/* Functions from hack's utils library. Copyright (C) 1989, 1990, 1991, 1998, 1999, 2003, 2008, 2009 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, write to the Free Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" #include #include #include #ifndef errno extern int errno; #endif #ifdef HAVE_STRINGS_H # include #else # include #endif /* HAVE_STRINGS_H */ #ifdef HAVE_STDLIB_H # include #endif /* HAVE_STDLIB_H */ #include #include #include #include #include "utils.h" #include "pathmax.h" const char *myname; /* Store information about files opened with ck_fopen so that error messages from ck_fread, ck_fwrite, etc. can print the name of the file that had the error */ struct open_file { FILE *fp; char *name; struct open_file *link; unsigned temp : 1; }; static struct open_file *open_files = NULL; static void do_ck_fclose P_((FILE *fp)); /* Print an error message and exit */ void panic(const char *str, ...) { va_list ap; fprintf(stderr, "%s: ", myname); va_start(ap, str); #ifndef HAVE_VPRINTF # ifndef HAVE_DOPRNT fputs(str, stderr); /* not great, but perhaps better than nothing... */ # else /* HAVE_DOPRNT */ _doprnt(str, &ap, stderr); # endif /* HAVE_DOPRNT */ #else /* HAVE_VFPRINTF */ vfprintf(stderr, str, ap); #endif /* HAVE_VFPRINTF */ va_end(ap); putc('\n', stderr); /* Unlink the temporary files. */ while (open_files) { if (open_files->temp) { fclose (open_files->fp); errno = 0; unlink (open_files->name); if (errno != 0) fprintf (stderr, _("cannot remove %s: %s"), open_files->name, strerror (errno)); } open_files = open_files->link; } exit(4); } /* Internal routine to get a filename from open_files */ static const char *utils_fp_name P_((FILE *fp)); static const char * utils_fp_name(fp) FILE *fp; { struct open_file *p; for (p=open_files; p; p=p->link) if (p->fp == fp) return p->name; if (fp == stdin) return "stdin"; else if (fp == stdout) return "stdout"; else if (fp == stderr) return "stderr"; return ""; } static void register_open_file (fp, name, temp) FILE *fp; const char *name; int temp; { struct open_file *p; for (p=open_files; p; p=p->link) { if (fp == p->fp) { FREE(p->name); break; } } if (!p) { p = MALLOC(1, struct open_file); p->link = open_files; open_files = p; } p->name = ck_strdup(name); p->fp = fp; p->temp = false; } /* Panic on failing fopen */ FILE * ck_fopen(name, mode, fail) const char *name; const char *mode; int fail; { FILE *fp; fp = fopen (name, mode); if (!fp) { if (fail) panic(_("couldn't open file %s: %s"), name, strerror(errno)); return NULL; } register_open_file (fp, name, false); return fp; } /* Panic on failing fdopen */ FILE * ck_fdopen(fd, name, mode, fail) int fd; const char *name; const char *mode; int fail; { FILE *fp; fp = fdopen (fd, mode); if (!fp) { if (fail) panic(_("couldn't attach to %s: %s"), name, strerror(errno)); return NULL; } register_open_file (fp, name, false); return fp; } FILE * ck_mkstemp (p_filename, tmpdir, base) char **p_filename; char *base, *tmpdir; { char *template; FILE *fp; int fd; int save_umask; if (tmpdir == NULL) tmpdir = getenv("TMPDIR"); if (tmpdir == NULL) { tmpdir = getenv("TMP"); if (tmpdir == NULL) #ifdef P_tmpdir tmpdir = P_tmpdir; #else tmpdir = "/tmp"; #endif } template = xmalloc (strlen (tmpdir) + strlen (base) + 8); sprintf (template, "%s/%sXXXXXX", tmpdir, base); /* The ownership might change, so omit some permissions at first so unauthorized users cannot nip in before the file is ready. */ save_umask = umask (0700); fd = mkstemp (template); umask (save_umask); if (fd == -1) panic(_("couldn't open temporary file %s: %s"), template, strerror(errno)); *p_filename = template; fp = fdopen (fd, "w"); register_open_file (fp, template, true); return fp; } /* Panic on failing fwrite */ void ck_fwrite(ptr, size, nmemb, stream) const VOID *ptr; size_t size; size_t nmemb; FILE *stream; { clearerr(stream); if (size && fwrite(ptr, size, nmemb, stream) != nmemb) panic(ngettext("couldn't write %d item to %s: %s", "couldn't write %d items to %s: %s", nmemb), nmemb, utils_fp_name(stream), strerror(errno)); } /* Panic on failing fread */ size_t ck_fread(ptr, size, nmemb, stream) VOID *ptr; size_t size; size_t nmemb; FILE *stream; { clearerr(stream); if (size && (nmemb=fread(ptr, size, nmemb, stream)) <= 0 && ferror(stream)) panic(_("read error on %s: %s"), utils_fp_name(stream), strerror(errno)); return nmemb; } size_t ck_getline(text, buflen, stream) char **text; size_t *buflen; FILE *stream; { int result; if (!ferror (stream)) result = getline (text, buflen, stream); if (ferror (stream)) panic (_("read error on %s: %s"), utils_fp_name(stream), strerror(errno)); return result; } /* Panic on failing fflush */ void ck_fflush(stream) FILE *stream; { clearerr(stream); if (fflush(stream) == EOF && errno != EBADF) panic("couldn't flush %s: %s", utils_fp_name(stream), strerror(errno)); } /* Panic on failing fclose */ void ck_fclose(stream) FILE *stream; { struct open_file r; struct open_file *prev; struct open_file *cur; /* a NULL stream means to close all files */ r.link = open_files; prev = &r; while ( (cur = prev->link) ) { if (!stream || stream == cur->fp) { do_ck_fclose (cur->fp); prev->link = cur->link; FREE(cur->name); FREE(cur); } else prev = cur; } open_files = r.link; /* Also care about stdout, because if it is redirected the last output operations might fail and it is important to signal this as an error (perhaps to make). */ if (!stream) { do_ck_fclose (stdout); do_ck_fclose (stderr); } } /* Close a single file. */ void do_ck_fclose(fp) FILE *fp; { ck_fflush(fp); clearerr(fp); if (fclose(fp) == EOF) panic("couldn't close %s: %s", utils_fp_name(fp), strerror(errno)); } /* Follow symlink and panic if something fails. Return the ultimate symlink target, stored in a temporary buffer that the caller should not free. */ const char * follow_symlink(const char *fname) { #ifdef ENABLE_FOLLOW_SYMLINKS static char *buf1, *buf2; static int buf_size; struct stat statbuf; const char *buf = fname, *c; int rc; if (buf_size == 0) { buf1 = ck_malloc (PATH_MAX + 1); buf2 = ck_malloc (PATH_MAX + 1); buf_size = PATH_MAX + 1; } while ((rc = lstat (buf, &statbuf)) == 0 && (statbuf.st_mode & S_IFLNK) == S_IFLNK) { if (buf == buf2) { strcpy (buf1, buf2); buf = buf1; } while ((rc = readlink (buf, buf2, buf_size)) == buf_size) { buf_size *= 2; buf1 = ck_realloc (buf1, buf_size); buf2 = ck_realloc (buf2, buf_size); } if (rc < 0) panic (_("couldn't follow symlink %s: %s"), buf, strerror(errno)); else buf2 [rc] = '\0'; if (buf2[0] != '/' && (c = strrchr (buf, '/')) != NULL) { /* Need to handle relative paths with care. Reallocate buf1 and buf2 to be big enough. */ int len = c - buf + 1; if (len + rc + 1 > buf_size) { buf_size = len + rc + 1; buf1 = ck_realloc (buf1, buf_size); buf2 = ck_realloc (buf2, buf_size); } /* Always store the new path in buf1. */ if (buf != buf1) memcpy (buf1, buf, len); /* Tack the relative symlink at the end of buf1. */ memcpy (buf1 + len, buf2, rc + 1); buf = buf1; } else { /* Use buf2 as the buffer, it saves a strcpy if it is not pointing to another link. It works for absolute symlinks, and as long as symlinks do not leave the current directory. */ buf = buf2; } } if (rc < 0) panic (_("cannot stat %s: %s"), buf, strerror(errno)); return buf; #else return fname; #endif /* ENABLE_FOLLOW_SYMLINKS */ } /* Panic on failing rename */ void ck_rename (from, to, unlink_if_fail) const char *from, *to; const char *unlink_if_fail; { int rd = rename (from, to); if (rd != -1) return; if (unlink_if_fail) { int save_errno = errno; errno = 0; unlink (unlink_if_fail); /* Failure to remove the temporary file is more severe, so trigger it first. */ if (errno != 0) panic (_("cannot remove %s: %s"), unlink_if_fail, strerror (errno)); errno = save_errno; } panic (_("cannot rename %s: %s"), from, strerror (errno)); } /* Panic on failing malloc */ VOID * ck_malloc(size) size_t size; { VOID *ret = calloc(1, size ? size : 1); if (!ret) panic("couldn't allocate memory"); return ret; } /* Panic on failing realloc */ VOID * ck_realloc(ptr, size) VOID *ptr; size_t size; { VOID *ret; if (size == 0) { FREE(ptr); return NULL; } if (!ptr) return ck_malloc(size); ret = realloc(ptr, size); if (!ret) panic("couldn't re-allocate memory"); return ret; } /* Return a malloc()'d copy of a string */ char * ck_strdup(str) const char *str; { char *ret = MALLOC(strlen(str)+1, char); return strcpy(ret, str); } /* Return a malloc()'d copy of a block of memory */ VOID * ck_memdup(buf, len) const VOID *buf; size_t len; { VOID *ret = ck_malloc(len); return memcpy(ret, buf, len); } /* Release a malloc'd block of memory */ void ck_free(ptr) VOID *ptr; { if (ptr) free(ptr); } /* Implement a variable sized buffer of `stuff'. We don't know what it is, nor do we care, as long as it doesn't mind being aligned by malloc. */ struct buffer { size_t allocated; size_t length; char *b; }; #define MIN_ALLOCATE 50 struct buffer * init_buffer() { struct buffer *b = MALLOC(1, struct buffer); b->b = MALLOC(MIN_ALLOCATE, char); b->allocated = MIN_ALLOCATE; b->length = 0; return b; } char * get_buffer(b) struct buffer *b; { return b->b; } size_t size_buffer(b) struct buffer *b; { return b->length; } static void resize_buffer P_((struct buffer *b, size_t newlen)); static void resize_buffer(b, newlen) struct buffer *b; size_t newlen; { char *try = NULL; size_t alen = b->allocated; if (newlen <= alen) return; alen *= 2; if (newlen < alen) try = realloc(b->b, alen); /* Note: *not* the REALLOC() macro! */ if (!try) { alen = newlen; try = REALLOC(b->b, alen, char); } b->allocated = alen; b->b = try; } char * add_buffer(b, p, n) struct buffer *b; const char *p; size_t n; { char *result; if (b->allocated - b->length < n) resize_buffer(b, b->length+n); result = memcpy(b->b + b->length, p, n); b->length += n; return result; } char * add1_buffer(b, c) struct buffer *b; int c; { /* This special case should be kept cheap; * don't make it just a mere convenience * wrapper for add_buffer() -- even "builtin" * versions of memcpy(a, b, 1) can become * expensive when called too often. */ if (c != EOF) { char *result; if (b->allocated - b->length < 1) resize_buffer(b, b->length+1); result = b->b + b->length++; *result = c; return result; } return NULL; } void free_buffer(b) struct buffer *b; { if (b) FREE(b->b); FREE(b); }