/* Copyright (C) 1996, 1997, 1998 Free Software Foundation, Inc. This file is part of the GNU C Library. Contributed by Ulrich Drepper, . The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. The GNU C Library 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with the GNU C Library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include #include #include #include #include #include #include #ifdef _POSIX_MAPPED_FILES # include #endif #include #include "catgetsinfo.h" #define SWAPU32(w) bswap_32 (w) void __open_catalog (__nl_catd catalog) { int fd = -1; struct stat st; int swapping; size_t cnt; size_t max_offset; size_t tab_size; const char *lastp; /* Make sure we are alone. */ __libc_lock_lock (catalog->lock); /* Check whether there was no other thread faster. */ if (catalog->status != closed) /* While we waited some other thread tried to open the catalog. */ goto unlock_return; if (strchr (catalog->cat_name, '/') != NULL || catalog->nlspath == NULL) fd = __open (catalog->cat_name, O_RDONLY); else { const char *run_nlspath = catalog->nlspath; #define ENOUGH(n) \ if (bufact + (n) >=bufmax) \ { \ char *old_buf = buf; \ bufmax += 256 + (n); \ buf = (char *) alloca (bufmax); \ memcpy (buf, old_buf, bufact); \ } /* The RUN_NLSPATH variable contains a colon separated list of descriptions where we expect to find catalogs. We have to recognize certain % substitutions and stop when we found the first existing file. */ char *buf; size_t bufact; size_t bufmax; size_t len; buf = NULL; bufmax = 0; fd = -1; while (*run_nlspath != '\0') { bufact = 0; while (*run_nlspath != ':' && *run_nlspath != '\0') if (*run_nlspath == '%') { const char *tmp; ++run_nlspath; /* We have seen the `%'. */ switch (*run_nlspath++) { case 'N': /* Use the catalog name. */ len = strlen (catalog->cat_name); ENOUGH (len); memcpy (&buf[bufact], catalog->cat_name, len); bufact += len; break; case 'L': /* Use the current locale category value. */ len = strlen (catalog->env_var); ENOUGH (len); memcpy (&buf[bufact], catalog->env_var, len); bufact += len; break; case 'l': /* Use language element of locale category value. */ tmp = catalog->env_var; do { ENOUGH (1); buf[bufact++] = *tmp++; } while (*tmp != '\0' && *tmp != '_' && *tmp != '.'); break; case 't': /* Use territory element of locale category value. */ tmp = catalog->env_var; do ++tmp; while (*tmp != '\0' && *tmp != '_' && *tmp != '.'); if (*tmp == '_') { ++tmp; do { ENOUGH (1); buf[bufact++] = *tmp; } while (*tmp != '\0' && *tmp != '.'); } break; case 'c': /* Use code set element of locale category value. */ tmp = catalog->env_var; do ++tmp; while (*tmp != '\0' && *tmp != '.'); if (*tmp == '.') { ++tmp; do { ENOUGH (1); buf[bufact++] = *tmp; } while (*tmp != '\0'); } break; case '%': ENOUGH (1); buf[bufact++] = '%'; break; default: /* Unknown variable: ignore this path element. */ bufact = 0; while (*run_nlspath != '\0' && *run_nlspath != ':') ++run_nlspath; break; } } else { ENOUGH (1); buf[bufact++] = *run_nlspath++; } ENOUGH (1); buf[bufact] = '\0'; if (bufact != 0) { fd = __open (buf, O_RDONLY); if (fd >= 0) break; } ++run_nlspath; } } /* Avoid dealing with directories and block devices */ if (fd < 0 || __fstat (fd, &st) < 0) { catalog->status = nonexisting; goto unlock_return; } if (!S_ISREG (st.st_mode) || st.st_size < sizeof (struct catalog_obj)) { /* `errno' is not set correctly but the file is not usable. Use an reasonable error value. */ __set_errno (EINVAL); catalog->status = nonexisting; goto unlock_return; } catalog->file_size = st.st_size; #ifdef _POSIX_MAPPED_FILES # ifndef MAP_COPY /* Linux seems to lack read-only copy-on-write. */ # define MAP_COPY MAP_PRIVATE # endif # ifndef MAP_FILE /* Some systems do not have this flag; it is superfluous. */ # define MAP_FILE 0 # endif # ifndef MAP_INHERIT /* Some systems might lack this; they lose. */ # define MAP_INHERIT 0 # endif catalog->file_ptr = (struct catalog_obj *) __mmap (NULL, st.st_size, PROT_READ, MAP_FILE|MAP_COPY|MAP_INHERIT, fd, 0); if (catalog->file_ptr != (struct catalog_obj *) MAP_FAILED) /* Tell the world we managed to mmap the file. */ catalog->status = mmapped; else #endif /* _POSIX_MAPPED_FILES */ { /* mmap failed perhaps because the system call is not implemented. Try to load the file. */ size_t todo; catalog->file_ptr = malloc (st.st_size); if (catalog->file_ptr == NULL) { catalog->status = nonexisting; goto unlock_return; } todo = st.st_size; /* Save read, handle partial reads. */ do { size_t now = __read (fd, (((char *) &catalog->file_ptr) + (st.st_size - todo)), todo); if (now == 0) { free ((void *) catalog->file_ptr); catalog->status = nonexisting; goto unlock_return; } todo -= now; } while (todo > 0); catalog->status = malloced; } /* We don't need the file anymore. */ __close (fd); fd = -1; /* Determine whether the file is a catalog file and if yes whether it is written using the correct byte order. Else we have to swap the values. */ if (catalog->file_ptr->magic == CATGETS_MAGIC) swapping = 0; else if (catalog->file_ptr->magic == SWAPU32 (CATGETS_MAGIC)) swapping = 1; else { invalid_file: /* Invalid file. Free the resources and mark catalog as not usable. */ #ifdef _POSIX_MAPPED_FILES if (catalog->status == mmapped) __munmap ((void *) catalog->file_ptr, catalog->file_size); else #endif /* _POSIX_MAPPED_FILES */ free (catalog->file_ptr); catalog->status = nonexisting; goto unlock_return; } #define SWAP(x) (swapping ? SWAPU32 (x) : (x)) /* Get dimensions of the used hashing table. */ catalog->plane_size = SWAP (catalog->file_ptr->plane_size); catalog->plane_depth = SWAP (catalog->file_ptr->plane_depth); /* The file contains two versions of the pointer tables. Pick the right one for the local byte order. */ #if __BYTE_ORDER == __LITTLE_ENDIAN catalog->name_ptr = &catalog->file_ptr->name_ptr[0]; #elif __BYTE_ORDER == __BIG_ENDIAN catalog->name_ptr = &catalog->file_ptr->name_ptr[catalog->plane_size * catalog->plane_depth * 3]; #else # error Cannot handle __BYTE_ORDER byte order #endif /* The rest of the file contains all the strings. They are addressed relative to the position of the first string. */ catalog->strings = (const char *) &catalog->file_ptr->name_ptr[catalog->plane_size * catalog->plane_depth * 3 * 2]; /* Determine the largest string offset mentioned in the table. */ max_offset = 0; tab_size = 3 * catalog->plane_size * catalog->plane_depth; for (cnt = 2; cnt < tab_size; cnt += 3) if (catalog->name_ptr[cnt] > max_offset) max_offset = catalog->name_ptr[cnt]; /* Now we can check whether the file is large enough to contain the tables it says it contains. */ if (st.st_size <= (sizeof (struct catalog_obj) + 2 * tab_size + max_offset)) /* The last string is not contained in the file. */ goto invalid_file; lastp = catalog->strings + max_offset; max_offset = (st.st_size - sizeof (struct catalog_obj) + 2 * tab_size + max_offset); while (*lastp != '\0') { if (--max_offset == 0) goto invalid_file; ++lastp; } /* Release the lock again. */ unlock_return: if (fd != -1) __close (fd); __libc_lock_unlock (catalog->lock); }