/* @(#)hash.c 1.15 02/02/10 joerg */ #ifndef lint static char sccsid[] = "@(#)hash.c 1.15 02/02/10 joerg"; #endif /* * File hash.c - generate hash tables for iso9660 filesystem. Written by Eric Youngdale (1993). Copyright 1993 Yggdrasil Computing, Incorporated Copyright (c) 1999,2000 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 */ /* * From jb@danware.dk: * * Cygwin fakes inodes by hashing file info, actual collisions observed! * This is documented in the cygwin source, look at winsup/cygwin/path.cc * and search for the word 'Hash'. On NT, cygwin ORs together the * high and low 32 bits of the 64 bit genuine inode, look at fhandler.cc. * * Note: Other operating systems which support the FAT filesystem may * have the same problem because FAT does not use the inode * concept. For NTFS, genuine inode numbers exist, but they are * 64 bits and available only through an open file handle. * * The solution is the new options -no-cache-inodes/-cache-inodes that * allow to disable the mkisofs inode cache. */ /* OpenVMS 7.3-2 - J. Malmberg 16-Sep-2003 */ #ifdef __DECC #pragma message disable valuepres /* Compatability warning */ #pragma message disable noparmlist /* Empty params instead of void */ #endif #ifndef __VMS #include #else #include "config.h" #include "stdlib.h" #endif #include "mkisofs.h" #ifndef __VMS #include #endif #define NR_HASH 1024 #define HASH_FN(DEV, INO) ((DEV + INO + (INO >> 2) + (INO << 8)) % NR_HASH) static struct file_hash *hash_table[NR_HASH] = {0,}; EXPORT void add_hash __PR((struct directory_entry *spnt)); EXPORT struct file_hash *find_hash __PR((dev_t dev, ino_t inode)); EXPORT void flush_hash __PR((void)); EXPORT void add_directory_hash __PR((dev_t dev, ino_t inode)); EXPORT struct file_hash *find_directory_hash __PR((dev_t dev, ino_t inode)); LOCAL unsigned int name_hash __PR((const char *name)); EXPORT void add_file_hash __PR((struct directory_entry *de)); EXPORT struct directory_entry *find_file_hash __PR((char *name)); EXPORT int delete_file_hash __PR((struct directory_entry *de)); EXPORT void flush_file_hash __PR((void)); EXPORT void add_hash(spnt) struct directory_entry *spnt; { struct file_hash *s_hash; unsigned int hash_number; if (spnt->size == 0 || spnt->starting_block == 0) if (spnt->size != 0 || spnt->starting_block != 0) { #ifdef USE_LIBSCHILY comerrno(EX_BAD, "Non zero-length file '%s' assigned zero extent.\n", spnt->name); #else fprintf(stderr, "Non zero-length file '%s' assigned zero extent.\n", spnt->name); exit(1); #endif }; if (!cache_inodes) return; if (spnt->dev == (dev_t) UNCACHED_DEVICE || spnt->inode == UNCACHED_INODE) { return; } hash_number = HASH_FN((unsigned int) spnt->dev, (unsigned int) spnt->inode); #if 0 if (verbose > 1) fprintf(stderr, "%s ", spnt->name); #endif s_hash = (struct file_hash *) e_malloc(sizeof(struct file_hash)); s_hash->next = hash_table[hash_number]; s_hash->inode = spnt->inode; s_hash->dev = spnt->dev; s_hash->starting_block = spnt->starting_block; s_hash->size = spnt->size; #ifdef SORTING s_hash->de = spnt; #endif /* SORTING */ hash_table[hash_number] = s_hash; } #ifdef PROTOTYPES EXPORT struct file_hash * find_hash(dev_t dev, ino_t inode) #else EXPORT struct file_hash * find_hash(dev, inode) dev_t dev; ino_t inode; #endif { unsigned int hash_number; struct file_hash *spnt; if (!cache_inodes) return NULL; if (dev == (dev_t) UNCACHED_DEVICE || inode == UNCACHED_INODE) return NULL; hash_number = HASH_FN((unsigned int) dev, (unsigned int) inode); spnt = hash_table[hash_number]; while (spnt) { if (spnt->inode == inode && spnt->dev == dev) return spnt; spnt = spnt->next; }; return NULL; } /* * based on flush_file_hash() below - needed as we want to re-use the * file hash table. */ EXPORT void flush_hash() { struct file_hash *fh, *fh1; int i; for (i = 0; i < NR_HASH; i++) { fh = hash_table[i]; while (fh) { fh1 = fh->next; free(fh); fh = fh1; } hash_table[i] = NULL; } } static struct file_hash *directory_hash_table[NR_HASH] = {0,}; #ifdef PROTOTYPES EXPORT void add_directory_hash(dev_t dev, ino_t inode) #else EXPORT void add_directory_hash(dev, inode) dev_t dev; ino_t inode; #endif { struct file_hash *s_hash; unsigned int hash_number; if (!cache_inodes) return; if (dev == (dev_t) UNCACHED_DEVICE || inode == UNCACHED_INODE) return; hash_number = HASH_FN((unsigned int) dev, (unsigned int) inode); s_hash = (struct file_hash *) e_malloc(sizeof(struct file_hash)); s_hash->next = directory_hash_table[hash_number]; s_hash->inode = inode; s_hash->dev = dev; directory_hash_table[hash_number] = s_hash; } #ifdef PROTOTYPES EXPORT struct file_hash * find_directory_hash(dev_t dev, ino_t inode) #else EXPORT struct file_hash * find_directory_hash(dev, inode) dev_t dev; ino_t inode; #endif { unsigned int hash_number; struct file_hash *spnt; if (!cache_inodes) return NULL; if (dev == (dev_t) UNCACHED_DEVICE || inode == UNCACHED_INODE) return NULL; hash_number = HASH_FN((unsigned int) dev, (unsigned int) inode); spnt = directory_hash_table[hash_number]; while (spnt) { if (spnt->inode == inode && spnt->dev == dev) return spnt; spnt = spnt->next; }; return NULL; } struct name_hash { struct name_hash *next; struct directory_entry *de; }; #define NR_NAME_HASH 128 static struct name_hash *name_hash_table[NR_NAME_HASH] = {0,}; /* * Find the hash bucket for this name. */ LOCAL unsigned int name_hash(name) const char *name; { unsigned int hash = 0; const char *p; p = name; while (*p) { /* * Don't hash the iso9660 version number. * This way we can detect duplicates in cases where we have * directories (i.e. foo) and non-directories (i.e. foo;1). */ if (*p == ';') { break; } hash = (hash << 15) + (hash << 3) + (hash >> 3) + *p++; } return hash % NR_NAME_HASH; } EXPORT void add_file_hash(de) struct directory_entry *de; { struct name_hash *new; int hash; new = (struct name_hash *) e_malloc(sizeof(struct name_hash)); new->de = de; new->next = NULL; hash = name_hash(de->isorec.name); /* Now insert into the hash table */ new->next = name_hash_table[hash]; name_hash_table[hash] = new; } EXPORT struct directory_entry * find_file_hash(name) char *name; { struct name_hash *nh; char *p1; char *p2; for (nh = name_hash_table[name_hash(name)]; nh; nh = nh->next) { p1 = name; p2 = nh->de->isorec.name; /* Look for end of string, or a mismatch. */ while (1 == 1) { if ((*p1 == '\0' || *p1 == ';') || (*p2 == '\0' || *p2 == ';') || (*p1 != *p2)) { break; } p1++; p2++; } /* * If we are at the end of both strings, then we have a match. */ if ((*p1 == '\0' || *p1 == ';') && (*p2 == '\0' || *p2 == ';')) { return nh->de; } } return NULL; } EXPORT int delete_file_hash(de) struct directory_entry *de; { struct name_hash *nh, *prev; int hash; prev = NULL; hash = name_hash(de->isorec.name); for (nh = name_hash_table[hash]; nh; nh = nh->next) { if (nh->de == de) break; prev = nh; } if (!nh) return 1; if (!prev) name_hash_table[hash] = nh->next; else prev->next = nh->next; free(nh); return 0; } EXPORT void flush_file_hash() { struct name_hash *nh, *nh1; int i; for (i = 0; i < NR_NAME_HASH; i++) { nh = name_hash_table[i]; while (nh) { nh1 = nh->next; free(nh); nh = nh1; } name_hash_table[i] = NULL; } }