/* * File rock.c - generate RRIP records for iso9660 filesystems. Written by Eric Youngdale (1993). Copyright 1993 Yggdrasil Computing, Incorporated Copyright (C) 2009,2010 Free Software Foundation, Inc. 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 3, 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, see . */ #include #include "config.h" #ifndef VMS #if defined(MAJOR_IN_SYSMACROS) #include #endif #ifdef HAVE_UNISTD_H #include #endif #endif #if defined(MAJOR_IN_MKDEV) #include #include #endif #include "mkisofs.h" #include "iso9660.h" #include #include #ifdef DOESNT_WORK #ifdef NON_UNIXFS #define S_ISLNK(m) (0) #else #ifndef S_ISLNK #define S_ISLNK(m) (((m) & S_IFMT) == S_IFLNK) #endif #endif #else #include #endif #define SU_VERSION 1 #define SL_ROOT 8 #define SL_PARENT 4 #define SL_CURRENT 2 #define SL_CONTINUE 1 #define CE_SIZE 28 #define CL_SIZE 12 #define ER_SIZE 8 #define NM_SIZE 5 #define PL_SIZE 12 #define PN_SIZE 20 #define PX_SIZE 36 #define RE_SIZE 4 #define SL_SIZE 20 #define ZZ_SIZE 15 #ifdef __QNX__ #define TF_SIZE (5 + 4 * 7) #else #define TF_SIZE (5 + 3 * 7) #endif /* If we need to store this number of bytes, make sure we do not box ourselves in so that we do not have room for a CE entry for the continuation record */ #define MAYBE_ADD_CE_ENTRY(BYTES) \ ((unsigned) ((BYTES) + CE_SIZE + currlen + ipnt) > (unsigned) (recstart + reclimit) ? 1 : 0) /* * Buffer to build RR attributes */ static unsigned char Rock[16384]; static unsigned char symlink_buff[256]; static int ipnt = 0; static int recstart = 0; static int currlen = 0; static int mainrec = 0; static int reclimit; static void add_CE_entry __PR((void)); static void add_CE_entry(){ if(recstart) set_733((char*)Rock + recstart - 8, ipnt + 28 - recstart); Rock[ipnt++] ='C'; Rock[ipnt++] ='E'; Rock[ipnt++] = CE_SIZE; Rock[ipnt++] = SU_VERSION; set_733((char*)Rock + ipnt, 0); ipnt += 8; set_733((char*)Rock + ipnt, 0); ipnt += 8; set_733((char*)Rock + ipnt, 0); ipnt += 8; recstart = ipnt; currlen = 0; if(!mainrec) mainrec = ipnt; reclimit = SECTOR_SIZE - 8; /* Limit to one sector */ } #ifdef __STDC__ int generate_rock_ridge_attributes (char * whole_name, char * name, struct directory_entry * s_entry, struct stat * statbuf, struct stat * lstatbuf, int deep_opt) #else int generate_rock_ridge_attributes (whole_name, name, s_entry, statbuf, lstatbuf, deep_opt) char * whole_name; char * name; struct directory_entry * s_entry; struct stat * statbuf, *lstatbuf; int deep_opt; #endif { int flagpos, flagval; int need_ce; statbuf = statbuf; /* this shuts up unreferenced compiler warnings */ mainrec = recstart = ipnt = 0; reclimit = 0xf8; /* no need to fill in the RR stuff if we won't see the file */ if (s_entry->de_flags & INHIBIT_ISO9660_ENTRY) return 0; /* Obtain the amount of space that is currently used for the directory record. Assume max for name, since name conflicts may cause us to rename the file later on */ currlen = sizeof(s_entry->isorec); /* Identify that we are using the SUSP protocol */ if(deep_opt & NEED_SP){ Rock[ipnt++] ='S'; Rock[ipnt++] ='P'; Rock[ipnt++] = 7; Rock[ipnt++] = SU_VERSION; Rock[ipnt++] = 0xbe; Rock[ipnt++] = 0xef; Rock[ipnt++] = 0; }; /* First build the posix name field */ Rock[ipnt++] ='R'; Rock[ipnt++] ='R'; Rock[ipnt++] = 5; Rock[ipnt++] = SU_VERSION; flagpos = ipnt; flagval = 0; Rock[ipnt++] = 0; /* We go back and fix this later */ if(strcmp(name,".") && strcmp(name,"..")){ char * npnt; int remain, use; remain = strlen(name); npnt = name; while(remain){ use = remain; need_ce = 0; /* Can we fit this SUSP and a CE entry? */ if(use + currlen + CE_SIZE + (ipnt - recstart) > reclimit) { use = reclimit - currlen - CE_SIZE - (ipnt - recstart); need_ce++; } /* Only room for 256 per SUSP field */ if(use > 0xf8) use = 0xf8; /* First build the posix name field */ Rock[ipnt++] ='N'; Rock[ipnt++] ='M'; Rock[ipnt++] = NM_SIZE + use; Rock[ipnt++] = SU_VERSION; Rock[ipnt++] = (remain != use ? 1 : 0); flagval |= (1<<3); strncpy((char *)&Rock[ipnt], npnt, use); npnt += use; ipnt += use; remain -= use; if(remain && need_ce) add_CE_entry(); }; }; /* * Add the posix modes */ if(MAYBE_ADD_CE_ENTRY(PX_SIZE)) add_CE_entry(); Rock[ipnt++] ='P'; Rock[ipnt++] ='X'; Rock[ipnt++] = PX_SIZE; Rock[ipnt++] = SU_VERSION; flagval |= (1<<0); set_733((char*)Rock + ipnt, lstatbuf->st_mode); ipnt += 8; set_733((char*)Rock + ipnt, lstatbuf->st_nlink); ipnt += 8; set_733((char*)Rock + ipnt, lstatbuf->st_uid); ipnt += 8; set_733((char*)Rock + ipnt, lstatbuf->st_gid); ipnt += 8; /* * Check for special devices */ #ifndef NON_UNIXFS if (S_ISCHR(lstatbuf->st_mode) || S_ISBLK(lstatbuf->st_mode)) { if(MAYBE_ADD_CE_ENTRY(PN_SIZE)) add_CE_entry(); Rock[ipnt++] ='P'; Rock[ipnt++] ='N'; Rock[ipnt++] = PN_SIZE; Rock[ipnt++] = SU_VERSION; flagval |= (1<<1); #if defined(MAJOR_IN_SYSMACROS) || defined(MAJOR_IN_MKDEV) set_733((char*)Rock + ipnt, major(lstatbuf->st_rdev )); ipnt += 8; set_733((char*)Rock + ipnt, minor(lstatbuf->st_rdev)); ipnt += 8; #else /* * If we don't have sysmacros.h, then we have to guess as to how * best to pick apart the device number for major/minor. * Note: this may very well be wrong for many systems, so * it is always best to use the major/minor macros if the * system supports it. */ if(sizeof(dev_t) <= 2) { set_733((char*)Rock + ipnt, (lstatbuf->st_rdev >> 8)); ipnt += 8; set_733((char*)Rock + ipnt, lstatbuf->st_rdev & 0xff); ipnt += 8; } else if(sizeof(dev_t) <= 4) { set_733((char*)Rock + ipnt, (lstatbuf->st_rdev >> 8) >> 8); ipnt += 8; set_733((char*)Rock + ipnt, lstatbuf->st_rdev & 0xffff); ipnt += 8; } else { set_733((char*)Rock + ipnt, (lstatbuf->st_rdev >> 16) >> 16); ipnt += 8; set_733((char*)Rock + ipnt, lstatbuf->st_rdev); ipnt += 8; } #endif }; #endif /* * Check for and symbolic links. VMS does not have these. */ if (S_ISLNK(lstatbuf->st_mode)){ int lenpos, lenval, j0, j1; int nchar; unsigned char * cpnt, *cpnt1; nchar = readlink(whole_name, (char *)symlink_buff, sizeof(symlink_buff)); symlink_buff[nchar < 0 ? 0 : nchar] = 0; nchar = strlen((char *) symlink_buff); set_733(s_entry->isorec.size, 0); cpnt = &symlink_buff[0]; flagval |= (1<<2); if (! split_SL_field) { int sl_bytes = 0; for (cpnt1 = cpnt; *cpnt1 != '\0'; cpnt1++) { if (*cpnt1 == '/') { sl_bytes += 4; } else { sl_bytes += 1; } } if (sl_bytes > 250) { /* * the symbolic link won't fit into one SL System Use Field * print an error message and continue with splited one */ fprintf (stderr, _("symbolic link ``%s'' too long for one SL System Use Field, splitting"), cpnt); } if(MAYBE_ADD_CE_ENTRY(SL_SIZE + sl_bytes)) add_CE_entry(); } while(nchar){ if(MAYBE_ADD_CE_ENTRY(SL_SIZE)) add_CE_entry(); Rock[ipnt++] ='S'; Rock[ipnt++] ='L'; lenpos = ipnt; Rock[ipnt++] = SL_SIZE; Rock[ipnt++] = SU_VERSION; Rock[ipnt++] = 0; /* Flags */ lenval = 5; while(*cpnt){ cpnt1 = (unsigned char *) strchr((char *) cpnt, '/'); if(cpnt1) { nchar--; *cpnt1 = 0; }; /* We treat certain components in a special way. */ if(cpnt[0] == '.' && cpnt[1] == '.' && cpnt[2] == 0){ if(MAYBE_ADD_CE_ENTRY(2)) add_CE_entry(); Rock[ipnt++] = SL_PARENT; Rock[ipnt++] = 0; /* length is zero */ lenval += 2; nchar -= 2; } else if(cpnt[0] == '.' && cpnt[1] == 0){ if(MAYBE_ADD_CE_ENTRY(2)) add_CE_entry(); Rock[ipnt++] = SL_CURRENT; Rock[ipnt++] = 0; /* length is zero */ lenval += 2; nchar -= 1; } else if(cpnt[0] == 0){ if(MAYBE_ADD_CE_ENTRY(2)) add_CE_entry(); Rock[ipnt++] = SL_ROOT; Rock[ipnt++] = 0; /* length is zero */ lenval += 2; } else { /* If we do not have enough room for a component, start a new continuations segment now */ if(split_SL_component ? MAYBE_ADD_CE_ENTRY(6) : MAYBE_ADD_CE_ENTRY(6 + strlen ((char *) cpnt))) { add_CE_entry(); if(cpnt1) { *cpnt1 = '/'; nchar++; cpnt1 = NULL; /* A kluge so that we can restart properly */ } break; } j0 = strlen((char *) cpnt); while(j0) { j1 = j0; if(j1 > 0xf8) j1 = 0xf8; need_ce = 0; if(j1 + currlen + CE_SIZE + (ipnt - recstart) > reclimit) { j1 = reclimit - currlen - CE_SIZE - (ipnt - recstart); need_ce++; } Rock[ipnt++] = (j1 != j0 ? SL_CONTINUE : 0); Rock[ipnt++] = j1; strncpy((char *) Rock + ipnt, (char *) cpnt, j1); ipnt += j1; lenval += j1 + 2; cpnt += j1; nchar -= j1; /* Number we processed this time */ j0 -= j1; if(need_ce) { add_CE_entry(); if(cpnt1) { *cpnt1 = '/'; nchar++; cpnt1 = NULL; /* A kluge so that we can restart properly */ } break; } } }; if(cpnt1) { cpnt = cpnt1 + 1; } else break; } Rock[lenpos] = lenval; if(nchar) Rock[lenpos + 2] = SL_CONTINUE; /* We need another SL entry */ } /* while nchar */ } /* Is a symbolic link */ /* * Add in the Rock Ridge TF time field */ if(MAYBE_ADD_CE_ENTRY(TF_SIZE)) add_CE_entry(); Rock[ipnt++] ='T'; Rock[ipnt++] ='F'; Rock[ipnt++] = TF_SIZE; Rock[ipnt++] = SU_VERSION; #ifdef __QNX__ Rock[ipnt++] = 0x0f; #else Rock[ipnt++] = 0x0e; #endif flagval |= (1<<7); #ifdef __QNX__ iso9660_date((char *) &Rock[ipnt], lstatbuf->st_ftime); ipnt += 7; #endif iso9660_date((char *) &Rock[ipnt], lstatbuf->st_mtime); ipnt += 7; iso9660_date((char *) &Rock[ipnt], lstatbuf->st_atime); ipnt += 7; iso9660_date((char *) &Rock[ipnt], lstatbuf->st_ctime); ipnt += 7; /* * Add in the Rock Ridge RE time field */ if(deep_opt & NEED_RE){ if(MAYBE_ADD_CE_ENTRY(RE_SIZE)) add_CE_entry(); Rock[ipnt++] ='R'; Rock[ipnt++] ='E'; Rock[ipnt++] = RE_SIZE; Rock[ipnt++] = SU_VERSION; flagval |= (1<<6); }; /* * Add in the Rock Ridge PL record, if required. */ if(deep_opt & NEED_PL){ if(MAYBE_ADD_CE_ENTRY(PL_SIZE)) add_CE_entry(); Rock[ipnt++] ='P'; Rock[ipnt++] ='L'; Rock[ipnt++] = PL_SIZE; Rock[ipnt++] = SU_VERSION; set_733((char*)Rock + ipnt, 0); ipnt += 8; flagval |= (1<<5); }; /* * Add in the Rock Ridge CL field, if required. */ if(deep_opt & NEED_CL){ if(MAYBE_ADD_CE_ENTRY(CL_SIZE)) add_CE_entry(); Rock[ipnt++] ='C'; Rock[ipnt++] ='L'; Rock[ipnt++] = CL_SIZE; Rock[ipnt++] = SU_VERSION; set_733((char*)Rock + ipnt, 0); ipnt += 8; flagval |= (1<<4); }; #ifndef VMS /* If transparent compression was requested, fill in the correct field for this file */ if(transparent_compression && S_ISREG(lstatbuf->st_mode) && strlen(name) > 3 && strcmp(name + strlen(name) - 3,".gZ") == 0){ FILE * zipfile; char * checkname; unsigned int file_size; unsigned char header[8]; int OK_flag; /* First open file and verify that the correct algorithm was used */ file_size = 0; OK_flag = 1; zipfile = fopen(whole_name, "rb"); if (fread (header, 1, sizeof (header), zipfile) != sizeof(header)) error (1, errno, "fread"); /* Check some magic numbers from gzip. */ if(header[0] != 0x1f || header[1] != 0x8b || header[2] != 8) OK_flag = 0; /* Make sure file was blocksized. */ if(((header[3] & 0x40) == 0)) OK_flag = 0; /* OK, now go to the end of the file and get some more info */ if(OK_flag){ int status; status = (long)lseek(fileno(zipfile), (off_t)(-8), SEEK_END); if(status == -1) OK_flag = 0; } if(OK_flag){ if(read(fileno(zipfile), (char*)header, sizeof(header)) != sizeof(header)) OK_flag = 0; else { int blocksize; blocksize = (header[3] << 8) | header[2]; file_size = ((unsigned int)header[7] << 24) | ((unsigned int)header[6] << 16) | ((unsigned int)header[5] << 8) | header[4]; #if 0 fprintf(stderr,"Blocksize = %d %d\n", blocksize, file_size); #endif if(blocksize != SECTOR_SIZE) OK_flag = 0; } } fclose(zipfile); checkname = strdup(whole_name); checkname[strlen(whole_name)-3] = 0; zipfile = fopen(checkname, "rb"); if(zipfile) { OK_flag = 0; fprintf (stderr, _("Unable to insert transparent compressed file - name conflict\n")); fclose(zipfile); } free(checkname); if(OK_flag){ if(MAYBE_ADD_CE_ENTRY(ZZ_SIZE)) add_CE_entry(); Rock[ipnt++] ='Z'; Rock[ipnt++] ='Z'; Rock[ipnt++] = ZZ_SIZE; Rock[ipnt++] = SU_VERSION; Rock[ipnt++] = 'g'; /* Identify compression technique used */ Rock[ipnt++] = 'z'; Rock[ipnt++] = 3; set_733((char*)Rock + ipnt, file_size); /* Real file size */ ipnt += 8; }; } #endif /* * Add in the Rock Ridge CE field, if required. We use this for the * extension record that is stored in the root directory. */ if(deep_opt & NEED_CE) add_CE_entry(); /* * Done filling in all of the fields. Now copy it back to a buffer for the * file in question. */ /* Now copy this back to the buffer for the file */ Rock[flagpos] = flagval; /* If there was a CE, fill in the size field */ if(recstart) set_733((char*)Rock + recstart - 8, ipnt - recstart); s_entry->rr_attributes = (unsigned char *) e_malloc(ipnt); s_entry->total_rr_attr_size = ipnt; s_entry->rr_attr_size = (mainrec ? mainrec : ipnt); memcpy(s_entry->rr_attributes, Rock, ipnt); return ipnt; } /* Guaranteed to return a single sector with the relevant info */ char * FDECL4(generate_rr_extension_record, char *, id, char *, descriptor, char *, source, int *, size){ int lipnt = 0; char * pnt; int len_id, len_des, len_src; len_id = strlen(id); len_des = strlen(descriptor); len_src = strlen(source); Rock[lipnt++] ='E'; Rock[lipnt++] ='R'; Rock[lipnt++] = ER_SIZE + len_id + len_des + len_src; Rock[lipnt++] = 1; Rock[lipnt++] = len_id; Rock[lipnt++] = len_des; Rock[lipnt++] = len_src; Rock[lipnt++] = 1; memcpy(Rock + lipnt, id, len_id); lipnt += len_id; memcpy(Rock + lipnt, descriptor, len_des); lipnt += len_des; memcpy(Rock + lipnt, source, len_src); lipnt += len_src; if(lipnt > SECTOR_SIZE) error (1, 0, _("Extension record too long\n")); pnt = (char *) e_malloc(SECTOR_SIZE); memset(pnt, 0, SECTOR_SIZE); memcpy(pnt, Rock, lipnt); *size = lipnt; return pnt; }