/* * Copyright (c) 1989, 1993, 1994 * The Regents of the University of California. All rights reserved. * * This code is derived from software contributed to Berkeley by * Chris Newcomb. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * @(#) Copyright (c) 1989, 1993, 1994 The Regents of the University of California. All rights reserved. * @(#)du.c 8.5 (Berkeley) 5/4/95 * $FreeBSD: src/usr.bin/du/du.c,v 1.17.2.4 2002/12/12 16:29:39 trhodes Exp $ * $DragonFly: src/usr.bin/du/du.c,v 1.12 2008/08/12 03:35:35 y0netan1 Exp $ */ #include #include #include #include #include #include #include #include #include #include #include #include #include #define HASHSIZE 256 /* power of 2 only */ #define HASHMASK (HASHSIZE - 1) SLIST_HEAD(ignhead, ignentry) ignores; struct ignentry { char *mask; SLIST_ENTRY(ignentry) next; }; static int linkchk(FTSENT *); static void usage(void); void prthumanval(int64_t); void ignoreadd(const char *); void ignoreclean(void); int ignorep(FTSENT *); static char period[] = "."; typedef long long du_number_t; int main(int argc, char **argv) { FTS *fts; FTSENT *p; long blocksize; du_number_t savednumber = 0; int ftsoptions; int listall; int depth; int Hflag, Lflag, Pflag, aflag, sflag, dflag, cflag, hflag, ch, notused, rval; char **save; Hflag = Lflag = Pflag = aflag = sflag = dflag = cflag = hflag = 0; save = argv; ftsoptions = 0; depth = INT_MAX; SLIST_INIT(&ignores); while ((ch = getopt(argc, argv, "HI:LPasd:chkrx")) != -1) switch (ch) { case 'H': Hflag = 1; break; case 'I': ignoreadd(optarg); break; case 'L': if (Pflag) usage(); Lflag = 1; break; case 'P': if (Lflag) usage(); Pflag = 1; break; case 'a': aflag = 1; break; case 's': sflag = 1; break; case 'd': dflag = 1; errno = 0; depth = atoi(optarg); if (errno == ERANGE || depth < 0) { warnx("invalid argument to option d: %s", optarg); usage(); } break; case 'c': cflag = 1; break; case 'h': if (setenv("BLOCKSIZE", "512", 1) == -1) warn("setenv: cannot set BLOCKSIZE=512"); hflag = 1; break; case 'k': hflag = 0; if (setenv("BLOCKSIZE", "1024", 1) == -1) warn("setenv: cannot set BLOCKSIZE=1024"); break; case 'r': /* Compatibility. */ break; case 'x': ftsoptions |= FTS_XDEV; break; case '?': default: usage(); } argc -= optind; argv += optind; /* * XXX * Because of the way that fts(3) works, logical walks will not count * the blocks actually used by symbolic links. We rationalize this by * noting that users computing logical sizes are likely to do logical * copies, so not counting the links is correct. The real reason is * that we'd have to re-implement the kernel's symbolic link traversing * algorithm to get this right. If, for example, you have relative * symbolic links referencing other relative symbolic links, it gets * very nasty, very fast. The bottom line is that it's documented in * the man page, so it's a feature. */ if (Hflag + Lflag + Pflag > 1) usage(); if (Hflag + Lflag + Pflag == 0) Pflag = 1; /* -P (physical) is default */ if (Hflag) ftsoptions |= FTS_COMFOLLOW; if (Lflag) ftsoptions |= FTS_LOGICAL; if (Pflag) ftsoptions |= FTS_PHYSICAL; listall = 0; if (aflag) { if (sflag || dflag) usage(); listall = 1; } else if (sflag) { if (dflag) usage(); depth = 0; } if (!*argv) { argv = save; argv[0] = period; argv[1] = NULL; } (void) getbsize(¬used, &blocksize); blocksize /= 512; rval = 0; if ((fts = fts_open(argv, ftsoptions, NULL)) == NULL) err(1, "fts_open"); while ((p = fts_read(fts)) != NULL) { switch (p->fts_info) { case FTS_D: /* Ignore. */ if (ignorep(p)) fts_set(fts, p, FTS_SKIP); break; case FTS_DP: if (ignorep(p)) break; if (p->fts_pointer == NULL) { p->fts_pointer = malloc(sizeof(du_number_t)); *(du_number_t *)p->fts_pointer = 0; } *(du_number_t *)p->fts_pointer += p->fts_statp->st_blocks; if (p->fts_parent->fts_pointer == NULL) { p->fts_parent->fts_pointer = malloc(sizeof(du_number_t)); *(du_number_t *)p->fts_parent->fts_pointer = 0; } *(du_number_t *)p->fts_parent->fts_pointer += *(du_number_t *)p->fts_pointer += p->fts_statp->st_blocks; if (p->fts_level <= depth) { if (hflag) { (void) prthumanval(howmany(*(du_number_t *)p->fts_pointer, blocksize)); (void) printf("\t%s\n", p->fts_path); } else { (void) printf("%lld\t%s\n", howmany(*(du_number_t *)p->fts_pointer, blocksize), p->fts_path); } } if (p->fts_pointer) { free(p->fts_pointer); p->fts_pointer = NULL; } break; case FTS_DC: /* Ignore. */ break; case FTS_DNR: /* Warn, continue. */ case FTS_ERR: case FTS_NS: warnx("%s: %s", p->fts_path, strerror(p->fts_errno)); rval = 1; break; default: if (ignorep(p)) break; if (p->fts_statp->st_nlink > 1 && linkchk(p)) break; if (listall || p->fts_level == 0) { if (hflag) { (void) prthumanval(howmany(p->fts_statp->st_blocks, blocksize)); (void) printf("\t%s\n", p->fts_path); } else { (void) printf("%lld\t%s\n", howmany((long long)p->fts_statp->st_blocks, blocksize), p->fts_path); } } if (p->fts_parent->fts_pointer == NULL) { p->fts_parent->fts_pointer = malloc(sizeof(du_number_t)); *(du_number_t *)p->fts_parent->fts_pointer = 0; } *(du_number_t *)p->fts_parent->fts_pointer += p->fts_statp->st_blocks; } if (p->fts_parent->fts_pointer) savednumber = *(du_number_t *)p->fts_parent->fts_pointer; } if (errno) err(1, "fts_read"); fts_close(fts); if (cflag) { if (hflag) { (void) prthumanval(howmany(savednumber, blocksize)); (void) printf("\ttotal\n"); } else { (void) printf("%lld\ttotal\n", howmany(savednumber, blocksize)); } } ignoreclean(); exit(rval); } static int linkchk(FTSENT *p) { struct links_entry { struct links_entry *next; struct links_entry *previous; int links; dev_t dev; ino_t ino; }; static const size_t links_hash_initial_size = 8192; static struct links_entry **buckets; static struct links_entry *free_list; static size_t number_buckets; static unsigned long number_entries; static char stop_allocating; struct links_entry *le, **new_buckets; struct stat *st; size_t i, new_size; int hash; st = p->fts_statp; /* If necessary, initialize the hash table. */ if (buckets == NULL) { number_buckets = links_hash_initial_size; buckets = malloc(number_buckets * sizeof(buckets[0])); if (buckets == NULL) errx(1, "No memory for hardlink detection"); for (i = 0; i < number_buckets; i++) buckets[i] = NULL; } /* If the hash table is getting too full, enlarge it. */ if (number_entries > number_buckets * 10 && !stop_allocating) { new_size = number_buckets * 2; new_buckets = malloc(new_size * sizeof(struct links_entry *)); /* Try releasing the free list to see if that helps. */ if (new_buckets == NULL && free_list != NULL) { while (free_list != NULL) { le = free_list; free_list = le->next; free(le); } new_buckets = malloc(new_size * sizeof(new_buckets[0])); } if (new_buckets == NULL) { stop_allocating = 1; warnx("No more memory for tracking hard links"); } else { memset(new_buckets, 0, new_size * sizeof(struct links_entry *)); for (i = 0; i < number_buckets; i++) { while (buckets[i] != NULL) { /* Remove entry from old bucket. */ le = buckets[i]; buckets[i] = le->next; /* Add entry to new bucket. */ hash = (le->dev ^ le->ino) % new_size; if (new_buckets[hash] != NULL) new_buckets[hash]->previous = le; le->next = new_buckets[hash]; le->previous = NULL; new_buckets[hash] = le; } } free(buckets); buckets = new_buckets; number_buckets = new_size; } } /* Try to locate this entry in the hash table. */ hash = ( st->st_dev ^ st->st_ino ) % number_buckets; for (le = buckets[hash]; le != NULL; le = le->next) { if (le->dev == st->st_dev && le->ino == st->st_ino) { /* * Save memory by releasing an entry when we've seen * all of it's links. */ if (--le->links <= 0) { if (le->previous != NULL) le->previous->next = le->next; if (le->next != NULL) le->next->previous = le->previous; if (buckets[hash] == le) buckets[hash] = le->next; number_entries--; /* Recycle this node through the free list */ if (stop_allocating) { free(le); } else { le->next = free_list; free_list = le; } } return (1); } } if (stop_allocating) return (0); /* Add this entry to the links cache. */ if (free_list != NULL) { /* Pull a node from the free list if we can. */ le = free_list; free_list = le->next; } else /* Malloc one if we have to. */ le = malloc(sizeof(struct links_entry)); if (le == NULL) { stop_allocating = 1; warnx("No more memory for tracking hard links"); return (0); } le->dev = st->st_dev; le->ino = st->st_ino; le->links = st->st_nlink - 1; number_entries++; le->next = buckets[hash]; le->previous = NULL; if (buckets[hash] != NULL) buckets[hash]->previous = le; buckets[hash] = le; return (0); } void prthumanval(int64_t bytes) { char buf[sizeof("999M")]; bytes *= DEV_BSIZE; humanize_number(buf, sizeof(buf), bytes, "", HN_AUTOSCALE, HN_B | HN_NOSPACE | HN_DECIMAL); (void) printf("%4s", buf); } static void usage(void) { (void)fprintf(stderr, "usage: du [-H | -L | -P] [-a | -s | -d depth] [-c] [-h | -k] [-x] [-I mask] [file ...]\n"); exit(EX_USAGE); } void ignoreadd(const char *mask) { struct ignentry *ign; ign = calloc(1, sizeof(*ign)); if (ign == NULL) errx(1, "cannot allocate memory"); ign->mask = strdup(mask); if (ign->mask == NULL) errx(1, "cannot allocate memory"); SLIST_INSERT_HEAD(&ignores, ign, next); } void ignoreclean(void) { struct ignentry *ign; while (!SLIST_EMPTY(&ignores)) { ign = SLIST_FIRST(&ignores); SLIST_REMOVE_HEAD(&ignores, next); free(ign->mask); free(ign); } } int ignorep(FTSENT *ent) { struct ignentry *ign; SLIST_FOREACH(ign, &ignores, next) if (fnmatch(ign->mask, ent->fts_name, 0) != FNM_NOMATCH) return 1; return 0; }