnt + 20);
if ((ce_index & (SECTOR_SIZE - 1)) + nbytes >=
SECTOR_SIZE) {
ce_index = ISO_ROUND_UP(ce_index);
}
set_733((char *) pnt + 4,
(ce_address + ce_index) >> 11);
set_733((char *) pnt + 12,
(ce_address + ce_index) & (SECTOR_SIZE - 1));
/*
* Now store the block in the
* ce buffer
*/
memcpy(ce_buffer + ce_index,
pnt + pnt[2], nbytes);
ce_index += nbytes;
if (ce_index & 1) {
ce_index++;
}
}
len -= pnt[2];
pnt += pnt[2];
}
}
rockridge_size += s_entry->total_rr_attr_size;
memcpy(directory_buffer + dir_index,
s_entry->rr_attributes,
s_entry->rr_attr_size);
dir_index += s_entry->rr_attr_size;
}
if (dir_index & 1) {
directory_buffer[dir_index++] = 0;
}
s_entry_d = s_entry;
s_entry = s_entry->next;
/*
* Joliet doesn't use the Rock Ridge attributes, so we free
* it here.
*/
if (s_entry_d->rr_attributes) {
free(s_entry_d->rr_attributes);
s_entry_d->rr_attributes = NULL;
}
}
if (dpnt->size != dir_index) {
#ifdef USE_LIBSCHILY
errmsgno(EX_BAD,
"Unexpected directory length %lld expected: %d '%s'\n",
(Llong)dpnt->size,
dir_index, dpnt->de_name);
#else
fprintf(stderr,
"Unexpected directory length %lld expected: %d '%s'\n",
(Llong)dpnt->size,
dir_index, dpnt->de_name);
#endif
}
jtwrite(directory_buffer, total_size, 1, 0, FALSE);
xfwrite(directory_buffer, total_size, 1, outfile, 0, FALSE);
last_extent_written += total_size >> 11;
free(directory_buffer);
directory_buffer = NULL;
if (ce_size > 0) {
if (ce_index != dpnt->ce_bytes) {
#ifdef USE_LIBSCHILY
errmsgno(EX_BAD,
"Continuation entry record length mismatch %d expected: %d.\n",
ce_index, dpnt->ce_bytes);
#else
fprintf(stderr,
"Continuation entry record length mismatch %d expected: %d.\n",
ce_index, dpnt->ce_bytes);
#endif
}
jtwrite(ce_buffer, ce_size, 1, 0, FALSE);
xfwrite(ce_buffer, ce_size, 1, outfile, 0, FALSE);
last_extent_written += ce_size >> 11;
free(ce_buffer);
ce_buffer = NULL;
}
}/* generate_one_directory(... */
static void
build_pathlist(struct directory *node)
{
struct directory *dpnt;
dpnt = node;
while (dpnt) {
/* skip if it's hidden */
if ((dpnt->dir_flags & INHIBIT_ISO9660_ENTRY) == 0)
pathlist[dpnt->path_index] = dpnt;
if (dpnt->subdir)
build_pathlist(dpnt->subdir);
dpnt = dpnt->next;
}
}/* build_pathlist(... */
static int
compare_paths(void const *r, void const *l)
{
struct directory const *ll = *(struct directory * const *) l;
struct directory const *rr = *(struct directory * const *) r;
if (rr->parent->path_index < ll->parent->path_index) {
return (-1);
}
if (rr->parent->path_index > ll->parent->path_index) {
return (1);
}
return (strcmp(rr->self->isorec.name, ll->self->isorec.name));
}/* compare_paths(... */
static int
generate_path_tables()
{
struct directory_entry *de = NULL;
struct directory *dpnt;
int fix;
int i;
int j;
int namelen;
char *npnt;
char *npnt1;
int tablesize;
/* First allocate memory for the tables and initialize the memory */
tablesize = path_blocks << 11;
path_table_m = (char *) e_malloc(tablesize);
path_table_l = (char *) e_malloc(tablesize);
memset(path_table_l, 0, tablesize);
memset(path_table_m, 0, tablesize);
/*
* Now start filling in the path tables. Start with root directory
*/
path_table_index = 0;
pathlist = (struct directory **) e_malloc(sizeof (struct directory *)
* next_path_index);
memset(pathlist, 0, sizeof (struct directory *) * next_path_index);
build_pathlist(root);
do {
fix = 0;
#ifdef PROTOTYPES
qsort(&pathlist[1], next_path_index - 1,
sizeof (struct directory *),
(int (*) (const void *, const void *)) compare_paths);
#else
qsort(&pathlist[1], next_path_index - 1,
sizeof (struct directory *),
compare_paths);
#endif
for (j = 1; j < next_path_index; j++) {
if (pathlist[j]->path_index != j) {
pathlist[j]->path_index = j;
fix++;
}
}
} while (fix);
for (j = 1; j < next_path_index; j++) {
dpnt = pathlist[j];
if (!dpnt) {
#ifdef USE_LIBSCHILY
comerrno(EX_BAD, "Entry %d not in path tables\n", j);
#else
fprintf(stderr, "Entry %d not in path tables\n", j);
exit(1);
#endif
}
npnt = dpnt->de_name;
/* So the root comes out OK */
if ((*npnt == 0) || (dpnt == root)) {
npnt = ".";
}
npnt1 = strrchr(npnt, PATH_SEPARATOR);
if (npnt1) {
npnt = npnt1 + 1;
}
de = dpnt->self;
if (!de) {
#ifdef USE_LIBSCHILY
comerrno(EX_BAD,
"Fatal ISO9660 goof - directory has amnesia\n");
#else
fprintf(stderr,
"Fatal ISO9660 goof - directory has amnesia\n");
exit(1);
#endif
}
namelen = de->isorec.name_len[0];
path_table_l[path_table_index] = namelen;
path_table_m[path_table_index] = namelen;
path_table_index += 2;
set_731(path_table_l + path_table_index, dpnt->extent);
set_732(path_table_m + path_table_index, dpnt->extent);
path_table_index += 4;
if (dpnt->parent->path_index > 0xffff) {
#ifdef USE_LIBSCHILY
comerrno(EX_BAD,
"Unable to generate sane path tables - too many directories (%d)\n",
dpnt->parent->path_index);
#else
fprintf(stderr,
"Unable to generate sane path tables - too many directories (%d)\n",
dpnt->parent->path_index);
exit(1);
#endif
}
set_721(path_table_l + path_table_index,
dpnt->parent->path_index);
set_722(path_table_m + path_table_index,
dpnt->parent->path_index);
path_table_index += 2;
for (i = 0; i < namelen; i++) {
path_table_l[path_table_index] = de->isorec.name[i];
path_table_m[path_table_index] = de->isorec.name[i];
path_table_index++;
}
if (path_table_index & 1) {
path_table_index++; /* For odd lengths we pad */
}
}
free(pathlist);
pathlist = NULL;
if (path_table_index != path_table_size) {
#ifdef USE_LIBSCHILY
errmsgno(EX_BAD,
"Path table lengths do not match %d expected: %d\n",
path_table_index,
path_table_size);
#else
fprintf(stderr,
"Path table lengths do not match %d expected: %d\n",
path_table_index,
path_table_size);
#endif
}
return (0);
}/* generate_path_tables(... */
void
memcpy_max(char *to, char *from, int max)
{
int n = strlen(from);
if (n > max) {
n = max;
}
memcpy(to, from, n);
}/* memcpy_max(... */
void
outputlist_insert(struct output_fragment *frag)
{
struct output_fragment *nfrag;
nfrag = e_malloc(sizeof (*frag));
movebytes(frag, nfrag, sizeof (*frag));
nfrag->of_start_extent = 0;
if (out_tail == NULL) {
out_list = out_tail = nfrag;
} else {
out_tail->of_next = nfrag;
out_tail = nfrag;
}
}
static int
file_write(FILE *outfile)
{
Uint should_write;
#ifdef APPLE_HYB
char buffer[SECTOR_SIZE];
memset(buffer, 0, sizeof (buffer));
if (apple_hyb) {
int i;
/*
* write out padding to round up to HFS allocation block
*/
for (i = 0; i < hfs_pad; i++) {
jtwrite(buffer, sizeof (buffer), 1, 0, FALSE);
xfwrite(buffer, sizeof (buffer), 1, outfile, 0, FALSE);
last_extent_written++;
}
}
#endif /* APPLE_HYB */
/*
* OK, all done with that crap. Now write out the directories. This is
* where the fur starts to fly, because we need to keep track of each
* file as we find it and keep track of where we put it.
*/
should_write = last_extent - session_start;
if (verbose > 2) {
#ifdef DBG_ISO
fprintf(stderr,
"Total directory extents being written = %d\n",
last_extent);
#endif
#ifdef APPLE_HYB
if (apple_hyb)
fprintf(stderr,
"Total extents scheduled to be written (inc HFS) = %d\n",
last_extent - session_start);
else
#endif /* APPLE_HYB */
fprintf(stderr,
"Total extents scheduled to be written = %u\n",
last_extent - session_start);
}
/* Now write all of the files that we need. */
write_files(outfile);
#ifdef APPLE_HYB
/* write out extents/catalog/dt file */
if (apple_hyb) {
jtwrite(hce->hfs_ce, HFS_BLOCKSZ, hce->hfs_tot_size, 0, FALSE);
xfwrite(hce->hfs_ce, HFS_BLOCKSZ, hce->hfs_tot_size, outfile, 0, FALSE);
/* round up to a whole CD block */
if (HFS_ROUND_UP(hce->hfs_tot_size) -
hce->hfs_tot_size * HFS_BLOCKSZ) {
jtwrite(buffer,
HFS_ROUND_UP(hce->hfs_tot_size) -
hce->hfs_tot_size * HFS_BLOCKSZ, 1, 0, FALSE);
xfwrite(buffer,
HFS_ROUND_UP(hce->hfs_tot_size) -
hce->hfs_tot_size * HFS_BLOCKSZ, 1, outfile, 0, FALSE);
}
last_extent_written += ISO_ROUND_UP(hce->hfs_tot_size *
HFS_BLOCKSZ) / SECTOR_SIZE;
/* write out HFS boot block */
if (mac_boot.name)
write_one_file(mac_boot.name, mac_boot.size, outfile,
mac_boot.off);
}
#endif /* APPLE_HYB */
/* The rest is just fluff. */
if (verbose == 0) {
return (0);
}
#ifdef APPLE_HYB
if (apple_hyb) {
fprintf(stderr,
"Total extents actually written (inc HFS) = %d\n",
last_extent_written - session_start);
fprintf(stderr, "(Size of ISO volume = %d, HFS extra = %d)\n",
last_extent_written - session_start - hfs_extra,
hfs_extra);
} else
#else
fprintf(stderr, "Total extents actually written = %d\n",
last_extent_written - session_start);
#endif /* APPLE_HYB */
/* Hard links throw us off here */
if (should_write != (last_extent - session_start)) {
fprintf(stderr,
"Number of extents written not what was predicted. Please fix.\n");
fprintf(stderr, "Predicted = %d, written = %d\n",
should_write, last_extent);
}
fprintf(stderr, "Total translation table size: %d\n", table_size);
fprintf(stderr, "Total rockridge attributes bytes: %d\n",
rockridge_size);
fprintf(stderr, "Total directory bytes: %d\n", total_dir_size);
fprintf(stderr, "Path table size(bytes): %d\n", path_table_size);
#ifdef DEBUG
fprintf(stderr,
"next extent, last_extent, last_extent_written %d %d %d\n",
next_extent, last_extent, last_extent_written);
#endif
return (0);
}/* iso_write(... */
/*
* Function to write the PVD for the disc.
*/
static int
pvd_write(FILE *outfile)
{
char iso_time[17];
int should_write;
struct tm local;
struct tm gmt;
time(&begun);
local = *localtime(&begun);
gmt = *gmtime(&begun);
/*
* There was a comment here about breaking in the year 2000.
* That's not true, in 2000 tm_year == 100, so 1900+tm_year == 2000.
*/
sprintf(iso_time, "%4.4d%2.2d%2.2d%2.2d%2.2d%2.2d00",
1900 + local.tm_year,
local.tm_mon + 1, local.tm_mday,
local.tm_hour, local.tm_min, local.tm_sec);
local.tm_min -= gmt.tm_min;
local.tm_hour -= gmt.tm_hour;
local.tm_yday -= gmt.tm_yday;
if (local.tm_yday < -2) /* Hit new-year limit */
local.tm_yday = 1; /* Local is GMT + 1 day */
iso_time[16] = (local.tm_min + 60 *
(local.tm_hour + 24 * local.tm_yday)) / 15;
/* Next we write out the primary descriptor for the disc */
memset(&vol_desc, 0, sizeof (vol_desc));
vol_desc.type[0] = ISO_VD_PRIMARY;
memcpy(vol_desc.id, ISO_STANDARD_ID, sizeof (ISO_STANDARD_ID));
vol_desc.version[0] = 1;
memset(vol_desc.system_id, ' ', sizeof (vol_desc.system_id));
memcpy_max(vol_desc.system_id, system_id, strlen(system_id));
memset(vol_desc.volume_id, ' ', sizeof (vol_desc.volume_id));
memcpy_max(vol_desc.volume_id, volume_id, strlen(volume_id));
should_write = last_extent - session_start;
set_733((char *) vol_desc.volume_space_size, should_write);
set_723(vol_desc.volume_set_size, volume_set_size);
set_723(vol_desc.volume_sequence_number, volume_sequence_number);
set_723(vol_desc.logical_block_size, SECTOR_SIZE);
/*
* The path tables are used by DOS based machines to cache directory
* locations
*/
set_733((char *) vol_desc.path_table_size, path_table_size);
set_731(vol_desc.type_l_path_table, path_table[0]);
set_731(vol_desc.opt_type_l_path_table, path_table[1]);
set_732(vol_desc.type_m_path_table, path_table[2]);
set_732(vol_desc.opt_type_m_path_table, path_table[3]);
/* Now we copy the actual root directory record */
memcpy(vol_desc.root_directory_record, &root_record,
offsetof(struct iso_directory_record, name[0]) + 1);
/*
* The rest is just fluff. It looks nice to fill in many of these
* fields, though.
*/
FILL_SPACE(volume_set_id);
if (volset_id)
memcpy_max(vol_desc.volume_set_id, volset_id, strlen(volset_id));
FILL_SPACE(publisher_id);
if (publisher)
memcpy_max(vol_desc.publisher_id, publisher, strlen(publisher));
FILL_SPACE(preparer_id);
if (preparer)
memcpy_max(vol_desc.preparer_id, preparer, strlen(preparer));
FILL_SPACE(application_id);
if (appid)
memcpy_max(vol_desc.application_id, appid, strlen(appid));
FILL_SPACE(copyright_file_id);
if (copyright)
memcpy_max(vol_desc.copyright_file_id, copyright,
strlen(copyright));
FILL_SPACE(abstract_file_id);
if (abstract)
memcpy_max(vol_desc.abstract_file_id, abstract,
strlen(abstract));
FILL_SPACE(bibliographic_file_id);
if (biblio)
memcpy_max(vol_desc.bibliographic_file_id, biblio,
strlen(biblio));
FILL_SPACE(creation_date);
FILL_SPACE(modification_date);
FILL_SPACE(expiration_date);
FILL_SPACE(effective_date);
vol_desc.file_structure_version[0] = 1;
FILL_SPACE(application_data);
memcpy(vol_desc.creation_date, iso_time, 17);
memcpy(vol_desc.modification_date, iso_time, 17);
memcpy(vol_desc.expiration_date, "0000000000000000", 17);
memcpy(vol_desc.effective_date, iso_time, 17);
if (use_XA) {
char *xap = &((char *)&vol_desc)[1024];
memcpy(&xap[0], "CD-XA001", 8); /* XA Sign. */
memcpy(&xap[8], "\0\0", 2); /* XA flags */
memcpy(&xap[10], "\0\0\0\0\0\0\0\0", 8); /* Start dir */
memcpy(&xap[18], "\0\0\0\0\0\0\0\0", 8); /* Reserved */
}
/* if not a bootable cd do it the old way */
jtwrite(&vol_desc, SECTOR_SIZE, 1, 0, FALSE);
xfwrite(&vol_desc, SECTOR_SIZE, 1, outfile, 0, FALSE);
last_extent_written++;
return (0);
}
/*
* Function to write the Extended PVD for the disc.
*/
static int
xpvd_write(FILE *outfile)
{
vol_desc.type[0] = ISO_VD_SUPPLEMENTARY;
vol_desc.version[0] = 2;
vol_desc.file_structure_version[0] = 2;
/* if not a bootable cd do it the old way */
jtwrite(&vol_desc, SECTOR_SIZE, 1, 0, FALSE);
xfwrite(&vol_desc, SECTOR_SIZE, 1, outfile, 0, FALSE);
last_extent_written++;
return (0);
}
/*
* Function to write the EVD for the disc.
*/
static int
evd_write(FILE *outfile)
{
struct iso_primary_descriptor evol_desc;
/*
* Now write the end volume descriptor. Much simpler than the other
* one
*/
memset(&evol_desc, 0, sizeof (evol_desc));
evol_desc.type[0] = (unsigned char) ISO_VD_END;
memcpy(evol_desc.id, ISO_STANDARD_ID, sizeof (ISO_STANDARD_ID));
evol_desc.version[0] = 1;
jtwrite(&evol_desc, SECTOR_SIZE, 1, 0, TRUE);
xfwrite(&evol_desc, SECTOR_SIZE, 1, outfile, 0, TRUE);
last_extent_written += 1;
return (0);
}
/*
* Function to write the version information for the disc.
*/
static int
vers_write(FILE *outfile)
{
char vers[SECTOR_SIZE+1];
int X_ac;
char **X_av;
char *cp;
int i;
int idx = 4;
int len;
extern char version_string[];
extern int path_ind;
/* Now write the version descriptor. */
memset(vers, 0, sizeof (vers));
strcpy(vers, "MKI ");
cp = vers;
X_ac = saved_ac();
X_av = saved_av();
strcpy(&cp[idx], ctime(&begun));
idx += 25;
strcpy(&cp[idx], version_string);
idx += strlen(version_string);
for (i = 1; i < X_ac; i++) {
len = strlen(X_av[i]);
if ((idx + len + 2) >= SECTOR_SIZE)
break;
cp[idx++] = ' ';
/*
* Do not give away secret information when not in debug mode.
*/
if (debug)
strcpy(&cp[idx], X_av[i]);
else if (i >= path_ind)
len = graftcp(&cp[idx], X_av[i], &vers[SECTOR_SIZE-1]);
else if (X_av[i][0] == '/')
len = pathcp(&cp[idx], X_av[i], &vers[SECTOR_SIZE-1]);
else
strcpy(&cp[idx], X_av[i]);
idx += len;
}
cp[SECTOR_SIZE - 1] = '\0';
/* Per default: keep privacy. Blackout the version and arguments. */
if(getenv("ISODEBUG")) {
jtwrite(vers, SECTOR_SIZE, 1, 0, TRUE);
xfwrite(vers, SECTOR_SIZE, 1, outfile, 0, TRUE);
} else {
jtwrite(calloc(SECTOR_SIZE, 1), SECTOR_SIZE, 1, 0, TRUE);
xfwrite(calloc(SECTOR_SIZE, 1), SECTOR_SIZE, 1, outfile, 0, TRUE);
}
last_extent_written += 1;
return (0);
}
/*
* Avoid to write unwanted information into the version info string.
*/
static int
graftcp(char *to, char *from, char *ep)
{
int len = strlen(from);
char *node = NULL;
if (use_graft_ptrs)
node = findgequal(from);
if (node == NULL) {
len = 0;
node = from;
} else {
len = node - from;
*node = '\0';
strncpy(to, from, ep - to);
*node++ = '=';
to += len++;
*to++ = '=';
}
return (len + pathcp(to, node, ep));
}
static int
pathcp(char *to, char *from, char *ep)
{
int len = strlen(from);
char *p;
p = strrchr(from, '/');
if (p == NULL) {
strncpy(to, from, ep - to);
} else {
if (p[1] == '\0') {
--p;
while (p > from && *p != '/')
--p;
}
len = 0;
if (*p == '/') {
strncpy(to, "...", ep - to);
to += 3;
len = 3;
}
if (to < ep) {
strncpy(to, p, ep - to);
len += strlen(to);
}
}
return (len);
}
/*
* Function to write the path table for the disc.
*/
static int
pathtab_write(FILE *outfile)
{
/* Next we write the path tables */
jtwrite(path_table_l, path_blocks << 11, 1, 0, FALSE);
xfwrite(path_table_l, path_blocks << 11, 1, outfile, 0, FALSE);
last_extent_written += path_blocks;
jtwrite(path_table_m, path_blocks << 11, 1, 0, FALSE);
xfwrite(path_table_m, path_blocks << 11, 1, outfile, 0, FALSE);
last_extent_written += path_blocks;
free(path_table_l);
free(path_table_m);
path_table_l = NULL;
path_table_m = NULL;
return (0);
}
static int
exten_write(FILE *outfile)
{
jtwrite(extension_record, SECTOR_SIZE, 1, 0, FALSE);
xfwrite(extension_record, SECTOR_SIZE, 1, outfile, 0, FALSE);
last_extent_written++;
return (0);
}
/*
* Functions to describe padding block at the start of the disc.
*/
int
oneblock_size(int starting_extent)
{
last_extent++;
return (0);
}
/*
* Functions to describe path table size.
*/
static int
pathtab_size(int starting_extent)
{
path_table[0] = starting_extent;
path_table[1] = 0;
path_table[2] = path_table[0] + path_blocks;
path_table[3] = 0;
last_extent += 2 * path_blocks;
return (0);
}
/*
* Functions to describe padding blocks before PVD.
*/
static int
startpad_size(int starting_extent)
{
last_extent = session_start + 16;
return (0);
}
/*
* Functions to describe padding blocks between sections.
*/
static int
interpad_size(int starting_extent)
{
int emod = 0;
#ifdef needed
starting_extent += 16; /* First add 16 pad blocks */
#endif
if ((emod = starting_extent % 16) != 0) {
starting_extent += 16 - emod; /* Now pad to mod 16 # */
}
last_extent = starting_extent;
return (0);
}
/*
* Functions to describe padding blocks at end of disk.
*/
static int
endpad_size(int starting_extent)
{
starting_extent += 150; /* 150 pad blocks (post gap) */
last_extent = starting_extent;
return (0);
}
static int
file_gen()
{
#ifdef APPLE_HYB
int start_extent = last_extent; /* orig ISO files start */
#endif /* APPLE_HYB */
if (!assign_file_addresses(root, FALSE)) {
#ifdef DVD_VIDEO
if (dvd_video) {
comerrno(EX_BAD, "Unable to make a DVD-Video image.\n"
"Possible reasons:\n"
" - VIDEO_TS subdirectory was not found on specified location\n"
" - VIDEO_TS has invalid contents\n"
);
}
#else
; /* EMPTY */
#endif
}
#ifdef SORTING
if (do_sort) {
if (sort_file_addresses() == 0)
reassign_link_addresses(root);
}
#endif /* SORTING */
#ifdef APPLE_HYB
/*
* put this here for the time being - may when I've worked out how to
* use Eric's new system for creating/writing parts of the image it
* may move to it's own routine
*/
if (apple_hyb)
hfs_file_gen(start_extent);
#ifdef PREP_BOOT
else if (use_prep_boot || use_chrp_boot)
gen_prepboot();
#endif /* PREP_BOOT */
#endif /* APPLE_HYB */
return (0);
}
static int
dirtree_dump()
{
if (verbose > 2) {
dump_tree(root);
}
return (0);
}
static int
dirtree_fixup(int starting_extent)
{
if (use_RockRidge && reloc_dir)
finish_cl_pl_entries();
if (use_RockRidge)
update_nlink_field(root);
return (0);
}
static int
dirtree_size(int starting_extent)
{
assign_directory_addresses(root);
return (0);
}
static int
ext_size(int starting_extent)
{
extern int extension_record_size;
struct directory_entry *s_entry;
extension_record_extent = starting_extent;
s_entry = root->contents;
set_733((char *) s_entry->rr_attributes + s_entry->rr_attr_size - 24,
extension_record_extent);
set_733((char *) s_entry->rr_attributes + s_entry->rr_attr_size - 8,
extension_record_size);
last_extent++;
return (0);
}
static int
dirtree_write(FILE *outfile)
{
generate_iso9660_directories(root, outfile);
return (0);
}
static int
dirtree_cleanup(FILE *outfile)
{
free_directories(root);
return (0);
}
static int
startpad_write(FILE *outfile)
{
char buffer[SECTOR_SIZE];
int i;
int npad;
memset(buffer, 0, sizeof (buffer));
npad = session_start + 16 - last_extent_written;
for (i = 0; i < npad; i++) {
jtwrite(buffer, sizeof (buffer), 1, 0, FALSE);
xfwrite(buffer, sizeof (buffer), 1, outfile, 0, FALSE);
last_extent_written++;
}
return (0);
}
static int
interpad_write(FILE *outfile)
{
char buffer[SECTOR_SIZE];
int i;
int npad = 0;
memset(buffer, 0, sizeof (buffer));
#ifdef needed
npad = 16;
#endif
if ((i = last_extent_written % 16) != 0)
npad += 16 - i;
for (i = 0; i < npad; i++) {
jtwrite(buffer, sizeof (buffer), 1, 0, FALSE);
xfwrite(buffer, sizeof (buffer), 1, outfile, 0, FALSE);
last_extent_written++;
}
return (0);
}
static int
endpad_write(FILE *outfile)
{
char buffer[SECTOR_SIZE];
int i;
memset(buffer, 0, sizeof (buffer));
for (i = 0; i < 150; i++) {
jtwrite(buffer, sizeof (buffer), 1, 0, FALSE);
xfwrite(buffer, sizeof (buffer), 1, outfile, 0, FALSE);
last_extent_written++;
}
return (0);
}
#ifdef APPLE_HYB
/*
* hfs_get_parms: get HFS parameters from the command line
*/
static int
hfs_get_parms(char *key)
{
int ret = 0;
char *p;
if (hfs_parms == NULL)
return (ret);
if ((p = strstr(hfs_parms, key)) != NULL) {
p += strlen(key) + 1;
sscanf(p, "%d", &ret);
}
return (ret);
}
/*
* hfs_file_gen: set up "fake" HFS volume using the ISO9660 tree
*/
static void
hfs_file_gen(int start_extent)
{
int Csize; /* clump size for HFS vol */
int loop;
int last_extent_save = last_extent;
char *p;
/* allocate memory for the libhfs/genisoimage extra info */
hce = (hce_mem *) e_malloc(sizeof (hce_mem));
hce->error = (char *) e_malloc(1024);
/* mark as unallocated for use later */
hce->hfs_ce = hce->hfs_hdr = hce->hfs_map = 0;
/* reserve space for the label partition - if it is needed */
#ifdef PREP_BOOT
/* a PReP bootable partition needs the map.. */
if (gen_pt || use_prep_boot || use_chrp_boot)
#else
if (gen_pt)
#endif /* PREP_BOOT */
hce->hfs_map_size = HFS_MAP_SIZE;
else
hce->hfs_map_size = 0;
/* set the HFS parameter string to upper case */
if (hfs_parms) {
for (p = hfs_parms; *p; p++)
*p = toupper(*p);
}
/* set the initial factor to increase Catalog file size */
if ((hce->ctc_size = hfs_get_parms("CTC")) == 0)
hce->ctc_size = CTC;
/* set the max size of the Catalog file */
if ((hce->max_XTCsize = hfs_get_parms("MAX_XTCSIZE")) == 0)
hce->max_XTCsize = MAX_XTCSIZE;
/* set the number of time to try to make an HFS volume */
if ((loop = hfs_get_parms("CTC_LOOP")) == 0)
loop = CTC_LOOP;
/*
* "create" the HFS volume (just the header, catalog/extents files) if
* there's a problem with the Catalog file being too small, we keep on
* increasing the size (up to CTC_LOOP) times and try again.
* Unfortunately I don't know enough about the inner workings of HFS,
* so I can't workout the size of the Catalog file in advance (and I
* don't want to "grow" as is is normally allowed to), therefore, this
* approach is a bit over the top as it involves throwing away the
* "volume" we have created and trying again ...
*/
do {
hce->error[0] = '\0';
/* attempt to create the Mac volume */
Csize = make_mac_volume(root, start_extent);
/* if we have a problem ... */
if (Csize < 0) {
/*
* we've made too many attempts, or got some other
* error
*/
if (loop == 0 || errno != HCE_ERROR) {
/* HCE_ERROR is not a valid errno value */
if (errno == HCE_ERROR)
errno = 0;
/* exit with the error */
if (*hce->error)
fprintf(stderr, "%s\n", hce->error);
perr(hfs_error);
} else {
/* increase Catalog file size factor */
hce->ctc_size *= CTC;
/*
* reset the initial "last_extent" and try
* again
*/
last_extent = last_extent_save;
}
} else {
/* everything OK - just carry on ... */
loop = 0;
}
}
while (loop--);
hfs_extra = HFS_ROUND_UP(hce->hfs_tot_size) / SECTOR_SIZE;
last_extent += hfs_extra;
/* generate the Mac label and HFS partition maps */
mac_boot.name = hfs_boot_file;
/*
* only generate the partition tables etc. if we are making a bootable
* CD - or if the -part option is given
*/
if (gen_pt) {
if (gen_mac_label(&mac_boot)) {
if (*hce->error)
fprintf(stderr, "%s\n", hce->error);
perr(hfs_error);
}
}
/* set Autostart filename if required */
if (autoname) {
if (autostart())
perr("Autostart filename must less than 12 characters");
}
/* finished with any HFS type errors */
free(hce->error);
hce->error = 0;
/*
* the ISO files need to start on a multiple of the HFS allocation
* blocks, so find out how much padding we need
*/
/*
* take in accout alignment of files wrt HFS volume start - remove any
* previous session as well
*/
start_extent -= session_start;
hfs_pad = ROUND_UP(start_extent*SECTOR_SIZE +
(hce->hfs_hdr_size + hce->hfs_map_size) * HFS_BLOCKSZ,
Csize) / SECTOR_SIZE;
hfs_pad -= (start_extent + (hce->hfs_hdr_size + hce->hfs_map_size) /
HFS_BLK_CONV);
#ifdef PREP_BOOT
gen_prepboot_label(hce->hfs_map);
#endif /* PREP_BOOT */
}
#ifdef PREP_BOOT
static void
gen_prepboot()
{
/*
* we need to allocate the hce struct since hce->hfs_map is used to
* generate the fdisk partition map required for PReP booting
*/
hce = (hce_mem *) e_malloc(sizeof (hce_mem));
/* mark as unallocated for use later */
hce->hfs_ce = hce->hfs_hdr = hce->hfs_map = 0;
/* reserve space for the label partition - if it is needed */
hce->hfs_map_size = HFS_MAP_SIZE;
hce->hfs_map = (unsigned char *) e_malloc(hce->hfs_map_size * HFS_BLOCKSZ);
gen_prepboot_label(hce->hfs_map);
}
#endif /* PREP_BOOT */
/*
* get_adj_size: get the ajusted size of the volume with the HFS
* allocation block size for each file
*/
Ulong
get_adj_size(int Csize)
{
struct deferred_write *dw;
Ulong size = 0;
int count = 0;
/* loop through all the files finding the new total size */
for (dw = dw_head; dw; dw = dw->next) {
size += (ROUND_UP(dw->size, Csize)/HFS_BLOCKSZ);
count++;
}
/*
* crude attempt to prevent overflows - HFS can only cope with a
* maximum of about 65536 forks (actually less) - this will trap cases
* when we have far too many files
*/
if (count >= 65536)
return (-1);
else
return (size);
}
/*
* adj_size: adjust the ISO record entries for all files
* based on the HFS allocation block size
*/
int
adj_size(int Csize, int start_extent, int extra)
{
struct deferred_write *dw;
struct directory_entry *s_entry;
int size;
/* get the adjusted start_extent (with padding) */
/* take in accout alignment of files wrt HFS volume start */
start_extent -= session_start;
start_extent = ROUND_UP(start_extent*SECTOR_SIZE + extra*HFS_BLOCKSZ,
Csize) / SECTOR_SIZE;
start_extent -= (extra / HFS_BLK_CONV);
start_extent += session_start;
/* initialise file hash */
flush_hash();
/*
* loop through all files changing their starting blocks and finding
* any padding needed to written out latter
*/
for (dw = dw_head; dw; dw = dw->next) {
s_entry = dw->s_entry;
s_entry->starting_block = dw->extent = start_extent;
set_733((char *) s_entry->isorec.extent, start_extent);
size = ROUND_UP(dw->size, Csize) / SECTOR_SIZE;
dw->pad = size - ISO_ROUND_UP(dw->size) / SECTOR_SIZE;
/*
* cache non-HFS files - as there may be multiple links to
* these files (HFS files can't have multiple links). We will
* need to change the starting extent of the other links later
*/
if (!s_entry->hfs_ent)
add_hash(s_entry);
start_extent += size;
}
return (start_extent);
}
/*
* adj_size_other: adjust any non-HFS files that may be linked
* to an existing file (i.e. not have a deferred_write
* entry of it's own
*/
void
adj_size_other(struct directory *dpnt)
{
struct directory_entry *s_entry;
struct file_hash *s_hash;
while (dpnt) {
s_entry = dpnt->contents;
for (s_entry = dpnt->contents; s_entry;
s_entry = s_entry->next) {
/*
* if it's an HFS file or a directory - then ignore
* (we're after non-HFS files)
*/
if (s_entry->hfs_ent ||
(s_entry->isorec.flags[0] & ISO_DIRECTORY))
continue;
/*
* find any cached entry and assign new starting
* extent
*/
s_hash = find_hash(s_entry->dev, s_entry->inode);
if (s_hash) {
set_733((char *) s_entry->isorec.extent,
s_hash->starting_block);
/* not vital - but tidy */
s_entry->starting_block =
s_hash->starting_block;
}
}
if (dpnt->subdir) {
adj_size_other(dpnt->subdir);
}
dpnt = dpnt->next;
}
/* clear file hash */
flush_hash();
}
/*
* hfs_hce_write: write out the HFS header stuff
*/
static int
hfs_hce_write(FILE *outfile)
{
char buffer[SECTOR_SIZE];
int n = 0;
int r; /* HFS hdr output */
int tot_size = hce->hfs_map_size + hce->hfs_hdr_size;
memset(buffer, 0, sizeof (buffer));
/*
* hack time ... if the tot_size is greater than 32Kb then
* it won't fit in the first 16 blank SECTORS (64 512 byte
* blocks, as most of this is padding, we just truncate this
* data to 64x4xHFS_BLOCKSZ ... hope this is OK ...
*/
if (tot_size > 64) tot_size = 64;
/* get size in CD blocks == 4xHFS_BLOCKSZ == 2048 */
n = tot_size / HFS_BLK_CONV;
r = tot_size % HFS_BLK_CONV;
/* write out HFS volume header info */
jtwrite(hce->hfs_map, HFS_BLOCKSZ, tot_size, 0, FALSE);
xfwrite(hce->hfs_map, HFS_BLOCKSZ, tot_size, outfile, 0, FALSE);
/* fill up to a complete CD block */
if (r) {
jtwrite(buffer, HFS_BLOCKSZ, HFS_BLK_CONV - r, 0, FALSE);
xfwrite(buffer, HFS_BLOCKSZ, HFS_BLK_CONV - r, outfile, 0, FALSE);
n++;
}
last_extent_written += n;
return (0);
}
/*
* insert_padding_file : insert a dumy file to make volume at least
* 800k
*
* XXX If we ever need to write more then 2 GB, make size off_t
*/
int
insert_padding_file(int size)
{
struct deferred_write *dwpnt;
/* get the size in bytes */
size *= HFS_BLOCKSZ;
dwpnt = (struct deferred_write *)
e_malloc(sizeof (struct deferred_write));
dwpnt->s_entry = 0;
/* set the padding to zero */
dwpnt->pad = 0;
/* set offset to zero */
dwpnt->off = (off_t)0;
/*
* don't need to wory about the s_entry stuff as it won't be touched#
* at this point onwards
*/
/* insert the entry in the list */
if (dw_tail) {
dw_tail->next = dwpnt;
dw_tail = dwpnt;
} else {
dw_head = dwpnt;
dw_tail = dwpnt;
}
/* aloocate memory as a "Table" file */
dwpnt->table = e_malloc(size);
dwpnt->name = NULL;
dwpnt->next = NULL;
dwpnt->size = size;
dwpnt->extent = last_extent;
last_extent += ISO_BLOCKS(size);
/* retune the size in HFS blocks */
return (ISO_ROUND_UP(size) / HFS_BLOCKSZ);
}
struct output_fragment hfs_desc = {NULL, NULL, NULL, hfs_hce_write, "HFS volume header"};
#endif /* APPLE_HYB */
struct output_fragment startpad_desc = {NULL, startpad_size, NULL, startpad_write, "Initial Padblock"};
struct output_fragment voldesc_desc = {NULL, oneblock_size, root_gen, pvd_write, "Primary Volume Descriptor"};
struct output_fragment xvoldesc_desc = {NULL, oneblock_size, NULL, xpvd_write, "Enhanced Volume Descriptor"};
struct output_fragment end_vol = {NULL, oneblock_size, NULL, evd_write, "End Volume Descriptor" };
struct output_fragment version_desc = {NULL, oneblock_size, NULL, vers_write, "Version block" };
struct output_fragment pathtable_desc = {NULL, pathtab_size, generate_path_tables, pathtab_write, "Path table"};
struct output_fragment dirtree_desc = {NULL, dirtree_size, NULL, dirtree_write, "Directory tree" };
struct output_fragment dirtree_clean = {NULL, dirtree_fixup, dirtree_dump, dirtree_cleanup, "Directory tree cleanup" };
struct output_fragment extension_desc = {NULL, ext_size, NULL, exten_write, "Extension record" };
struct output_fragment files_desc = {NULL, NULL, file_gen, file_write, "The File(s)"};
struct output_fragment interpad_desc = {NULL, interpad_size, NULL, interpad_write, "Intermediate Padblock"};
struct output_fragment endpad_desc = {NULL, endpad_size, NULL, endpad_write, "Ending Padblock"};
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