xref: /titanic_41/usr/src/cmd/fs.d/df.c (revision fb9f9b975cb9214fec5dab37d461199adab9b964)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*	Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T	*/
23 /*	  All Rights Reserved  	*/
24 
25 
26 /*
27  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
28  * Use is subject to license terms.
29  */
30 
31 
32 #pragma ident	"%Z%%M%	%I%	%E% SMI"
33 
34 #include <dlfcn.h>
35 #include <stdio.h>
36 #include <stdarg.h>
37 #include <string.h>
38 #include <locale.h>
39 #include <libintl.h>
40 #include <stdlib.h>
41 #include <ftw.h>
42 #include <errno.h>
43 #include <sys/types.h>
44 #include <unistd.h>
45 #include <sys/statvfs.h>
46 #include <sys/stat.h>
47 #include <sys/param.h>
48 #include <sys/mnttab.h>
49 #include <sys/mntent.h>
50 #include <sys/vfstab.h>
51 #include <sys/wait.h>
52 #include <sys/mkdev.h>
53 #include <sys/int_limits.h>
54 #include <sys/zone.h>
55 #include <libzfs.h>
56 
57 #include "fslib.h"
58 
59 extern char *default_fstype(char *);
60 
61 /*
62  * General notice:
63  * String pointers in this code may point to statically allocated memory
64  * or dynamically allocated memory. Furthermore, a dynamically allocated
65  * string may be pointed to by more than one pointer. This does not pose
66  * a problem because malloc'ed memory is never free'd (so we don't need
67  * to remember which pointers point to malloc'ed memory).
68  */
69 
70 /*
71  * TRANSLATION_NOTE
72  * Only strings passed as arguments to the TRANSLATE macro need to
73  * be translated.
74  */
75 
76 #ifndef MNTTYPE_LOFS
77 #define	MNTTYPE_LOFS		"lofs"
78 #endif
79 
80 #define	EQ(s1, s2)		(strcmp(s1, s2) == 0)
81 #define	NEW(type)		xmalloc(sizeof (type))
82 #define	CLEAR(var)		(void) memset(&(var), 0, sizeof (var))
83 #define	MAX(a, b)		((a) > (b) ? (a) : (b))
84 #define	MAX3(a, b, c)		MAX(a, MAX(b, c))
85 #define	TRANSLATE(s)		new_string(gettext(s))
86 
87 #define	MAX_OPTIONS		36
88 #define	N_FSTYPES		20
89 #define	MOUNT_TABLE_ENTRIES	40	/* initial allocation */
90 #define	MSGBUF_SIZE		1024
91 #define	LINEBUF_SIZE		256	/* either input or output lines */
92 
93 #define	BLOCK_SIZE		512	/* when reporting in terms of blocks */
94 
95 #define	DEVNM_CMD		"devnm"
96 #define	FS_LIBPATH		"/usr/lib/fs/"
97 #define	MOUNT_TAB		"/etc/mnttab"
98 #define	VFS_TAB			"/etc/vfstab"
99 #define	REMOTE_FS		"/etc/dfs/fstypes"
100 
101 #define	NUL			'\0'
102 #define	FALSE			0
103 #define	TRUE			1
104 
105 /*
106  * Formatting constants
107  */
108 #define	IBCS2_FILESYSTEM_WIDTH	15	/* Truncate to match ISC/SCO */
109 #define	IBCS2_MOUNT_POINT_WIDTH	10	/* Truncate to match ISC/SCO */
110 #define	FILESYSTEM_WIDTH	20
111 #define	MOUNT_POINT_WIDTH	19
112 #define	SPECIAL_DEVICE_WIDTH	18
113 #define	FSTYPE_WIDTH		8
114 #define	BLOCK_WIDTH		8
115 #define	NFILES_WIDTH		8
116 #ifdef XPG4
117 #define	KBYTE_WIDTH		11
118 #define	AVAILABLE_WIDTH		10
119 #else
120 #define	KBYTE_WIDTH		7
121 #define	AVAILABLE_WIDTH		6
122 #endif
123 #define	SCALED_WIDTH		6
124 #define	CAPACITY_WIDTH		9
125 #define	BSIZE_WIDTH		6
126 #define	FRAGSIZE_WIDTH		7
127 #define	FSID_WIDTH		7
128 #define	FLAG_WIDTH		8
129 #define	NAMELEN_WIDTH		7
130 #define	MNT_SPEC_WIDTH		MOUNT_POINT_WIDTH + SPECIAL_DEVICE_WIDTH + 2
131 
132 /*
133  * Flags for the errmsg() function
134  */
135 #define	ERR_NOFLAGS		0x0
136 #define	ERR_NONAME		0x1	/* don't include the program name */
137 					/* as a prefix */
138 #define	ERR_FATAL		0x2	/* call exit after printing the */
139 					/* message */
140 #define	ERR_PERROR		0x4	/* append an errno explanation to */
141 					/* the message */
142 #define	ERR_USAGE		0x8	/* print the usage line after the */
143 					/* message */
144 
145 #define	NUMBER_WIDTH		40
146 
147 /*
148  * A numbuf_t is used when converting a number to a string representation
149  */
150 typedef char numbuf_t[ NUMBER_WIDTH ];
151 
152 /*
153  * We use bool_int instead of int to make clear which variables are
154  * supposed to be boolean
155  */
156 typedef int bool_int;
157 
158 struct mtab_entry {
159 	bool_int	mte_dev_is_valid;
160 	dev_t		mte_dev;
161 	bool_int	mte_ignore;	/* the "ignore" option was set */
162 	struct extmnttab	*mte_mount;
163 };
164 
165 
166 struct df_request {
167 	bool_int		dfr_valid;
168 	char			*dfr_cmd_arg;	/* what the user specified */
169 	struct mtab_entry	*dfr_mte;
170 	char			*dfr_fstype;
171 	int			dfr_index;	/* to make qsort stable	*/
172 };
173 
174 #define	DFR_MOUNT_POINT(dfrp)	(dfrp)->dfr_mte->mte_mount->mnt_mountp
175 #define	DFR_SPECIAL(dfrp)	(dfrp)->dfr_mte->mte_mount->mnt_special
176 #define	DFR_FSTYPE(dfrp)	(dfrp)->dfr_mte->mte_mount->mnt_fstype
177 #define	DFR_ISMOUNTEDFS(dfrp)	((dfrp)->dfr_mte != NULL)
178 
179 #define	DFRP(p)			((struct df_request *)(p))
180 
181 typedef void (*output_func)(struct df_request *, struct statvfs64 *);
182 
183 struct df_output {
184 	output_func	dfo_func;	/* function that will do the output */
185 	int		dfo_flags;
186 };
187 
188 /*
189  * Output flags
190  */
191 #define	DFO_NOFLAGS	0x0
192 #define	DFO_HEADER	0x1		/* output preceded by header */
193 #define	DFO_STATVFS	0x2		/* must do a statvfs64(2) */
194 
195 
196 static char	*program_name;
197 static char	df_options[MAX_OPTIONS] = "-";
198 static size_t	df_options_len = 1;
199 static char	*o_option_arg;			/* arg to the -o option */
200 static char	*FSType;
201 static char	*remote_fstypes[N_FSTYPES+1];	/* allocate an extra one */
202 						/* to use as a terminator */
203 
204 /*
205  * The following three variables support an in-memory copy of the mount table
206  * to speedup searches.
207  */
208 static struct mtab_entry	*mount_table;	/* array of mtab_entry's */
209 static size_t			mount_table_entries;
210 static size_t			mount_table_allocated_entries;
211 
212 static bool_int		F_option;
213 static bool_int		V_option;
214 static bool_int		P_option;	/* Added for XCU4 compliance */
215 static bool_int		Z_option;
216 static bool_int		v_option;
217 #ifdef	_iBCS2
218 char			*sysv3_set;
219 #endif /* _iBCS2 */
220 static bool_int		a_option;
221 static bool_int		b_option;
222 static bool_int		e_option;
223 static bool_int		g_option;
224 static bool_int		h_option;
225 static bool_int		k_option;
226 static bool_int		l_option;
227 static bool_int		n_option;
228 static bool_int		t_option;
229 static bool_int		o_option;
230 
231 static bool_int		tty_output;
232 static bool_int		use_scaling;
233 static int		scale;
234 
235 static void usage(void);
236 static void do_devnm(int, char **);
237 static void do_df(int, char **)	__NORETURN;
238 static void parse_options(int, char **);
239 static char *basename(char *);
240 
241 
242 /* ARGSUSED */
243 static void
244 dummy_error_handler(const char *fmt, va_list ap)
245 {
246 	/* Do nothing */
247 }
248 
249 static zfs_handle_t *(*_zfs_open)(const char *, int);
250 static void (*_zfs_close)(zfs_handle_t *);
251 static uint64_t (*_zfs_prop_get_int)(zfs_handle_t *, zfs_prop_t);
252 static void (*_zfs_set_error_handler)(void (*)(const char *, va_list));
253 
254 int
255 main(int argc, char *argv[])
256 {
257 	void *hdl;
258 
259 	(void) setlocale(LC_ALL, "");
260 
261 #if !defined(TEXT_DOMAIN)		/* Should be defined by cc -D */
262 #define	TEXT_DOMAIN "SYS_TEST"
263 #endif
264 	(void) textdomain(TEXT_DOMAIN);
265 
266 	program_name = basename(argv[0]);
267 
268 #ifdef	_iBCS2
269 	sysv3_set = getenv("SYSV3");
270 #endif	/* _iBCS2 */
271 
272 	/*
273 	 * Dynamically check for libzfs, in case the user hasn't installed the
274 	 * SUNWzfs packages.  A basic utility such as df shouldn't depend on
275 	 * optional filesystems.
276 	 */
277 	if ((hdl = dlopen("libzfs.so", RTLD_LAZY)) != NULL) {
278 		_zfs_set_error_handler = (void (*)())
279 		    dlsym(hdl, "zfs_set_error_handler");
280 		_zfs_open = (zfs_handle_t *(*)())dlsym(hdl, "zfs_open");
281 		_zfs_close = (void (*)())dlsym(hdl, "zfs_close");
282 		_zfs_prop_get_int = (uint64_t (*)())
283 		    dlsym(hdl, "zfs_prop_get_int");
284 
285 		if (_zfs_set_error_handler != NULL) {
286 			assert(_zfs_open != NULL);
287 			assert(_zfs_close != NULL);
288 			assert(_zfs_prop_get_int != NULL);
289 
290 			/*
291 			 * Disable ZFS error reporting, so we don't get messages
292 			 * like "can't open ..." under race conditions.
293 			 */
294 			_zfs_set_error_handler(dummy_error_handler);
295 		}
296 	}
297 
298 	if (EQ(program_name, DEVNM_CMD))
299 		do_devnm(argc, argv);
300 
301 	parse_options(argc, argv);
302 
303 	/*
304 	 * The k_option implies SunOS 4.x compatibility: when the special
305 	 * device name is too long the line will be split except when the
306 	 * output has been redirected.
307 	 * This is also valid for the -h option.
308 	 */
309 
310 	if (use_scaling || k_option || P_option || v_option)
311 		tty_output = isatty(1);
312 
313 	do_df(argc - optind, &argv[optind]);
314 	/* NOTREACHED */
315 }
316 
317 
318 /*
319  * Prints an error message to stderr.
320  */
321 /* VARARGS2 */
322 static void
323 errmsg(int flags, char *fmt, ...)
324 {
325 	char buf[MSGBUF_SIZE];
326 	va_list ap;
327 	int cc;
328 	int offset;
329 
330 	if (flags & ERR_NONAME)
331 		offset = 0;
332 	else
333 		offset = sprintf(buf, "%s: ", program_name);
334 
335 	va_start(ap, fmt);
336 	cc = vsprintf(&buf[offset], gettext(fmt), ap);
337 	offset += cc;
338 	va_end(ap);
339 
340 	if (flags & ERR_PERROR) {
341 		if (buf[offset-1] != ' ')
342 			(void) strcat(buf, " ");
343 		(void) strcat(buf, strerror(errno));
344 	}
345 	(void) fprintf(stderr, "%s\n", buf);
346 	if (flags & ERR_USAGE)
347 		usage();
348 	if (flags & ERR_FATAL)
349 		exit(1);
350 }
351 
352 
353 static void
354 usage(void)
355 {
356 #ifdef  XPG4
357 	errmsg(ERR_NONAME,
358 	"Usage: %s [-F FSType] [-abeghklntPVZ] [-o FSType-specific_options]"
359 		" [directory | block_device | resource]", program_name);
360 #else
361 	errmsg(ERR_NONAME,
362 	"Usage: %s [-F FSType] [-abeghklntVvZ] [-o FSType-specific_options]"
363 		" [directory | block_device | resource]", program_name);
364 #endif
365 	exit(1);
366 	/* NOTREACHED */
367 }
368 
369 
370 static char *
371 new_string(char *s)
372 {
373 	char *p = NULL;
374 
375 	if (s) {
376 		p = strdup(s);
377 		if (p)
378 			return (p);
379 		errmsg(ERR_FATAL, "out of memory");
380 		/* NOTREACHED */
381 	}
382 	return (p);
383 }
384 
385 
386 /*
387  * Allocate memory using malloc but terminate if the allocation fails
388  */
389 static void *
390 xmalloc(size_t size)
391 {
392 	void *p = malloc(size);
393 
394 	if (p)
395 		return (p);
396 	errmsg(ERR_FATAL, "out of memory");
397 	/* NOTREACHED */
398 	return (NULL);
399 }
400 
401 
402 /*
403  * Allocate memory using realloc but terminate if the allocation fails
404  */
405 static void *
406 xrealloc(void *ptr, size_t size)
407 {
408 	void *p = realloc(ptr, size);
409 
410 	if (p)
411 		return (p);
412 	errmsg(ERR_FATAL, "out of memory");
413 	/* NOTREACHED */
414 	return (NULL);
415 }
416 
417 
418 /*
419  * fopen the specified file for reading but terminate if the fopen fails
420  */
421 static FILE *
422 xfopen(char *file)
423 {
424 	FILE *fp = fopen(file, "r");
425 
426 	if (fp == NULL)
427 		errmsg(ERR_FATAL + ERR_PERROR, "failed to open %s:", file);
428 	return (fp);
429 }
430 
431 
432 /*
433  * Read remote file system types from REMOTE_FS into the
434  * remote_fstypes array.
435  */
436 static void
437 init_remote_fs(void)
438 {
439 	FILE	*fp;
440 	char	line_buf[LINEBUF_SIZE];
441 	size_t	fstype_index = 0;
442 
443 	if ((fp = fopen(REMOTE_FS, "r")) == NULL) {
444 		errmsg(ERR_NOFLAGS,
445 			"Warning: can't open %s, ignored", REMOTE_FS);
446 		return;
447 	}
448 
449 	while (fgets(line_buf, sizeof (line_buf), fp) != NULL) {
450 		char buf[LINEBUF_SIZE];
451 
452 		(void) sscanf(line_buf, "%s", buf);
453 		remote_fstypes[fstype_index++] = new_string(buf);
454 
455 		if (fstype_index == N_FSTYPES)
456 			break;
457 	}
458 	(void) fclose(fp);
459 }
460 
461 
462 /*
463  * Returns TRUE if fstype is a remote file system type;
464  * otherwise, returns FALSE.
465  */
466 static int
467 is_remote_fs(char *fstype)
468 {
469 	char **p;
470 	static bool_int remote_fs_initialized;
471 
472 	if (! remote_fs_initialized) {
473 		init_remote_fs();
474 		remote_fs_initialized = TRUE;
475 	}
476 
477 	for (p = remote_fstypes; *p; p++)
478 		if (EQ(fstype, *p))
479 			return (TRUE);
480 	return (FALSE);
481 }
482 
483 
484 static char *
485 basename(char *s)
486 {
487 	char *p = strrchr(s, '/');
488 
489 	return (p ? p+1 : s);
490 }
491 
492 
493 /*
494  * Create a new "struct extmnttab" and make sure that its fields point
495  * to malloc'ed memory
496  */
497 static struct extmnttab *
498 mntdup(struct extmnttab *old)
499 {
500 	struct extmnttab *new = NEW(struct extmnttab);
501 
502 	new->mnt_special = new_string(old->mnt_special);
503 	new->mnt_mountp  = new_string(old->mnt_mountp);
504 	new->mnt_fstype  = new_string(old->mnt_fstype);
505 	new->mnt_mntopts = new_string(old->mnt_mntopts);
506 	new->mnt_time    = new_string(old->mnt_time);
507 	new->mnt_major   = old->mnt_major;
508 	new->mnt_minor   = old->mnt_minor;
509 	return (new);
510 }
511 
512 
513 static void
514 mtab_error(char *mtab_file, int status)
515 {
516 	if (status == MNT_TOOLONG)
517 		errmsg(ERR_NOFLAGS, "a line in %s exceeds %d characters",
518 			mtab_file, MNT_LINE_MAX);
519 	else if (status == MNT_TOOMANY)
520 		errmsg(ERR_NOFLAGS,
521 			"a line in %s has too many fields", mtab_file);
522 	else if (status == MNT_TOOFEW)
523 		errmsg(ERR_NOFLAGS,
524 			"a line in %s has too few fields", mtab_file);
525 	else
526 		errmsg(ERR_NOFLAGS,
527 			"error while reading %s: %d", mtab_file, status);
528 	exit(1);
529 	/* NOTREACHED */
530 }
531 
532 
533 /*
534  * Read the mount table from the specified file.
535  * We keep the table in memory for faster lookups.
536  */
537 static void
538 mtab_read_file(void)
539 {
540 	char		*mtab_file = MOUNT_TAB;
541 	FILE		*fp;
542 	struct extmnttab	mtab;
543 	int		status;
544 
545 	fp = xfopen(mtab_file);
546 
547 	resetmnttab(fp);
548 	mount_table_allocated_entries = MOUNT_TABLE_ENTRIES;
549 	mount_table_entries = 0;
550 	mount_table = xmalloc(
551 		mount_table_allocated_entries * sizeof (struct mtab_entry));
552 
553 	while ((status = getextmntent(fp, &mtab, sizeof (struct extmnttab)))
554 		== 0) {
555 		struct mtab_entry *mtep;
556 
557 		if (mount_table_entries == mount_table_allocated_entries) {
558 			mount_table_allocated_entries += MOUNT_TABLE_ENTRIES;
559 			mount_table = xrealloc(mount_table,
560 				mount_table_allocated_entries *
561 					sizeof (struct mtab_entry));
562 		}
563 		mtep = &mount_table[mount_table_entries++];
564 		mtep->mte_mount = mntdup(&mtab);
565 		mtep->mte_dev_is_valid = FALSE;
566 		mtep->mte_ignore = (hasmntopt((struct mnttab *)&mtab,
567 			MNTOPT_IGNORE) != NULL);
568 	}
569 
570 	(void) fclose(fp);
571 
572 	if (status == -1)			/* reached EOF */
573 		return;
574 	mtab_error(mtab_file, status);
575 	/* NOTREACHED */
576 }
577 
578 
579 /*
580  * We use this macro when we want to record the option for the purpose of
581  * passing it to the FS-specific df
582  */
583 #define	SET_OPTION(opt)		opt##_option = TRUE, \
584 				df_options[df_options_len++] = arg
585 
586 static void
587 parse_options(int argc, char *argv[])
588 {
589 	int arg;
590 
591 	opterr = 0;	/* getopt shouldn't complain about unknown options */
592 
593 #ifdef XPG4
594 	while ((arg = getopt(argc, argv, "F:o:abehkVtgnlPZ")) != EOF) {
595 #else
596 	while ((arg = getopt(argc, argv, "F:o:abehkVtgnlvZ")) != EOF) {
597 #endif
598 		if (arg == 'F') {
599 			if (F_option)
600 				errmsg(ERR_FATAL + ERR_USAGE,
601 					"more than one FSType specified");
602 			F_option = 1;
603 			FSType = optarg;
604 		} else if (arg == 'V' && ! V_option) {
605 			V_option = TRUE;
606 		} else if (arg == 'v' && ! v_option) {
607 			v_option = TRUE;
608 #ifdef XPG4
609 		} else if (arg == 'P' && ! P_option) {
610 			SET_OPTION(P);
611 #endif
612 		} else if (arg == 'a' && ! a_option) {
613 			SET_OPTION(a);
614 		} else if (arg == 'b' && ! b_option) {
615 			SET_OPTION(b);
616 		} else if (arg == 'e' && ! e_option) {
617 			SET_OPTION(e);
618 		} else if (arg == 'g' && ! g_option) {
619 			SET_OPTION(g);
620 		} else if (arg == 'h') {
621 			use_scaling = TRUE;
622 			scale = 1024;
623 		} else if (arg == 'k' && ! k_option) {
624 			SET_OPTION(k);
625 		} else if (arg == 'l' && ! l_option) {
626 			SET_OPTION(l);
627 		} else if (arg == 'n' && ! n_option) {
628 			SET_OPTION(n);
629 		} else if (arg == 't' && ! t_option) {
630 			SET_OPTION(t);
631 		} else if (arg == 'o') {
632 			if (o_option)
633 				errmsg(ERR_FATAL + ERR_USAGE,
634 				"the -o option can only be specified once");
635 			o_option = TRUE;
636 			o_option_arg = optarg;
637 		} else if (arg == 'Z') {
638 			SET_OPTION(Z);
639 		} else if (arg == '?') {
640 			errmsg(ERR_USAGE, "unknown option: %c", optopt);
641 		}
642 	}
643 
644 	/*
645 	 * Option sanity checks
646 	 */
647 	if (g_option && o_option)
648 		errmsg(ERR_FATAL, "-o and -g options are incompatible");
649 	if (l_option && o_option)
650 		errmsg(ERR_FATAL, "-o and -l options are incompatible");
651 	if (n_option && o_option)
652 		errmsg(ERR_FATAL, "-o and -n options are incompatible");
653 	if (use_scaling && o_option)
654 		errmsg(ERR_FATAL, "-o and -h options are incompatible");
655 }
656 
657 
658 
659 /*
660  * Check if the user-specified argument is a resource name.
661  * A resource name is whatever is placed in the mnt_special field of
662  * struct mnttab. In the case of NFS, a resource name has the form
663  * hostname:pathname
664  * We try to find an exact match between the user-specified argument
665  * and the mnt_special field of a mount table entry.
666  * We also use the heuristic of removing the basename from the user-specified
667  * argument and repeating the test until we get a match. This works
668  * fine for NFS but may fail for other remote file system types. However,
669  * it is guaranteed that the function will not fail if the user specifies
670  * the exact resource name.
671  * If successful, this function sets the 'dfr_mte' field of '*dfrp'
672  */
673 static void
674 resource_mount_entry(struct df_request *dfrp)
675 {
676 	char *name;
677 
678 	/*
679 	 * We need our own copy since we will modify the string
680 	 */
681 	name = new_string(dfrp->dfr_cmd_arg);
682 
683 	for (;;) {
684 		char *p;
685 		int i;
686 
687 		/*
688 		 * Compare against all known mount points.
689 		 * We start from the most recent mount, which is at the
690 		 * end of the array.
691 		 */
692 		for (i = mount_table_entries - 1; i >= 0; i--) {
693 			struct mtab_entry *mtep = &mount_table[i];
694 
695 			if (EQ(name, mtep->mte_mount->mnt_special)) {
696 				dfrp->dfr_mte = mtep;
697 				break;
698 			}
699 		}
700 
701 		/*
702 		 * Remove the last component of the pathname.
703 		 * If there is no such component, this is not a resource name.
704 		 */
705 		p = strrchr(name, '/');
706 		if (p == NULL)
707 			break;
708 		*p = NUL;
709 	}
710 }
711 
712 
713 
714 /*
715  * Try to match the command line argument which is a block special device
716  * with the special device of one of the mounted file systems.
717  * If one is found, set the appropriate field of 'dfrp' to the mount
718  * table entry.
719  */
720 static void
721 bdev_mount_entry(struct df_request *dfrp)
722 {
723 	int i;
724 	char *special = dfrp->dfr_cmd_arg;
725 
726 	/*
727 	 * Compare against all known mount points.
728 	 * We start from the most recent mount, which is at the
729 	 * end of the array.
730 	 */
731 	for (i = mount_table_entries - 1; i >= 0; i--) {
732 		struct mtab_entry *mtep = &mount_table[i];
733 
734 		if (EQ(special, mtep->mte_mount->mnt_special)) {
735 			dfrp->dfr_mte = mtep;
736 			break;
737 		}
738 	}
739 }
740 
741 static struct mtab_entry *
742 devid_matches(int i, dev_t devno)
743 {
744 	struct mtab_entry	*mtep = &mount_table[i];
745 	struct extmnttab	*mtp = mtep->mte_mount;
746 	/* int	len = strlen(mtp->mnt_mountp); */
747 
748 	if (EQ(mtp->mnt_fstype, MNTTYPE_SWAP))
749 		return (NULL);
750 	/*
751 	 * check if device numbers match. If there is a cached device number
752 	 * in the mtab_entry, use it, otherwise get the device number
753 	 * either from the mnttab entry or by stat'ing the mount point.
754 	 */
755 	if (! mtep->mte_dev_is_valid) {
756 		struct stat64 st;
757 		dev_t dev = NODEV;
758 
759 		dev = makedev(mtp->mnt_major, mtp->mnt_minor);
760 		if (dev == 0)
761 			dev = NODEV;
762 		if (dev == NODEV) {
763 			if (stat64(mtp->mnt_mountp, &st) == -1) {
764 				return (NULL);
765 			} else {
766 				dev = st.st_dev;
767 			}
768 		}
769 		mtep->mte_dev = dev;
770 		mtep->mte_dev_is_valid = TRUE;
771 	}
772 	if (mtep->mte_dev == devno) {
773 		return (mtep);
774 	}
775 	return (NULL);
776 }
777 
778 /*
779  * Find the mount point under which the user-specified path resides
780  * and set the 'dfr_mte' field of '*dfrp' to point to the mount table entry.
781  */
782 static void
783 path_mount_entry(struct df_request *dfrp, dev_t devno)
784 {
785 	char			dirpath[MAXPATHLEN];
786 	char			*dir = dfrp->dfr_cmd_arg;
787 	struct mtab_entry	*match, *tmatch;
788 	int i;
789 
790 	/*
791 	 * Expand the given path to get a canonical version (i.e. an absolute
792 	 * path without symbolic links).
793 	 */
794 	if (realpath(dir, dirpath) == NULL) {
795 		errmsg(ERR_PERROR, "cannot canonicalize %s:", dir);
796 		return;
797 	}
798 	/*
799 	 * If the mnt point is lofs, search from the top of entries from
800 	 * /etc/mnttab and return the first entry that matches the devid
801 	 * For non-lofs mount points, return the first entry from the bottom
802 	 * of the entries in /etc/mnttab that matches on the devid field
803 	 */
804 	match = NULL;
805 	if (dfrp->dfr_fstype && EQ(dfrp->dfr_fstype, MNTTYPE_LOFS)) {
806 		for (i = 0; i < mount_table_entries; i++) {
807 			if (match = devid_matches(i, devno))
808 				break;
809 		}
810 	} else {
811 		for (i = mount_table_entries - 1; i >= 0; i--) {
812 			if (tmatch = devid_matches(i, devno)) {
813 				/*
814 				 * If executing in a zone, there might be lofs
815 				 * mounts for which the real mount point is
816 				 * invisible; accept the "best fit" for this
817 				 * devid.
818 				 */
819 				match = tmatch;
820 				if (!EQ(match->mte_mount->mnt_fstype,
821 					MNTTYPE_LOFS)) {
822 					break;
823 				}
824 			}
825 		}
826 	}
827 	if (! match) {
828 		errmsg(ERR_NOFLAGS,
829 			"Could not find mount point for %s", dir);
830 		return;
831 	}
832 	dfrp->dfr_mte = match;
833 }
834 
835 /*
836  * Execute a single FS-specific df command for all given requests
837  * Return 0 if successful, 1 otherwise.
838  */
839 static int
840 run_fs_specific_df(struct df_request request_list[], int entries)
841 {
842 	int	i;
843 	int	argv_index;
844 	char	**argv;
845 	size_t	size;
846 	pid_t	pid;
847 	int	status;
848 	char	cmd_path[MAXPATHLEN];
849 	char	*fstype;
850 
851 	if (entries == 0)
852 		return (0);
853 
854 	fstype = request_list[0].dfr_fstype;
855 
856 	if (F_option && ! EQ(FSType, fstype))
857 		return (0);
858 
859 	(void) sprintf(cmd_path, "%s%s/df", FS_LIBPATH, fstype);
860 	/*
861 	 * Argv entries:
862 	 *		1 for the path
863 	 *		2 for -o <options>
864 	 *		1 for the generic options that we propagate
865 	 *		1 for the terminating NULL pointer
866 	 *		n for the number of user-specified arguments
867 	 */
868 	size = (5 + entries) * sizeof (char *);
869 	argv = xmalloc(size);
870 	(void) memset(argv, 0, size);
871 
872 	argv[0] = cmd_path;
873 	argv_index = 1;
874 	if (o_option) {
875 		argv[argv_index++] = "-o";
876 		argv[argv_index++] = o_option_arg;
877 	}
878 
879 	/*
880 	 * Check if we need to propagate any generic options
881 	 */
882 	if (df_options_len > 1)
883 		argv[argv_index++] = df_options;
884 
885 	/*
886 	 * If there is a user-specified path, we pass that to the
887 	 * FS-specific df. Otherwise, we are guaranteed to have a mount
888 	 * point, since a request without a user path implies that
889 	 * we are reporting only on mounted file systems.
890 	 */
891 	for (i = 0; i < entries; i++) {
892 		struct df_request *dfrp = &request_list[i];
893 
894 		argv[argv_index++] = (dfrp->dfr_cmd_arg == NULL)
895 						? DFR_MOUNT_POINT(dfrp)
896 						: dfrp->dfr_cmd_arg;
897 	}
898 
899 	if (V_option) {
900 		for (i = 0; i < argv_index-1; i++)
901 			(void) printf("%s ", argv[i]);
902 		(void) printf("%s\n", argv[i]);
903 		return (0);
904 	}
905 
906 	pid = fork();
907 
908 	if (pid == -1) {
909 		errmsg(ERR_PERROR, "cannot fork process:");
910 		return (1);
911 	} else if (pid == 0) {
912 		(void) execv(cmd_path, argv);
913 		if (errno == ENOENT)
914 			errmsg(ERR_NOFLAGS,
915 				"operation not applicable for FSType %s",
916 					fstype);
917 		else
918 			errmsg(ERR_PERROR, "cannot execute %s:", cmd_path);
919 		exit(2);
920 	}
921 
922 	/*
923 	 * Reap the child
924 	 */
925 	for (;;) {
926 		pid_t wpid = waitpid(pid, &status, 0);
927 
928 		if (wpid == -1)
929 			if (errno == EINTR)
930 				continue;
931 			else {
932 				errmsg(ERR_PERROR, "waitpid error:");
933 				return (1);
934 			}
935 		else
936 			break;
937 	}
938 
939 	return ((WIFEXITED(status) && WEXITSTATUS(status) == 0) ? 0 : 1);
940 }
941 
942 
943 
944 /*
945  * Remove from the request list all requests that do not apply.
946  * Notice that the subsequent processing of the requests depends on
947  * the sanity checking performed by this function.
948  */
949 static int
950 prune_list(struct df_request request_list[],
951 		size_t n_requests,
952 		size_t *valid_requests)
953 {
954 	size_t	i;
955 	size_t	n_valid = 0;
956 	int	errors = 0;
957 
958 	for (i = 0; i < n_requests; i++) {
959 		struct df_request *dfrp = &request_list[i];
960 
961 		/*
962 		 * Skip file systems that are not mounted if either the
963 		 * -l or -n options were specified. If none of these options
964 		 * are present, the appropriate FS-specific df will be invoked.
965 		 */
966 		if (! DFR_ISMOUNTEDFS(dfrp)) {
967 			if (l_option || n_option) {
968 				errmsg(ERR_NOFLAGS,
969 		"%s option incompatible with unmounted special device (%s)",
970 			l_option ? "-l" : "-n", dfrp->dfr_cmd_arg);
971 				dfrp->dfr_valid = FALSE;
972 				errors++;
973 			}
974 			else
975 				n_valid++;
976 			continue;
977 		}
978 
979 		/*
980 		 * Check for inconsistency between the argument of -F and
981 		 * the actual file system type.
982 		 * If there is an inconsistency and the user specified a
983 		 * path, this is an error since we are asked to interpret
984 		 * the path using the wrong file system type. If there is
985 		 * no path associated with this request, we quietly ignore it.
986 		 */
987 		if (F_option && ! EQ(dfrp->dfr_fstype, FSType)) {
988 			dfrp->dfr_valid = FALSE;
989 			if (dfrp->dfr_cmd_arg != NULL) {
990 				errmsg(ERR_NOFLAGS,
991 				"Warning: %s mounted as a %s file system",
992 					dfrp->dfr_cmd_arg, dfrp->dfr_fstype);
993 				errors++;
994 			}
995 			continue;
996 		}
997 
998 		/*
999 		 * Skip remote file systems if the -l option is present
1000 		 */
1001 		if (l_option && is_remote_fs(dfrp->dfr_fstype)) {
1002 			if (dfrp->dfr_cmd_arg != NULL) {
1003 				errmsg(ERR_NOFLAGS,
1004 				"Warning: %s is not a local file system",
1005 					dfrp->dfr_cmd_arg);
1006 				errors++;
1007 			}
1008 			dfrp->dfr_valid = FALSE;
1009 			continue;
1010 		}
1011 
1012 		/*
1013 		 * Skip file systems mounted as "ignore" unless the -a option
1014 		 * is present, or the user explicitly specified them on
1015 		 * the command line.
1016 		 */
1017 		if (dfrp->dfr_mte->mte_ignore &&
1018 			! (a_option || dfrp->dfr_cmd_arg)) {
1019 			dfrp->dfr_valid = FALSE;
1020 			continue;
1021 		}
1022 
1023 		n_valid++;
1024 	}
1025 	*valid_requests = n_valid;
1026 	return (errors);
1027 }
1028 
1029 
1030 /*
1031  * Print the appropriate header for the requested output format.
1032  * Options are checked in order of their precedence.
1033  */
1034 static void
1035 print_header(void)
1036 {
1037 	if (use_scaling) { /* this comes from the -h option */
1038 		int arg = 'h';
1039 
1040 		(void) printf("%-*s %*s %*s %*s %-*s %s\n",
1041 			FILESYSTEM_WIDTH, TRANSLATE("Filesystem"),
1042 #ifdef XPG4
1043 			SCALED_WIDTH, TRANSLATE("Size"),
1044 			SCALED_WIDTH, TRANSLATE("Used"),
1045 			AVAILABLE_WIDTH, TRANSLATE("Available"),
1046 			CAPACITY_WIDTH, TRANSLATE("Capacity"),
1047 #else
1048 			SCALED_WIDTH, TRANSLATE("size"),
1049 			SCALED_WIDTH, TRANSLATE("used"),
1050 			AVAILABLE_WIDTH, TRANSLATE("avail"),
1051 			CAPACITY_WIDTH, TRANSLATE("capacity"),
1052 #endif
1053 			TRANSLATE("Mounted on"));
1054 		SET_OPTION(h);
1055 		return;
1056 	}
1057 	if (k_option) {
1058 		int arg = 'h';
1059 
1060 		(void) printf(gettext("%-*s %*s %*s %*s %-*s %s\n"),
1061 			FILESYSTEM_WIDTH, TRANSLATE("Filesystem"),
1062 #ifdef XPG4
1063 			KBYTE_WIDTH, TRANSLATE("1024-blocks"),
1064 			KBYTE_WIDTH, TRANSLATE("Used"),
1065 			KBYTE_WIDTH, TRANSLATE("Available"),
1066 			CAPACITY_WIDTH, TRANSLATE("Capacity"),
1067 #else
1068 			KBYTE_WIDTH, TRANSLATE("kbytes"),
1069 			KBYTE_WIDTH, TRANSLATE("used"),
1070 			KBYTE_WIDTH, TRANSLATE("avail"),
1071 			CAPACITY_WIDTH, TRANSLATE("capacity"),
1072 #endif
1073 			TRANSLATE("Mounted on"));
1074 		SET_OPTION(h);
1075 		return;
1076 	}
1077 	/* Added for XCU4 compliance */
1078 	if (P_option) {
1079 		int arg = 'h';
1080 
1081 		(void) printf(gettext("%-*s %*s %*s %*s %-*s %s\n"),
1082 			FILESYSTEM_WIDTH, TRANSLATE("Filesystem"),
1083 			KBYTE_WIDTH, TRANSLATE("512-blocks"),
1084 			KBYTE_WIDTH, TRANSLATE("Used"),
1085 			KBYTE_WIDTH, TRANSLATE("Available"),
1086 			CAPACITY_WIDTH, TRANSLATE("Capacity"),
1087 			TRANSLATE("Mounted on"));
1088 
1089 		SET_OPTION(h);
1090 		return;
1091 	}
1092 	/* End XCU4 */
1093 	if (v_option) {
1094 		(void) printf("%-*s %-*s %*s %*s %*s %-*s\n",
1095 			IBCS2_MOUNT_POINT_WIDTH, TRANSLATE("Mount Dir"),
1096 			IBCS2_FILESYSTEM_WIDTH, TRANSLATE("Filesystem"),
1097 			BLOCK_WIDTH, TRANSLATE("blocks"),
1098 			BLOCK_WIDTH, TRANSLATE("used"),
1099 			BLOCK_WIDTH, TRANSLATE("free"),
1100 			CAPACITY_WIDTH, TRANSLATE(" %used"));
1101 		return;
1102 	}
1103 	if (e_option) {
1104 		(void) printf(gettext("%-*s %*s\n"),
1105 			FILESYSTEM_WIDTH, TRANSLATE("Filesystem"),
1106 			BLOCK_WIDTH, TRANSLATE("ifree"));
1107 		return;
1108 	}
1109 	if (b_option) {
1110 		(void) printf(gettext("%-*s %*s\n"),
1111 			FILESYSTEM_WIDTH, TRANSLATE("Filesystem"),
1112 			BLOCK_WIDTH, TRANSLATE("avail"));
1113 		return;
1114 	}
1115 }
1116 
1117 
1118 /*
1119  * Convert an unsigned long long to a string representation and place the
1120  * result in the caller-supplied buffer.
1121  * The given number is in units of "unit_from" size, but the
1122  * converted number will be in units of "unit_to" size. The unit sizes
1123  * must be powers of 2.
1124  * The value "(unsigned long long)-1" is a special case and is always
1125  * converted to "-1".
1126  * Returns a pointer to the caller-supplied buffer.
1127  */
1128 static char *
1129 number_to_string(
1130 			char *buf,		/* put the result here */
1131 			unsigned long long number, /* convert this number */
1132 			int unit_from,		/* from units of this size */
1133 			int unit_to)		/* to units of this size */
1134 {
1135 	if ((long long)number == (long long)-1)
1136 		(void) strcpy(buf, "-1");
1137 	else {
1138 		if (unit_from == unit_to)
1139 			(void) sprintf(buf, "%llu", number);
1140 		else if (unit_from < unit_to)
1141 			(void) sprintf(buf, "%llu",
1142 			    number / (unsigned long long)(unit_to / unit_from));
1143 		else
1144 			(void) sprintf(buf, "%llu",
1145 			    number * (unsigned long long)(unit_from / unit_to));
1146 	}
1147 	return (buf);
1148 }
1149 
1150 /*
1151  * Convert an unsigned long long to a string representation and place the
1152  * result in the caller-supplied buffer.
1153  * The given number is in units of "unit_from" size,
1154  * this will first be converted to a number in 1024 or 1000 byte size,
1155  * depending on the scaling factor.
1156  * Then the number is scaled down until it is small enough to be in a good
1157  * human readable format i.e. in the range 0 thru scale-1.
1158  * If it's smaller than 10 there's room enough to provide one decimal place.
1159  * The value "(unsigned long long)-1" is a special case and is always
1160  * converted to "-1".
1161  * Returns a pointer to the caller-supplied buffer.
1162  */
1163 static char *
1164 number_to_scaled_string(
1165 			numbuf_t buf,		/* put the result here */
1166 			unsigned long long number, /* convert this number */
1167 			int unit_from,
1168 			int scale)
1169 {
1170 	unsigned long long save = 0;
1171 	char *M = "KMGTPE"; /* Measurement: kilo, mega, giga, tera, peta, exa */
1172 	char *uom = M;    /* unit of measurement, initially 'K' (=M[0]) */
1173 
1174 	if ((long long)number == (long long)-1) {
1175 		(void) strcpy(buf, "-1");
1176 		return (buf);
1177 	}
1178 
1179 	/*
1180 	 * Convert number from unit_from to given scale (1024 or 1000).
1181 	 * This means multiply number by unit_from and divide by scale.
1182 	 *
1183 	 * Would like to multiply by unit_from and then divide by scale,
1184 	 * but if the first multiplication would overflow, then need to
1185 	 * divide by scale and then multiply by unit_from.
1186 	 */
1187 	if (number > (UINT64_MAX / (unsigned long long)unit_from)) {
1188 		number = (number / (unsigned long long)scale) *
1189 		    (unsigned long long)unit_from;
1190 	} else {
1191 		number = (number * (unsigned long long)unit_from) /
1192 		    (unsigned long long)scale;
1193 	}
1194 
1195 	/*
1196 	 * Now we have number as a count of scale units.
1197 	 * Stop scaling when we reached exa bytes, then something is
1198 	 * probably wrong with our number.
1199 	 */
1200 
1201 	while ((number >= scale) && (*uom != 'E')) {
1202 		uom++; /* next unit of measurement */
1203 		save = number;
1204 		number = (number + (scale / 2)) / scale;
1205 	}
1206 	/* check if we should output a decimal place after the point */
1207 	if (save && ((save / scale) < 10)) {
1208 		/* sprintf() will round for us */
1209 		float fnum = (float)save / scale;
1210 		(void) sprintf(buf, "%2.1f%c", fnum, *uom);
1211 	} else {
1212 		(void) sprintf(buf, "%4llu%c", number, *uom);
1213 	}
1214 	return (buf);
1215 }
1216 
1217 /*
1218  * The statvfs() implementation allows us to return only two values, the total
1219  * number of blocks and the number of blocks free.  The equation 'used = total -
1220  * free' will not work for ZFS filesystems, due to the nature of pooled storage.
1221  * We choose to return values in the statvfs structure that will produce correct
1222  * results for 'used' and 'available', but not 'total'.  This function will open
1223  * the underlying ZFS dataset if necessary and get the real value.
1224  */
1225 static void
1226 adjust_total_blocks(struct df_request *dfrp, fsblkcnt64_t *total,
1227     uint64_t blocksize)
1228 {
1229 	zfs_handle_t	*zhp;
1230 	char *dataset, *slash;
1231 	uint64_t quota;
1232 
1233 	if (strcmp(DFR_FSTYPE(dfrp), MNTTYPE_ZFS) != 0 ||
1234 	    _zfs_open == NULL)
1235 		return;
1236 
1237 	/*
1238 	 * We want to get the total size for this filesystem as bounded by any
1239 	 * quotas. In order to do this, we start at the current filesystem and
1240 	 * work upwards until we find a dataset with a quota.  If we reach the
1241 	 * pool itself, then the total space is the amount used plus the amount
1242 	 * available.
1243 	 */
1244 	if ((dataset = strdup(DFR_SPECIAL(dfrp))) == NULL)
1245 		return;
1246 
1247 	slash = dataset + strlen(dataset);
1248 	do {
1249 		*slash = '\0';
1250 
1251 		if ((zhp = _zfs_open(dataset, ZFS_TYPE_ANY)) == NULL) {
1252 			free(dataset);
1253 			return;
1254 		}
1255 
1256 		if ((quota = _zfs_prop_get_int(zhp, ZFS_PROP_QUOTA)) != 0) {
1257 			*total = quota / blocksize;
1258 			_zfs_close(zhp);
1259 			free(dataset);
1260 			return;
1261 		}
1262 
1263 		_zfs_close(zhp);
1264 
1265 	} while ((slash = strrchr(dataset, '/')) != NULL);
1266 
1267 
1268 	if ((zhp = _zfs_open(dataset, ZFS_TYPE_ANY)) == NULL) {
1269 		free(dataset);
1270 		return;
1271 	}
1272 
1273 	*total = (_zfs_prop_get_int(zhp, ZFS_PROP_USED) +
1274 	    _zfs_prop_get_int(zhp, ZFS_PROP_AVAILABLE)) / blocksize;
1275 
1276 	_zfs_close(zhp);
1277 	free(dataset);
1278 }
1279 
1280 /*
1281  * The output will appear properly columnized regardless of the names of
1282  * the various fields
1283  */
1284 static void
1285 g_output(struct df_request *dfrp, struct statvfs64 *fsp)
1286 {
1287 	fsblkcnt64_t	available_blocks	= fsp->f_bavail;
1288 	fsblkcnt64_t	total_blocks = fsp->f_blocks;
1289 	numbuf_t	total_blocks_buf;
1290 	numbuf_t	total_files_buf;
1291 	numbuf_t	free_blocks_buf;
1292 	numbuf_t	available_blocks_buf;
1293 	numbuf_t	free_files_buf;
1294 	numbuf_t	fname_buf;
1295 	char		*temp_buf;
1296 
1297 #define	DEFINE_STR_LEN(var)			\
1298 	static char *var##_str;			\
1299 	static size_t var##_len
1300 
1301 #define	SET_STR_LEN(name, var)\
1302 	if (! var##_str) {\
1303 		var##_str = TRANSLATE(name); \
1304 		var##_len = strlen(var##_str); \
1305 	}
1306 
1307 	DEFINE_STR_LEN(block_size);
1308 	DEFINE_STR_LEN(frag_size);
1309 	DEFINE_STR_LEN(total_blocks);
1310 	DEFINE_STR_LEN(free_blocks);
1311 	DEFINE_STR_LEN(available);
1312 	DEFINE_STR_LEN(total_files);
1313 	DEFINE_STR_LEN(free_files);
1314 	DEFINE_STR_LEN(fstype);
1315 	DEFINE_STR_LEN(fsys_id);
1316 	DEFINE_STR_LEN(fname);
1317 	DEFINE_STR_LEN(flag);
1318 
1319 	/*
1320 	 * TRANSLATION_NOTE
1321 	 * The first argument of each of the following macro invocations is a
1322 	 * string that needs to be translated.
1323 	 */
1324 	SET_STR_LEN("block size", block_size);
1325 	SET_STR_LEN("frag size", frag_size);
1326 	SET_STR_LEN("total blocks", total_blocks);
1327 	SET_STR_LEN("free blocks", free_blocks);
1328 	SET_STR_LEN("available", available);
1329 	SET_STR_LEN("total files", total_files);
1330 	SET_STR_LEN("free files", free_files);
1331 	SET_STR_LEN("fstype", fstype);
1332 	SET_STR_LEN("filesys id", fsys_id);
1333 	SET_STR_LEN("filename length", fname);
1334 	SET_STR_LEN("flag", flag);
1335 
1336 #define	NCOL1_WIDTH	(int)MAX3(BLOCK_WIDTH, NFILES_WIDTH, FSTYPE_WIDTH)
1337 #define	NCOL2_WIDTH	(int)MAX3(BLOCK_WIDTH, FSID_WIDTH, FLAG_WIDTH) + 2
1338 #define	NCOL3_WIDTH	(int)MAX3(BSIZE_WIDTH, BLOCK_WIDTH, NAMELEN_WIDTH)
1339 #define	NCOL4_WIDTH	(int)MAX(FRAGSIZE_WIDTH, NFILES_WIDTH)
1340 
1341 #define	SCOL1_WIDTH	(int)MAX3(total_blocks_len, free_files_len, fstype_len)
1342 #define	SCOL2_WIDTH	(int)MAX3(free_blocks_len, fsys_id_len, flag_len)
1343 #define	SCOL3_WIDTH	(int)MAX3(block_size_len, available_len, fname_len)
1344 #define	SCOL4_WIDTH	(int)MAX(frag_size_len, total_files_len)
1345 
1346 	temp_buf = xmalloc(
1347 	    MAX(MOUNT_POINT_WIDTH, strlen(DFR_MOUNT_POINT(dfrp)))
1348 	    + MAX(SPECIAL_DEVICE_WIDTH, strlen(DFR_SPECIAL(dfrp)))
1349 	    + 20); /* plus slop - nulls & formatting */
1350 	(void) sprintf(temp_buf, "%-*s(%-*s):",
1351 		MOUNT_POINT_WIDTH, DFR_MOUNT_POINT(dfrp),
1352 		SPECIAL_DEVICE_WIDTH, DFR_SPECIAL(dfrp));
1353 
1354 	(void) printf("%-*s %*lu %-*s %*lu %-*s\n",
1355 	NCOL1_WIDTH + 1 + SCOL1_WIDTH + 1 + NCOL2_WIDTH + 1 +  SCOL2_WIDTH,
1356 		temp_buf,
1357 	NCOL3_WIDTH, fsp->f_bsize, SCOL3_WIDTH, block_size_str,
1358 	NCOL4_WIDTH, fsp->f_frsize, SCOL4_WIDTH, frag_size_str);
1359 	free(temp_buf);
1360 
1361 	/*
1362 	 * Adjust available_blocks value -  it can be less than 0 on
1363 	 * a 4.x file system. Reset it to 0 in order to avoid printing
1364 	 * negative numbers.
1365 	 */
1366 	if ((long long)available_blocks < (long long)0)
1367 		available_blocks = (fsblkcnt64_t)0;
1368 
1369 	adjust_total_blocks(dfrp, &total_blocks, fsp->f_frsize);
1370 
1371 	(void) printf("%*s %-*s %*s %-*s %*s %-*s %*s %-*s\n",
1372 		NCOL1_WIDTH, number_to_string(total_blocks_buf,
1373 					total_blocks, fsp->f_frsize, 512),
1374 			SCOL1_WIDTH, total_blocks_str,
1375 		NCOL2_WIDTH, number_to_string(free_blocks_buf,
1376 					fsp->f_bfree, fsp->f_frsize, 512),
1377 			SCOL2_WIDTH, free_blocks_str,
1378 		NCOL3_WIDTH, number_to_string(available_blocks_buf,
1379 					available_blocks, fsp->f_frsize, 512),
1380 			SCOL3_WIDTH, available_str,
1381 		NCOL4_WIDTH, number_to_string(total_files_buf,
1382 					fsp->f_files, 1, 1),
1383 			SCOL4_WIDTH, total_files_str);
1384 
1385 	(void) printf("%*s %-*s %*lu %-*s %s\n",
1386 		NCOL1_WIDTH, number_to_string(free_files_buf,
1387 					fsp->f_ffree, 1, 1),
1388 			SCOL1_WIDTH, free_files_str,
1389 		NCOL2_WIDTH, fsp->f_fsid, SCOL2_WIDTH, fsys_id_str,
1390 		fsp->f_fstr);
1391 
1392 	(void) printf("%*s %-*s %#*.*lx %-*s %*s %-*s\n\n",
1393 		NCOL1_WIDTH, fsp->f_basetype, SCOL1_WIDTH, fstype_str,
1394 		NCOL2_WIDTH, NCOL2_WIDTH-2, fsp->f_flag, SCOL2_WIDTH, flag_str,
1395 		NCOL3_WIDTH, number_to_string(fname_buf,
1396 			(unsigned long long)fsp->f_namemax, 1, 1),
1397 			SCOL3_WIDTH, fname_str);
1398 }
1399 
1400 
1401 static void
1402 k_output(struct df_request *dfrp, struct statvfs64 *fsp)
1403 {
1404 	fsblkcnt64_t total_blocks		= fsp->f_blocks;
1405 	fsblkcnt64_t	free_blocks		= fsp->f_bfree;
1406 	fsblkcnt64_t	available_blocks	= fsp->f_bavail;
1407 	fsblkcnt64_t	used_blocks;
1408 	char 		*file_system		= DFR_SPECIAL(dfrp);
1409 	numbuf_t	total_blocks_buf;
1410 	numbuf_t	used_blocks_buf;
1411 	numbuf_t	available_blocks_buf;
1412 	char 		capacity_buf[LINEBUF_SIZE];
1413 
1414 	/*
1415 	 * If the free block count is -1, don't trust anything but the total
1416 	 * number of blocks.
1417 	 */
1418 	if (free_blocks == (fsblkcnt64_t)-1) {
1419 		used_blocks = (fsblkcnt64_t)-1;
1420 		(void) strcpy(capacity_buf, "  100%");
1421 	} else {
1422 		fsblkcnt64_t reserved_blocks = free_blocks - available_blocks;
1423 
1424 		used_blocks	= total_blocks - free_blocks;
1425 
1426 		/*
1427 		 * The capacity estimation is bogus when available_blocks is 0
1428 		 * and the super-user has allocated more space. The reason
1429 		 * is that reserved_blocks is inaccurate in that case, because
1430 		 * when the super-user allocates space, free_blocks is updated
1431 		 * but available_blocks is not (since it can't drop below 0).
1432 		 *
1433 		 * XCU4 and POSIX.2 require that any fractional result of the
1434 		 * capacity estimation be rounded to the next highest integer,
1435 		 * hence the addition of 0.5.
1436 		 */
1437 		(void) sprintf(capacity_buf, "%5.0f%%",
1438 			(total_blocks == 0) ? 0.0 :
1439 			((double)used_blocks /
1440 				(double)(total_blocks - reserved_blocks))
1441 					* 100.0 + 0.5);
1442 	}
1443 
1444 	/*
1445 	 * The available_blocks can be less than 0 on a 4.x file system.
1446 	 * Reset it to 0 in order to avoid printing negative numbers.
1447 	 */
1448 	if ((long long)available_blocks < (long long)0)
1449 		available_blocks = (fsblkcnt64_t)0;
1450 	/*
1451 	 * Print long special device names (usually NFS mounts) in a line
1452 	 * by themselves when the output is directed to a terminal.
1453 	 */
1454 	if (tty_output && strlen(file_system) > (size_t)FILESYSTEM_WIDTH) {
1455 		(void) printf("%s\n", file_system);
1456 		file_system = "";
1457 	}
1458 
1459 	adjust_total_blocks(dfrp, &total_blocks, fsp->f_frsize);
1460 
1461 	if (use_scaling) { /* comes from the -h option */
1462 	(void) printf("%-*s %*s %*s %*s %-*s %-s\n",
1463 		FILESYSTEM_WIDTH, file_system,
1464 		SCALED_WIDTH, number_to_scaled_string(total_blocks_buf,
1465 					total_blocks, fsp->f_frsize, scale),
1466 		SCALED_WIDTH, number_to_scaled_string(used_blocks_buf,
1467 					used_blocks, fsp->f_frsize, scale),
1468 		AVAILABLE_WIDTH, number_to_scaled_string(available_blocks_buf,
1469 					available_blocks, fsp->f_frsize, scale),
1470 		CAPACITY_WIDTH, capacity_buf,
1471 		DFR_MOUNT_POINT(dfrp));
1472 		return;
1473 	}
1474 
1475 	if (v_option) {
1476 	(void) printf("%-*.*s %-*.*s %*lld %*lld %*lld %-.*s\n",
1477 		IBCS2_MOUNT_POINT_WIDTH, IBCS2_MOUNT_POINT_WIDTH,
1478 		DFR_MOUNT_POINT(dfrp),
1479 		IBCS2_FILESYSTEM_WIDTH, IBCS2_FILESYSTEM_WIDTH, file_system,
1480 		BLOCK_WIDTH, total_blocks,
1481 		BLOCK_WIDTH, used_blocks,
1482 		BLOCK_WIDTH, available_blocks,
1483 		CAPACITY_WIDTH,	capacity_buf);
1484 		return;
1485 	}
1486 
1487 	if (P_option && !k_option) {
1488 	(void) printf("%-*s %*s %*s %*s %-*s %-s\n",
1489 		FILESYSTEM_WIDTH, file_system,
1490 		KBYTE_WIDTH, number_to_string(total_blocks_buf,
1491 					total_blocks, fsp->f_frsize, 512),
1492 		KBYTE_WIDTH, number_to_string(used_blocks_buf,
1493 					used_blocks, fsp->f_frsize, 512),
1494 		KBYTE_WIDTH, number_to_string(available_blocks_buf,
1495 					available_blocks, fsp->f_frsize, 512),
1496 		CAPACITY_WIDTH, capacity_buf,
1497 		DFR_MOUNT_POINT(dfrp));
1498 	} else {
1499 	(void) printf("%-*s %*s %*s %*s %-*s %-s\n",
1500 		FILESYSTEM_WIDTH, file_system,
1501 		KBYTE_WIDTH, number_to_string(total_blocks_buf,
1502 					total_blocks, fsp->f_frsize, 1024),
1503 		KBYTE_WIDTH, number_to_string(used_blocks_buf,
1504 					used_blocks, fsp->f_frsize, 1024),
1505 		KBYTE_WIDTH, number_to_string(available_blocks_buf,
1506 					available_blocks, fsp->f_frsize, 1024),
1507 		CAPACITY_WIDTH,	capacity_buf,
1508 		DFR_MOUNT_POINT(dfrp));
1509 	}
1510 }
1511 
1512 /*
1513  * The following is for internationalization support.
1514  */
1515 static bool_int strings_initialized;
1516 static char 	*files_str;
1517 static char	*blocks_str;
1518 static char	*total_str;
1519 static char	*kilobytes_str;
1520 
1521 static void
1522 strings_init(void)
1523 {
1524 	total_str = TRANSLATE("total");
1525 #ifdef	_iBCS2
1526 	/* ISC/SCO print i-nodes instead of files */
1527 	if (sysv3_set)
1528 		files_str = TRANSLATE("i-nodes");
1529 	else
1530 #endif	/* _iBCS2 */
1531 		files_str = TRANSLATE("files");
1532 	blocks_str = TRANSLATE("blocks");
1533 	kilobytes_str = TRANSLATE("kilobytes");
1534 	strings_initialized = TRUE;
1535 }
1536 
1537 #define	STRINGS_INIT()		if (!strings_initialized) strings_init()
1538 
1539 
1540 static void
1541 t_output(struct df_request *dfrp, struct statvfs64 *fsp)
1542 {
1543 	fsblkcnt64_t	total_blocks = fsp->f_blocks;
1544 	numbuf_t	total_blocks_buf;
1545 	numbuf_t	total_files_buf;
1546 	numbuf_t	free_blocks_buf;
1547 	numbuf_t	free_files_buf;
1548 
1549 	STRINGS_INIT();
1550 
1551 	adjust_total_blocks(dfrp, &total_blocks, fsp->f_frsize);
1552 
1553 	(void) printf("%-*s(%-*s): %*s %s %*s %s\n",
1554 		MOUNT_POINT_WIDTH, DFR_MOUNT_POINT(dfrp),
1555 		SPECIAL_DEVICE_WIDTH, DFR_SPECIAL(dfrp),
1556 		BLOCK_WIDTH, number_to_string(free_blocks_buf,
1557 			fsp->f_bfree, fsp->f_frsize, 512),
1558 			blocks_str,
1559 		NFILES_WIDTH, number_to_string(free_files_buf,
1560 			fsp->f_ffree, 1, 1),
1561 		files_str);
1562 	/*
1563 	 * The total column used to use the same space as the mnt pt & special
1564 	 * dev fields. However, this doesn't work with massive special dev
1565 	 * fields * (eg > 500 chars) causing an enormous amount of white space
1566 	 * before the total column (see bug 4100411). So the code was
1567 	 * simplified to set the total column at the usual gap.
1568 	 * This had the side effect of fixing a bug where the previously
1569 	 * used static buffer was overflowed by the same massive special dev.
1570 	 */
1571 	(void) printf("%*s: %*s %s %*s %s\n",
1572 		MNT_SPEC_WIDTH, total_str,
1573 		BLOCK_WIDTH, number_to_string(total_blocks_buf,
1574 				total_blocks, fsp->f_frsize, 512),
1575 		blocks_str,
1576 		NFILES_WIDTH, number_to_string(total_files_buf,
1577 				fsp->f_files, 1, 1),
1578 		files_str);
1579 }
1580 
1581 
1582 static void
1583 eb_output(struct df_request *dfrp, struct statvfs64 *fsp)
1584 {
1585 	numbuf_t free_files_buf;
1586 	numbuf_t free_kbytes_buf;
1587 
1588 	STRINGS_INIT();
1589 
1590 	(void) printf("%-*s(%-*s): %*s %s\n",
1591 		MOUNT_POINT_WIDTH, DFR_MOUNT_POINT(dfrp),
1592 		SPECIAL_DEVICE_WIDTH, DFR_SPECIAL(dfrp),
1593 		MAX(KBYTE_WIDTH, NFILES_WIDTH),
1594 			number_to_string(free_kbytes_buf,
1595 			fsp->f_bfree, fsp->f_frsize, 1024),
1596 		kilobytes_str);
1597 	(void) printf("%-*s(%-*s): %*s %s\n",
1598 		MOUNT_POINT_WIDTH, DFR_MOUNT_POINT(dfrp),
1599 		SPECIAL_DEVICE_WIDTH, DFR_SPECIAL(dfrp),
1600 		MAX(NFILES_WIDTH, NFILES_WIDTH),
1601 			number_to_string(free_files_buf, fsp->f_ffree, 1, 1),
1602 		files_str);
1603 }
1604 
1605 
1606 static void
1607 e_output(struct df_request *dfrp, struct statvfs64 *fsp)
1608 {
1609 	numbuf_t free_files_buf;
1610 
1611 	(void) printf("%-*s %*s\n",
1612 		FILESYSTEM_WIDTH, DFR_SPECIAL(dfrp),
1613 		NFILES_WIDTH,
1614 			number_to_string(free_files_buf, fsp->f_ffree, 1, 1));
1615 }
1616 
1617 
1618 static void
1619 b_output(struct df_request *dfrp, struct statvfs64 *fsp)
1620 {
1621 	numbuf_t free_blocks_buf;
1622 
1623 	(void) printf("%-*s %*s\n",
1624 		FILESYSTEM_WIDTH, DFR_SPECIAL(dfrp),
1625 		BLOCK_WIDTH, number_to_string(free_blocks_buf,
1626 				fsp->f_bfree, fsp->f_frsize, 1024));
1627 }
1628 
1629 
1630 /* ARGSUSED */
1631 static void
1632 n_output(struct df_request *dfrp, struct statvfs64 *fsp)
1633 {
1634 	(void) printf("%-*s: %-*s\n",
1635 		MOUNT_POINT_WIDTH, DFR_MOUNT_POINT(dfrp),
1636 		FSTYPE_WIDTH, dfrp->dfr_fstype);
1637 }
1638 
1639 
1640 static void
1641 default_output(struct df_request *dfrp, struct statvfs64 *fsp)
1642 {
1643 	numbuf_t free_blocks_buf;
1644 	numbuf_t free_files_buf;
1645 
1646 	STRINGS_INIT();
1647 
1648 	(void) printf("%-*s(%-*s):%*s %s %*s %s\n",
1649 		MOUNT_POINT_WIDTH, DFR_MOUNT_POINT(dfrp),
1650 		SPECIAL_DEVICE_WIDTH, DFR_SPECIAL(dfrp),
1651 		BLOCK_WIDTH, number_to_string(free_blocks_buf,
1652 			fsp->f_bfree, fsp->f_frsize, 512),
1653 		blocks_str,
1654 		NFILES_WIDTH, number_to_string(free_files_buf,
1655 			fsp->f_ffree, 1, 1),
1656 		files_str);
1657 }
1658 
1659 
1660 /* ARGSUSED */
1661 static void
1662 V_output(struct df_request *dfrp, struct statvfs64 *fsp)
1663 {
1664 	char temp_buf[LINEBUF_SIZE];
1665 
1666 	if (df_options_len > 1)
1667 		(void) strcat(strcpy(temp_buf, df_options), " ");
1668 	else
1669 		temp_buf[0] = NUL;
1670 
1671 	(void) printf("%s -F %s %s%s\n",
1672 		program_name, dfrp->dfr_fstype, temp_buf,
1673 		dfrp->dfr_cmd_arg ? dfrp->dfr_cmd_arg: DFR_SPECIAL(dfrp));
1674 }
1675 
1676 
1677 /*
1678  * This function is used to sort the array of df_requests according to fstype
1679  */
1680 static int
1681 df_reqcomp(const void *p1, const void *p2)
1682 {
1683 	int v = strcmp(DFRP(p1)->dfr_fstype, DFRP(p2)->dfr_fstype);
1684 
1685 	if (v != 0)
1686 		return (v);
1687 	else
1688 		return (DFRP(p1)->dfr_index - DFRP(p2)->dfr_index);
1689 }
1690 
1691 
1692 static void
1693 vfs_error(char *file, int status)
1694 {
1695 	if (status == VFS_TOOLONG)
1696 		errmsg(ERR_NOFLAGS, "a line in %s exceeds %d characters",
1697 			file, MNT_LINE_MAX);
1698 	else if (status == VFS_TOOMANY)
1699 		errmsg(ERR_NOFLAGS, "a line in %s has too many fields", file);
1700 	else if (status == VFS_TOOFEW)
1701 		errmsg(ERR_NOFLAGS, "a line in %s has too few fields", file);
1702 	else
1703 		errmsg(ERR_NOFLAGS, "error while reading %s: %d", file, status);
1704 }
1705 
1706 
1707 /*
1708  * Try to determine the fstype for the specified block device.
1709  * Return in order of decreasing preference:
1710  *	file system type from vfstab
1711  *	file system type as specified by -F option
1712  *	default file system type
1713  */
1714 static char *
1715 find_fstype(char *special)
1716 {
1717 	struct vfstab	vtab;
1718 	FILE		*fp;
1719 	int		status;
1720 	char		*vfstab_file = VFS_TAB;
1721 
1722 	fp = xfopen(vfstab_file);
1723 	status = getvfsspec(fp, &vtab, special);
1724 	(void) fclose(fp);
1725 	if (status > 0)
1726 		vfs_error(vfstab_file, status);
1727 
1728 	if (status == 0) {
1729 		if (F_option && ! EQ(FSType, vtab.vfs_fstype))
1730 			errmsg(ERR_NOFLAGS,
1731 			"warning: %s is of type %s", special, vtab.vfs_fstype);
1732 		return (new_string(vtab.vfs_fstype));
1733 	}
1734 	else
1735 		return (F_option ? FSType : default_fstype(special));
1736 }
1737 
1738 /*
1739  * When this function returns, the following fields are filled for all
1740  * valid entries in the requests[] array:
1741  *		dfr_mte		(if the file system is mounted)
1742  *		dfr_fstype
1743  *		dfr_index
1744  *
1745  * The function returns the number of errors that occurred while building
1746  * the request list.
1747  */
1748 static int
1749 create_request_list(
1750 			int argc,
1751 			char *argv[],
1752 			struct df_request *requests_p[],
1753 			size_t *request_count)
1754 {
1755 	struct df_request	*requests;
1756 	struct df_request	*dfrp;
1757 	size_t			size;
1758 	size_t 			i;
1759 	size_t 			request_index = 0;
1760 	size_t			max_requests;
1761 	int			errors = 0;
1762 
1763 	/*
1764 	 * If no args, use the mounted file systems, otherwise use the
1765 	 * user-specified arguments.
1766 	 */
1767 	if (argc == 0) {
1768 		mtab_read_file();
1769 		max_requests = mount_table_entries;
1770 	} else
1771 		max_requests = argc;
1772 
1773 	size = max_requests * sizeof (struct df_request);
1774 	requests = xmalloc(size);
1775 	(void) memset(requests, 0, size);
1776 
1777 	if (argc == 0) {
1778 		/*
1779 		 * If -Z wasn't specified, we skip mounts in other
1780 		 * zones.  This obviously is a noop in a non-global
1781 		 * zone.
1782 		 */
1783 		boolean_t showall = (getzoneid() != GLOBAL_ZONEID) || Z_option;
1784 		struct zone_summary *zsp;
1785 
1786 		if (!showall) {
1787 			zsp = fs_get_zone_summaries();
1788 			if (zsp == NULL)
1789 				errmsg(ERR_FATAL,
1790 				    "unable to retrieve list of zones");
1791 		}
1792 
1793 		for (i = 0; i < mount_table_entries; i++) {
1794 			struct extmnttab *mtp = mount_table[i].mte_mount;
1795 
1796 			if (EQ(mtp->mnt_fstype, MNTTYPE_SWAP))
1797 				continue;
1798 
1799 			if (!showall) {
1800 				if (fs_mount_in_other_zone(zsp,
1801 				    mtp->mnt_mountp))
1802 					continue;
1803 			}
1804 			dfrp = &requests[request_index++];
1805 			dfrp->dfr_mte		= &mount_table[i];
1806 			dfrp->dfr_fstype	= mtp->mnt_fstype;
1807 			dfrp->dfr_index		= i;
1808 			dfrp->dfr_valid		= TRUE;
1809 		}
1810 	} else {
1811 		struct stat64 *arg_stat; /* array of stat structures	*/
1812 		bool_int *valid_stat;	/* which structures are valid	*/
1813 
1814 		arg_stat = xmalloc(argc * sizeof (struct stat64));
1815 		valid_stat = xmalloc(argc * sizeof (bool_int));
1816 
1817 		/*
1818 		 * Obtain stat64 information for each argument before
1819 		 * constructing the list of mounted file systems. By
1820 		 * touching all these places we force the automounter
1821 		 * to establish any mounts required to access the arguments,
1822 		 * so that the corresponding mount table entries will exist
1823 		 * when we look for them.
1824 		 * It is still possible that the automounter may timeout
1825 		 * mounts between the time we read the mount table and the
1826 		 * time we process the request. Even in that case, when
1827 		 * we issue the statvfs64(2) for the mount point, the file
1828 		 * system will be mounted again. The only problem will
1829 		 * occur if the automounter maps change in the meantime
1830 		 * and the mount point is eliminated.
1831 		 */
1832 		for (i = 0; i < argc; i++)
1833 			valid_stat[i] = (stat64(argv[i], &arg_stat[i]) == 0);
1834 
1835 		mtab_read_file();
1836 
1837 		for (i = 0; i < argc; i++) {
1838 			char *arg = argv[i];
1839 
1840 			dfrp = &requests[request_index];
1841 
1842 			dfrp->dfr_index = request_index;
1843 			dfrp->dfr_cmd_arg = arg;
1844 
1845 			if (valid_stat[i]) {
1846 				if (S_ISBLK(arg_stat[i].st_mode)) {
1847 					bdev_mount_entry(dfrp);
1848 					dfrp->dfr_valid = TRUE;
1849 				} else if (S_ISDIR(arg_stat[i].st_mode) ||
1850 					S_ISREG(arg_stat[i].st_mode) ||
1851 					S_ISFIFO(arg_stat[i].st_mode)) {
1852 					path_mount_entry(dfrp,
1853 						arg_stat[i].st_dev);
1854 					if (! DFR_ISMOUNTEDFS(dfrp)) {
1855 						errors++;
1856 						continue;
1857 					}
1858 					dfrp->dfr_valid = TRUE;
1859 				}
1860 			} else {
1861 				resource_mount_entry(dfrp);
1862 				dfrp->dfr_valid = DFR_ISMOUNTEDFS(dfrp);
1863 			}
1864 
1865 			/*
1866 			 * If we haven't managed to verify that the request
1867 			 * is valid, we must have gotten a bad argument.
1868 			 */
1869 			if (!dfrp->dfr_valid) {
1870 				errmsg(ERR_NOFLAGS,
1871 		"(%-10s) not a block device, directory or mounted resource",
1872 					arg);
1873 				errors++;
1874 				continue;
1875 			}
1876 
1877 			/*
1878 			 * Determine the file system type.
1879 			 */
1880 			if (DFR_ISMOUNTEDFS(dfrp))
1881 				dfrp->dfr_fstype =
1882 					dfrp->dfr_mte->mte_mount->mnt_fstype;
1883 			else
1884 				dfrp->dfr_fstype =
1885 					find_fstype(dfrp->dfr_cmd_arg);
1886 
1887 			request_index++;
1888 		}
1889 	}
1890 	*requests_p = requests;
1891 	*request_count = request_index;
1892 	return (errors);
1893 }
1894 
1895 
1896 /*
1897  * Select the appropriate function and flags to use for output.
1898  * Notice that using both -e and -b options produces a different form of
1899  * output than either of those two options alone; this is the behavior of
1900  * the SVR4 df.
1901  */
1902 static struct df_output *
1903 select_output(void)
1904 {
1905 	static struct df_output dfo;
1906 
1907 	/*
1908 	 * The order of checking options follows the option precedence
1909 	 * rules as they are listed in the man page.
1910 	 */
1911 	if (use_scaling) { /* comes from the -h option */
1912 		dfo.dfo_func = k_output;
1913 		dfo.dfo_flags = DFO_HEADER + DFO_STATVFS;
1914 	} else if (V_option) {
1915 		dfo.dfo_func = V_output;
1916 		dfo.dfo_flags = DFO_NOFLAGS;
1917 	} else if (g_option) {
1918 		dfo.dfo_func = g_output;
1919 		dfo.dfo_flags = DFO_STATVFS;
1920 	} else if (k_option || P_option || v_option) {
1921 		dfo.dfo_func = k_output;
1922 		dfo.dfo_flags = DFO_HEADER + DFO_STATVFS;
1923 	} else if (t_option) {
1924 		dfo.dfo_func = t_output;
1925 		dfo.dfo_flags = DFO_STATVFS;
1926 	} else if (b_option && e_option) {
1927 		dfo.dfo_func = eb_output;
1928 		dfo.dfo_flags = DFO_STATVFS;
1929 	} else if (b_option) {
1930 		dfo.dfo_func = b_output;
1931 		dfo.dfo_flags = DFO_HEADER + DFO_STATVFS;
1932 	} else if (e_option) {
1933 		dfo.dfo_func = e_output;
1934 		dfo.dfo_flags = DFO_HEADER + DFO_STATVFS;
1935 	} else if (n_option) {
1936 		dfo.dfo_func = n_output;
1937 		dfo.dfo_flags = DFO_NOFLAGS;
1938 	} else {
1939 		dfo.dfo_func = default_output;
1940 		dfo.dfo_flags = DFO_STATVFS;
1941 	}
1942 	return (&dfo);
1943 }
1944 
1945 
1946 /*
1947  * The (argc,argv) pair contains all the non-option arguments
1948  */
1949 static void
1950 do_df(int argc, char *argv[])
1951 {
1952 	size_t			i;
1953 	struct df_request	*requests;		/* array of requests */
1954 	size_t			n_requests;
1955 	struct df_request	*dfrp;
1956 	int			errors;
1957 
1958 	errors = create_request_list(argc, argv, &requests, &n_requests);
1959 
1960 	if (n_requests == 0)
1961 		exit(errors);
1962 
1963 	/*
1964 	 * If we are going to run the FSType-specific df command,
1965 	 * rearrange the requests so that we can issue a single command
1966 	 * per file system type.
1967 	 */
1968 	if (o_option) {
1969 		size_t j;
1970 
1971 		/*
1972 		 * qsort is not a stable sorting method (i.e. requests of
1973 		 * the same file system type may be swapped, and hence appear
1974 		 * in the output in a different order from the one in which
1975 		 * they were listed in the command line). In order to force
1976 		 * stability, we use the dfr_index field which is unique
1977 		 * for each request.
1978 		 */
1979 		qsort(requests,
1980 			n_requests, sizeof (struct df_request), df_reqcomp);
1981 		for (i = 0; i < n_requests; i = j) {
1982 			char *fstype = requests[i].dfr_fstype;
1983 
1984 			for (j = i+1; j < n_requests; j++)
1985 				if (! EQ(fstype, requests[j].dfr_fstype))
1986 					break;
1987 
1988 			/*
1989 			 * At this point, requests in the range [i,j) are
1990 			 * of the same type.
1991 			 *
1992 			 * If the -F option was used, and the user specified
1993 			 * arguments, the filesystem types must match
1994 			 *
1995 			 * XXX: the alternative of doing this check here is to
1996 			 * 	invoke prune_list, but then we have to
1997 			 *	modify this code to ignore invalid requests.
1998 			 */
1999 			if (F_option && ! EQ(fstype, FSType)) {
2000 				size_t k;
2001 
2002 				for (k = i; k < j; k++) {
2003 					dfrp = &requests[k];
2004 					if (dfrp->dfr_cmd_arg != NULL) {
2005 						errmsg(ERR_NOFLAGS,
2006 				"Warning: %s mounted as a %s file system",
2007 					dfrp->dfr_cmd_arg, dfrp->dfr_fstype);
2008 						errors++;
2009 					}
2010 				}
2011 			} else
2012 				errors += run_fs_specific_df(&requests[i], j-i);
2013 		}
2014 	} else {
2015 		size_t valid_requests;
2016 
2017 		/*
2018 		 * We have to prune the request list to avoid printing a header
2019 		 * if there are no valid requests
2020 		 */
2021 		errors += prune_list(requests, n_requests, &valid_requests);
2022 
2023 		if (valid_requests) {
2024 			struct df_output *dfop = select_output();
2025 
2026 			/* indicates if we already printed out a header line */
2027 			int printed_header = 0;
2028 
2029 			for (i = 0; i < n_requests; i++) {
2030 				dfrp = &requests[i];
2031 				if (! dfrp->dfr_valid)
2032 					continue;
2033 
2034 				/*
2035 				 * If we don't have a mount point,
2036 				 * this must be a block device.
2037 				 */
2038 				if (DFR_ISMOUNTEDFS(dfrp)) {
2039 					struct statvfs64 stvfs;
2040 
2041 					if ((dfop->dfo_flags & DFO_STATVFS) &&
2042 						statvfs64(DFR_MOUNT_POINT(dfrp),
2043 							&stvfs) == -1) {
2044 						errmsg(ERR_PERROR,
2045 							"cannot statvfs %s:",
2046 							DFR_MOUNT_POINT(dfrp));
2047 						errors++;
2048 						continue;
2049 					}
2050 					if ((!printed_header) &&
2051 					    (dfop->dfo_flags & DFO_HEADER)) {
2052 						print_header();
2053 						printed_header = 1;
2054 					}
2055 
2056 					(*dfop->dfo_func)(dfrp, &stvfs);
2057 				} else {
2058 					/*
2059 					 *  -h option only works for
2060 					 *  mounted filesystems
2061 					 */
2062 					if (use_scaling) {
2063 						errmsg(ERR_NOFLAGS,
2064 		"-h option incompatible with unmounted special device (%s)",
2065 						    dfrp->dfr_cmd_arg);
2066 						errors++;
2067 						continue;
2068 					}
2069 					errors += run_fs_specific_df(dfrp, 1);
2070 				}
2071 			}
2072 		}
2073 	}
2074 	exit(errors);
2075 }
2076 
2077 
2078 /*
2079  * The rest of this file implements the devnm command
2080  */
2081 
2082 static char *
2083 find_dev_name(char *file, dev_t dev)
2084 {
2085 	struct df_request dfreq;
2086 
2087 	dfreq.dfr_cmd_arg = file;
2088 	dfreq.dfr_fstype = 0;
2089 	dfreq.dfr_mte = NULL;
2090 	path_mount_entry(&dfreq, dev);
2091 	return (DFR_ISMOUNTEDFS(&dfreq) ? DFR_SPECIAL(&dfreq) : NULL);
2092 }
2093 
2094 
2095 static void
2096 do_devnm(int argc, char *argv[])
2097 {
2098 	int arg;
2099 	int errors = 0;
2100 	char *dev_name;
2101 
2102 	if (argc == 1)
2103 		errmsg(ERR_NONAME, "Usage: %s name ...", DEVNM_CMD);
2104 
2105 	mtab_read_file();
2106 
2107 	for (arg = 1; arg < argc; arg++) {
2108 		char *file = argv[arg];
2109 		struct stat64 st;
2110 
2111 		if (stat64(file, &st) == -1) {
2112 			errmsg(ERR_PERROR, "%s: ", file);
2113 			errors++;
2114 			continue;
2115 		}
2116 
2117 		if (! is_remote_fs(st.st_fstype) &&
2118 			! EQ(st.st_fstype, MNTTYPE_TMPFS) &&
2119 				(dev_name = find_dev_name(file, st.st_dev)))
2120 			(void) printf("%s %s\n", dev_name, file);
2121 		else
2122 			errmsg(ERR_NOFLAGS,
2123 				"%s not found", file);
2124 	}
2125 	exit(errors);
2126 	/* NOTREACHED */
2127 }
2128