/* $OpenBSD: mkisofs.c,v 1.1 1997/09/15 06:01:53 downsj Exp $ */ /* * Program mkisofs.c - generate iso9660 filesystem based upon directory * tree on hard disk. Written by Eric Youngdale (1993). Copyright 1993 Yggdrasil Computing, Incorporated 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[] ="$From: mkisofs.c,v 1.9 1997/04/10 02:45:09 eric Rel $"; /* ADD_FILES changes made by Ross Biro biro@yggdrasil.com 2/23/95 */ #include #include "mkisofs.h" #include "config.h" #ifdef linux #include #endif #include "iso9660.h" #include #ifndef VMS #include #else #include #include "vms.h" #endif #include #include #ifndef VMS #ifdef HAVE_UNISTD_H #include #endif #endif #include "exclude.h" #ifdef __NetBSD__ #include #include #endif struct directory * root = NULL; static char version_string[] = "mkisofs v1.11"; FILE * discimage; unsigned int next_extent = 0; unsigned int last_extent = 0; unsigned int session_start = 0; unsigned int path_table_size = 0; unsigned int path_table[4] = {0,}; unsigned int path_blocks = 0; struct iso_directory_record root_record; char * extension_record = NULL; int extension_record_extent = 0; static int extension_record_size = 0; /* These variables are associated with command line options */ int use_eltorito = 0; int use_RockRidge = 0; int verbose = 0; int all_files = 0; int follow_links = 0; int rationalize = 0; int generate_tables = 0; char * preparer = PREPARER_DEFAULT; char * publisher = PUBLISHER_DEFAULT; char * appid = APPID_DEFAULT; char * copyright = COPYRIGHT_DEFAULT; char * biblio = BIBLIO_DEFAULT; char * abstract = ABSTRACT_DEFAULT; char * volset_id = VOLSET_ID_DEFAULT; char * volume_id = VOLUME_ID_DEFAULT; char * system_id = SYSTEM_ID_DEFAULT; char * boot_catalog = BOOT_CATALOG_DEFAULT; char * boot_image = BOOT_IMAGE_DEFAULT; int omit_period = 0; /* Violates iso9660, but these are a pain */ int transparent_compression = 0; /* So far only works with linux */ int omit_version_number = 0; /* May violate iso9660, but noone uses vers*/ int RR_relocation_depth = 6; /* Violates iso9660, but most systems work */ int full_iso9660_filenames = 0; /* Used with Amiga. Disc will not work with DOS */ int allow_leading_dots = 0; /* DOS cannot read names with leading dots */ struct rcopts{ char * tag; char ** variable; }; struct rcopts rcopt[] = { {"PREP", &preparer}, {"PUBL", &publisher}, {"APPI", &appid}, {"COPY", ©right}, {"BIBL", &biblio}, {"ABST", &abstract}, {"VOLS", &volset_id}, {"VOLI", &volume_id}, {"SYSI", &system_id}, {NULL, NULL} }; #if defined(ultrix) || defined(_AUX_SOURCE) char *strdup(s) char *s;{char *c;if(c=(char *)malloc(strlen(s)+1))strcpy(c,s);return c;} #endif void FDECL1(read_rcfile, char *, appname) { FILE * rcfile; struct rcopts * rco; char * pnt, *pnt1; char linebuffer[256]; static char rcfn[] = ".mkisofsrc"; char filename[1000]; int linum; strcpy(filename, rcfn); rcfile = fopen(filename, "r"); if (!rcfile && errno != ENOENT) perror(filename); if (!rcfile) { pnt = getenv("MKISOFSRC"); if (pnt && strlen(pnt) <= sizeof(filename)) { strcpy(filename, pnt); rcfile = fopen(filename, "r"); if (!rcfile && errno != ENOENT) perror(filename); } } if (!rcfile) { pnt = getenv("HOME"); if (pnt && strlen(pnt) + strlen(rcfn) + 2 <= sizeof(filename)) { strcpy(filename, pnt); strcat(filename, "/"); strcat(filename, rcfn); rcfile = fopen(filename, "r"); if (!rcfile && errno != ENOENT) perror(filename); } } if (!rcfile && strlen(appname)+sizeof(rcfn)+2 <= sizeof(filename)) { strcpy(filename, appname); pnt = strrchr(filename, '/'); if (pnt) { strcpy(pnt + 1, rcfn); rcfile = fopen(filename, "r"); if (!rcfile && errno != ENOENT) perror(filename); } } if (!rcfile) return; fprintf(stderr, "Using \"%s\"\n", filename); /* OK, we got it. Now read in the lines and parse them */ linum = 0; while (fgets(linebuffer, sizeof(linebuffer), rcfile)) { char *name; char *name_end; ++linum; /* skip any leading white space */ pnt = linebuffer; while (*pnt == ' ' || *pnt == '\t') ++pnt; /* If we are looking at a # character, this line is a comment. */ if (*pnt == '#') continue; /* The name should begin in the left margin. Make sure it is in upper case. Stop when we see white space or a comment. */ name = pnt; while (*pnt && isalpha(*pnt)) { if(islower(*pnt)) *pnt = toupper(*pnt); pnt++; } if (name == pnt) { fprintf(stderr, "%s:%d: name required\n", filename, linum); continue; } name_end = pnt; /* Skip past white space after the name */ while (*pnt == ' ' || *pnt == '\t') pnt++; /* silently ignore errors in the rc file. */ if (*pnt != '=') { fprintf(stderr, "%s:%d: equals sign required\n", filename, linum); continue; } /* Skip pas the = sign, and any white space following it */ pnt++; /* Skip past '=' sign */ while (*pnt == ' ' || *pnt == '\t') pnt++; /* now it is safe to NUL terminate the name */ *name_end = 0; /* Now get rid of trailing newline */ pnt1 = pnt; while (*pnt1) { if (*pnt1 == '\n') { *pnt1 = 0; break; } pnt1++; }; /* OK, now figure out which option we have */ for(rco = rcopt; rco->tag; rco++) { if(strcmp(rco->tag, name) == 0) { *rco->variable = strdup(pnt); break; }; } if (rco->tag == NULL) { fprintf(stderr, "%s:%d: field name \"%s\" unknown\n", filename, linum, name); } } if (ferror(rcfile)) perror(filename); fclose(rcfile); } char * path_table_l = NULL; char * path_table_m = NULL; int goof = 0; void usage(){ fprintf(stderr,"Usage:\n"); fprintf(stderr, "mkisofs [-o outfile] [-R] [-V volid] [-v] [-a] \ [-T]\n [-l] [-d] [-V] [-D] [-L] [-p preparer]" #ifdef ADD_FILES "[-i file] \n" #endif "[-P publisher] [ -A app_id ] [-z] \n \ [-b boot_image_name] [-c boot_catalog-name] \ [-x path -x path ...] path\n"); exit(1); } /* * Fill in date in the iso9660 format * * The standards state that the timezone offset is in multiples of 15 * minutes, and is what you add to GMT to get the localtime. The U.S. * is always at a negative offset, from -5h to -8h (can vary a little * with DST, I guess). The Linux iso9660 filesystem has had the sign * of this wrong for ages (mkisofs had it wrong too for the longest time). */ int FDECL2(iso9660_date,char *, result, time_t, ctime){ struct tm *local; local = localtime(&ctime); result[0] = local->tm_year; result[1] = local->tm_mon + 1; result[2] = local->tm_mday; result[3] = local->tm_hour; result[4] = local->tm_min; result[5] = local->tm_sec; /* * Must recalculate proper timezone offset each time, * as some files use daylight savings time and some don't... */ result[6] = local->tm_yday; /* save yday 'cause gmtime zaps it */ local = gmtime(&ctime); local->tm_year -= result[0]; local->tm_yday -= result[6]; local->tm_hour -= result[3]; local->tm_min -= result[4]; if (local->tm_year < 0) { local->tm_yday = -1; } else { if (local->tm_year > 0) local->tm_yday = 1; } result[6] = -(local->tm_min + 60*(local->tm_hour + 24*local->tm_yday)) / 15; return 0; } extern char * cdwrite_data; int FDECL2(main, int, argc, char **, argv){ char * outfile; struct directory_entry de; unsigned long mem_start; struct stat statbuf; char * scan_tree; char * merge_image = NULL; struct iso_directory_record * mrootp = NULL; int c; #ifdef ADD_FILES char *add_file_file = NULL; #endif if (argc < 2) usage(); /* Get the defaults from the .mkisofsrc file */ read_rcfile(argv[0]); outfile = NULL; while ((c = getopt(argc, argv, "i:o:V:RrfvaTp:P:b:c:x:dDlLNzA:M:m:C:")) != EOF) switch (c) { case 'C': /* * This is a temporary hack until cdwrite gets the proper hooks in * it. */ cdwrite_data = optarg; break; case 'a': all_files++; break; case 'b': use_eltorito++; boot_image = optarg; /* pathname of the boot image on cd */ if (boot_image == NULL) { fprintf(stderr,"Required boot image pathname missing\n"); exit(1); } break; case 'c': use_eltorito++; boot_catalog = optarg; /* pathname of the boot image on cd */ if (boot_catalog == NULL) { fprintf(stderr,"Required boot catalog pathname missing\n"); exit(1); } break; case 'A': appid = optarg; if(strlen(appid) > 128) { fprintf(stderr,"Application-id string too long\n"); exit(1); }; break; case 'd': omit_period++; break; case 'D': RR_relocation_depth = 32767; break; case 'f': follow_links++; break; case 'i': #ifdef ADD_FILES add_file_file = optarg; break; #else usage(); exit(1); #endif case 'l': full_iso9660_filenames++; break; case 'L': allow_leading_dots++; break; case 'M': merge_image = optarg; break; case 'N': omit_version_number++; break; case 'o': outfile = optarg; break; case 'p': preparer = optarg; if(strlen(preparer) > 128) { fprintf(stderr,"Preparer string too long\n"); exit(1); }; break; case 'P': publisher = optarg; if(strlen(publisher) > 128) { fprintf(stderr,"Publisher string too long\n"); exit(1); }; break; case 'R': use_RockRidge++; break; case 'r': rationalize++; use_RockRidge++; break; case 'T': generate_tables++; break; case 'V': volume_id = optarg; break; case 'v': verbose++; break; case 'z': #ifdef VMS fprintf(stderr,"Transparent compression not supported with VMS\n"); exit(1); #else transparent_compression++; #endif break; case 'm': add_match(optarg); break; case 'x': exclude(optarg); break; default: usage(); exit(1); } #ifdef __NetBSD__ { int resource; struct rlimit rlp; if (getrlimit(RLIMIT_DATA,&rlp) == -1) perror("Warning: getrlimit"); else { rlp.rlim_cur=33554432; if (setrlimit(RLIMIT_DATA,&rlp) == -1) perror("Warning: setrlimit"); } } #endif #ifdef HAVE_SBRK mem_start = (unsigned long) sbrk(0); #endif if(verbose) fprintf(stderr,"%s\n", version_string); if( (cdwrite_data != NULL && merge_image == NULL) || (cdwrite_data == NULL && merge_image != NULL) ) { fprintf(stderr,"Multisession usage bug - both -C and -M must be specified.\n"); exit(0); } /* The first step is to scan the directory tree, and take some notes */ scan_tree = argv[optind]; #ifdef ADD_FILES if (add_file_file) { add_file(add_file_file); } add_file_list (argc, argv, optind+1); #endif if(!scan_tree){ usage(); exit(1); }; #ifndef VMS if(scan_tree[strlen(scan_tree)-1] != '/') { scan_tree = (char *) e_malloc(strlen(argv[optind])+2); strcpy(scan_tree, argv[optind]); strcat(scan_tree, "/"); }; #endif if(use_RockRidge){ #if 1 extension_record = generate_rr_extension_record("RRIP_1991A", "THE ROCK RIDGE INTERCHANGE PROTOCOL PROVIDES SUPPORT FOR POSIX FILE SYSTEM SEMANTICS", "PLEASE CONTACT DISC PUBLISHER FOR SPECIFICATION SOURCE. SEE PUBLISHER IDENTIFIER IN PRIMARY VOLUME DESCRIPTOR FOR CONTACT INFORMATION.", &extension_record_size); #else extension_record = generate_rr_extension_record("IEEE_P1282", "THE IEEE P1282 PROTOCOL PROVIDES SUPPORT FOR POSIX FILE SYSTEM SEMANTICS", "PLEASE CONTACT THE IEEE STANDARDS DEPARTMENT, PISCATAWAY, NJ, USA FOR THE P1282 SPECIFICATION.", &extension_record_size); #endif } /* * See if boot catalog file exists in root directory, if not * we will create it. */ if (use_eltorito) init_boot_catalog(argv[optind]); /* * Find the device and inode number of the root directory. * Record this in the hash table so we don't scan it more than * once. */ stat_filter(argv[optind], &statbuf); add_directory_hash(statbuf.st_dev, STAT_INODE(statbuf)); memset(&de, 0, sizeof(de)); de.filedir = root; /* We need this to bootstrap */ if( merge_image != NULL ) { mrootp = merge_isofs(merge_image); if( mrootp == NULL ) { /* * Complain and die. */ fprintf(stderr,"Unable to open previous session image %s\n", merge_image); exit(1); } memcpy(&de.isorec.extent, mrootp->extent, 8); } /* * Scan the actual directory (and any we find below it) * for files to write out to the output image. */ if (!scan_directory_tree(argv[optind], &de, mrootp)) { exit(1); } /* * Fix a couple of things in the root directory so that everything * is self consistent. */ root->self = root->contents; /* Fix this up so that the path tables get done right */ if(reloc_dir) sort_n_finish(reloc_dir); if (goof) exit(1); /* * OK, ready to write the file. Open it up, and generate the thing. */ if (outfile){ discimage = fopen(outfile, "w"); if (!discimage){ fprintf(stderr,"Unable to open disc image file\n"); exit(1); }; } else discimage = stdout; /* Now assign addresses on the disc for the path table. */ path_blocks = (path_table_size + (SECTOR_SIZE - 1)) >> 11; if (path_blocks & 1) path_blocks++; path_table[0] = session_start + 0x14; path_table[1] = 0; path_table[2] = path_table[0] + path_blocks; path_table[3] = 0; last_extent += path_table[2] - session_start + path_blocks; /* The next free block */ /* The next step is to go through the directory tree and assign extent numbers for all of the directories */ assign_directory_addresses(root); if(extension_record) { struct directory_entry * s_entry; extension_record_extent = last_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); }; if (use_RockRidge && reloc_dir) finish_cl_pl_entries(); /* Now we generate the path tables that are used by DOS to improve directory access times. */ generate_path_tables(); /* Generate root record for volume descriptor. */ generate_root_record(); if (verbose) dump_tree(root); if( in_image != NULL ) { fclose(in_image); } iso_write(discimage); #ifdef HAVE_SBRK fprintf(stderr,"Max brk space used %x\n", (unsigned int)(((unsigned long)sbrk(0)) - mem_start)); #endif fprintf(stderr,"%d extents written (%d Mb)\n", last_extent, last_extent >> 9); #ifdef VMS return 1; #else return 0; #endif } void * FDECL1(e_malloc, size_t, size) { void* pt = 0; if( (size > 0) && ((pt=malloc(size))==NULL) ) { fprintf(stderr, "Not enough memory\n"); exit (1); } return pt; }