xref: /illumos-gate/usr/src/cmd/stat/kstat/kstat.c (revision 1ed6b69a5ca1ca3ee5e9a4931f74e2237c7e1c9f)
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 (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright (c) 1999, 2010, Oracle and/or its affiliates. All rights reserved.
24  * Copyright (c) 2013 David Hoeppner. All rights reserved.
25  * Copyright 2013 Nexenta Systems, Inc.  All rights reserved.
26  * Copyright (c) 2013, Joyent, Inc. All rights reserved.
27  */
28 
29 /*
30  * Display kernel statistics
31  *
32  * This is a reimplementation of the perl kstat command originally found
33  * under usr/src/cmd/kstat/kstat.pl
34  *
35  * Incompatibilities:
36  *	- perl regular expressions replaced with extended REs bracketed by '/'
37  *
38  * Flags added:
39  *	-C	similar to the -p option but value is separated by a colon
40  *	-h	display help
41  *	-j	json format
42  */
43 
44 #include <assert.h>
45 #include <ctype.h>
46 #include <errno.h>
47 #include <kstat.h>
48 #include <langinfo.h>
49 #include <libgen.h>
50 #include <limits.h>
51 #include <locale.h>
52 #include <signal.h>
53 #include <stddef.h>
54 #include <stdio.h>
55 #include <stdlib.h>
56 #include <string.h>
57 #include <strings.h>
58 #include <time.h>
59 #include <unistd.h>
60 #include <sys/list.h>
61 #include <sys/time.h>
62 #include <sys/types.h>
63 
64 #include "kstat.h"
65 #include "statcommon.h"
66 
67 char	*cmdname = "kstat";	/* Name of this command */
68 int	caught_cont = 0;	/* Have caught a SIGCONT */
69 
70 static uint_t	g_timestamp_fmt = NODATE;
71 
72 /* Helper flag - header was printed already? */
73 static boolean_t g_headerflg;
74 
75 /* Saved command line options */
76 static boolean_t g_cflg = B_FALSE;
77 static boolean_t g_jflg = B_FALSE;
78 static boolean_t g_lflg = B_FALSE;
79 static boolean_t g_pflg = B_FALSE;
80 static boolean_t g_qflg = B_FALSE;
81 static ks_pattern_t	g_ks_class = {"*", 0};
82 
83 /* Return zero if a selector did match */
84 static int	g_matched = 1;
85 
86 /* Sorted list of kstat instances */
87 static list_t	instances_list;
88 static list_t	selector_list;
89 
90 int
91 main(int argc, char **argv)
92 {
93 	ks_selector_t	*nselector;
94 	ks_selector_t	*uselector;
95 	kstat_ctl_t	*kc;
96 	hrtime_t	start_n;
97 	hrtime_t	period_n;
98 	boolean_t	errflg = B_FALSE;
99 	boolean_t	nselflg = B_FALSE;
100 	boolean_t	uselflg = B_FALSE;
101 	char		*q;
102 	int		count = 1;
103 	int		infinite_cycles = 0;
104 	int		interval = 0;
105 	int		n = 0;
106 	int		c, m, tmp;
107 
108 	(void) setlocale(LC_ALL, "");
109 #if !defined(TEXT_DOMAIN)		/* Should be defined by cc -D */
110 #define	TEXT_DOMAIN "SYS_TEST"		/* Use this only if it wasn't */
111 #endif
112 	(void) textdomain(TEXT_DOMAIN);
113 
114 	/*
115 	 * Create the selector list and a dummy default selector to match
116 	 * everything. While we process the cmdline options we will add
117 	 * selectors to this list.
118 	 */
119 	list_create(&selector_list, sizeof (ks_selector_t),
120 	    offsetof(ks_selector_t, ks_next));
121 
122 	nselector = new_selector();
123 
124 	/*
125 	 * Parse named command line arguments.
126 	 */
127 	while ((c = getopt(argc, argv, "h?CqjlpT:m:i:n:s:c:")) != EOF)
128 		switch (c) {
129 		case 'h':
130 		case '?':
131 			usage();
132 			exit(0);
133 			break;
134 		case 'C':
135 			g_pflg = g_cflg = B_TRUE;
136 			break;
137 		case 'q':
138 			g_qflg = B_TRUE;
139 			break;
140 		case 'j':
141 			g_jflg = B_TRUE;
142 			break;
143 		case 'l':
144 			g_pflg = g_lflg = B_TRUE;
145 			break;
146 		case 'p':
147 			g_pflg = B_TRUE;
148 			break;
149 		case 'T':
150 			switch (*optarg) {
151 			case 'd':
152 				g_timestamp_fmt = DDATE;
153 				break;
154 			case 'u':
155 				g_timestamp_fmt = UDATE;
156 				break;
157 			default:
158 				errflg = B_TRUE;
159 			}
160 			break;
161 		case 'm':
162 			nselflg = B_TRUE;
163 			nselector->ks_module.pstr =
164 			    (char *)ks_safe_strdup(optarg);
165 			break;
166 		case 'i':
167 			nselflg = B_TRUE;
168 			nselector->ks_instance.pstr =
169 			    (char *)ks_safe_strdup(optarg);
170 			break;
171 		case 'n':
172 			nselflg = B_TRUE;
173 			nselector->ks_name.pstr =
174 			    (char *)ks_safe_strdup(optarg);
175 			break;
176 		case 's':
177 			nselflg = B_TRUE;
178 			nselector->ks_statistic.pstr =
179 			    (char *)ks_safe_strdup(optarg);
180 			break;
181 		case 'c':
182 			g_ks_class.pstr =
183 			    (char *)ks_safe_strdup(optarg);
184 			break;
185 		default:
186 			errflg = B_TRUE;
187 			break;
188 		}
189 
190 	if (g_qflg && (g_jflg || g_pflg)) {
191 		(void) fprintf(stderr, gettext(
192 		    "-q and -lpj are mutually exclusive\n"));
193 		errflg = B_TRUE;
194 	}
195 
196 	if (errflg) {
197 		usage();
198 		exit(2);
199 	}
200 
201 	argc -= optind;
202 	argv += optind;
203 
204 	/*
205 	 * Consume the rest of the command line. Parsing the
206 	 * unnamed command line arguments.
207 	 */
208 	while (argc--) {
209 		errno = 0;
210 		tmp = strtoul(*argv, &q, 10);
211 		if (tmp == ULONG_MAX && errno == ERANGE) {
212 			if (n == 0) {
213 				(void) fprintf(stderr, gettext(
214 				    "Interval is too large\n"));
215 			} else if (n == 1) {
216 				(void) fprintf(stderr, gettext(
217 				    "Count is too large\n"));
218 			}
219 			usage();
220 			exit(2);
221 		}
222 
223 		if (errno != 0 || *q != '\0') {
224 			m = 0;
225 			uselector = new_selector();
226 			while ((q = (char *)strsep(argv, ":")) != NULL) {
227 				m++;
228 				if (m > 4) {
229 					free(uselector);
230 					usage();
231 					exit(2);
232 				}
233 
234 				if (*q != '\0') {
235 					switch (m) {
236 					case 1:
237 						uselector->ks_module.pstr =
238 						    (char *)ks_safe_strdup(q);
239 						break;
240 					case 2:
241 						uselector->ks_instance.pstr =
242 						    (char *)ks_safe_strdup(q);
243 						break;
244 					case 3:
245 						uselector->ks_name.pstr =
246 						    (char *)ks_safe_strdup(q);
247 						break;
248 					case 4:
249 						uselector->ks_statistic.pstr =
250 						    (char *)ks_safe_strdup(q);
251 						break;
252 					default:
253 						assert(B_FALSE);
254 					}
255 				}
256 			}
257 
258 			uselflg = B_TRUE;
259 			list_insert_tail(&selector_list, uselector);
260 		} else {
261 			if (tmp < 1) {
262 				if (n == 0) {
263 					(void) fprintf(stderr, gettext(
264 					    "Interval must be an "
265 					    "integer >= 1"));
266 				} else if (n == 1) {
267 					(void) fprintf(stderr, gettext(
268 					    "Count must be an integer >= 1"));
269 				}
270 				usage();
271 				exit(2);
272 			} else {
273 				if (n == 0) {
274 					interval = tmp;
275 					count = -1;
276 				} else if (n == 1) {
277 					count = tmp;
278 				} else {
279 					usage();
280 					exit(2);
281 				}
282 			}
283 			n++;
284 		}
285 		argv++;
286 	}
287 
288 	/*
289 	 * Check if we founded a named selector on the cmdline.
290 	 */
291 	if (uselflg) {
292 		if (nselflg) {
293 			(void) fprintf(stderr, gettext(
294 			    "[module[:instance[:name[:statistic]]]] and "
295 			    "-m -i -n -s are mutually exclusive"));
296 			usage();
297 			exit(2);
298 		} else {
299 			free(nselector);
300 		}
301 	} else {
302 		list_insert_tail(&selector_list, nselector);
303 	}
304 
305 	assert(!list_is_empty(&selector_list));
306 
307 	list_create(&instances_list, sizeof (ks_instance_t),
308 	    offsetof(ks_instance_t, ks_next));
309 
310 	while ((kc = kstat_open()) == NULL) {
311 		if (errno == EAGAIN) {
312 			(void) poll(NULL, 0, 200);
313 		} else {
314 			perror("kstat_open");
315 			exit(3);
316 		}
317 	}
318 
319 	if (count > 1) {
320 		if (signal(SIGCONT, cont_handler) == SIG_ERR) {
321 			(void) fprintf(stderr, gettext(
322 			    "signal failed"));
323 			exit(3);
324 		}
325 	}
326 
327 	period_n = (hrtime_t)interval * NANOSEC;
328 	start_n = gethrtime();
329 
330 	while (count == -1 || count-- > 0) {
331 		ks_instances_read(kc);
332 		ks_instances_print();
333 
334 		if (interval && count) {
335 			ks_sleep_until(&start_n, period_n, infinite_cycles,
336 			    &caught_cont);
337 			(void) kstat_chain_update(kc);
338 			(void) putchar('\n');
339 		}
340 	}
341 
342 	(void) kstat_close(kc);
343 
344 	return (g_matched);
345 }
346 
347 /*
348  * Print usage.
349  */
350 static void
351 usage(void)
352 {
353 	(void) fprintf(stderr, gettext(
354 	    "Usage:\n"
355 	    "kstat [ -Cjlpq ] [ -T d|u ] [ -c class ]\n"
356 	    "      [ -m module ] [ -i instance ] [ -n name ] [ -s statistic ]\n"
357 	    "      [ interval [ count ] ]\n"
358 	    "kstat [ -Cjlpq ] [ -T d|u ] [ -c class ]\n"
359 	    "      [ module[:instance[:name[:statistic]]] ... ]\n"
360 	    "      [ interval [ count ] ]\n"));
361 }
362 
363 /*
364  * Sort compare function.
365  */
366 static int
367 compare_instances(ks_instance_t *l_arg, ks_instance_t *r_arg)
368 {
369 	int	rval;
370 
371 	rval = strcasecmp(l_arg->ks_module, r_arg->ks_module);
372 	if (rval == 0) {
373 		if (l_arg->ks_instance == r_arg->ks_instance) {
374 			return (strcasecmp(l_arg->ks_name, r_arg->ks_name));
375 		} else if (l_arg->ks_instance < r_arg->ks_instance) {
376 			return (-1);
377 		} else {
378 			return (1);
379 		}
380 	} else {
381 		return (rval);
382 	}
383 }
384 
385 static char *
386 ks_safe_strdup(char *str)
387 {
388 	char	*ret;
389 
390 	if (str == NULL) {
391 		return (NULL);
392 	}
393 
394 	while ((ret = strdup(str)) == NULL) {
395 		if (errno == EAGAIN) {
396 			(void) poll(NULL, 0, 200);
397 		} else {
398 			perror("strdup");
399 			exit(3);
400 		}
401 	}
402 
403 	return (ret);
404 }
405 
406 static void
407 ks_sleep_until(hrtime_t *wakeup, hrtime_t interval, int forever,
408     int *caught_cont)
409 {
410 	hrtime_t	now, pause, pause_left;
411 	struct timespec	pause_tv;
412 	int		status;
413 
414 	now = gethrtime();
415 	pause = *wakeup + interval - now;
416 
417 	if (pause <= 0 || pause < (interval / 4)) {
418 		if (forever || *caught_cont) {
419 			*wakeup = now + interval;
420 			pause = interval;
421 		} else {
422 			pause = interval / 2;
423 			*wakeup += interval;
424 		}
425 	} else {
426 		*wakeup += interval;
427 	}
428 
429 	if (pause < 1000) {
430 		return;
431 	}
432 
433 	pause_left = pause;
434 	do {
435 		pause_tv.tv_sec = pause_left / NANOSEC;
436 		pause_tv.tv_nsec = pause_left % NANOSEC;
437 		status = nanosleep(&pause_tv, (struct timespec *)NULL);
438 		if (status < 0) {
439 			if (errno == EINTR) {
440 				now = gethrtime();
441 				pause_left = *wakeup - now;
442 				if (pause_left < 1000) {
443 					return;
444 				}
445 			} else {
446 				perror("nanosleep");
447 				exit(3);
448 			}
449 		}
450 	} while (status != 0);
451 }
452 
453 /*
454  * Inserts an instance in the per selector list.
455  */
456 static void
457 nvpair_insert(ks_instance_t *ksi, char *name, ks_value_t *value,
458     uchar_t data_type)
459 {
460 	ks_nvpair_t	*instance;
461 	ks_nvpair_t	*tmp;
462 
463 	instance = (ks_nvpair_t *)malloc(sizeof (ks_nvpair_t));
464 	if (instance == NULL) {
465 		perror("malloc");
466 		exit(3);
467 	}
468 
469 	(void) strlcpy(instance->name, name, KSTAT_STRLEN);
470 	(void) memcpy(&instance->value, value, sizeof (ks_value_t));
471 	instance->data_type = data_type;
472 
473 	tmp = list_head(&ksi->ks_nvlist);
474 	while (tmp != NULL && strcasecmp(instance->name, tmp->name) > 0)
475 		tmp = list_next(&ksi->ks_nvlist, tmp);
476 
477 	list_insert_before(&ksi->ks_nvlist, tmp, instance);
478 }
479 
480 /*
481  * Allocates a new all-matching selector.
482  */
483 static ks_selector_t *
484 new_selector(void)
485 {
486 	ks_selector_t	*selector;
487 
488 	selector = (ks_selector_t *)malloc(sizeof (ks_selector_t));
489 	if (selector == NULL) {
490 		perror("malloc");
491 		exit(3);
492 	}
493 
494 	list_link_init(&selector->ks_next);
495 
496 	selector->ks_module.pstr = "*";
497 	selector->ks_instance.pstr = "*";
498 	selector->ks_name.pstr = "*";
499 	selector->ks_statistic.pstr = "*";
500 
501 	return (selector);
502 }
503 
504 /*
505  * This function was taken from the perl kstat module code - please
506  * see for further comments there.
507  */
508 static kstat_raw_reader_t
509 lookup_raw_kstat_fn(char *module, char *name)
510 {
511 	char		key[KSTAT_STRLEN * 2];
512 	register char 	*f, *t;
513 	int		n = 0;
514 
515 	for (f = module, t = key; *f != '\0'; f++, t++) {
516 		while (*f != '\0' && isdigit(*f))
517 			f++;
518 		*t = *f;
519 	}
520 	*t++ = ':';
521 
522 	for (f = name; *f != '\0'; f++, t++) {
523 		while (*f != '\0' && isdigit(*f))
524 			f++;
525 		*t = *f;
526 	}
527 	*t = '\0';
528 
529 	while (ks_raw_lookup[n].fn != NULL) {
530 		if (strncmp(ks_raw_lookup[n].name, key, strlen(key)) == 0)
531 			return (ks_raw_lookup[n].fn);
532 		n++;
533 	}
534 
535 	return (0);
536 }
537 
538 /*
539  * Match a string against a shell glob or extended regular expression.
540  */
541 static boolean_t
542 ks_match(const char *str, ks_pattern_t *pattern)
543 {
544 	int	regcode;
545 	char	*regstr;
546 	char	*errbuf;
547 	size_t	bufsz;
548 
549 	if (pattern->pstr != NULL && gmatch(pattern->pstr, "/*/") != 0) {
550 		/* All regex patterns are strdup'd copies */
551 		regstr = pattern->pstr + 1;
552 		*(strrchr(regstr, '/')) = '\0';
553 
554 		regcode = regcomp(&pattern->preg, regstr,
555 		    REG_EXTENDED | REG_NOSUB);
556 		if (regcode != 0) {
557 			bufsz = regerror(regcode, NULL, NULL, 0);
558 			if (bufsz != 0) {
559 				errbuf = malloc(bufsz);
560 				if (errbuf == NULL) {
561 					perror("malloc");
562 					exit(3);
563 				}
564 				(void) regerror(regcode, NULL, errbuf, bufsz);
565 				(void) fprintf(stderr, "kstat: %s\n", errbuf);
566 			}
567 			usage();
568 			exit(2);
569 		}
570 
571 		pattern->pstr = NULL;
572 	}
573 
574 	if (pattern->pstr == NULL) {
575 		return (regexec(&pattern->preg, str, 0, NULL, 0) == 0);
576 	}
577 
578 	return ((gmatch(str, pattern->pstr) != 0));
579 }
580 
581 /*
582  * Iterate over all kernel statistics and save matches.
583  */
584 static void
585 ks_instances_read(kstat_ctl_t *kc)
586 {
587 	kstat_raw_reader_t save_raw = NULL;
588 	kid_t		id;
589 	ks_selector_t	*selector;
590 	ks_instance_t	*ksi;
591 	ks_instance_t	*tmp;
592 	kstat_t		*kp;
593 	boolean_t	skip;
594 
595 	for (kp = kc->kc_chain; kp != NULL; kp = kp->ks_next) {
596 		/* Don't bother storing the kstat headers */
597 		if (strncmp(kp->ks_name, "kstat_", 6) == 0) {
598 			continue;
599 		}
600 
601 		/* Don't bother storing raw stats we don't understand */
602 		if (kp->ks_type == KSTAT_TYPE_RAW) {
603 			save_raw = lookup_raw_kstat_fn(kp->ks_module,
604 			    kp->ks_name);
605 			if (save_raw == NULL) {
606 #ifdef REPORT_UNKNOWN
607 				(void) fprintf(stderr,
608 				    "Unknown kstat type %s:%d:%s - "
609 				    "%d of size %d\n", kp->ks_module,
610 				    kp->ks_instance, kp->ks_name,
611 				    kp->ks_ndata, kp->ks_data_size);
612 #endif
613 				continue;
614 			}
615 		}
616 
617 		/*
618 		 * Iterate over the list of selectors and skip
619 		 * instances we dont want. We filter for statistics
620 		 * later, as we dont know them yet.
621 		 */
622 		skip = B_TRUE;
623 		selector = list_head(&selector_list);
624 		while (selector != NULL) {
625 			if (ks_match(kp->ks_module, &selector->ks_module) &&
626 			    ks_match(kp->ks_name, &selector->ks_name)) {
627 				skip = B_FALSE;
628 				break;
629 			}
630 			selector = list_next(&selector_list, selector);
631 		}
632 
633 		if (skip) {
634 			continue;
635 		}
636 
637 		/*
638 		 * Allocate a new instance and fill in the values
639 		 * we know so far.
640 		 */
641 		ksi = (ks_instance_t *)malloc(sizeof (ks_instance_t));
642 		if (ksi == NULL) {
643 			perror("malloc");
644 			exit(3);
645 		}
646 
647 		list_link_init(&ksi->ks_next);
648 
649 		(void) strlcpy(ksi->ks_module, kp->ks_module, KSTAT_STRLEN);
650 		(void) strlcpy(ksi->ks_name, kp->ks_name, KSTAT_STRLEN);
651 		(void) strlcpy(ksi->ks_class, kp->ks_class, KSTAT_STRLEN);
652 
653 		ksi->ks_instance = kp->ks_instance;
654 		ksi->ks_snaptime = kp->ks_snaptime;
655 		ksi->ks_type = kp->ks_type;
656 
657 		list_create(&ksi->ks_nvlist, sizeof (ks_nvpair_t),
658 		    offsetof(ks_nvpair_t, nv_next));
659 
660 		SAVE_HRTIME_X(ksi, "crtime", kp->ks_crtime);
661 		SAVE_HRTIME_X(ksi, "snaptime", kp->ks_snaptime);
662 		if (g_pflg) {
663 			SAVE_STRING_X(ksi, "class", kp->ks_class);
664 		}
665 
666 		/* Insert this instance into a sorted list */
667 		tmp = list_head(&instances_list);
668 		while (tmp != NULL && compare_instances(ksi, tmp) > 0)
669 			tmp = list_next(&instances_list, tmp);
670 
671 		list_insert_before(&instances_list, tmp, ksi);
672 
673 		/* Read the actual statistics */
674 		id = kstat_read(kc, kp, NULL);
675 		if (id == -1) {
676 #ifdef REPORT_UNKNOWN
677 			perror("kstat_read");
678 #endif
679 			continue;
680 		}
681 
682 		switch (kp->ks_type) {
683 		case KSTAT_TYPE_RAW:
684 			save_raw(kp, ksi);
685 			break;
686 		case KSTAT_TYPE_NAMED:
687 			save_named(kp, ksi);
688 			break;
689 		case KSTAT_TYPE_INTR:
690 			save_intr(kp, ksi);
691 			break;
692 		case KSTAT_TYPE_IO:
693 			save_io(kp, ksi);
694 			break;
695 		case KSTAT_TYPE_TIMER:
696 			save_timer(kp, ksi);
697 			break;
698 		default:
699 			assert(B_FALSE); /* Invalid type */
700 			break;
701 		}
702 	}
703 }
704 
705 /*
706  * Print the value of a name-value pair.
707  */
708 static void
709 ks_value_print(ks_nvpair_t *nvpair)
710 {
711 	switch (nvpair->data_type) {
712 	case KSTAT_DATA_CHAR:
713 		(void) fprintf(stdout, "%s", nvpair->value.c);
714 		break;
715 	case KSTAT_DATA_INT32:
716 		(void) fprintf(stdout, "%d", nvpair->value.i32);
717 		break;
718 	case KSTAT_DATA_UINT32:
719 		(void) fprintf(stdout, "%u", nvpair->value.ui32);
720 		break;
721 	case KSTAT_DATA_INT64:
722 		(void) fprintf(stdout, "%lld", nvpair->value.i64);
723 		break;
724 	case KSTAT_DATA_UINT64:
725 		(void) fprintf(stdout, "%llu", nvpair->value.ui64);
726 		break;
727 	case KSTAT_DATA_STRING:
728 		(void) fprintf(stdout, "%s", KSTAT_NAMED_STR_PTR(nvpair));
729 		break;
730 	case KSTAT_DATA_HRTIME:
731 		if (nvpair->value.ui64 == 0)
732 			(void) fprintf(stdout, "0");
733 		else
734 			(void) fprintf(stdout, "%.9f",
735 			    nvpair->value.ui64 / 1000000000.0);
736 		break;
737 	default:
738 		assert(B_FALSE);
739 	}
740 }
741 
742 /*
743  * Print a single instance.
744  */
745 static void
746 ks_instance_print(ks_instance_t *ksi, ks_nvpair_t *nvpair)
747 {
748 	if (g_headerflg) {
749 		if (!g_pflg) {
750 			(void) fprintf(stdout, DFLT_FMT,
751 			    ksi->ks_module, ksi->ks_instance,
752 			    ksi->ks_name, ksi->ks_class);
753 		}
754 		g_headerflg = B_FALSE;
755 	}
756 
757 	if (g_pflg) {
758 		(void) fprintf(stdout, KS_PFMT,
759 		    ksi->ks_module, ksi->ks_instance,
760 		    ksi->ks_name, nvpair->name);
761 		if (!g_lflg) {
762 			(void) putchar(g_cflg ? ':': '\t');
763 			ks_value_print(nvpair);
764 		}
765 	} else {
766 		(void) fprintf(stdout, KS_DFMT, nvpair->name);
767 		ks_value_print(nvpair);
768 	}
769 
770 	(void) putchar('\n');
771 }
772 
773 /*
774  * Print a single instance in JSON format.
775  */
776 static void
777 ks_instance_print_json(ks_instance_t *ksi, ks_nvpair_t *nvpair)
778 {
779 	if (g_headerflg) {
780 		(void) fprintf(stdout, JSON_FMT,
781 		    ksi->ks_module, ksi->ks_instance,
782 		    ksi->ks_name, ksi->ks_class,
783 		    ksi->ks_type);
784 
785 		if (ksi->ks_snaptime == 0)
786 			(void) fprintf(stdout, "\t\"snaptime\": 0,\n");
787 		else
788 			(void) fprintf(stdout, "\t\"snaptime\": %.9f,\n",
789 			    ksi->ks_snaptime / 1000000000.0);
790 
791 		(void) fprintf(stdout, "\t\"data\": {\n");
792 
793 		g_headerflg = B_FALSE;
794 	}
795 
796 	(void) fprintf(stdout, KS_JFMT, nvpair->name);
797 	if (nvpair->data_type == KSTAT_DATA_STRING) {
798 		(void) putchar('\"');
799 		ks_value_print(nvpair);
800 		(void) putchar('\"');
801 	} else {
802 		ks_value_print(nvpair);
803 	}
804 	if (nvpair != list_tail(&ksi->ks_nvlist))
805 		(void) putchar(',');
806 
807 	(void) putchar('\n');
808 }
809 
810 /*
811  * Print all instances.
812  */
813 static void
814 ks_instances_print(void)
815 {
816 	ks_selector_t	*selector;
817 	ks_instance_t	*ksi, *ktmp;
818 	ks_nvpair_t	*nvpair, *ntmp;
819 	void		(*ks_print_fn)(ks_instance_t *, ks_nvpair_t *);
820 	char		*ks_number;
821 
822 	if (g_timestamp_fmt != NODATE)
823 		print_timestamp(g_timestamp_fmt);
824 
825 	if (g_jflg) {
826 		ks_print_fn = &ks_instance_print_json;
827 		(void) putchar('[');
828 	} else {
829 		ks_print_fn = &ks_instance_print;
830 	}
831 
832 	/* Iterate over each selector */
833 	selector = list_head(&selector_list);
834 	while (selector != NULL) {
835 
836 		/* Iterate over each instance */
837 		for (ksi = list_head(&instances_list); ksi != NULL;
838 		    ksi = list_next(&instances_list, ksi)) {
839 
840 			(void) asprintf(&ks_number, "%d", ksi->ks_instance);
841 			if (!(ks_match(ksi->ks_module, &selector->ks_module) &&
842 			    ks_match(ksi->ks_name, &selector->ks_name) &&
843 			    ks_match(ks_number, &selector->ks_instance) &&
844 			    ks_match(ksi->ks_class, &g_ks_class))) {
845 				free(ks_number);
846 				continue;
847 			}
848 
849 			free(ks_number);
850 
851 			/* Finally iterate over each statistic */
852 			g_headerflg = B_TRUE;
853 			for (nvpair = list_head(&ksi->ks_nvlist);
854 			    nvpair != NULL;
855 			    nvpair = list_next(&ksi->ks_nvlist, nvpair)) {
856 				if (!ks_match(nvpair->name,
857 				    &selector->ks_statistic))
858 					continue;
859 
860 				g_matched = 0;
861 				if (!g_qflg)
862 					(*ks_print_fn)(ksi, nvpair);
863 			}
864 
865 			if (!g_headerflg) {
866 				if (g_jflg) {
867 					(void) fprintf(stdout, "\t}\n}");
868 					if (ksi != list_tail(&instances_list))
869 						(void) putchar(',');
870 				} else if (!g_pflg) {
871 					(void) putchar('\n');
872 				}
873 			}
874 		}
875 
876 		selector = list_next(&selector_list, selector);
877 	}
878 
879 	if (g_jflg)
880 		(void) fprintf(stdout, "]\n");
881 
882 	(void) fflush(stdout);
883 
884 	/* Free the instances list */
885 	ksi = list_head(&instances_list);
886 	while (ksi != NULL) {
887 		nvpair = list_head(&ksi->ks_nvlist);
888 		while (nvpair != NULL) {
889 			ntmp = nvpair;
890 			nvpair = list_next(&ksi->ks_nvlist, nvpair);
891 			list_remove(&ksi->ks_nvlist, ntmp);
892 			if (ntmp->data_type == KSTAT_DATA_STRING)
893 				free(ntmp->value.str.addr.ptr);
894 			free(ntmp);
895 		}
896 
897 		ktmp = ksi;
898 		ksi = list_next(&instances_list, ksi);
899 		list_remove(&instances_list, ktmp);
900 		list_destroy(&ktmp->ks_nvlist);
901 		free(ktmp);
902 	}
903 }
904 
905 static void
906 save_cpu_stat(kstat_t *kp, ks_instance_t *ksi)
907 {
908 	cpu_stat_t	*stat;
909 	cpu_sysinfo_t	*sysinfo;
910 	cpu_syswait_t	*syswait;
911 	cpu_vminfo_t	*vminfo;
912 
913 	stat = (cpu_stat_t *)(kp->ks_data);
914 	sysinfo = &stat->cpu_sysinfo;
915 	syswait = &stat->cpu_syswait;
916 	vminfo  = &stat->cpu_vminfo;
917 
918 	SAVE_UINT32_X(ksi, "idle", sysinfo->cpu[CPU_IDLE]);
919 	SAVE_UINT32_X(ksi, "user", sysinfo->cpu[CPU_USER]);
920 	SAVE_UINT32_X(ksi, "kernel", sysinfo->cpu[CPU_KERNEL]);
921 	SAVE_UINT32_X(ksi, "wait", sysinfo->cpu[CPU_WAIT]);
922 	SAVE_UINT32_X(ksi, "wait_io", sysinfo->wait[W_IO]);
923 	SAVE_UINT32_X(ksi, "wait_swap", sysinfo->wait[W_SWAP]);
924 	SAVE_UINT32_X(ksi, "wait_pio", sysinfo->wait[W_PIO]);
925 	SAVE_UINT32(ksi, sysinfo, bread);
926 	SAVE_UINT32(ksi, sysinfo, bwrite);
927 	SAVE_UINT32(ksi, sysinfo, lread);
928 	SAVE_UINT32(ksi, sysinfo, lwrite);
929 	SAVE_UINT32(ksi, sysinfo, phread);
930 	SAVE_UINT32(ksi, sysinfo, phwrite);
931 	SAVE_UINT32(ksi, sysinfo, pswitch);
932 	SAVE_UINT32(ksi, sysinfo, trap);
933 	SAVE_UINT32(ksi, sysinfo, intr);
934 	SAVE_UINT32(ksi, sysinfo, syscall);
935 	SAVE_UINT32(ksi, sysinfo, sysread);
936 	SAVE_UINT32(ksi, sysinfo, syswrite);
937 	SAVE_UINT32(ksi, sysinfo, sysfork);
938 	SAVE_UINT32(ksi, sysinfo, sysvfork);
939 	SAVE_UINT32(ksi, sysinfo, sysexec);
940 	SAVE_UINT32(ksi, sysinfo, readch);
941 	SAVE_UINT32(ksi, sysinfo, writech);
942 	SAVE_UINT32(ksi, sysinfo, rcvint);
943 	SAVE_UINT32(ksi, sysinfo, xmtint);
944 	SAVE_UINT32(ksi, sysinfo, mdmint);
945 	SAVE_UINT32(ksi, sysinfo, rawch);
946 	SAVE_UINT32(ksi, sysinfo, canch);
947 	SAVE_UINT32(ksi, sysinfo, outch);
948 	SAVE_UINT32(ksi, sysinfo, msg);
949 	SAVE_UINT32(ksi, sysinfo, sema);
950 	SAVE_UINT32(ksi, sysinfo, namei);
951 	SAVE_UINT32(ksi, sysinfo, ufsiget);
952 	SAVE_UINT32(ksi, sysinfo, ufsdirblk);
953 	SAVE_UINT32(ksi, sysinfo, ufsipage);
954 	SAVE_UINT32(ksi, sysinfo, ufsinopage);
955 	SAVE_UINT32(ksi, sysinfo, inodeovf);
956 	SAVE_UINT32(ksi, sysinfo, fileovf);
957 	SAVE_UINT32(ksi, sysinfo, procovf);
958 	SAVE_UINT32(ksi, sysinfo, intrthread);
959 	SAVE_UINT32(ksi, sysinfo, intrblk);
960 	SAVE_UINT32(ksi, sysinfo, idlethread);
961 	SAVE_UINT32(ksi, sysinfo, inv_swtch);
962 	SAVE_UINT32(ksi, sysinfo, nthreads);
963 	SAVE_UINT32(ksi, sysinfo, cpumigrate);
964 	SAVE_UINT32(ksi, sysinfo, xcalls);
965 	SAVE_UINT32(ksi, sysinfo, mutex_adenters);
966 	SAVE_UINT32(ksi, sysinfo, rw_rdfails);
967 	SAVE_UINT32(ksi, sysinfo, rw_wrfails);
968 	SAVE_UINT32(ksi, sysinfo, modload);
969 	SAVE_UINT32(ksi, sysinfo, modunload);
970 	SAVE_UINT32(ksi, sysinfo, bawrite);
971 #ifdef	STATISTICS	/* see header file */
972 	SAVE_UINT32(ksi, sysinfo, rw_enters);
973 	SAVE_UINT32(ksi, sysinfo, win_uo_cnt);
974 	SAVE_UINT32(ksi, sysinfo, win_uu_cnt);
975 	SAVE_UINT32(ksi, sysinfo, win_so_cnt);
976 	SAVE_UINT32(ksi, sysinfo, win_su_cnt);
977 	SAVE_UINT32(ksi, sysinfo, win_suo_cnt);
978 #endif
979 
980 	SAVE_INT32(ksi, syswait, iowait);
981 	SAVE_INT32(ksi, syswait, swap);
982 	SAVE_INT32(ksi, syswait, physio);
983 
984 	SAVE_UINT32(ksi, vminfo, pgrec);
985 	SAVE_UINT32(ksi, vminfo, pgfrec);
986 	SAVE_UINT32(ksi, vminfo, pgin);
987 	SAVE_UINT32(ksi, vminfo, pgpgin);
988 	SAVE_UINT32(ksi, vminfo, pgout);
989 	SAVE_UINT32(ksi, vminfo, pgpgout);
990 	SAVE_UINT32(ksi, vminfo, swapin);
991 	SAVE_UINT32(ksi, vminfo, pgswapin);
992 	SAVE_UINT32(ksi, vminfo, swapout);
993 	SAVE_UINT32(ksi, vminfo, pgswapout);
994 	SAVE_UINT32(ksi, vminfo, zfod);
995 	SAVE_UINT32(ksi, vminfo, dfree);
996 	SAVE_UINT32(ksi, vminfo, scan);
997 	SAVE_UINT32(ksi, vminfo, rev);
998 	SAVE_UINT32(ksi, vminfo, hat_fault);
999 	SAVE_UINT32(ksi, vminfo, as_fault);
1000 	SAVE_UINT32(ksi, vminfo, maj_fault);
1001 	SAVE_UINT32(ksi, vminfo, cow_fault);
1002 	SAVE_UINT32(ksi, vminfo, prot_fault);
1003 	SAVE_UINT32(ksi, vminfo, softlock);
1004 	SAVE_UINT32(ksi, vminfo, kernel_asflt);
1005 	SAVE_UINT32(ksi, vminfo, pgrrun);
1006 	SAVE_UINT32(ksi, vminfo, execpgin);
1007 	SAVE_UINT32(ksi, vminfo, execpgout);
1008 	SAVE_UINT32(ksi, vminfo, execfree);
1009 	SAVE_UINT32(ksi, vminfo, anonpgin);
1010 	SAVE_UINT32(ksi, vminfo, anonpgout);
1011 	SAVE_UINT32(ksi, vminfo, anonfree);
1012 	SAVE_UINT32(ksi, vminfo, fspgin);
1013 	SAVE_UINT32(ksi, vminfo, fspgout);
1014 	SAVE_UINT32(ksi, vminfo, fsfree);
1015 }
1016 
1017 static void
1018 save_var(kstat_t *kp, ks_instance_t *ksi)
1019 {
1020 	struct var	*var = (struct var *)(kp->ks_data);
1021 
1022 	assert(kp->ks_data_size == sizeof (struct var));
1023 
1024 	SAVE_INT32(ksi, var, v_buf);
1025 	SAVE_INT32(ksi, var, v_call);
1026 	SAVE_INT32(ksi, var, v_proc);
1027 	SAVE_INT32(ksi, var, v_maxupttl);
1028 	SAVE_INT32(ksi, var, v_nglobpris);
1029 	SAVE_INT32(ksi, var, v_maxsyspri);
1030 	SAVE_INT32(ksi, var, v_clist);
1031 	SAVE_INT32(ksi, var, v_maxup);
1032 	SAVE_INT32(ksi, var, v_hbuf);
1033 	SAVE_INT32(ksi, var, v_hmask);
1034 	SAVE_INT32(ksi, var, v_pbuf);
1035 	SAVE_INT32(ksi, var, v_sptmap);
1036 	SAVE_INT32(ksi, var, v_maxpmem);
1037 	SAVE_INT32(ksi, var, v_autoup);
1038 	SAVE_INT32(ksi, var, v_bufhwm);
1039 }
1040 
1041 static void
1042 save_ncstats(kstat_t *kp, ks_instance_t *ksi)
1043 {
1044 	struct ncstats	*ncstats = (struct ncstats *)(kp->ks_data);
1045 
1046 	assert(kp->ks_data_size == sizeof (struct ncstats));
1047 
1048 	SAVE_INT32(ksi, ncstats, hits);
1049 	SAVE_INT32(ksi, ncstats, misses);
1050 	SAVE_INT32(ksi, ncstats, enters);
1051 	SAVE_INT32(ksi, ncstats, dbl_enters);
1052 	SAVE_INT32(ksi, ncstats, long_enter);
1053 	SAVE_INT32(ksi, ncstats, long_look);
1054 	SAVE_INT32(ksi, ncstats, move_to_front);
1055 	SAVE_INT32(ksi, ncstats, purges);
1056 }
1057 
1058 static void
1059 save_sysinfo(kstat_t *kp, ks_instance_t *ksi)
1060 {
1061 	sysinfo_t	*sysinfo = (sysinfo_t *)(kp->ks_data);
1062 
1063 	assert(kp->ks_data_size == sizeof (sysinfo_t));
1064 
1065 	SAVE_UINT32(ksi, sysinfo, updates);
1066 	SAVE_UINT32(ksi, sysinfo, runque);
1067 	SAVE_UINT32(ksi, sysinfo, runocc);
1068 	SAVE_UINT32(ksi, sysinfo, swpque);
1069 	SAVE_UINT32(ksi, sysinfo, swpocc);
1070 	SAVE_UINT32(ksi, sysinfo, waiting);
1071 }
1072 
1073 static void
1074 save_vminfo(kstat_t *kp, ks_instance_t *ksi)
1075 {
1076 	vminfo_t	*vminfo = (vminfo_t *)(kp->ks_data);
1077 
1078 	assert(kp->ks_data_size == sizeof (vminfo_t));
1079 
1080 	SAVE_UINT64(ksi, vminfo, freemem);
1081 	SAVE_UINT64(ksi, vminfo, swap_resv);
1082 	SAVE_UINT64(ksi, vminfo, swap_alloc);
1083 	SAVE_UINT64(ksi, vminfo, swap_avail);
1084 	SAVE_UINT64(ksi, vminfo, swap_free);
1085 	SAVE_UINT64(ksi, vminfo, updates);
1086 }
1087 
1088 static void
1089 save_nfs(kstat_t *kp, ks_instance_t *ksi)
1090 {
1091 	struct mntinfo_kstat *mntinfo = (struct mntinfo_kstat *)(kp->ks_data);
1092 
1093 	assert(kp->ks_data_size == sizeof (struct mntinfo_kstat));
1094 
1095 	SAVE_STRING(ksi, mntinfo, mik_proto);
1096 	SAVE_UINT32(ksi, mntinfo, mik_vers);
1097 	SAVE_UINT32(ksi, mntinfo, mik_flags);
1098 	SAVE_UINT32(ksi, mntinfo, mik_secmod);
1099 	SAVE_UINT32(ksi, mntinfo, mik_curread);
1100 	SAVE_UINT32(ksi, mntinfo, mik_curwrite);
1101 	SAVE_INT32(ksi, mntinfo, mik_timeo);
1102 	SAVE_INT32(ksi, mntinfo, mik_retrans);
1103 	SAVE_UINT32(ksi, mntinfo, mik_acregmin);
1104 	SAVE_UINT32(ksi, mntinfo, mik_acregmax);
1105 	SAVE_UINT32(ksi, mntinfo, mik_acdirmin);
1106 	SAVE_UINT32(ksi, mntinfo, mik_acdirmax);
1107 	SAVE_UINT32_X(ksi, "lookup_srtt", mntinfo->mik_timers[0].srtt);
1108 	SAVE_UINT32_X(ksi, "lookup_deviate", mntinfo->mik_timers[0].deviate);
1109 	SAVE_UINT32_X(ksi, "lookup_rtxcur", mntinfo->mik_timers[0].rtxcur);
1110 	SAVE_UINT32_X(ksi, "read_srtt", mntinfo->mik_timers[1].srtt);
1111 	SAVE_UINT32_X(ksi, "read_deviate", mntinfo->mik_timers[1].deviate);
1112 	SAVE_UINT32_X(ksi, "read_rtxcur", mntinfo->mik_timers[1].rtxcur);
1113 	SAVE_UINT32_X(ksi, "write_srtt", mntinfo->mik_timers[2].srtt);
1114 	SAVE_UINT32_X(ksi, "write_deviate", mntinfo->mik_timers[2].deviate);
1115 	SAVE_UINT32_X(ksi, "write_rtxcur", mntinfo->mik_timers[2].rtxcur);
1116 	SAVE_UINT32(ksi, mntinfo, mik_noresponse);
1117 	SAVE_UINT32(ksi, mntinfo, mik_failover);
1118 	SAVE_UINT32(ksi, mntinfo, mik_remap);
1119 	SAVE_STRING(ksi, mntinfo, mik_curserver);
1120 }
1121 
1122 #ifdef __sparc
1123 static void
1124 save_sfmmu_global_stat(kstat_t *kp, ks_instance_t *ksi)
1125 {
1126 	struct sfmmu_global_stat *sfmmug =
1127 	    (struct sfmmu_global_stat *)(kp->ks_data);
1128 
1129 	assert(kp->ks_data_size == sizeof (struct sfmmu_global_stat));
1130 
1131 	SAVE_INT32(ksi, sfmmug, sf_tsb_exceptions);
1132 	SAVE_INT32(ksi, sfmmug, sf_tsb_raise_exception);
1133 	SAVE_INT32(ksi, sfmmug, sf_pagefaults);
1134 	SAVE_INT32(ksi, sfmmug, sf_uhash_searches);
1135 	SAVE_INT32(ksi, sfmmug, sf_uhash_links);
1136 	SAVE_INT32(ksi, sfmmug, sf_khash_searches);
1137 	SAVE_INT32(ksi, sfmmug, sf_khash_links);
1138 	SAVE_INT32(ksi, sfmmug, sf_swapout);
1139 	SAVE_INT32(ksi, sfmmug, sf_tsb_alloc);
1140 	SAVE_INT32(ksi, sfmmug, sf_tsb_allocfail);
1141 	SAVE_INT32(ksi, sfmmug, sf_tsb_sectsb_create);
1142 	SAVE_INT32(ksi, sfmmug, sf_scd_1sttsb_alloc);
1143 	SAVE_INT32(ksi, sfmmug, sf_scd_2ndtsb_alloc);
1144 	SAVE_INT32(ksi, sfmmug, sf_scd_1sttsb_allocfail);
1145 	SAVE_INT32(ksi, sfmmug, sf_scd_2ndtsb_allocfail);
1146 	SAVE_INT32(ksi, sfmmug, sf_tteload8k);
1147 	SAVE_INT32(ksi, sfmmug, sf_tteload64k);
1148 	SAVE_INT32(ksi, sfmmug, sf_tteload512k);
1149 	SAVE_INT32(ksi, sfmmug, sf_tteload4m);
1150 	SAVE_INT32(ksi, sfmmug, sf_tteload32m);
1151 	SAVE_INT32(ksi, sfmmug, sf_tteload256m);
1152 	SAVE_INT32(ksi, sfmmug, sf_tsb_load8k);
1153 	SAVE_INT32(ksi, sfmmug, sf_tsb_load4m);
1154 	SAVE_INT32(ksi, sfmmug, sf_hblk_hit);
1155 	SAVE_INT32(ksi, sfmmug, sf_hblk8_ncreate);
1156 	SAVE_INT32(ksi, sfmmug, sf_hblk8_nalloc);
1157 	SAVE_INT32(ksi, sfmmug, sf_hblk1_ncreate);
1158 	SAVE_INT32(ksi, sfmmug, sf_hblk1_nalloc);
1159 	SAVE_INT32(ksi, sfmmug, sf_hblk_slab_cnt);
1160 	SAVE_INT32(ksi, sfmmug, sf_hblk_reserve_cnt);
1161 	SAVE_INT32(ksi, sfmmug, sf_hblk_recurse_cnt);
1162 	SAVE_INT32(ksi, sfmmug, sf_hblk_reserve_hit);
1163 	SAVE_INT32(ksi, sfmmug, sf_get_free_success);
1164 	SAVE_INT32(ksi, sfmmug, sf_get_free_throttle);
1165 	SAVE_INT32(ksi, sfmmug, sf_get_free_fail);
1166 	SAVE_INT32(ksi, sfmmug, sf_put_free_success);
1167 	SAVE_INT32(ksi, sfmmug, sf_put_free_fail);
1168 	SAVE_INT32(ksi, sfmmug, sf_pgcolor_conflict);
1169 	SAVE_INT32(ksi, sfmmug, sf_uncache_conflict);
1170 	SAVE_INT32(ksi, sfmmug, sf_unload_conflict);
1171 	SAVE_INT32(ksi, sfmmug, sf_ism_uncache);
1172 	SAVE_INT32(ksi, sfmmug, sf_ism_recache);
1173 	SAVE_INT32(ksi, sfmmug, sf_recache);
1174 	SAVE_INT32(ksi, sfmmug, sf_steal_count);
1175 	SAVE_INT32(ksi, sfmmug, sf_pagesync);
1176 	SAVE_INT32(ksi, sfmmug, sf_clrwrt);
1177 	SAVE_INT32(ksi, sfmmug, sf_pagesync_invalid);
1178 	SAVE_INT32(ksi, sfmmug, sf_kernel_xcalls);
1179 	SAVE_INT32(ksi, sfmmug, sf_user_xcalls);
1180 	SAVE_INT32(ksi, sfmmug, sf_tsb_grow);
1181 	SAVE_INT32(ksi, sfmmug, sf_tsb_shrink);
1182 	SAVE_INT32(ksi, sfmmug, sf_tsb_resize_failures);
1183 	SAVE_INT32(ksi, sfmmug, sf_tsb_reloc);
1184 	SAVE_INT32(ksi, sfmmug, sf_user_vtop);
1185 	SAVE_INT32(ksi, sfmmug, sf_ctx_inv);
1186 	SAVE_INT32(ksi, sfmmug, sf_tlb_reprog_pgsz);
1187 	SAVE_INT32(ksi, sfmmug, sf_region_remap_demap);
1188 	SAVE_INT32(ksi, sfmmug, sf_create_scd);
1189 	SAVE_INT32(ksi, sfmmug, sf_join_scd);
1190 	SAVE_INT32(ksi, sfmmug, sf_leave_scd);
1191 	SAVE_INT32(ksi, sfmmug, sf_destroy_scd);
1192 }
1193 #endif
1194 
1195 #ifdef __sparc
1196 static void
1197 save_sfmmu_tsbsize_stat(kstat_t *kp, ks_instance_t *ksi)
1198 {
1199 	struct sfmmu_tsbsize_stat *sfmmut;
1200 
1201 	assert(kp->ks_data_size == sizeof (struct sfmmu_tsbsize_stat));
1202 	sfmmut = (struct sfmmu_tsbsize_stat *)(kp->ks_data);
1203 
1204 	SAVE_INT32(ksi, sfmmut, sf_tsbsz_8k);
1205 	SAVE_INT32(ksi, sfmmut, sf_tsbsz_16k);
1206 	SAVE_INT32(ksi, sfmmut, sf_tsbsz_32k);
1207 	SAVE_INT32(ksi, sfmmut, sf_tsbsz_64k);
1208 	SAVE_INT32(ksi, sfmmut, sf_tsbsz_128k);
1209 	SAVE_INT32(ksi, sfmmut, sf_tsbsz_256k);
1210 	SAVE_INT32(ksi, sfmmut, sf_tsbsz_512k);
1211 	SAVE_INT32(ksi, sfmmut, sf_tsbsz_1m);
1212 	SAVE_INT32(ksi, sfmmut, sf_tsbsz_2m);
1213 	SAVE_INT32(ksi, sfmmut, sf_tsbsz_4m);
1214 }
1215 #endif
1216 
1217 #ifdef __sparc
1218 static void
1219 save_simmstat(kstat_t *kp, ks_instance_t *ksi)
1220 {
1221 	uchar_t	*simmstat;
1222 	char	*simm_buf;
1223 	char	*list = NULL;
1224 	int	i;
1225 
1226 	assert(kp->ks_data_size == sizeof (uchar_t) * SIMM_COUNT);
1227 
1228 	for (i = 0, simmstat = (uchar_t *)(kp->ks_data); i < SIMM_COUNT - 1;
1229 	    i++, simmstat++) {
1230 		if (list == NULL) {
1231 			(void) asprintf(&simm_buf, "%d,", *simmstat);
1232 		} else {
1233 			(void) asprintf(&simm_buf, "%s%d,", list, *simmstat);
1234 			free(list);
1235 		}
1236 		list = simm_buf;
1237 	}
1238 
1239 	(void) asprintf(&simm_buf, "%s%d", list, *simmstat);
1240 	SAVE_STRING_X(ksi, "status", simm_buf);
1241 	free(list);
1242 	free(simm_buf);
1243 }
1244 #endif
1245 
1246 #ifdef __sparc
1247 /*
1248  * Helper function for save_temperature().
1249  */
1250 static char *
1251 short_array_to_string(short *shortp, int len)
1252 {
1253 	char	*list = NULL;
1254 	char	*list_buf;
1255 
1256 	for (; len > 1; len--, shortp++) {
1257 		if (list == NULL) {
1258 			(void) asprintf(&list_buf, "%hd,", *shortp);
1259 		} else {
1260 			(void) asprintf(&list_buf, "%s%hd,", list, *shortp);
1261 			free(list);
1262 		}
1263 		list = list_buf;
1264 	}
1265 
1266 	(void) asprintf(&list_buf, "%s%hd", list, *shortp);
1267 	free(list);
1268 	return (list_buf);
1269 }
1270 
1271 static void
1272 save_temperature(kstat_t *kp, ks_instance_t *ksi)
1273 {
1274 	struct temp_stats *temps = (struct temp_stats *)(kp->ks_data);
1275 	char	*buf;
1276 
1277 	assert(kp->ks_data_size == sizeof (struct temp_stats));
1278 
1279 	SAVE_UINT32(ksi, temps, index);
1280 
1281 	buf = short_array_to_string(temps->l1, L1_SZ);
1282 	SAVE_STRING_X(ksi, "l1", buf);
1283 	free(buf);
1284 
1285 	buf = short_array_to_string(temps->l2, L2_SZ);
1286 	SAVE_STRING_X(ksi, "l2", buf);
1287 	free(buf);
1288 
1289 	buf = short_array_to_string(temps->l3, L3_SZ);
1290 	SAVE_STRING_X(ksi, "l3", buf);
1291 	free(buf);
1292 
1293 	buf = short_array_to_string(temps->l4, L4_SZ);
1294 	SAVE_STRING_X(ksi, "l4", buf);
1295 	free(buf);
1296 
1297 	buf = short_array_to_string(temps->l5, L5_SZ);
1298 	SAVE_STRING_X(ksi, "l5", buf);
1299 	free(buf);
1300 
1301 	SAVE_INT32(ksi, temps, max);
1302 	SAVE_INT32(ksi, temps, min);
1303 	SAVE_INT32(ksi, temps, state);
1304 	SAVE_INT32(ksi, temps, temp_cnt);
1305 	SAVE_INT32(ksi, temps, shutdown_cnt);
1306 	SAVE_INT32(ksi, temps, version);
1307 	SAVE_INT32(ksi, temps, trend);
1308 	SAVE_INT32(ksi, temps, override);
1309 }
1310 #endif
1311 
1312 #ifdef __sparc
1313 static void
1314 save_temp_over(kstat_t *kp, ks_instance_t *ksi)
1315 {
1316 	short	*sh = (short *)(kp->ks_data);
1317 	char	*value;
1318 
1319 	assert(kp->ks_data_size == sizeof (short));
1320 
1321 	(void) asprintf(&value, "%hu", *sh);
1322 	SAVE_STRING_X(ksi, "override", value);
1323 	free(value);
1324 }
1325 #endif
1326 
1327 #ifdef __sparc
1328 static void
1329 save_ps_shadow(kstat_t *kp, ks_instance_t *ksi)
1330 {
1331 	uchar_t	*uchar = (uchar_t *)(kp->ks_data);
1332 
1333 	assert(kp->ks_data_size == SYS_PS_COUNT);
1334 
1335 	SAVE_CHAR_X(ksi, "core_0", *uchar++);
1336 	SAVE_CHAR_X(ksi, "core_1", *uchar++);
1337 	SAVE_CHAR_X(ksi, "core_2", *uchar++);
1338 	SAVE_CHAR_X(ksi, "core_3", *uchar++);
1339 	SAVE_CHAR_X(ksi, "core_4", *uchar++);
1340 	SAVE_CHAR_X(ksi, "core_5", *uchar++);
1341 	SAVE_CHAR_X(ksi, "core_6", *uchar++);
1342 	SAVE_CHAR_X(ksi, "core_7", *uchar++);
1343 	SAVE_CHAR_X(ksi, "pps_0", *uchar++);
1344 	SAVE_CHAR_X(ksi, "clk_33", *uchar++);
1345 	SAVE_CHAR_X(ksi, "clk_50", *uchar++);
1346 	SAVE_CHAR_X(ksi, "v5_p", *uchar++);
1347 	SAVE_CHAR_X(ksi, "v12_p", *uchar++);
1348 	SAVE_CHAR_X(ksi, "v5_aux", *uchar++);
1349 	SAVE_CHAR_X(ksi, "v5_p_pch", *uchar++);
1350 	SAVE_CHAR_X(ksi, "v12_p_pch", *uchar++);
1351 	SAVE_CHAR_X(ksi, "v3_pch", *uchar++);
1352 	SAVE_CHAR_X(ksi, "v5_pch", *uchar++);
1353 	SAVE_CHAR_X(ksi, "p_fan", *uchar++);
1354 }
1355 #endif
1356 
1357 #ifdef __sparc
1358 static void
1359 save_fault_list(kstat_t *kp, ks_instance_t *ksi)
1360 {
1361 	struct ft_list *fault;
1362 	char	name[KSTAT_STRLEN + 7];
1363 	int	i;
1364 
1365 	for (i = 1, fault = (struct ft_list *)(kp->ks_data);
1366 	    i <= 999999 && i <= kp->ks_data_size / sizeof (struct ft_list);
1367 	    i++, fault++) {
1368 		(void) snprintf(name, sizeof (name), "unit_%d", i);
1369 		SAVE_INT32_X(ksi, name, fault->unit);
1370 		(void) snprintf(name, sizeof (name), "type_%d", i);
1371 		SAVE_INT32_X(ksi, name, fault->type);
1372 		(void) snprintf(name, sizeof (name), "fclass_%d", i);
1373 		SAVE_INT32_X(ksi, name, fault->fclass);
1374 		(void) snprintf(name, sizeof (name), "create_time_%d", i);
1375 		SAVE_HRTIME_X(ksi, name, fault->create_time);
1376 		(void) snprintf(name, sizeof (name), "msg_%d", i);
1377 		SAVE_STRING_X(ksi, name, fault->msg);
1378 	}
1379 }
1380 #endif
1381 
1382 static void
1383 save_named(kstat_t *kp, ks_instance_t *ksi)
1384 {
1385 	kstat_named_t *knp;
1386 	int	n;
1387 
1388 	for (n = kp->ks_ndata, knp = KSTAT_NAMED_PTR(kp); n > 0; n--, knp++) {
1389 		switch (knp->data_type) {
1390 		case KSTAT_DATA_CHAR:
1391 			nvpair_insert(ksi, knp->name,
1392 			    (ks_value_t *)&knp->value, KSTAT_DATA_CHAR);
1393 			break;
1394 		case KSTAT_DATA_INT32:
1395 			nvpair_insert(ksi, knp->name,
1396 			    (ks_value_t *)&knp->value, KSTAT_DATA_INT32);
1397 			break;
1398 		case KSTAT_DATA_UINT32:
1399 			nvpair_insert(ksi, knp->name,
1400 			    (ks_value_t *)&knp->value, KSTAT_DATA_UINT32);
1401 			break;
1402 		case KSTAT_DATA_INT64:
1403 			nvpair_insert(ksi, knp->name,
1404 			    (ks_value_t *)&knp->value, KSTAT_DATA_INT64);
1405 			break;
1406 		case KSTAT_DATA_UINT64:
1407 			nvpair_insert(ksi, knp->name,
1408 			    (ks_value_t *)&knp->value, KSTAT_DATA_UINT64);
1409 			break;
1410 		case KSTAT_DATA_STRING:
1411 			SAVE_STRING_X(ksi, knp->name, KSTAT_NAMED_STR_PTR(knp));
1412 			break;
1413 		default:
1414 			assert(B_FALSE); /* Invalid data type */
1415 			break;
1416 		}
1417 	}
1418 }
1419 
1420 static void
1421 save_intr(kstat_t *kp, ks_instance_t *ksi)
1422 {
1423 	kstat_intr_t *intr = KSTAT_INTR_PTR(kp);
1424 	char	*intr_names[] = {"hard", "soft", "watchdog", "spurious",
1425 	    "multiple_service"};
1426 	int	n;
1427 
1428 	for (n = 0; n < KSTAT_NUM_INTRS; n++)
1429 		SAVE_UINT32_X(ksi, intr_names[n], intr->intrs[n]);
1430 }
1431 
1432 static void
1433 save_io(kstat_t *kp, ks_instance_t *ksi)
1434 {
1435 	kstat_io_t	*ksio = KSTAT_IO_PTR(kp);
1436 
1437 	SAVE_UINT64(ksi, ksio, nread);
1438 	SAVE_UINT64(ksi, ksio, nwritten);
1439 	SAVE_UINT32(ksi, ksio, reads);
1440 	SAVE_UINT32(ksi, ksio, writes);
1441 	SAVE_HRTIME(ksi, ksio, wtime);
1442 	SAVE_HRTIME(ksi, ksio, wlentime);
1443 	SAVE_HRTIME(ksi, ksio, wlastupdate);
1444 	SAVE_HRTIME(ksi, ksio, rtime);
1445 	SAVE_HRTIME(ksi, ksio, rlentime);
1446 	SAVE_HRTIME(ksi, ksio, rlastupdate);
1447 	SAVE_UINT32(ksi, ksio, wcnt);
1448 	SAVE_UINT32(ksi, ksio, rcnt);
1449 }
1450 
1451 static void
1452 save_timer(kstat_t *kp, ks_instance_t *ksi)
1453 {
1454 	kstat_timer_t	*ktimer = KSTAT_TIMER_PTR(kp);
1455 
1456 	SAVE_STRING(ksi, ktimer, name);
1457 	SAVE_UINT64(ksi, ktimer, num_events);
1458 	SAVE_HRTIME(ksi, ktimer, elapsed_time);
1459 	SAVE_HRTIME(ksi, ktimer, min_time);
1460 	SAVE_HRTIME(ksi, ktimer, max_time);
1461 	SAVE_HRTIME(ksi, ktimer, start_time);
1462 	SAVE_HRTIME(ksi, ktimer, stop_time);
1463 }
1464