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[PATCH] kernel: update remap to work for dm as well
[blktrace.git] / blkparse.c
CommitLineData
d956a2cd
JA		 1/*
2 * block queue tracing parse application
3 *
4 * Copyright (C) 2005 Jens Axboe <axboe@suse.de>
5 *
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
10 *
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
15 *
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19 *
20 */
d0ca268b
JA		 21#include <sys/types.h>
22#include <sys/stat.h>
23#include <unistd.h>
24#include <stdio.h>
25#include <fcntl.h>
26#include <stdlib.h>
8fc0abbc 27#include <string.h>
d5396421 28#include <getopt.h>
412819ce
JA		 29#include <errno.h>
30#include <signal.h>
d69db225 31#include <locale.h>
d0ca268b 32
8fc0abbc
JA		 33#include "blktrace.h"
34#include "rbtree.h"
bf0720af 35#include "jhash.h"
d0ca268b 36
52724a0e
JA		 37static char blkparse_version[] = "0.90";
38
e7c9f3ff 39struct per_dev_info {
f7bd1a9b 40 dev_t dev;
e7c9f3ff
NS		 41 char *name;
42
43 int backwards;
44 unsigned long long events;
20ed6177 45 unsigned long long first_reported_time;
e7c9f3ff 46 unsigned long long last_reported_time;
287fa3d6 47 unsigned long long last_read_time;
e7c9f3ff 48 struct io_stats io_stats;
cb2a1a62 49 unsigned long last_sequence;
dcf0f7ed 50 unsigned long skips;
e7c9f3ff 51
2a1b3424
JA		 52 struct rb_root rb_last;
53 unsigned long rb_last_entries;
54
f7bd1a9b
JA		 55 struct rb_root rb_track;
56
73877e12 57 int nfiles;
e7c9f3ff 58 int ncpus;
824c2b39
JA		 59
60 unsigned long *cpu_map;
61 unsigned int cpu_map_max;
62
e7c9f3ff
NS		 63 struct per_cpu_info *cpus;
64};
65
152f6476
JA		 66struct per_process_info {
67 char name[16];
68 __u32 pid;
69 struct io_stats io_stats;
70 struct per_process_info *hash_next, *list_next;
715d8021 71 int more_than_one;
50adc0ba
JA		 72
73 /*
74 * individual io stats
75 */
b9d40d6f
JA		 76 unsigned long long longest_allocation_wait[2];
77 unsigned long long longest_dispatch_wait[2];
78 unsigned long long longest_completion_wait[2];
d0ca268b
JA		 79};
80
152f6476 81#define PPI_HASH_SHIFT (8)
bf0720af
JA		 82#define PPI_HASH_SIZE (1 << PPI_HASH_SHIFT)
83#define PPI_HASH_MASK (PPI_HASH_SIZE - 1)
84static struct per_process_info *ppi_hash_table[PPI_HASH_SIZE];
152f6476 85static struct per_process_info *ppi_list;
886ecf0e 86static int ppi_list_entries;
152f6476 87
d915dee6 88#define S_OPTS "a:A:i:o:b:stqw:f:F:vVhD:"
d5396421 89static struct option l_opts[] = {
98f8386b
AB		 90 {
91 .name = "act-mask",
92 .has_arg = required_argument,
93 .flag = NULL,
94 .val = 'a'
95 },
96 {
97 .name = "set-mask",
98 .has_arg = required_argument,
99 .flag = NULL,
100 .val = 'A'
101 },
d5396421
JA		 102 {
103 .name = "input",
428683db 104 .has_arg = required_argument,
d5396421
JA		 105 .flag = NULL,
106 .val = 'i'
107 },
108 {
109 .name = "output",
428683db 110 .has_arg = required_argument,
d5396421
JA		 111 .flag = NULL,
112 .val = 'o'
113 },
79f19470
JA		 114 {
115 .name = "batch",
428683db 116 .has_arg = required_argument,
79f19470
JA		 117 .flag = NULL,
118 .val = 'b'
119 },
152f6476 120 {
3f65c585 121 .name = "per-program-stats",
428683db 122 .has_arg = no_argument,
152f6476
JA		 123 .flag = NULL,
124 .val = 's'
125 },
7997c5b0 126 {
3f65c585 127 .name = "track-ios",
428683db 128 .has_arg = no_argument,
7997c5b0
JA		 129 .flag = NULL,
130 .val = 't'
131 },
1e1c60f1
NS		 132 {
133 .name = "quiet",
428683db 134 .has_arg = no_argument,
1e1c60f1
NS		 135 .flag = NULL,
136 .val = 'q'
137 },
46e6968b
NS		 138 {
139 .name = "stopwatch",
428683db 140 .has_arg = required_argument,
46e6968b
NS		 141 .flag = NULL,
142 .val = 'w'
143 },
ab197ca7
AB		 144 {
145 .name = "format",
428683db 146 .has_arg = required_argument,
ab197ca7
AB		 147 .flag = NULL,
148 .val = 'f'
149 },
150 {
151 .name = "format-spec",
428683db 152 .has_arg = required_argument,
ab197ca7
AB		 153 .flag = NULL,
154 .val = 'F'
155 },
bf0720af 156 {
3f65c585 157 .name = "hash-by-name",
bf0720af
JA		 158 .has_arg = no_argument,
159 .flag = NULL,
d915dee6 160 .val = 'h'
bf0720af 161 },
7d1c0411 162 {
57ea8602 163 .name = "verbose",
7d1c0411
JA		 164 .has_arg = no_argument,
165 .flag = NULL,
57ea8602 166 .val = 'v'
7d1c0411 167 },
52724a0e
JA		 168 {
169 .name = "version",
170 .has_arg = no_argument,
171 .flag = NULL,
57ea8602 172 .val = 'V'
52724a0e 173 },
d1d7f15f 174 {
3f65c585 175 .name = "input-directory",
d1d7f15f
JA		 176 .has_arg = required_argument,
177 .flag = NULL,
178 .val = 'D'
179 },
71ef8b7c
JA		 180 {
181 .name = NULL,
182 }
d5396421
JA		 183};
184
7997c5b0
JA		 185/*
186 * for sorting the displayed output
187 */
8fc0abbc
JA		 188struct trace {
189 struct blk_io_trace *bit;
190 struct rb_node rb_node;
cb2a1a62 191 struct trace *next;
8fc0abbc
JA		 192};
193
cb2a1a62 194static struct rb_root rb_sort_root;
a649216c
JA		 195static unsigned long rb_sort_entries;
196
cb2a1a62
JA		 197static struct trace *trace_list;
198
d36421e4
JA		 199/*
200 * allocation cache
201 */
202static struct blk_io_trace *bit_alloc_list;
203static struct trace *t_alloc_list;
204
7997c5b0
JA		 205/*
206 * for tracking individual ios
207 */
208struct io_track {
209 struct rb_node rb_node;
210
211 __u64 sector;
212 __u32 pid;
bf0720af 213 char comm[16];
95c15013 214 unsigned long long allocation_time;
7997c5b0
JA		 215 unsigned long long queue_time;
216 unsigned long long dispatch_time;
217 unsigned long long completion_time;
218};
219
e7c9f3ff
NS		 220static int ndevices;
221static struct per_dev_info *devices;
222static char *get_dev_name(struct per_dev_info *, char *, int);
d0ca268b 223
71d5d4c9 224FILE *ofp = NULL;
e7c9f3ff 225static char *output_name;
d1d7f15f 226static char *input_dir;
e7c9f3ff
NS		 227
228static unsigned long long genesis_time;
287fa3d6 229static unsigned long long last_allowed_time;
1c7c54aa 230static unsigned int smallest_seq_read;
46e6968b 231static unsigned long long stopwatch_start; /* start from zero by default */
bc171579 232static unsigned long long stopwatch_end = -1ULL; /* "infinity" */
152f6476
JA		 233
234static int per_process_stats;
cbc927b6 235static int per_device_and_cpu_stats = 1;
7997c5b0 236static int track_ios;
bf0720af 237static int ppi_hash_by_pid = 1;
57ea8602 238static int verbose;
98f8386b 239static unsigned int act_mask = -1U;
cbc927b6 240static int stats_printed;
d0ca268b 241
1d24fc14
JA		 242static unsigned int t_alloc_cache;
243static unsigned int bit_alloc_cache;
244
7d747d22 245#define RB_BATCH_DEFAULT (512)
e820abd7 246static unsigned int rb_batch = RB_BATCH_DEFAULT;
79f19470 247
e7c9f3ff
NS		 248static int pipeline;
249
412819ce
JA		 250#define is_done() (*(volatile int *)(&done))
251static volatile int done;
252
bf0720af
JA		 253#define JHASH_RANDOM (0x3af5f2ee)
254
824c2b39
JA		 255#define CPUS_PER_LONG (8 * sizeof(unsigned long))
256#define CPU_IDX(cpu) ((cpu) / CPUS_PER_LONG)
257#define CPU_BIT(cpu) ((cpu) & (CPUS_PER_LONG - 1))
258
259static void cpu_mark_online(struct per_dev_info *pdi, unsigned int cpu)
260{
261 if (cpu >= pdi->cpu_map_max || !pdi->cpu_map) {
262 int new_max = (cpu + CPUS_PER_LONG) & ~(CPUS_PER_LONG - 1);
263 unsigned long *map = malloc(new_max / sizeof(long));
264
265 memset(map, 0, new_max / sizeof(long));
266
267 if (pdi->cpu_map) {
268 memcpy(map, pdi->cpu_map, pdi->cpu_map_max / sizeof(long));
269 free(pdi->cpu_map);
270 }
271
272 pdi->cpu_map = map;
273 pdi->cpu_map_max = new_max;
274 }
275
276 pdi->cpu_map[CPU_IDX(cpu)] |= (1UL << CPU_BIT(cpu));
277}
278
279static inline void cpu_mark_offline(struct per_dev_info *pdi, int cpu)
280{
281 pdi->cpu_map[CPU_IDX(cpu)] &= ~(1UL << CPU_BIT(cpu));
282}
283
284static inline int cpu_is_online(struct per_dev_info *pdi, int cpu)
285{
286 return (pdi->cpu_map[CPU_IDX(cpu)] & (1UL << CPU_BIT(cpu))) != 0;
287}
288
bf0720af
JA		 289static inline int ppi_hash_pid(__u32 pid)
290{
291 return jhash_1word(pid, JHASH_RANDOM) & PPI_HASH_MASK;
292}
293
294static inline int ppi_hash_name(const char *name)
152f6476 295{
bf0720af
JA		 296 return jhash(name, 16, JHASH_RANDOM) & PPI_HASH_MASK;
297}
298
299static inline int ppi_hash(struct per_process_info *ppi)
300{
301 if (ppi_hash_by_pid)
302 return ppi_hash_pid(ppi->pid);
303
bf0720af 304 return ppi_hash_name(ppi->name);
152f6476
JA		 305}
306
307static inline void add_process_to_hash(struct per_process_info *ppi)
308{
bf0720af 309 const int hash_idx = ppi_hash(ppi);
152f6476 310
bf0720af
JA		 311 ppi->hash_next = ppi_hash_table[hash_idx];
312 ppi_hash_table[hash_idx] = ppi;
152f6476
JA		 313}
314
315static inline void add_process_to_list(struct per_process_info *ppi)
316{
317 ppi->list_next = ppi_list;
318 ppi_list = ppi;
886ecf0e 319 ppi_list_entries++;
152f6476
JA		 320}
321
bf0720af
JA		 322static struct per_process_info *find_process_by_name(char *name)
323{
324 const int hash_idx = ppi_hash_name(name);
325 struct per_process_info *ppi;
326
327 ppi = ppi_hash_table[hash_idx];
328 while (ppi) {
329 if (!strcmp(ppi->name, name))
330 return ppi;
331
332 ppi = ppi->hash_next;
333 }
334
335 return NULL;
336}
337
152f6476
JA		 338static struct per_process_info *find_process_by_pid(__u32 pid)
339{
bf0720af 340 const int hash_idx = ppi_hash_pid(pid);
152f6476
JA		 341 struct per_process_info *ppi;
342
bf0720af 343 ppi = ppi_hash_table[hash_idx];
152f6476
JA		 344 while (ppi) {
345 if (ppi->pid == pid)
346 return ppi;
347
348 ppi = ppi->hash_next;
349 }
350
351 return NULL;
352}
353
bf0720af
JA		 354static struct per_process_info *find_process(__u32 pid, char *name)
355{
715d8021
JA		 356 struct per_process_info *ppi;
357
bf0720af
JA		 358 if (ppi_hash_by_pid)
359 return find_process_by_pid(pid);
360
715d8021
JA		 361 ppi = find_process_by_name(name);
362 if (ppi && ppi->pid != pid)
363 ppi->more_than_one = 1;
364
365 return ppi;
bf0720af
JA		 366}
367
23211fdf
JA		 368static inline int trace_rb_insert(struct trace *t, struct rb_root *root,
369 int check_time)
7997c5b0 370{
2a1b3424 371 struct rb_node **p = &root->rb_node;
7997c5b0
JA		 372 struct rb_node *parent = NULL;
373 struct trace *__t;
374
375 while (*p) {
376 parent = *p;
2a1b3424 377
7997c5b0
JA		 378 __t = rb_entry(parent, struct trace, rb_node);
379
23211fdf
JA		 380 if (check_time) {
381 if (t->bit->time < __t->bit->time) {
382 p = &(*p)->rb_left;
383 continue;
384 } else if (t->bit->time > __t->bit->time) {
385 p = &(*p)->rb_right;
386 continue;
387 }
388 }
389 if (t->bit->device < __t->bit->device)
e7c9f3ff
NS		 390 p = &(*p)->rb_left;
391 else if (t->bit->device > __t->bit->device)
392 p = &(*p)->rb_right;
dcf0f7ed
JA		 393 else if (t->bit->sequence < __t->bit->sequence)
394 p = &(*p)->rb_left;
0b07f23e 395 else /* >= sequence */
dcf0f7ed 396 p = &(*p)->rb_right;
7997c5b0
JA		 397 }
398
399 rb_link_node(&t->rb_node, parent, p);
2a1b3424 400 rb_insert_color(&t->rb_node, root);
7997c5b0
JA		 401 return 0;
402}
403
2a1b3424 404static inline int trace_rb_insert_sort(struct trace *t)
e3556946 405{
23211fdf 406 if (!trace_rb_insert(t, &rb_sort_root, 1)) {
2a1b3424
JA		 407 rb_sort_entries++;
408 return 0;
409 }
410
411 return 1;
412}
413
414static inline int trace_rb_insert_last(struct per_dev_info *pdi,struct trace *t)
415{
23211fdf 416 if (!trace_rb_insert(t, &pdi->rb_last, 1)) {
2a1b3424
JA		 417 pdi->rb_last_entries++;
418 return 0;
419 }
420
421 return 1;
422}
423
424static struct trace *trace_rb_find(dev_t device, unsigned long sequence,
425 struct rb_root *root, int order)
426{
427 struct rb_node *n = root->rb_node;
428 struct rb_node *prev = NULL;
e3556946
JA		 429 struct trace *__t;
430
2a1b3424
JA		 431 while (n) {
432 __t = rb_entry(n, struct trace, rb_node);
433 prev = n;
e3556946 434
0583b6a2 435 if (device < __t->bit->device)
2a1b3424 436 n = n->rb_left;
0583b6a2 437 else if (device > __t->bit->device)
2a1b3424 438 n = n->rb_right;
0583b6a2 439 else if (sequence < __t->bit->sequence)
2a1b3424 440 n = n->rb_left;
e3556946 441 else if (sequence > __t->bit->sequence)
2a1b3424 442 n = n->rb_right;
e3556946
JA		 443 else
444 return __t;
445 }
446
2a1b3424
JA		 447 /*
448 * hack - the list may not be sequence ordered because some
449 * events don't have sequence and time matched. so we end up
450 * being a little off in the rb lookup here, because we don't
451 * know the time we are looking for. compensate by browsing
452 * a little ahead from the last entry to find the match
453 */
454 if (order && prev) {
455 int max = 5;
456
457 while (((n = rb_next(prev)) != NULL) && max--) {
458 __t = rb_entry(n, struct trace, rb_node);
459
460 if (__t->bit->device == device &&
461 __t->bit->sequence == sequence)
462 return __t;
463
464 prev = n;
465 }
466 }
467
e3556946
JA		 468 return NULL;
469}
470
2a1b3424
JA		 471static inline struct trace *trace_rb_find_sort(dev_t dev, unsigned long seq)
472{
473 return trace_rb_find(dev, seq, &rb_sort_root, 1);
474}
475
476static inline struct trace *trace_rb_find_last(struct per_dev_info *pdi,
477 unsigned long seq)
478{
f7bd1a9b 479 return trace_rb_find(pdi->dev, seq, &pdi->rb_last, 0);
2a1b3424
JA		 480}
481
f7bd1a9b 482static inline int track_rb_insert(struct per_dev_info *pdi,struct io_track *iot)
7997c5b0 483{
f7bd1a9b 484 struct rb_node **p = &pdi->rb_track.rb_node;
7997c5b0
JA		 485 struct rb_node *parent = NULL;
486 struct io_track *__iot;
487
488 while (*p) {
489 parent = *p;
7997c5b0
JA		 490 __iot = rb_entry(parent, struct io_track, rb_node);
491
f7bd1a9b 492 if (iot->sector < __iot->sector)
7997c5b0
JA		 493 p = &(*p)->rb_left;
494 else if (iot->sector > __iot->sector)
495 p = &(*p)->rb_right;
496 else {
e7c9f3ff 497 fprintf(stderr,
ab197ca7
AB		 498 "sector alias (%Lu) on device %d,%d!\n",
499 (unsigned long long) iot->sector,
f7bd1a9b 500 MAJOR(pdi->dev), MINOR(pdi->dev));
7997c5b0
JA		 501 return 1;
502 }
503 }
504
505 rb_link_node(&iot->rb_node, parent, p);
f7bd1a9b 506 rb_insert_color(&iot->rb_node, &pdi->rb_track);
7997c5b0
JA		 507 return 0;
508}
509
f7bd1a9b 510static struct io_track *__find_track(struct per_dev_info *pdi, __u64 sector)
7997c5b0 511{
f7bd1a9b 512 struct rb_node *n = pdi->rb_track.rb_node;
7997c5b0
JA		 513 struct io_track *__iot;
514
2a1b3424
JA		 515 while (n) {
516 __iot = rb_entry(n, struct io_track, rb_node);
7997c5b0 517
f7bd1a9b 518 if (sector < __iot->sector)
2a1b3424 519 n = n->rb_left;
7997c5b0 520 else if (sector > __iot->sector)
2a1b3424 521 n = n->rb_right;
7997c5b0
JA		 522 else
523 return __iot;
524 }
525
526 return NULL;
527}
528
f7bd1a9b
JA		 529static struct io_track *find_track(struct per_dev_info *pdi, __u32 pid,
530 char *comm, __u64 sector)
7997c5b0 531{
916b5501 532 struct io_track *iot;
7997c5b0 533
f7bd1a9b 534 iot = __find_track(pdi, sector);
7997c5b0
JA		 535 if (!iot) {
536 iot = malloc(sizeof(*iot));
50adc0ba 537 iot->pid = pid;
bf0720af 538 memcpy(iot->comm, comm, sizeof(iot->comm));
7997c5b0 539 iot->sector = sector;
f7bd1a9b 540 track_rb_insert(pdi, iot);
7997c5b0
JA		 541 }
542
543 return iot;
544}
545
f7bd1a9b
JA		 546static void log_track_frontmerge(struct per_dev_info *pdi,
547 struct blk_io_trace *t)
2e3e8ded
JA		 548{
549 struct io_track *iot;
550
551 if (!track_ios)
552 return;
2e3e8ded 553
ae957cbc 554 iot = __find_track(pdi, t->sector + t_sec(t));
cb2a1a62 555 if (!iot) {
57ea8602
JA		 556 if (verbose)
557 fprintf(stderr, "merge not found for (%d,%d): %llu\n",
558 MAJOR(pdi->dev), MINOR(pdi->dev),
559 (unsigned long long) t->sector + t_sec(t));
cb2a1a62 560 return;
2e3e8ded 561 }
cb2a1a62 562
f7bd1a9b 563 rb_erase(&iot->rb_node, &pdi->rb_track);
ae957cbc 564 iot->sector -= t_sec(t);
f7bd1a9b 565 track_rb_insert(pdi, iot);
2e3e8ded
JA		 566}
567
f7bd1a9b 568static void log_track_getrq(struct per_dev_info *pdi, struct blk_io_trace *t)
2e3e8ded
JA		 569{
570 struct io_track *iot;
571
572 if (!track_ios)
573 return;
574
f7bd1a9b 575 iot = find_track(pdi, t->pid, t->comm, t->sector);
95c15013
JA		 576 iot->allocation_time = t->time;
577}
578
95c15013 579/*
b6076a9b 580 * return time between rq allocation and insertion
95c15013 581 */
f7bd1a9b
JA		 582static unsigned long long log_track_insert(struct per_dev_info *pdi,
583 struct blk_io_trace *t)
95c15013 584{
50adc0ba 585 unsigned long long elapsed;
95c15013
JA		 586 struct io_track *iot;
587
588 if (!track_ios)
589 return -1;
590
f7bd1a9b 591 iot = find_track(pdi, t->pid, t->comm, t->sector);
2e3e8ded 592 iot->queue_time = t->time;
acd70d21
JA		 593
594 if (!iot->allocation_time)
595 return -1;
596
50adc0ba
JA		 597 elapsed = iot->queue_time - iot->allocation_time;
598
599 if (per_process_stats) {
bf0720af 600 struct per_process_info *ppi = find_process(iot->pid,iot->comm);
b9d40d6f 601 int w = (t->action & BLK_TC_ACT(BLK_TC_WRITE)) != 0;
50adc0ba 602
b9d40d6f
JA		 603 if (ppi && elapsed > ppi->longest_allocation_wait[w])
604 ppi->longest_allocation_wait[w] = elapsed;
50adc0ba
JA		 605 }
606
607 return elapsed;
2e3e8ded
JA		 608}
609
610/*
611 * return time between queue and issue
612 */
f7bd1a9b
JA		 613static unsigned long long log_track_issue(struct per_dev_info *pdi,
614 struct blk_io_trace *t)
2e3e8ded 615{
50adc0ba 616 unsigned long long elapsed;
2e3e8ded
JA		 617 struct io_track *iot;
618
619 if (!track_ios)
620 return -1;
621 if ((t->action & BLK_TC_ACT(BLK_TC_FS)) == 0)
622 return -1;
623
f7bd1a9b 624 iot = __find_track(pdi, t->sector);
cb2a1a62 625 if (!iot) {
57ea8602
JA		 626 if (verbose)
627 fprintf(stderr, "issue not found for (%d,%d): %llu\n",
628 MAJOR(pdi->dev), MINOR(pdi->dev),
629 (unsigned long long) t->sector);
2e3e8ded 630 return -1;
cb2a1a62 631 }
2e3e8ded
JA		 632
633 iot->dispatch_time = t->time;
50adc0ba
JA		 634 elapsed = iot->dispatch_time - iot->queue_time;
635
636 if (per_process_stats) {
bf0720af 637 struct per_process_info *ppi = find_process(iot->pid,iot->comm);
b9d40d6f 638 int w = (t->action & BLK_TC_ACT(BLK_TC_WRITE)) != 0;
50adc0ba 639
b9d40d6f
JA		 640 if (ppi && elapsed > ppi->longest_dispatch_wait[w])
641 ppi->longest_dispatch_wait[w] = elapsed;
50adc0ba
JA		 642 }
643
644 return elapsed;
2e3e8ded
JA		 645}
646
647/*
648 * return time between dispatch and complete
649 */
f7bd1a9b
JA		 650static unsigned long long log_track_complete(struct per_dev_info *pdi,
651 struct blk_io_trace *t)
2e3e8ded
JA		 652{
653 unsigned long long elapsed;
654 struct io_track *iot;
655
656 if (!track_ios)
657 return -1;
658 if ((t->action & BLK_TC_ACT(BLK_TC_FS)) == 0)
659 return -1;
660
f7bd1a9b 661 iot = __find_track(pdi, t->sector);
cb2a1a62 662 if (!iot) {
57ea8602
JA		 663 if (verbose)
664 fprintf(stderr,"complete not found for (%d,%d): %llu\n",
665 MAJOR(pdi->dev), MINOR(pdi->dev),
666 (unsigned long long) t->sector);
2e3e8ded 667 return -1;
cb2a1a62 668 }
2e3e8ded
JA		 669
670 iot->completion_time = t->time;
671 elapsed = iot->completion_time - iot->dispatch_time;
672
50adc0ba 673 if (per_process_stats) {
bf0720af 674 struct per_process_info *ppi = find_process(iot->pid,iot->comm);
b9d40d6f 675 int w = (t->action & BLK_TC_ACT(BLK_TC_WRITE)) != 0;
50adc0ba 676
b9d40d6f
JA		 677 if (ppi && elapsed > ppi->longest_completion_wait[w])
678 ppi->longest_completion_wait[w] = elapsed;
50adc0ba
JA		 679 }
680
2e3e8ded
JA		 681 /*
682 * kill the trace, we don't need it after completion
683 */
f7bd1a9b 684 rb_erase(&iot->rb_node, &pdi->rb_track);
2e3e8ded
JA		 685 free(iot);
686
687 return elapsed;
688}
689
690
152f6476
JA		 691static struct io_stats *find_process_io_stats(__u32 pid, char *name)
692{
bf0720af 693 struct per_process_info *ppi = find_process(pid, name);
152f6476
JA		 694
695 if (!ppi) {
696 ppi = malloc(sizeof(*ppi));
697 memset(ppi, 0, sizeof(*ppi));
bf0720af 698 memcpy(ppi->name, name, 16);
152f6476
JA		 699 ppi->pid = pid;
700 add_process_to_hash(ppi);
701 add_process_to_list(ppi);
702 }
703
704 return &ppi->io_stats;
705}
706
e7c9f3ff 707static void resize_cpu_info(struct per_dev_info *pdi, int cpu)
a718bd37 708{
e7c9f3ff
NS		 709 struct per_cpu_info *cpus = pdi->cpus;
710 int ncpus = pdi->ncpus;
711 int new_count = cpu + 1;
712 int new_space, size;
a718bd37
NS		 713 char *new_start;
714
e7c9f3ff
NS		 715 size = new_count * sizeof(struct per_cpu_info);
716 cpus = realloc(cpus, size);
717 if (!cpus) {
718 char name[20];
719 fprintf(stderr, "Out of memory, CPU info for device %s (%d)\n",
720 get_dev_name(pdi, name, sizeof(name)), size);
a718bd37
NS		 721 exit(1);
722 }
723
e7c9f3ff
NS		 724 new_start = (char *)cpus + (ncpus * sizeof(struct per_cpu_info));
725 new_space = (new_count - ncpus) * sizeof(struct per_cpu_info);
a718bd37 726 memset(new_start, 0, new_space);
e7c9f3ff
NS		 727
728 pdi->ncpus = new_count;
729 pdi->cpus = cpus;
730}
cb2a1a62 731
e7c9f3ff
NS		 732static struct per_cpu_info *get_cpu_info(struct per_dev_info *pdi, int cpu)
733{
cb2a1a62
JA		 734 struct per_cpu_info *pci;
735
e7c9f3ff
NS		 736 if (cpu >= pdi->ncpus)
737 resize_cpu_info(pdi, cpu);
cb2a1a62
JA		 738
739 pci = &pdi->cpus[cpu];
740 pci->cpu = cpu;
741 return pci;
a718bd37
NS		 742}
743
e7c9f3ff
NS		 744
745static int resize_devices(char *name)
a718bd37 746{
e7c9f3ff 747 int size = (ndevices + 1) * sizeof(struct per_dev_info);
c499bf38 748
e7c9f3ff
NS		 749 devices = realloc(devices, size);
750 if (!devices) {
751 fprintf(stderr, "Out of memory, device %s (%d)\n", name, size);
752 return 1;
753 }
754 memset(&devices[ndevices], 0, sizeof(struct per_dev_info));
755 devices[ndevices].name = name;
756 ndevices++;
757 return 0;
758}
a718bd37 759
f7bd1a9b 760static struct per_dev_info *get_dev_info(dev_t dev)
e7c9f3ff 761{
cb2a1a62 762 struct per_dev_info *pdi;
e7c9f3ff 763 int i;
c499bf38 764
7d747d22 765 for (i = 0; i < ndevices; i++) {
f7bd1a9b
JA		 766 if (!devices[i].dev)
767 devices[i].dev = dev;
768 if (devices[i].dev == dev)
e7c9f3ff 769 return &devices[i];
7d747d22 770 }
cb2a1a62 771
2a1b3424 772 if (resize_devices(NULL))
e7c9f3ff 773 return NULL;
cb2a1a62
JA		 774
775 pdi = &devices[ndevices - 1];
f7bd1a9b 776 pdi->dev = dev;
20ed6177 777 pdi->first_reported_time = 0;
d6222db8 778 pdi->last_sequence = -1;
287fa3d6 779 pdi->last_read_time = 0;
2a1b3424
JA		 780 memset(&pdi->rb_last, 0, sizeof(pdi->rb_last));
781 pdi->rb_last_entries = 0;
cb2a1a62 782 return pdi;
a718bd37
NS		 783}
784
e7c9f3ff
NS		 785static char *get_dev_name(struct per_dev_info *pdi, char *buffer, int size)
786{
787 if (pdi->name)
788 snprintf(buffer, size, "%s", pdi->name);
789 else
f7bd1a9b 790 snprintf(buffer, size, "%d,%d",MAJOR(pdi->dev),MINOR(pdi->dev));
e7c9f3ff
NS		 791 return buffer;
792}
793
e7c9f3ff 794static void check_time(struct per_dev_info *pdi, struct blk_io_trace *bit)
cfab07eb
AB		 795{
796 unsigned long long this = bit->time;
e7c9f3ff 797 unsigned long long last = pdi->last_reported_time;
cfab07eb 798
e7c9f3ff
NS		 799 pdi->backwards = (this < last) ? 'B' : ' ';
800 pdi->last_reported_time = this;
cfab07eb
AB		 801}
802
152f6476
JA		 803static inline void __account_m(struct io_stats *ios, struct blk_io_trace *t,
804 int rw)
d0ca268b
JA		 805{
806 if (rw) {
152f6476 807 ios->mwrites++;
ae957cbc 808 ios->qwrite_kb += t_kb(t);
d0ca268b 809 } else {
152f6476 810 ios->mreads++;
ae957cbc 811 ios->qread_kb += t_kb(t);
152f6476
JA		 812 }
813}
814
815static inline void account_m(struct blk_io_trace *t, struct per_cpu_info *pci,
816 int rw)
817{
818 __account_m(&pci->io_stats, t, rw);
819
820 if (per_process_stats) {
821 struct io_stats *ios = find_process_io_stats(t->pid, t->comm);
822
823 __account_m(ios, t, rw);
d0ca268b
JA		 824 }
825}
826
b6076a9b
JA		 827static inline void __account_queue(struct io_stats *ios, struct blk_io_trace *t,
828 int rw)
d0ca268b
JA		 829{
830 if (rw) {
152f6476 831 ios->qwrites++;
ae957cbc 832 ios->qwrite_kb += t_kb(t);
d0ca268b 833 } else {
152f6476 834 ios->qreads++;
ae957cbc 835 ios->qread_kb += t_kb(t);
152f6476
JA		 836 }
837}
838
b6076a9b
JA		 839static inline void account_queue(struct blk_io_trace *t,
840 struct per_cpu_info *pci, int rw)
152f6476 841{
b6076a9b 842 __account_queue(&pci->io_stats, t, rw);
152f6476
JA		 843
844 if (per_process_stats) {
845 struct io_stats *ios = find_process_io_stats(t->pid, t->comm);
846
b6076a9b 847 __account_queue(ios, t, rw);
d0ca268b
JA		 848 }
849}
850
152f6476 851static inline void __account_c(struct io_stats *ios, int rw, unsigned int bytes)
d0ca268b
JA		 852{
853 if (rw) {
152f6476
JA		 854 ios->cwrites++;
855 ios->cwrite_kb += bytes >> 10;
d0ca268b 856 } else {
152f6476
JA		 857 ios->creads++;
858 ios->cread_kb += bytes >> 10;
859 }
860}
861
862static inline void account_c(struct blk_io_trace *t, struct per_cpu_info *pci,
863 int rw, int bytes)
864{
865 __account_c(&pci->io_stats, rw, bytes);
866
867 if (per_process_stats) {
868 struct io_stats *ios = find_process_io_stats(t->pid, t->comm);
869
870 __account_c(ios, rw, bytes);
d0ca268b
JA		 871 }
872}
873
b6076a9b
JA		 874static inline void __account_issue(struct io_stats *ios, int rw,
875 unsigned int bytes)
afd2d7ad 876{
877 if (rw) {
152f6476
JA		 878 ios->iwrites++;
879 ios->iwrite_kb += bytes >> 10;
afd2d7ad 880 } else {
152f6476
JA		 881 ios->ireads++;
882 ios->iread_kb += bytes >> 10;
afd2d7ad 883 }
884}
885
b6076a9b
JA		 886static inline void account_issue(struct blk_io_trace *t,
887 struct per_cpu_info *pci, int rw)
d0ca268b 888{
b6076a9b 889 __account_issue(&pci->io_stats, rw, t->bytes);
152f6476
JA		 890
891 if (per_process_stats) {
892 struct io_stats *ios = find_process_io_stats(t->pid, t->comm);
d5396421 893
b6076a9b 894 __account_issue(ios, rw, t->bytes);
152f6476
JA		 895 }
896}
897
06639b27
JA		 898static inline void __account_unplug(struct io_stats *ios, int timer)
899{
900 if (timer)
901 ios->timer_unplugs++;
902 else
903 ios->io_unplugs++;
904}
905
906static inline void account_unplug(struct blk_io_trace *t,
907 struct per_cpu_info *pci, int timer)
908{
909 __account_unplug(&pci->io_stats, timer);
910
911 if (per_process_stats) {
912 struct io_stats *ios = find_process_io_stats(t->pid, t->comm);
913
914 __account_unplug(ios, timer);
915 }
916}
917
f7bd1a9b
JA		 918static void log_complete(struct per_dev_info *pdi, struct per_cpu_info *pci,
919 struct blk_io_trace *t, char *act)
ab197ca7 920{
f7bd1a9b 921 process_fmt(act, pci, t, log_track_complete(pdi, t), 0, NULL);
ab197ca7
AB		 922}
923
f7bd1a9b
JA		 924static void log_insert(struct per_dev_info *pdi, struct per_cpu_info *pci,
925 struct blk_io_trace *t, char *act)
b6076a9b 926{
f7bd1a9b 927 process_fmt(act, pci, t, log_track_insert(pdi, t), 0, NULL);
b6076a9b
JA		 928}
929
ab197ca7
AB		 930static void log_queue(struct per_cpu_info *pci, struct blk_io_trace *t,
931 char *act)
932{
b6076a9b 933 process_fmt(act, pci, t, -1, 0, NULL);
ab197ca7 934}
2e3e8ded 935
f7bd1a9b
JA		 936static void log_issue(struct per_dev_info *pdi, struct per_cpu_info *pci,
937 struct blk_io_trace *t, char *act)
ab197ca7 938{
f7bd1a9b 939 process_fmt(act, pci, t, log_track_issue(pdi, t), 0, NULL);
d0ca268b
JA		 940}
941
f7bd1a9b
JA		 942static void log_merge(struct per_dev_info *pdi, struct per_cpu_info *pci,
943 struct blk_io_trace *t, char *act)
d0ca268b 944{
a01516de 945 if (act[0] == 'F')
f7bd1a9b 946 log_track_frontmerge(pdi, t);
2e3e8ded 947
ab197ca7 948 process_fmt(act, pci, t, -1ULL, 0, NULL);
d0ca268b
JA		 949}
950
dfe34da1 951static void log_action(struct per_cpu_info *pci, struct blk_io_trace *t,
3639a11e 952 char *act)
dfe34da1 953{
ab197ca7 954 process_fmt(act, pci, t, -1ULL, 0, NULL);
dfe34da1
JA		 955}
956
d5396421 957static void log_generic(struct per_cpu_info *pci, struct blk_io_trace *t,
3639a11e 958 char *act)
d0ca268b 959{
ab197ca7 960 process_fmt(act, pci, t, -1ULL, 0, NULL);
d0ca268b
JA		 961}
962
ab197ca7 963static void log_unplug(struct per_cpu_info *pci, struct blk_io_trace *t,
3639a11e 964 char *act)
67e14fdc 965{
ab197ca7 966 process_fmt(act, pci, t, -1ULL, 0, NULL);
67e14fdc
JA		 967}
968
93f1c611
JA		 969static void log_split(struct per_cpu_info *pci, struct blk_io_trace *t,
970 char *act)
971{
972 process_fmt(act, pci, t, -1ULL, 0, NULL);
973}
974
ab197ca7 975static void log_pc(struct per_cpu_info *pci, struct blk_io_trace *t, char *act)
d0ca268b 976{
ab197ca7 977 unsigned char *buf = (unsigned char *) t + sizeof(*t);
d0ca268b 978
ab197ca7 979 process_fmt(act, pci, t, -1ULL, t->pdu_len, buf);
d0ca268b
JA		 980}
981
ff3a732c 982static void dump_trace_pc(struct blk_io_trace *t, struct per_cpu_info *pci)
d0ca268b 983{
56f2af81
JA		 984 int act = t->action & 0xffff;
985
986 switch (act) {
d0ca268b 987 case __BLK_TA_QUEUE:
3639a11e 988 log_generic(pci, t, "Q");
d0ca268b
JA		 989 break;
990 case __BLK_TA_GETRQ:
3639a11e 991 log_generic(pci, t, "G");
d0ca268b
JA		 992 break;
993 case __BLK_TA_SLEEPRQ:
3639a11e 994 log_generic(pci, t, "S");
d0ca268b
JA		 995 break;
996 case __BLK_TA_REQUEUE:
3639a11e 997 log_generic(pci, t, "R");
d0ca268b
JA		 998 break;
999 case __BLK_TA_ISSUE:
ab197ca7 1000 log_pc(pci, t, "D");
d0ca268b
JA		 1001 break;
1002 case __BLK_TA_COMPLETE:
3639a11e 1003 log_pc(pci, t, "C");
d0ca268b 1004 break;
56f2af81
JA		 1005 case __BLK_TA_INSERT:
1006 log_pc(pci, t, "I");
1007 break;
d0ca268b 1008 default:
56f2af81 1009 fprintf(stderr, "Bad pc action %x\n", act);
87b72777 1010 break;
d0ca268b 1011 }
d0ca268b
JA		 1012}
1013
f7bd1a9b
JA		 1014static void dump_trace_fs(struct blk_io_trace *t, struct per_dev_info *pdi,
1015 struct per_cpu_info *pci)
d0ca268b
JA		 1016{
1017 int w = t->action & BLK_TC_ACT(BLK_TC_WRITE);
7997c5b0 1018 int act = t->action & 0xffff;
d0ca268b 1019
7997c5b0 1020 switch (act) {
d0ca268b 1021 case __BLK_TA_QUEUE:
b6076a9b 1022 account_queue(t, pci, w);
3639a11e 1023 log_queue(pci, t, "Q");
d0ca268b 1024 break;
b6076a9b 1025 case __BLK_TA_INSERT:
f7bd1a9b 1026 log_insert(pdi, pci, t, "I");
b6076a9b 1027 break;
d0ca268b 1028 case __BLK_TA_BACKMERGE:
152f6476 1029 account_m(t, pci, w);
f7bd1a9b 1030 log_merge(pdi, pci, t, "M");
d0ca268b
JA		 1031 break;
1032 case __BLK_TA_FRONTMERGE:
152f6476 1033 account_m(t, pci, w);
f7bd1a9b 1034 log_merge(pdi, pci, t, "F");
d0ca268b
JA		 1035 break;
1036 case __BLK_TA_GETRQ:
f7bd1a9b 1037 log_track_getrq(pdi, t);
3639a11e 1038 log_generic(pci, t, "G");
d0ca268b
JA		 1039 break;
1040 case __BLK_TA_SLEEPRQ:
3639a11e 1041 log_generic(pci, t, "S");
d0ca268b
JA		 1042 break;
1043 case __BLK_TA_REQUEUE:
152f6476 1044 account_c(t, pci, w, -t->bytes);
3639a11e 1045 log_queue(pci, t, "R");
d0ca268b
JA		 1046 break;
1047 case __BLK_TA_ISSUE:
b6076a9b 1048 account_issue(t, pci, w);
f7bd1a9b 1049 log_issue(pdi, pci, t, "D");
d0ca268b
JA		 1050 break;
1051 case __BLK_TA_COMPLETE:
152f6476 1052 account_c(t, pci, w, t->bytes);
f7bd1a9b 1053 log_complete(pdi, pci, t, "C");
d0ca268b 1054 break;
88b1a526 1055 case __BLK_TA_PLUG:
3639a11e 1056 log_action(pci, t, "P");
88b1a526 1057 break;
3639a11e 1058 case __BLK_TA_UNPLUG_IO:
06639b27 1059 account_unplug(t, pci, 0);
3639a11e
JA		 1060 log_unplug(pci, t, "U");
1061 break;
1062 case __BLK_TA_UNPLUG_TIMER:
06639b27 1063 account_unplug(t, pci, 1);
3639a11e 1064 log_unplug(pci, t, "UT");
88b1a526 1065 break;
93f1c611
JA		 1066 case __BLK_TA_SPLIT:
1067 log_split(pci, t, "X");
1068 break;
1069 case __BLK_TA_BOUNCE:
1070 log_generic(pci, t, "B");
1071 break;
a8f30e64
JA		 1072 case __BLK_TA_REMAP:
1073 log_generic(pci, t, "A");
1074 break;
d0ca268b
JA		 1075 default:
1076 fprintf(stderr, "Bad fs action %x\n", t->action);
1f79c4a0 1077 break;
d0ca268b 1078 }
d0ca268b
JA		 1079}
1080
ff3a732c
JA		 1081static void dump_trace(struct blk_io_trace *t, struct per_cpu_info *pci,
1082 struct per_dev_info *pdi)
d0ca268b
JA		 1083{
1084 if (t->action & BLK_TC_ACT(BLK_TC_PC))
ff3a732c 1085 dump_trace_pc(t, pci);
d0ca268b 1086 else
f7bd1a9b 1087 dump_trace_fs(t, pdi, pci);
87b72777 1088
20ed6177
JA		 1089 if (!pdi->events)
1090 pdi->first_reported_time = t->time;
1091
e7c9f3ff 1092 pdi->events++;
d0ca268b
JA		 1093}
1094
4c523165
JA		 1095/*
1096 * print in a proper way, not too small and not too big. if more than
1097 * 1000,000K, turn into M and so on
1098 */
1099static char *size_cnv(char *dst, unsigned long long num, int in_kb)
1100{
da19e768 1101 char suff[] = { '\0', 'K', 'M', 'G', 'P' };
0dc3602c 1102 unsigned int i = 0;
4c523165
JA		 1103
1104 if (in_kb)
1105 i++;
1106
0dc3602c 1107 while (num > 1000 * 1000ULL && (i < sizeof(suff) - 1)) {
4c523165
JA		 1108 i++;
1109 num /= 1000;
1110 }
1111
1112 sprintf(dst, "%'8Lu%c", num, suff[i]);
1113 return dst;
1114}
1115
152f6476 1116static void dump_io_stats(struct io_stats *ios, char *msg)
5c017e4b 1117{
4c523165
JA		 1118 static char x[256], y[256];
1119
152f6476
JA		 1120 fprintf(ofp, "%s\n", msg);
1121
4c523165
JA		 1122 fprintf(ofp, " Reads Queued: %s, %siB\t", size_cnv(x, ios->qreads, 0), size_cnv(y, ios->qread_kb, 1));
1123 fprintf(ofp, " Writes Queued: %s, %siB\n", size_cnv(x, ios->qwrites, 0), size_cnv(y, ios->qwrite_kb, 1));
0a6b8fc4 1124
4c523165
JA		 1125 fprintf(ofp, " Read Dispatches: %s, %siB\t", size_cnv(x, ios->ireads, 0), size_cnv(y, ios->iread_kb, 1));
1126 fprintf(ofp, " Write Dispatches: %s, %siB\n", size_cnv(x, ios->iwrites, 0), size_cnv(y, ios->iwrite_kb, 1));
1127 fprintf(ofp, " Reads Completed: %s, %siB\t", size_cnv(x, ios->creads, 0), size_cnv(y, ios->cread_kb, 1));
1128 fprintf(ofp, " Writes Completed: %s, %siB\n", size_cnv(x, ios->cwrites, 0), size_cnv(y, ios->cwrite_kb, 1));
152f6476 1129 fprintf(ofp, " Read Merges: %'8lu%8c\t", ios->mreads, ' ');
152f6476 1130 fprintf(ofp, " Write Merges: %'8lu\n", ios->mwrites);
06639b27
JA		 1131 fprintf(ofp, " IO unplugs: %'8lu%8c\t", ios->io_unplugs, ' ');
1132 fprintf(ofp, " Timer unplugs: %'8lu\n", ios->timer_unplugs);
5c017e4b
JA		 1133}
1134
50adc0ba
JA		 1135static void dump_wait_stats(struct per_process_info *ppi)
1136{
b9d40d6f
JA		 1137 unsigned long rawait = ppi->longest_allocation_wait[0] / 1000;
1138 unsigned long rdwait = ppi->longest_dispatch_wait[0] / 1000;
1139 unsigned long rcwait = ppi->longest_completion_wait[0] / 1000;
1140 unsigned long wawait = ppi->longest_allocation_wait[1] / 1000;
1141 unsigned long wdwait = ppi->longest_dispatch_wait[1] / 1000;
1142 unsigned long wcwait = ppi->longest_completion_wait[1] / 1000;
1143
1144 fprintf(ofp, " Allocation wait: %'8lu%8c\t", rawait, ' ');
1145 fprintf(ofp, " Allocation wait: %'8lu\n", wawait);
1146 fprintf(ofp, " Dispatch wait: %'8lu%8c\t", rdwait, ' ');
1147 fprintf(ofp, " Dispatch wait: %'8lu\n", wdwait);
1148 fprintf(ofp, " Completion wait: %'8lu%8c\t", rcwait, ' ');
1149 fprintf(ofp, " Completion wait: %'8lu\n", wcwait);
50adc0ba
JA		 1150}
1151
886ecf0e
JA		 1152static int ppi_name_compare(const void *p1, const void *p2)
1153{
1154 struct per_process_info *ppi1 = *((struct per_process_info **) p1);
1155 struct per_process_info *ppi2 = *((struct per_process_info **) p2);
1156 int res;
1157
1158 res = strverscmp(ppi1->name, ppi2->name);
1159 if (!res)
06e6f286 1160 res = ppi1->pid > ppi2->pid;
886ecf0e
JA		 1161
1162 return res;
1163}
1164
1165static void sort_process_list(void)
1166{
1167 struct per_process_info **ppis;
1168 struct per_process_info *ppi;
1169 int i = 0;
1170
1171 ppis = malloc(ppi_list_entries * sizeof(struct per_process_info *));
1172
1173 ppi = ppi_list;
1174 while (ppi) {
06e6f286 1175 ppis[i++] = ppi;
886ecf0e
JA		 1176 ppi = ppi->list_next;
1177 }
1178
06e6f286 1179 qsort(ppis, ppi_list_entries, sizeof(ppi), ppi_name_compare);
886ecf0e
JA		 1180
1181 i = ppi_list_entries - 1;
1182 ppi_list = NULL;
1183 while (i >= 0) {
1184 ppi = ppis[i];
1185
1186 ppi->list_next = ppi_list;
1187 ppi_list = ppi;
1188 i--;
1189 }
50c38702
JA		 1190
1191 free(ppis);
886ecf0e
JA		 1192}
1193
152f6476
JA		 1194static void show_process_stats(void)
1195{
1196 struct per_process_info *ppi;
1197
886ecf0e
JA		 1198 sort_process_list();
1199
152f6476
JA		 1200 ppi = ppi_list;
1201 while (ppi) {
ce8b6b4f
JA		 1202 char name[64];
1203
715d8021 1204 if (ppi->more_than_one)
bf0720af 1205 sprintf(name, "%s (%u, ...)", ppi->name, ppi->pid);
715d8021
JA		 1206 else
1207 sprintf(name, "%s (%u)", ppi->name, ppi->pid);
bf0720af 1208
ce8b6b4f 1209 dump_io_stats(&ppi->io_stats, name);
50adc0ba 1210 dump_wait_stats(ppi);
152f6476
JA		 1211 ppi = ppi->list_next;
1212 }
1213
1214 fprintf(ofp, "\n");
1215}
1216
e7c9f3ff 1217static void show_device_and_cpu_stats(void)
d0ca268b 1218{
e7c9f3ff
NS		 1219 struct per_dev_info *pdi;
1220 struct per_cpu_info *pci;
1221 struct io_stats total, *ios;
20ed6177 1222 unsigned long long rrate, wrate, msec;
e7c9f3ff
NS		 1223 int i, j, pci_events;
1224 char line[3 + 8/*cpu*/ + 2 + 32/*dev*/ + 3];
1225 char name[32];
1226
1227 for (pdi = devices, i = 0; i < ndevices; i++, pdi++) {
1228
1229 memset(&total, 0, sizeof(total));
1230 pci_events = 0;
1231
1232 if (i > 0)
1233 fprintf(ofp, "\n");
1234
1235 for (pci = pdi->cpus, j = 0; j < pdi->ncpus; j++, pci++) {
1236 if (!pci->nelems)
1237 continue;
1238
1239 ios = &pci->io_stats;
1240 total.qreads += ios->qreads;
1241 total.qwrites += ios->qwrites;
1242 total.creads += ios->creads;
1243 total.cwrites += ios->cwrites;
1244 total.mreads += ios->mreads;
1245 total.mwrites += ios->mwrites;
1246 total.ireads += ios->ireads;
1247 total.iwrites += ios->iwrites;
1248 total.qread_kb += ios->qread_kb;
1249 total.qwrite_kb += ios->qwrite_kb;
1250 total.cread_kb += ios->cread_kb;
1251 total.cwrite_kb += ios->cwrite_kb;
1252 total.iread_kb += ios->iread_kb;
1253 total.iwrite_kb += ios->iwrite_kb;
06639b27
JA		 1254 total.timer_unplugs += ios->timer_unplugs;
1255 total.io_unplugs += ios->io_unplugs;
e7c9f3ff
NS		 1256
1257 snprintf(line, sizeof(line) - 1, "CPU%d (%s):",
1258 j, get_dev_name(pdi, name, sizeof(name)));
1259 dump_io_stats(ios, line);
1260 pci_events++;
1261 }
5c017e4b 1262
e7c9f3ff
NS		 1263 if (pci_events > 1) {
1264 fprintf(ofp, "\n");
1265 snprintf(line, sizeof(line) - 1, "Total (%s):",
1266 get_dev_name(pdi, name, sizeof(name)));
1267 dump_io_stats(&total, line);
1268 }
d0ca268b 1269
20ed6177 1270 wrate = rrate = 0;
20ed6177
JA		 1271 msec = (pdi->last_reported_time - pdi->first_reported_time) / 1000000;
1272 if (msec) {
1273 rrate = 1000 * total.cread_kb / msec;
1274 wrate = 1000 * total.cwrite_kb / msec;
1275 }
1276
1277 fprintf(ofp, "\nThroughput (R/W): %'LuKiB/s / %'LuKiB/s\n", rrate, wrate);
1278 fprintf(ofp, "Events (%s): %'Lu entries, %'lu skips\n",
0aa8a62d 1279 get_dev_name(pdi, line, sizeof(line)), pdi->events,
dcf0f7ed 1280 pdi->skips);
e7c9f3ff 1281 }
d0ca268b
JA		 1282}
1283
d36421e4
JA		 1284/*
1285 * struct trace and blktrace allocation cache, we do potentially
1286 * millions of mallocs for these structures while only using at most
1287 * a few thousand at the time
1288 */
1289static inline void t_free(struct trace *t)
1290{
3c8413cb 1291 if (t_alloc_cache < 1024) {
1d24fc14
JA		 1292 t->next = t_alloc_list;
1293 t_alloc_list = t;
3c8413cb
JA		 1294 t_alloc_cache++;
1295 } else
1296 free(t);
d36421e4
JA		 1297}
1298
1299static inline struct trace *t_alloc(void)
1300{
1301 struct trace *t = t_alloc_list;
1302
1303 if (t) {
1304 t_alloc_list = t->next;
3c8413cb 1305 t_alloc_cache--;
d36421e4
JA		 1306 return t;
1307 }
1308
1309 return malloc(sizeof(*t));
1310}
1311
1312static inline void bit_free(struct blk_io_trace *bit)
1313{
eb9bd4e9 1314 if (bit_alloc_cache < 1024 && !bit->pdu_len) {
1d24fc14
JA		 1315 /*
1316 * abuse a 64-bit field for a next pointer for the free item
1317 */
1318 bit->time = (__u64) (unsigned long) bit_alloc_list;
1319 bit_alloc_list = (struct blk_io_trace *) bit;
3c8413cb
JA		 1320 bit_alloc_cache++;
1321 } else
1322 free(bit);
d36421e4
JA		 1323}
1324
1325static inline struct blk_io_trace *bit_alloc(void)
1326{
1327 struct blk_io_trace *bit = bit_alloc_list;
1328
1329 if (bit) {
0c39425c
NS		 1330 bit_alloc_list = (struct blk_io_trace *) (unsigned long) \
1331 bit->time;
3c8413cb 1332 bit_alloc_cache--;
d36421e4
JA		 1333 return bit;
1334 }
1335
1336 return malloc(sizeof(*bit));
1337}
1338
4f0ae44f
JA		 1339static void find_genesis(void)
1340{
1341 struct trace *t = trace_list;
1342
1343 genesis_time = -1ULL;
1344 while (t != NULL) {
1345 if (t->bit->time < genesis_time)
1346 genesis_time = t->bit->time;
1347
1348 t = t->next;
1349 }
1350}
1351
7f4d89e6 1352static inline int check_stopwatch(struct blk_io_trace *bit)
4f0ae44f 1353{
7f4d89e6
JA		 1354 if (bit->time < stopwatch_end &&
1355 bit->time >= stopwatch_start)
4f0ae44f
JA		 1356 return 0;
1357
1358 return 1;
1359}
1360
53c68c88
JA		 1361/*
1362 * return youngest entry read
1363 */
1364static int sort_entries(unsigned long long *youngest)
4f0ae44f
JA		 1365{
1366 struct trace *t;
4f0ae44f
JA		 1367
1368 if (!genesis_time)
1369 find_genesis();
1370
d6222db8 1371 *youngest = 0;
4f0ae44f
JA		 1372 while ((t = trace_list) != NULL) {
1373 struct blk_io_trace *bit = t->bit;
1374
1375 trace_list = t->next;
1376
7f4d89e6 1377 bit->time -= genesis_time;
4f0ae44f 1378
d6222db8
JA		 1379 if (bit->time < *youngest || !*youngest)
1380 *youngest = bit->time;
1381
774a1a10
JA		 1382 if (bit->sequence < smallest_seq_read)
1383 smallest_seq_read = bit->sequence;
1384
7f4d89e6 1385 if (check_stopwatch(bit)) {
4f0ae44f
JA		 1386 bit_free(bit);
1387 t_free(t);
1388 continue;
1389 }
1390
2a1b3424 1391 if (trace_rb_insert_sort(t))
53c68c88 1392 return -1;
4f0ae44f
JA		 1393 }
1394
53c68c88 1395 return 0;
4f0ae44f
JA		 1396}
1397
1c24add6
JA		 1398static inline void __put_trace_last(struct per_dev_info *pdi, struct trace *t)
1399{
1400 rb_erase(&t->rb_node, &pdi->rb_last);
1401 pdi->rb_last_entries--;
1402
1403 bit_free(t->bit);
1404 t_free(t);
1405}
1406
1407static void put_trace(struct per_dev_info *pdi, struct trace *t)
2a1b3424
JA		 1408{
1409 rb_erase(&t->rb_node, &rb_sort_root);
1410 rb_sort_entries--;
1411
1412 trace_rb_insert_last(pdi, t);
1413
1c24add6 1414 if (pdi->rb_last_entries > rb_batch * pdi->nfiles) {
2a1b3424
JA		 1415 struct rb_node *n = rb_first(&pdi->rb_last);
1416
1417 t = rb_entry(n, struct trace, rb_node);
1c24add6 1418 __put_trace_last(pdi, t);
2a1b3424
JA		 1419 }
1420}
1421
824c2b39
JA		 1422/*
1423 * to continue, we must have traces from all online cpus in the tree
1424 */
1425static int check_cpu_map(struct per_dev_info *pdi)
1426{
1427 unsigned long *cpu_map;
1428 struct rb_node *n;
1429 struct trace *__t;
1430 unsigned int i;
1431 int ret, cpu;
1432
1433 /*
1434 * create a map of the cpus we have traces for
1435 */
1436 cpu_map = malloc(pdi->cpu_map_max / sizeof(long));
1437 n = rb_first(&rb_sort_root);
1438 while (n) {
1439 __t = rb_entry(n, struct trace, rb_node);
1440 cpu = __t->bit->cpu;
1441
1442 cpu_map[CPU_IDX(cpu)] |= (1UL << CPU_BIT(cpu));
1443 n = rb_next(n);
1444 }
1445
1446 /*
b1c8e614
JA		 1447 * we can't continue if pdi->cpu_map has entries set that we don't
1448 * have in the sort rbtree. the opposite is not a problem, though
824c2b39
JA		 1449 */
1450 ret = 0;
1451 for (i = 0; i < pdi->cpu_map_max / CPUS_PER_LONG; i++) {
1452 if (pdi->cpu_map[i] & ~(cpu_map[i])) {
1453 ret = 1;
1454 break;
1455 }
1456 }
1457
1458 free(cpu_map);
1459 return ret;
1460}
1461
a141a7cd 1462static int check_sequence(struct per_dev_info *pdi, struct trace *t, int force)
2a1b3424
JA		 1463{
1464 unsigned long expected_sequence = pdi->last_sequence + 1;
1ca323a5
JA		 1465 struct blk_io_trace *bit = t->bit;
1466 struct trace *__t;
d6222db8 1467
774a1a10 1468 if (!expected_sequence) {
774a1a10
JA		 1469 /*
1470 * 1 should be the first entry, just allow it
1471 */
1472 if (bit->sequence == 1)
1473 return 0;
1474
824c2b39 1475 return check_cpu_map(pdi);
774a1a10 1476 }
2a1b3424
JA		 1477
1478 if (bit->sequence == expected_sequence)
1479 return 0;
1480
2a1b3424 1481 /*
1c7c54aa
JA		 1482 * we may not have seen that sequence yet. if we are not doing
1483 * the final run, break and wait for more entries.
1c24add6 1484 */
1c7c54aa 1485 if (expected_sequence < smallest_seq_read) {
1ca323a5
JA		 1486 __t = trace_rb_find_last(pdi, expected_sequence);
1487 if (!__t)
1c7c54aa 1488 goto skip;
2a1b3424 1489
1ca323a5 1490 __put_trace_last(pdi, __t);
2a1b3424 1491 return 0;
a141a7cd
JA		 1492 } else if (!force) {
1493 return 1;
0b07f23e 1494 } else {
1c7c54aa 1495skip:
57ea8602 1496 if (verbose) {
7d1c0411
JA		 1497 fprintf(stderr, "(%d,%d): skipping %lu -> %u\n",
1498 MAJOR(pdi->dev), MINOR(pdi->dev),
1499 pdi->last_sequence, bit->sequence);
1500 }
1c7c54aa
JA		 1501 pdi->skips++;
1502 return 0;
1503 }
2a1b3424
JA		 1504}
1505
a649216c 1506static void show_entries_rb(int force)
8fc0abbc 1507{
1f7afa72
JA		 1508 struct per_dev_info *pdi = NULL;
1509 struct per_cpu_info *pci = NULL;
8fc0abbc 1510 struct blk_io_trace *bit;
3aabcd89 1511 struct rb_node *n;
8fc0abbc 1512 struct trace *t;
1f7afa72 1513
7d747d22 1514 while ((n = rb_first(&rb_sort_root)) != NULL) {
dd90748f 1515 if (is_done() && !force && !pipeline)
1f7afa72 1516 break;
8fc0abbc
JA		 1517
1518 t = rb_entry(n, struct trace, rb_node);
1519 bit = t->bit;
1520
f7bd1a9b 1521 if (!pdi || pdi->dev != bit->device)
287fa3d6 1522 pdi = get_dev_info(bit->device);
1f7afa72 1523
e7c9f3ff
NS		 1524 if (!pdi) {
1525 fprintf(stderr, "Unknown device ID? (%d,%d)\n",
1526 MAJOR(bit->device), MINOR(bit->device));
1527 break;
1528 }
1f7afa72 1529
a141a7cd
JA		 1530 if (check_sequence(pdi, t, force))
1531 break;
cb2a1a62 1532
a141a7cd
JA		 1533 if (!force && bit->time > last_allowed_time)
1534 break;
8fc0abbc 1535
be925321
JA		 1536 pdi->last_sequence = bit->sequence;
1537
4f0ae44f 1538 check_time(pdi, bit);
8fc0abbc 1539
4f0ae44f
JA		 1540 if (!pci || pci->cpu != bit->cpu)
1541 pci = get_cpu_info(pdi, bit->cpu);
287fa3d6 1542
cbc927b6
JA		 1543 pci->nelems++;
1544
98f8386b
AB		 1545 if (bit->action & (act_mask << BLK_TC_SHIFT))
1546 dump_trace(bit, pci, pdi);
87b72777 1547
2a1b3424 1548 put_trace(pdi, t);
cb2a1a62 1549 }
8fc0abbc
JA		 1550}
1551
1f79c4a0
JA		 1552static int read_data(int fd, void *buffer, int bytes, int block)
1553{
1554 int ret, bytes_left, fl;
1555 void *p;
1556
1557 fl = fcntl(fd, F_GETFL);
1558
1559 if (!block)
1560 fcntl(fd, F_SETFL, fl | O_NONBLOCK);
1561 else
1562 fcntl(fd, F_SETFL, fl & ~O_NONBLOCK);
1563
1564 bytes_left = bytes;
1565 p = buffer;
1566 while (bytes_left > 0) {
1567 ret = read(fd, p, bytes_left);
1568 if (!ret)
1569 return 1;
1570 else if (ret < 0) {
1571 if (errno != EAGAIN)
1572 perror("read");
a649216c 1573
1f79c4a0
JA		 1574 return -1;
1575 } else {
1576 p += ret;
1577 bytes_left -= ret;
1578 }
1579 }
1580
1581 return 0;
1582}
1583
a649216c 1584static int read_events(int fd, int always_block)
cb2a1a62 1585{
287fa3d6 1586 struct per_dev_info *pdi = NULL;
e820abd7 1587 unsigned int events = 0;
7d747d22
JA		 1588
1589 while (!is_done() && events < rb_batch) {
1590 struct blk_io_trace *bit;
1591 struct trace *t;
1592 int pdu_len;
1593 __u32 magic;
1594
d36421e4 1595 bit = bit_alloc();
cb2a1a62 1596
eb9bd4e9
JA		 1597 if (read_data(fd, bit, sizeof(*bit), !events || always_block)) {
1598 bit_free(bit);
cb2a1a62 1599 break;
eb9bd4e9 1600 }
cb2a1a62 1601
7d747d22
JA		 1602 magic = be32_to_cpu(bit->magic);
1603 if ((magic & 0xffffff00) != BLK_IO_TRACE_MAGIC) {
1604 fprintf(stderr, "Bad magic %x\n", magic);
1605 break;
1606 }
1607
1608 pdu_len = be16_to_cpu(bit->pdu_len);
1609 if (pdu_len) {
1610 void *ptr = realloc(bit, sizeof(*bit) + pdu_len);
1611
eb9bd4e9
JA		 1612 if (read_data(fd, ptr + sizeof(*bit), pdu_len, 1)) {
1613 bit_free(ptr);
7d747d22 1614 break;
eb9bd4e9 1615 }
7d747d22
JA		 1616
1617 bit = ptr;
1618 }
1619
d6222db8
JA		 1620 trace_to_cpu(bit);
1621
1622 if (verify_trace(bit)) {
1623 bit_free(bit);
1624 continue;
1625 }
1626
d36421e4 1627 t = t_alloc();
cb2a1a62
JA		 1628 memset(t, 0, sizeof(*t));
1629 t->bit = bit;
1630
7d747d22
JA		 1631 t->next = trace_list;
1632 trace_list = t;
1f7afa72 1633
f7bd1a9b 1634 if (!pdi || pdi->dev != bit->device)
287fa3d6
JA		 1635 pdi = get_dev_info(bit->device);
1636
1637 if (bit->time > pdi->last_read_time)
1638 pdi->last_read_time = bit->time;
1639
7d747d22 1640 events++;
cb2a1a62
JA		 1641 }
1642
7d747d22 1643 return events;
cb2a1a62
JA		 1644}
1645
d5396421 1646static int do_file(void)
d0ca268b 1647{
7d747d22 1648 struct per_cpu_info *pci;
73877e12
NS		 1649 struct per_dev_info *pdi;
1650 int i, j, events, events_added;
d0ca268b 1651
7d747d22
JA		 1652 /*
1653 * first prepare all files for reading
1654 */
e8741a4a 1655 for (i = 0; i < ndevices; i++) {
73877e12
NS		 1656 pdi = &devices[i];
1657 pdi->nfiles = 0;
d6222db8 1658 pdi->last_sequence = -1;
73877e12 1659
74feaeb5 1660 for (j = 0;; j++) {
e7c9f3ff 1661 struct stat st;
d1d7f15f 1662 int len = 0;
87b72777 1663
e7c9f3ff
NS		 1664 pci = get_cpu_info(pdi, j);
1665 pci->cpu = j;
7d747d22 1666 pci->fd = -1;
d0ca268b 1667
d1d7f15f
JA		 1668 if (input_dir)
1669 len = sprintf(pci->fname, "%s/", input_dir);
1670
1671 snprintf(pci->fname + len, sizeof(pci->fname)-1-len,
7d747d22 1672 "%s.blktrace.%d", pdi->name, pci->cpu);
e7c9f3ff
NS		 1673 if (stat(pci->fname, &st) < 0)
1674 break;
74feaeb5
AB		 1675 if (st.st_size) {
1676 pci->fd = open(pci->fname, O_RDONLY);
1677 if (pci->fd < 0) {
1678 perror(pci->fname);
1679 continue;
1680 }
e7c9f3ff
NS		 1681 }
1682
7d747d22 1683 printf("Input file %s added\n", pci->fname);
73877e12 1684 pdi->nfiles++;
824c2b39 1685 cpu_mark_online(pdi, pci->cpu);
d0ca268b 1686 }
d5396421
JA		 1687 }
1688
7d747d22
JA		 1689 /*
1690 * now loop over the files reading in the data
1691 */
412819ce 1692 do {
53c68c88
JA		 1693 unsigned long long youngest;
1694
7d747d22 1695 events_added = 0;
287fa3d6 1696 last_allowed_time = -1ULL;
1c7c54aa 1697 smallest_seq_read = -1U;
d5396421 1698
7d747d22 1699 for (i = 0; i < ndevices; i++) {
73877e12
NS		 1700 pdi = &devices[i];
1701
1702 for (j = 0; j < pdi->nfiles; j++) {
d5396421 1703
73877e12 1704 pci = get_cpu_info(pdi, j);
d5396421 1705
7d747d22
JA		 1706 if (pci->fd == -1)
1707 continue;
51128a28 1708
a649216c 1709 events = read_events(pci->fd, 1);
7d747d22 1710 if (!events) {
824c2b39 1711 cpu_mark_offline(pdi, pci->cpu);
7d747d22
JA		 1712 close(pci->fd);
1713 pci->fd = -1;
1714 continue;
1715 }
d5396421 1716
287fa3d6
JA		 1717 if (pdi->last_read_time < last_allowed_time)
1718 last_allowed_time = pdi->last_read_time;
d5396421 1719
7d747d22
JA		 1720 events_added += events;
1721 }
2ff323b0 1722 }
d5396421 1723
53c68c88
JA		 1724 if (sort_entries(&youngest))
1725 break;
1726
1727 if (youngest > stopwatch_end)
287fa3d6
JA		 1728 break;
1729
a649216c 1730 show_entries_rb(0);
cb2a1a62 1731
7d747d22 1732 } while (events_added);
d5396421 1733
a649216c
JA		 1734 if (rb_sort_entries)
1735 show_entries_rb(1);
1736
7d747d22 1737 return 0;
412819ce 1738}
d5396421 1739
412819ce
JA		 1740static int do_stdin(void)
1741{
53c68c88 1742 unsigned long long youngest;
763d936e 1743 int fd, events;
d5396421 1744
be925321 1745 last_allowed_time = -1ULL;
1f79c4a0 1746 fd = dup(STDIN_FILENO);
0b07f23e
JA		 1747 if (fd == -1) {
1748 perror("dup stdin");
1749 return -1;
1750 }
d5396421 1751
0b07f23e 1752 while ((events = read_events(fd, 0)) != 0) {
412819ce 1753
0b07f23e
JA		 1754 smallest_seq_read = -1U;
1755
53c68c88
JA		 1756 if (sort_entries(&youngest))
1757 break;
1758
1759 if (youngest > stopwatch_end)
2ff323b0
JA		 1760 break;
1761
763d936e 1762 show_entries_rb(0);
0b07f23e 1763 }
d5396421 1764
a649216c
JA		 1765 if (rb_sort_entries)
1766 show_entries_rb(1);
1767
d5396421 1768 close(fd);
d5396421
JA		 1769 return 0;
1770}
d0ca268b 1771
cbc927b6 1772static void show_stats(void)
412819ce 1773{
cbc927b6
JA		 1774 if (!ofp)
1775 return;
1776 if (stats_printed)
1777 return;
1778
1779 stats_printed = 1;
1780
1781 if (per_process_stats)
1782 show_process_stats();
1783
1784 if (per_device_and_cpu_stats)
1785 show_device_and_cpu_stats();
1786
152f6476 1787 fflush(ofp);
412819ce
JA		 1788}
1789
e820abd7 1790static void handle_sigint(__attribute__((__unused__)) int sig)
412819ce
JA		 1791{
1792 done = 1;
cbc927b6 1793 show_stats();
412819ce
JA		 1794}
1795
46e6968b
NS		 1796/*
1797 * Extract start and duration times from a string, allowing
1798 * us to specify a time interval of interest within a trace.
1799 * Format: "duration" (start is zero) or "start:duration".
1800 */
1801static int find_stopwatch_interval(char *string)
1802{
1803 double value;
1804 char *sp;
1805
1806 value = strtod(string, &sp);
1807 if (sp == string) {
1808 fprintf(stderr,"Invalid stopwatch timer: %s\n", string);
1809 return 1;
1810 }
1811 if (*sp == ':') {
1812 stopwatch_start = DOUBLE_TO_NANO_ULL(value);
1813 string = sp + 1;
1814 value = strtod(string, &sp);
1815 if (sp == string || *sp != '\0') {
1816 fprintf(stderr,"Invalid stopwatch duration time: %s\n",
1817 string);
1818 return 1;
1819 }
1820 } else if (*sp != '\0') {
1821 fprintf(stderr,"Invalid stopwatch start timer: %s\n", string);
1822 return 1;
1823 }
1b928247
JA		 1824 stopwatch_end = DOUBLE_TO_NANO_ULL(value);
1825 if (stopwatch_end <= stopwatch_start) {
1826 fprintf(stderr, "Invalid stopwatch interval: %Lu -> %Lu\n",
1827 stopwatch_start, stopwatch_end);
1828 return 1;
1829 }
1830
46e6968b
NS		 1831 return 0;
1832}
1833
52724a0e
JA		 1834static char usage_str[] = \
1835 "[ -i <input name> ] [-o <output name> [ -s ] [ -t ] [ -q ]\n" \
1836 "[ -w start:stop ] [ -f output format ] [ -F format spec ] [ -v] \n\n" \
1837 "\t-i Input file containing trace data, or '-' for stdin\n" \
d1d7f15f 1838 "\t-D Directory to prepend to input file names\n" \
52724a0e
JA		 1839 "\t-o Output file. If not given, output is stdout\n" \
1840 "\t-b stdin read batching\n" \
1841 "\t-s Show per-program io statistics\n" \
bf0720af 1842 "\t-n Hash processes by name, not pid\n" \
52724a0e
JA		 1843 "\t-t Track individual ios. Will tell you the time a request took\n" \
1844 "\t to get queued, to get dispatched, and to get completed\n" \
1845 "\t-q Quiet. Don't display any stats at the end of the trace\n" \
1846 "\t-w Only parse data between the given time interval in seconds.\n" \
1847 "\t If 'start' isn't given, blkparse defaults the start time to 0\n" \
d915dee6
JA		 1848 "\t-f Output format. Customize the output format. The format field\n" \
1849 "\t identifies can be found in the documentation\n" \
52724a0e 1850 "\t-F Format specification. Can be found in the documentation\n" \
57ea8602
JA		 1851 "\t-v More verbose for marginal errors\n" \
1852 "\t-V Print program version info\n\n";
52724a0e 1853
1f79c4a0
JA		 1854static void usage(char *prog)
1855{
52724a0e 1856 fprintf(stderr, "Usage: %s %s %s", prog, blkparse_version, usage_str);
1f79c4a0
JA		 1857}
1858
d5396421
JA		 1859int main(int argc, char *argv[])
1860{
152f6476 1861 char *ofp_buffer;
98f8386b 1862 int i, c, ret, mode;
98f8386b 1863 int act_mask_tmp = 0;
d5396421
JA		 1864
1865 while ((c = getopt_long(argc, argv, S_OPTS, l_opts, NULL)) != -1) {
1866 switch (c) {
98f8386b
AB		 1867 case 'a':
1868 i = find_mask_map(optarg);
1869 if (i < 0) {
1870 fprintf(stderr,"Invalid action mask %s\n",
1871 optarg);
1872 return 1;
1873 }
1874 act_mask_tmp |= i;
1875 break;
1876
1877 case 'A':
1878 if ((sscanf(optarg, "%x", &i) != 1) ||
1879 !valid_act_opt(i)) {
1880 fprintf(stderr,
1881 "Invalid set action mask %s/0x%x\n",
1882 optarg, i);
1883 return 1;
1884 }
1885 act_mask_tmp = i;
1886 break;
d5396421 1887 case 'i':
e7c9f3ff
NS		 1888 if (!strcmp(optarg, "-") && !pipeline)
1889 pipeline = 1;
1890 else if (resize_devices(optarg) != 0)
1891 return 1;
d5396421 1892 break;
d1d7f15f
JA		 1893 case 'D':
1894 input_dir = optarg;
1895 break;
d5396421 1896 case 'o':
66efebf8 1897 output_name = optarg;
d5396421 1898 break;
79f19470
JA		 1899 case 'b':
1900 rb_batch = atoi(optarg);
1901 if (rb_batch <= 0)
1902 rb_batch = RB_BATCH_DEFAULT;
1903 break;
152f6476
JA		 1904 case 's':
1905 per_process_stats = 1;
1906 break;
7997c5b0
JA		 1907 case 't':
1908 track_ios = 1;
1909 break;
1e1c60f1
NS		 1910 case 'q':
1911 per_device_and_cpu_stats = 0;
1912 break;
46e6968b
NS		 1913 case 'w':
1914 if (find_stopwatch_interval(optarg) != 0)
1915 return 1;
1916 break;
ab197ca7
AB		 1917 case 'f':
1918 set_all_format_specs(optarg);
1919 break;
1920 case 'F':
1921 if (add_format_spec(optarg) != 0)
1922 return 1;
1923 break;
d915dee6 1924 case 'h':
715d8021 1925 ppi_hash_by_pid = 0;
bf0720af 1926 break;
52724a0e 1927 case 'v':
57ea8602
JA		 1928 verbose++;
1929 break;
1930 case 'V':
52724a0e
JA		 1931 printf("%s version %s\n", argv[0], blkparse_version);
1932 return 0;
d5396421 1933 default:
1f79c4a0 1934 usage(argv[0]);
d5396421
JA		 1935 return 1;
1936 }
d0ca268b
JA		 1937 }
1938
e7c9f3ff
NS		 1939 while (optind < argc) {
1940 if (!strcmp(argv[optind], "-") && !pipeline)
1941 pipeline = 1;
1942 else if (resize_devices(argv[optind]) != 0)
1943 return 1;
1944 optind++;
1945 }
1946
1947 if (!pipeline && !ndevices) {
1f79c4a0 1948 usage(argv[0]);
d5396421
JA		 1949 return 1;
1950 }
1951
98f8386b
AB		 1952 if (act_mask_tmp != 0)
1953 act_mask = act_mask_tmp;
1954
7997c5b0 1955 memset(&rb_sort_root, 0, sizeof(rb_sort_root));
412819ce
JA		 1956
1957 signal(SIGINT, handle_sigint);
1958 signal(SIGHUP, handle_sigint);
1959 signal(SIGTERM, handle_sigint);
d5396421 1960
d69db225
JA		 1961 setlocale(LC_NUMERIC, "en_US");
1962
a66877e6 1963 if (!output_name) {
152f6476 1964 ofp = fdopen(STDOUT_FILENO, "w");
a66877e6
JA		 1965 mode = _IOLBF;
1966 } else {
152f6476
JA		 1967 char ofname[128];
1968
7a9690c0 1969 snprintf(ofname, sizeof(ofname) - 1, "%s", output_name);
152f6476 1970 ofp = fopen(ofname, "w");
a66877e6 1971 mode = _IOFBF;
152f6476
JA		 1972 }
1973
1974 if (!ofp) {
1975 perror("fopen");
1976 return 1;
1977 }
1978
1979 ofp_buffer = malloc(4096);
a66877e6 1980 if (setvbuf(ofp, ofp_buffer, mode, 4096)) {
152f6476
JA		 1981 perror("setvbuf");
1982 return 1;
1983 }
1984
e7c9f3ff 1985 if (pipeline)
d5396421
JA		 1986 ret = do_stdin();
1987 else
1988 ret = do_file();
1989
cbc927b6 1990 show_stats();
eb9bd4e9 1991 free(ofp_buffer);
d5396421 1992 return ret;
d0ca268b 1993}
Block queue io tracer