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k3b/libk3b/tools/libisofs/isofs.cpp

879 lines
22 KiB

/***************************************************************************
isofs.c - libisofs implementation
-------------------
begin : Oct 25 2002
copyright : (C) 2002 by Szombathelyi György
email : gyurco@users.sourceforge.net
***************************************************************************/
/***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************/
#include <errno.h>
#include <stdlib.h>
#include <string.h>
#include "isofs.h"
#include "rock.h"
/* internal function from the linux kernel (isofs fs) */
static time_t getisotime(int year,int month,int day,int hour,
int minute,int second,int tz) {
int days, i;
time_t crtime;
year-=1970;
if (year < 0) {
crtime = 0;
} else {
int monlen[12] = {31,28,31,30,31,30,31,31,30,31,30,31};
days = year * 365;
if (year > 2)
days += (year+1) / 4;
for (i = 1; i < month; i++)
days += monlen[i-1];
if (((year+2) % 4) == 0 && month > 2)
days++;
days += day - 1;
crtime = ((((days * 24) + hour) * 60 + minute) * 60)
+ second;
/* sign extend */
if (tz & 0x80)
tz |= (-1 << 8);
/*
* The timezone offset is unreliable on some disks,
* so we make a sanity check. In no case is it ever
* more than 13 hours from GMT, which is 52*15min.
* The time is always stored in localtime with the
* timezone offset being what get added to GMT to
* get to localtime. Thus we need to subtract the offset
* to get to true GMT, which is what we store the time
* as internally. On the local system, the user may set
* their timezone any way they wish, of course, so GMT
* gets converted back to localtime on the receiving
* system.
*
* NOTE: mkisofs in versions prior to mkisofs-1.10 had
* the sign wrong on the timezone offset. This has now
* been corrected there too, but if you are getting screwy
* results this may be the explanation. If enough people
* complain, a user configuration option could be added
* to add the timezone offset in with the wrong sign
* for 'compatibility' with older discs, but I cannot see how
* it will matter that much.
*
* Thanks to kuhlmav@elec.canterbury.ac.nz (Volker Kuhlmann)
* for pointing out the sign error.
*/
if (-52 <= tz && tz <= 52)
crtime -= tz * 15 * 60;
}
return crtime;
}
/**
* Returns the Unix from the ISO9660 9.1.5 time format
*/
time_t isodate_915(char * p, int hs) {
return getisotime(1900+p[0],p[1],p[2],p[3],p[4],p[5],hs==0 ? p[6] : 0);
}
/**
* Returns the Unix from the ISO9660 8.4.26.1 time format
* BUG: hundredth of seconds are ignored, because Unix time_t has one second
* resolution (I think it's no problem at all)
*/
time_t isodate_84261(char * p, int hs) {
int year,month,day,hour,minute,second;
year=(p[0]-'0')*1000 + (p[1]-'0')*100 + (p[2]-'0')*10 + p[3]-'0';
month=(p[4]-'0')*10 + (p[5]-'0');
day=(p[6]-'0')*10 + (p[7]-'0');
hour=(p[8]-'0')*10 + (p[9]-'0');
minute=(p[10]-'0')*10 + (p[11]-'0');
second=(p[12]-'0')*10 + (p[13]-'0');
return getisotime(year,month,day,hour,minute,second,hs==0 ? p[16] : 0);
}
void FreeBootTable(boot_head *boot) {
boot_entry *be,*next;
be=boot->defentry;
while (be) {
next=be->next;
free(be);
be=next;
}
boot->defentry=NULL;
}
int BootImageSize(readfunc* read,int media,sector_t start,int len,void* udata) {
int ret;
switch(media & 0xf) {
case 0:
ret=len; /* No emulation */
break;
case 1:
ret=80*2*15; /* 1.2 MB */
break;
case 2:
ret=80*2*18; /* 1.44 MB */
break;
case 3:
ret=80*2*36; /* 2.88 MB */
break;
case 4:
/* FIXME!!! */
ret=len; /* Hard Disk */
break;
default:
ret=len;
}
return ret;
}
static boot_entry *CreateBootEntry(char *be) {
boot_entry *entry;
entry = (boot_entry*) malloc(sizeof(boot_entry));
if (!entry) return NULL;
memset(entry, 0, sizeof(boot_entry));
memcpy(entry->data,be,0x20);
return entry;
}
int ReadBootTable(readfunc *read,sector_t sector, boot_head *head, void *udata) {
char buf[2048], *c, *be;
int i,end=0;
unsigned short sum;
boot_entry *defcur=NULL,*deflast=NULL;
register struct validation_entry *ventry=NULL;
register struct default_entry *dentry=NULL;
register struct section_header *sheader=NULL;
register struct section_entry *sentry=NULL;
register struct section_entry_ext *extsentry=NULL;
head->sections=NULL;
head->defentry=NULL;
while (1) {
be = (char*) &buf;
if ( read(be, sector, 1, udata) != 1 ) goto err;
/* first entry needs to be a validation entry */
if (!ventry) {
ventry=(struct validation_entry *) be;
if ( isonum_711(ventry->type) !=1 ) goto err;
sum=0;
c = (char*) ventry;
for (i=0;i<16;i++) { sum += isonum_721(c); c+=2; }
if (sum) goto err;
memcpy(&head->ventry,be,0x20);
be += 0x20;
}
while (!end && (be < (buf+1))) {
switch (isonum_711(be)) {
case 0x88:
defcur=CreateBootEntry(be);
if (!defcur) goto err;
if (deflast)
deflast->next=defcur;
else
head->defentry=defcur;
defcur->prev=deflast;
deflast=defcur;
break;
case 0x90:
case 0x91:
break;
default:
end=1;
break;
}
be += 0x20;
}
if (end) break;
sector ++;
}
return 0;
err:
FreeBootTable(head);
return -1;
}
/**
* Creates the linked list of the volume descriptors
*/
iso_vol_desc *ReadISO9660(readfunc *read,sector_t sector,void *udata) {
int i;
struct iso_volume_descriptor buf;
iso_vol_desc *first=NULL,*current=NULL,*prev=NULL;
for (i=0;i<100;i++) {
if (read( (char*) &buf, sector+i+16, 1, udata) != 1 ) {
FreeISO9660(first);
return NULL;
}
if (!memcmp(ISO_STANDARD_ID,&buf.id,5)) {
switch ( isonum_711(&buf.type[0]) ) {
case ISO_VD_BOOT:
case ISO_VD_PRIMARY:
case ISO_VD_SUPPLEMENTARY:
current=(iso_vol_desc*) malloc(sizeof(iso_vol_desc));
if (!current) {
FreeISO9660(first);
return NULL;
}
current->prev=prev;
current->next=NULL;
if (prev) prev->next=current;
memcpy(&(current->data),&buf,2048);
if (!first) first=current;
prev=current;
break;
case ISO_VD_END:
return first;
break;
}
} else if (!memcmp(HS_STANDARD_ID,(struct hs_volume_descriptor*) &buf,5)) {
/* High Sierra format not supported (yet) */
}
}
return first;
}
/**
* Frees the linked list of volume descriptors
*/
void FreeISO9660(iso_vol_desc *data) {
iso_vol_desc *current;
while (data) {
current=data;
data=current->next;
free(current);
}
}
/**
* Frees the strings in 'rrentry'
*/
void FreeRR(rr_entry *rrentry) {
if (rrentry->name) {
free(rrentry->name);
rrentry->name=NULL;
}
if (rrentry->sl) {
free(rrentry->sl);
rrentry->name=NULL;
}
}
static int str_nappend(char **d,char *s,int n) {
int i=0;
char *c;
/* i=strnlen(s,n)+1; */
while (i<n && s[i]) i++;
i++;
if (*d) i+=(strlen(*d)+1);
c=(char*) malloc(i);
if (!c) return -ENOMEM;
if (*d) {
strcpy(c,*d);
strncat(c,s,n);
free(*d);
} else
strncpy(c,s,n);
c[i-1]=0;
*d=c;
return 0;
}
static int str_append(char **d, const char *s) {
int i;
char *c;
i=strlen(s)+1;
if (*d) i+=(strlen(*d)+1);
c=(char*) malloc(i);
if (!c) return -ENOMEM;
if (*d) {
strcpy(c,*d);
strcat(c,s);
free(*d);
} else
strcpy(c,s);
c[i-1]=0;
*d=c;
return 0;
}
#define rrtlen(c) (((unsigned char) c & 0x80) ? 17 : 7)
#define rrctime(f,c) ((unsigned char) f & 0x80) ? isodate_84261(c,0) : isodate_915(c,0)
/**
* Parses the System Use area and fills rr_entry with values
*/
int ParseRR(struct iso_directory_record *idr, rr_entry *rrentry) {
int suspoffs,susplen,i,f,ret=0;
char *r, *c;
struct rock_ridge *rr;
suspoffs=33+isonum_711(idr->name_len);
if (!(isonum_711(idr->name_len) & 1)) suspoffs++;
susplen=isonum_711(idr->length)-suspoffs;
r= & (((char*) idr)[suspoffs]);
rr = (struct rock_ridge*) r;
memset(rrentry,0,sizeof(rr_entry));
rrentry->len = sizeof(rr_entry);
while (susplen > 0) {
if (isonum_711(&rr->len) > susplen || rr->len == 0) break;
if (rr->signature[0]=='N' && rr->signature[1]=='M') {
if (!(rr->u.NM.flags & 0x26) && rr->len>5 && !rrentry->name) {
if (str_nappend(&rrentry->name,rr->u.NM.name,isonum_711(&rr->len)-5)) {
FreeRR(rrentry); return -ENOMEM;
}
ret++;
}
} else if (rr->signature[0]=='P' && rr->signature[1]=='X' &&
(isonum_711(&rr->len)==44 || isonum_711(&rr->len)==36)) {
rrentry->mode=isonum_733(rr->u.PX.mode);
rrentry->nlink=isonum_733(rr->u.PX.n_links);
rrentry->uid=isonum_733(rr->u.PX.uid);
rrentry->gid=isonum_733(rr->u.PX.gid);
if (isonum_711(&rr->len)==44) rrentry->serno=isonum_733(rr->u.PX.serno);
ret++;
} else if (rr->signature[0]=='P' && rr->signature[1]=='N' &&
isonum_711(&rr->len)==20) {
rrentry->dev_major=isonum_733(rr->u.PN.dev_high);
rrentry->dev_minor=isonum_733(rr->u.PN.dev_low);
ret++;
} else if (rr->signature[0]=='P' && rr->signature[1]=='L' &&
isonum_711(&rr->len)==12) {
rrentry->pl=isonum_733(rr->u.PL.location);
ret++;
} else if (rr->signature[0]=='C' && rr->signature[1]=='L' &&
isonum_711(&rr->len)==12) {
rrentry->cl=isonum_733(rr->u.CL.location);
ret++;
} else if (rr->signature[0]=='R' && rr->signature[1]=='E' &&
isonum_711(&rr->len)==4) {
rrentry->re=1;
ret++;
} else if (rr->signature[0]=='S' && rr->signature[1]=='L' &&
isonum_711(&rr->len)>7) {
i = isonum_711(&rr->len)-5;
c = (char*) rr;
c += 5;
while (i>0) {
switch(c[0] & ~1) {
case 0x2:
if (str_append(&rrentry->sl,".")) {
FreeRR(rrentry); return -ENOMEM;
}
break;
case 0x4:
if (str_append(&rrentry->sl,"..")) {
FreeRR(rrentry); return -ENOMEM;
}
break;
}
if ( (c[0] & 0x08) == 0x08 || (c[1] && rrentry->sl &&
strlen(rrentry->sl)>1) ) {
if (str_append(&rrentry->sl,"/")) {
FreeRR(rrentry); return -ENOMEM;
}
}
if ((unsigned char)c[1]>0) {
if (str_nappend(&rrentry->sl,c+2,(unsigned char)c[1])) {
FreeRR(rrentry); return -ENOMEM;
}
}
i -= ((unsigned char)c[1] + 2);
c += ((unsigned char)c[1] + 2);
}
ret++;
} else if (rr->signature[0]=='T' && rr->signature[1]=='F' &&
isonum_711(&rr->len)>5) {
i = isonum_711(&rr->len)-5;
f = rr->u.TF.flags;
c = (char*) rr;
c += 5;
while (i >= rrtlen(f)) {
if (f & 1) {
rrentry->t_creat=rrctime(f,c);
f &= ~1;
} else if (f & 2) {
rrentry->rr_st_mtime=rrctime(f,c);
f &= ~2;
} else if (f & 4) {
rrentry->rr_st_atime=rrctime(f,c);
f &= ~4;
} else if (f & 8) {
rrentry->rr_st_ctime=rrctime(f,c);
f &= ~8;
} else if (f & 16) {
rrentry->t_backup=rrctime(f,c);
f &= ~16;
} else if (f & 32) {
rrentry->t_expire=rrctime(f,c);
f &= ~32;
} else if (f & 64) {
rrentry->t_effect=rrctime(f,c);
f &= ~64;
}
i -= rrtlen(f);
c += rrtlen(f);
}
ret++;
} else if (rr->signature[0]=='Z' && rr->signature[1]=='F' &&
isonum_711(&rr->len)==16) {
/* Linux-specific extension: transparent decompression */
rrentry->z_algo[0]=rr->u.ZF.algorithm[0];
rrentry->z_algo[1]=rr->u.ZF.algorithm[1];
rrentry->z_params[0]=rr->u.ZF.parms[0];
rrentry->z_params[1]=rr->u.ZF.parms[1];
rrentry->z_size=isonum_733(rr->u.ZF.real_size);
ret++;
} else {
/* printf("SUSP sign: %c%c\n",rr->signature[0],rr->signature[1]); */
}
susplen -= isonum_711(&rr->len);
r += isonum_711(&rr->len);
rr = (struct rock_ridge*) r;
}
return ret;
}
/**
* Iterates over the directory entries. The directory is in 'buf',
* the size of the directory is 'size'. 'callback' is called for each
* directory entry with the parameter 'udata'.
*/
int ProcessDir(readfunc *read,int extent,int size,dircallback *callback,void *udata) {
int pos=0,ret=0,siz;
char *buf;
struct iso_directory_record *idr;
if (size & 2047) {
siz=((size>>11)+1)<<11;
} else {
siz=size;
}
buf=(char*) malloc(siz);
if (!buf) return -ENOMEM;
if (read(buf,extent,siz>>11,udata)!=siz>>11) {
free(buf);
return -EIO;
}
while (size>0) {
idr=(struct iso_directory_record*) &buf[pos];
if (isonum_711(idr->length)==0) {
size-=(2048 - (pos & 0x7ff));
if (size<=2) break;
pos+=0x800;
pos&=0xfffff800;
idr=(struct iso_directory_record*) &buf[pos];
}
pos+=isonum_711(idr->length);
pos+=isonum_711(idr->ext_attr_length);
size-=isonum_711(idr->length);
size-=isonum_711(idr->ext_attr_length);
if (size<0) break;
if (isonum_711(idr->length)
<33 ||
isonum_711(idr->length)<33+isonum_711(idr->name_len)) {
/* Invalid directory entry */
continue;
}
if ((ret=callback(idr,udata))) break;
}
free(buf);
return ret;
}
/**
* returns the joliet level from the volume descriptor
*/
int JolietLevel(struct iso_volume_descriptor *ivd) {
int ret=0;
register struct iso_supplementary_descriptor *isd;
isd = (struct iso_supplementary_descriptor *) ivd;
if (isonum_711(ivd->type)==ISO_VD_SUPPLEMENTARY) {
if (isd->escape[0]==0x25 &&
isd->escape[1]==0x2f) {
switch (isd->escape[2]) {
case 0x40:
ret=1;
break;
case 0x43:
ret=2;
break;
case 0x45:
ret=3;
break;
}
}
}
return ret;
}
/********************************************************************/
#if 0
#include <time.h>
#include <fcntl.h>
#include <stdio.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <iconv.h>
int level=0,joliet=0,dirs,files;
iconv_t iconv_d;
int fd;
int readf(char *buf, int start, int len,void *udata) {
int ret;
if ((ret=lseek(fd, start << 11, SEEK_SET))<0) return ret;
ret=read(fd, buf, len << 11);
if (ret<0) return ret;
return (ret >> 11);
}
void dumpchars(char *c,int len) {
while (len>0) {
printf("%c",*c);
len--;
c++;
}
}
void sp(int num) {
int i;
for (i=0;i<num*5;i++) { printf(" "); };
}
void dumpflags(char flags) {
if (flags & 1) printf("HIDDEN ");
if (flags & 2) printf("DIR ");
if (flags & 4) printf("ASF ");
}
void dumpjoliet(char *c,int len) {
char outbuf[255];
size_t out;
int ret;
char *outptr;
outptr=(char*) &outbuf;
out=255;
if ((iconv(iconv_d,&c,&len,&outptr,&out))<0) {
printf("conversion error=%d",errno);
return;
}
ret=255-out;
dumpchars((char*) &outbuf,ret);
}
void dumpchardesc(char *c,int len) {
if (joliet)
dumpjoliet(c,len);
else {
dumpchars(c,len);
}
}
void dumpiso915time(char *t, int hs) {
time_t time;
char *c;
time=isodate_915(t,hs);
c=(char*) ctime(&time);
if (c && c[strlen(c)-1]==0x0a) c[strlen(c)-1]=0;
if (c) printf("%s",c);
}
void dumpiso84261time(char *t, int hs) {
time_t time;
char *c;
time=isodate_84261(t,hs);
c=(char*) ctime(&time);
if (c && c[strlen(c)-1]==0x0a) c[strlen(c)-1]=0;
if (c) printf("%s",c);
}
void dumpdirrec(struct iso_directory_record *dir) {
if (isonum_711(dir->name_len)==1) {
switch (dir->name[0]) {
case 0:
printf(".");
break;
case 1:
printf("..");
break;
default:
printf("%c",dir->name[0]);
break;
}
}
dumpchardesc(dir->name,isonum_711(dir->name_len));
printf(" size=%d",isonum_733(dir->size));
printf(" extent=%d ",isonum_733(dir->extent));
dumpflags(isonum_711(dir->flags));
dumpiso915time((char*) &(dir->date),0);
}
void dumprrentry(rr_entry *rr) {
printf(" NM=[%s] uid=%d gid=%d nlink=%d mode=%o ",
rr->name,rr->uid,rr->gid,rr->nlink,rr->mode);
if (S_ISCHR(rr->mode) || S_ISBLK(rr->mode))
printf("major=%d minor=%d ",rr->dev_major,rr->dev_minor);
if (rr->mode & S_IFLNK && rr->sl) printf("slink=%s ",rr->sl);
/*
printf("\n");
if (rr->t_creat) printf("t_creat: %s",ctime(&rr->t_creat));
if (rr->rr_st_mtime) printf("rr_st_mtime: %s",ctime(&rr->rr_st_mtime));
if (rr->rr_st_atime) printf("rr_st_atime: %s",ctime(&rr->rr_st_atime));
if (rr->rr_st_ctime) printf("rr_st_ctime: %s",ctime(&rr->rr_st_ctime));
if (rr->t_backup) printf("t_backup: %s",ctime(&rr->t_backup));
if (rr->t_expire) printf("t_expire: %s",ctime(&rr->t_expire));
if (rr->t_effect) printf("t_effect: %s",ctime(&rr->t_effect));
*/
}
void dumpsusp(char *c, int len) {
dumpchars(c,len);
}
void dumpboot(struct el_torito_boot_descriptor *ebd) {
printf("version: %d\n",isonum_711(ebd->version));
printf("system id: ");dumpchars(ebd->system_id,ISODCL(8,39));printf("\n");
printf("boot catalog start: %d\n",isonum_731(ebd->boot_catalog));
}
void dumpdefentry(struct default_entry *de) {
printf("Default entry: \n");
printf(" bootid=%x\n",isonum_711(de->bootid));
printf(" media emulation=%d (",isonum_711(de->media));
switch(isonum_711(de->media) & 0xf) {
case 0:
printf("No emulation");
break;
case 1:
printf("1.2 Mb floppy");
break;
case 2:
printf("1.44 Mb floppy");
break;
case 3:
printf("2.88 Mb floppy");
break;
case 4:
printf("Hard Disk");
break;
default:
printf("Unknown/Invalid");
break;
}
printf(")\n");
printf(" loadseg=%d\n",isonum_721(de->loadseg));
printf(" systype=%d\n",isonum_711(de->systype));
printf(" start lba=%d count=%d\n",isonum_731(de->start),
isonum_721(de->seccount));
}
void dumpbootcat(boot_head *bh) {
boot_entry *be;
printf("System id: ");dumpchars(bh->ventry.id,ISODCL(28,5));printf("\n");
be=bh->defentry;
while (be) {
dumpdefentry(be->data);
be=be->next;
}
}
void dumpdesc(struct iso_primary_descriptor *ipd) {
printf("system id: ");dumpchardesc(ipd->system_id,ISODCL(9,40));printf("\n");
printf("volume id: ");dumpchardesc(ipd->volume_id,ISODCL(41,72));printf("\n");
printf("volume space size: %d\n",isonum_733(ipd->volume_space_size));
printf("volume set size: %d\n",isonum_723(ipd->volume_set_size));
printf("volume seq num: %d\n",isonum_723(ipd->volume_set_size));
printf("logical block size: %d\n",isonum_723(ipd->logical_block_size));
printf("path table size: %d\n",isonum_733(ipd->path_table_size));
printf("location of type_l path table: %d\n",isonum_731(ipd->type_l_path_table));
printf("location of optional type_l path table: %d\n",isonum_731(ipd->opt_type_l_path_table));
printf("location of type_m path table: %d\n",isonum_732(ipd->type_m_path_table));
printf("location of optional type_m path table: %d\n",isonum_732(ipd->opt_type_m_path_table));
/*
printf("Root dir record:\n");dumpdirrec((struct iso_directory_record*) &ipd->root_directory_record);
*/
printf("Volume set id: ");dumpchardesc(ipd->volume_set_id,ISODCL(191,318));printf("\n");
printf("Publisher id: ");dumpchardesc(ipd->publisher_id,ISODCL(319,446));printf("\n");
printf("Preparer id: ");dumpchardesc(ipd->preparer_id,ISODCL(447,574));printf("\n");
printf("Application id: ");dumpchardesc(ipd->application_id,ISODCL(575,702));printf("\n");
printf("Copyright id: ");dumpchardesc(ipd->copyright_file_id,ISODCL(703,739));printf("\n");
printf("Abstract file id: ");dumpchardesc(ipd->abstract_file_id,ISODCL(740,776));printf("\n");
printf("Bibliographic file id: ");dumpchardesc(ipd->bibliographic_file_id,ISODCL(777,813));printf("\n");
printf("Volume creation date: ");dumpiso84261time(ipd->creation_date,0);printf("\n");
printf("Volume modification date: ");dumpiso84261time(ipd->modification_date,0);printf("\n");
printf("Volume expiration date: ");dumpiso84261time(ipd->expiration_date,0);printf("\n");
printf("Volume effective date: ");dumpiso84261time(ipd->effective_date,0);printf("\n");
printf("File structure version: %d\n",isonum_711(ipd->file_structure_version));
}
int mycallb(struct iso_directory_record *idr,void *udata) {
rr_entry rrentry;
sp(level);dumpdirrec(idr);
if (level==0) printf(" (Root directory) ");
printf("\n");
if (ParseRR(idr,&rrentry)>0) {
sp(level);printf(" ");dumprrentry(&rrentry);printf("\n");
}
FreeRR(&rrentry);
if ( !(idr->flags[0] & 2) ) files++;
if ( (idr->flags[0] & 2) && (level==0 || isonum_711(idr->name_len)>1) ) {
level++;
dirs++;
ProcessDir(&readf,isonum_733(idr->extent),isonum_733(idr->size),&mycallb,udata);
level--;
}
return 0;
}
/************************************************/
int main(int argc, char *argv[]) {
int i=1,sector=0;
iso_vol_desc *desc;
boot_head boot;
if (argc<2) {
fprintf(stderr,"\nUsage: %s iso-file-name or device [starting sector]\n\n",argv[0]);
return 0;
}
if (argc>=3) {
sector=atoi(argv[2]);
printf("Using starting sector number %d\n",sector);
}
fd=open(argv[1],O_RDONLY);
if (fd<0) {
fprintf(stderr,"open error\n");
return -1;
}
iconv_d=iconv_open("ISO8859-2","UTF16BE");
if (iconv_d==0) {
fprintf(stderr,"iconv open error\n");
return -1;
}
desc=ReadISO9660(&readf,sector,NULL);
if (!desc) {
printf("No volume descriptors\n");
return -1;
}
while (desc) {
printf("\n\n--------------- Volume descriptor (%d.) type %d: ---------------\n\n",
i,isonum_711(desc->data.type));
switch (isonum_711(desc->data.type)) {
case ISO_VD_BOOT: {
struct el_torito_boot_descriptor* bootdesc;
bootdesc=&(desc->data);
dumpboot(bootdesc);
if ( !memcmp(EL_TORITO_ID,bootdesc->system_id,ISODCL(8,39)) ) {
if (ReadBootTable(&readf,isonum_731(bootdesc->boot_catalog),&boot,NULL)) {
printf("Boot Catalog Error\n");
} else {
dumpbootcat(&boot);
FreeBootTable(&boot);
}
}
}
break;
case ISO_VD_PRIMARY:
case ISO_VD_SUPPLEMENTARY:
joliet=0;
joliet = JolietLevel(&desc->data);
printf("Joliet level: %d\n",joliet);
dumpdesc((struct iso_primary_descriptor*) &desc->data);
printf("\n\n--------------- Directory structure: -------------------\n\n");
dirs=0;files=0;
mycallb( &( ((struct iso_primary_descriptor*) &desc->data)->root_directory_record), NULL );
printf("\nnumber of directories: %d\n",dirs);
printf("\nnumber of files: %d\n",files);
break;
}
desc=desc->next;
i++;
}
iconv_close(iconv_d);
close(fd);
FreeISO9660(desc);
return 0;
}
#endif