options: kill 'use_os_rand'
[fio.git] / options.c
CommitLineData
214e1eca
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1#include <stdio.h>
2#include <stdlib.h>
3#include <unistd.h>
4#include <ctype.h>
5#include <string.h>
214e1eca 6#include <assert.h>
5921e80c 7#include <sys/stat.h>
e13c3b50 8#include <netinet/in.h>
214e1eca
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9
10#include "fio.h"
4f5af7b2 11#include "verify.h"
214e1eca 12#include "parse.h"
61b9861d 13#include "lib/pattern.h"
9f988e2e 14#include "options.h"
d220c761 15#include "optgroup.h"
214e1eca 16
e13c3b50 17char client_sockaddr_str[INET6_ADDRSTRLEN] = { 0 };
72a703da 18
a609f12a
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19#define cb_data_to_td(data) container_of(data, struct thread_data, o)
20
fc8d6d05 21static struct pattern_fmt_desc fmt_desc[] = {
4205998f
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22 {
23 .fmt = "%o",
24 .len = FIELD_SIZE(struct io_u *, offset),
25 .paste = paste_blockoff
26 }
27};
28
214e1eca
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29/*
30 * Check if mmap/mmaphuge has a :/foo/bar/file at the end. If so, return that.
31 */
32static char *get_opt_postfix(const char *str)
33{
34 char *p = strstr(str, ":");
35
36 if (!p)
37 return NULL;
38
39 p++;
40 strip_blank_front(&p);
41 strip_blank_end(p);
42 return strdup(p);
43}
44
564ca972
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45static int bs_cmp(const void *p1, const void *p2)
46{
47 const struct bssplit *bsp1 = p1;
48 const struct bssplit *bsp2 = p2;
49
a7cd478d 50 return (int) bsp1->perc - (int) bsp2->perc;
564ca972
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51}
52
d2835319
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53struct split {
54 unsigned int nr;
5fff9543 55 unsigned long long val1[ZONESPLIT_MAX];
9d8fc5e4 56 unsigned long long val2[ZONESPLIT_MAX];
d2835319
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57};
58
59static int split_parse_ddir(struct thread_options *o, struct split *split,
517c9c72 60 char *str, bool absolute, unsigned int max_splits)
564ca972 61{
59466396
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62 unsigned long long perc;
63 unsigned int i;
564ca972 64 long long val;
720e84ad 65 char *fname;
564ca972 66
d2835319 67 split->nr = 0;
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68
69 i = 0;
564ca972
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70 while ((fname = strsep(&str, ":")) != NULL) {
71 char *perc_str;
72
73 if (!strlen(fname))
74 break;
75
564ca972
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76 perc_str = strstr(fname, "/");
77 if (perc_str) {
78 *perc_str = '\0';
79 perc_str++;
59466396
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80 if (absolute) {
81 if (str_to_decimal(perc_str, &val, 1, o, 0, 0)) {
82 log_err("fio: split conversion failed\n");
83 return 1;
84 }
85 perc = val;
86 } else {
87 perc = atoi(perc_str);
88 if (perc > 100)
89 perc = 100;
90 else if (!perc)
91 perc = -1U;
92 }
93 } else {
94 if (absolute)
95 perc = 0;
96 else
d711cce5 97 perc = -1U;
59466396 98 }
564ca972 99
88038bc7 100 if (str_to_decimal(fname, &val, 1, o, 0, 0)) {
59466396 101 log_err("fio: split conversion failed\n");
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102 return 1;
103 }
104
d2835319
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105 split->val1[i] = val;
106 split->val2[i] = perc;
564ca972 107 i++;
c32e1a09
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108 if (i == max_splits) {
109 log_err("fio: hit max of %d split entries\n", i);
d2835319 110 break;
c32e1a09 111 }
564ca972
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112 }
113
d2835319
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114 split->nr = i;
115 return 0;
116}
117
59466396
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118static int bssplit_ddir(struct thread_options *o, enum fio_ddir ddir, char *str,
119 bool data)
d2835319
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120{
121 unsigned int i, perc, perc_missing;
5fff9543 122 unsigned long long max_bs, min_bs;
d2835319
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123 struct split split;
124
125 memset(&split, 0, sizeof(split));
126
517c9c72 127 if (split_parse_ddir(o, &split, str, data, BSSPLIT_MAX))
d2835319
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128 return 1;
129 if (!split.nr)
130 return 0;
131
132 max_bs = 0;
133 min_bs = -1;
134 o->bssplit[ddir] = malloc(split.nr * sizeof(struct bssplit));
135 o->bssplit_nr[ddir] = split.nr;
136 for (i = 0; i < split.nr; i++) {
137 if (split.val1[i] > max_bs)
138 max_bs = split.val1[i];
139 if (split.val1[i] < min_bs)
140 min_bs = split.val1[i];
141
142 o->bssplit[ddir][i].bs = split.val1[i];
143 o->bssplit[ddir][i].perc =split.val2[i];
144 }
564ca972
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145
146 /*
147 * Now check if the percentages add up, and how much is missing
148 */
149 perc = perc_missing = 0;
83ea422a 150 for (i = 0; i < o->bssplit_nr[ddir]; i++) {
d2835319 151 struct bssplit *bsp = &o->bssplit[ddir][i];
564ca972 152
d711cce5 153 if (bsp->perc == -1U)
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154 perc_missing++;
155 else
156 perc += bsp->perc;
157 }
158
40bafa33 159 if (perc > 100 && perc_missing > 1) {
564ca972 160 log_err("fio: bssplit percentages add to more than 100%%\n");
d2835319
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161 free(o->bssplit[ddir]);
162 o->bssplit[ddir] = NULL;
564ca972
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163 return 1;
164 }
d711cce5 165
564ca972
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166 /*
167 * If values didn't have a percentage set, divide the remains between
168 * them.
169 */
170 if (perc_missing) {
d711cce5 171 if (perc_missing == 1 && o->bssplit_nr[ddir] == 1)
40bafa33 172 perc = 100;
83ea422a 173 for (i = 0; i < o->bssplit_nr[ddir]; i++) {
d2835319 174 struct bssplit *bsp = &o->bssplit[ddir][i];
564ca972 175
d711cce5 176 if (bsp->perc == -1U)
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177 bsp->perc = (100 - perc) / perc_missing;
178 }
179 }
180
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181 o->min_bs[ddir] = min_bs;
182 o->max_bs[ddir] = max_bs;
564ca972
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183
184 /*
185 * now sort based on percentages, for ease of lookup
186 */
d2835319 187 qsort(o->bssplit[ddir], o->bssplit_nr[ddir], sizeof(struct bssplit), bs_cmp);
720e84ad 188 return 0;
720e84ad
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189}
190
59466396 191typedef int (split_parse_fn)(struct thread_options *, enum fio_ddir, char *, bool);
764593c0 192
59466396
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193static int str_split_parse(struct thread_data *td, char *str,
194 split_parse_fn *fn, bool data)
720e84ad 195{
764593c0 196 char *odir, *ddir;
720e84ad
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197 int ret = 0;
198
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199 odir = strchr(str, ',');
200 if (odir) {
6eaf09d6
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201 ddir = strchr(odir + 1, ',');
202 if (ddir) {
59466396 203 ret = fn(&td->o, DDIR_TRIM, ddir + 1, data);
6eaf09d6
SL
204 if (!ret)
205 *ddir = '\0';
206 } else {
207 char *op;
208
209 op = strdup(odir + 1);
59466396 210 ret = fn(&td->o, DDIR_TRIM, op, data);
6eaf09d6
SL
211
212 free(op);
213 }
d79db122 214 if (!ret)
59466396 215 ret = fn(&td->o, DDIR_WRITE, odir + 1, data);
720e84ad
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216 if (!ret) {
217 *odir = '\0';
59466396 218 ret = fn(&td->o, DDIR_READ, str, data);
720e84ad
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219 }
220 } else {
221 char *op;
222
223 op = strdup(str);
59466396 224 ret = fn(&td->o, DDIR_WRITE, op, data);
6eaf09d6 225 free(op);
720e84ad 226
6eaf09d6
SL
227 if (!ret) {
228 op = strdup(str);
59466396 229 ret = fn(&td->o, DDIR_TRIM, op, data);
6eaf09d6
SL
230 free(op);
231 }
f0c9c217 232 if (!ret)
59466396 233 ret = fn(&td->o, DDIR_READ, str, data);
720e84ad 234 }
564ca972 235
764593c0
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236 return ret;
237}
238
239static int str_bssplit_cb(void *data, const char *input)
240{
a609f12a 241 struct thread_data *td = cb_data_to_td(data);
764593c0
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242 char *str, *p;
243 int ret = 0;
244
764593c0
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245 p = str = strdup(input);
246
247 strip_blank_front(&str);
248 strip_blank_end(str);
249
59466396 250 ret = str_split_parse(td, str, bssplit_ddir, false);
764593c0 251
55baca06
JA
252 if (parse_dryrun()) {
253 int i;
254
255 for (i = 0; i < DDIR_RWDIR_CNT; i++) {
256 free(td->o.bssplit[i]);
257 td->o.bssplit[i] = NULL;
258 td->o.bssplit_nr[i] = 0;
259 }
260 }
261
564ca972 262 free(p);
720e84ad 263 return ret;
564ca972
JA
264}
265
8b28bd41
DM
266static int str2error(char *str)
267{
a94eb99a 268 const char *err[] = { "EPERM", "ENOENT", "ESRCH", "EINTR", "EIO",
8b28bd41
DM
269 "ENXIO", "E2BIG", "ENOEXEC", "EBADF",
270 "ECHILD", "EAGAIN", "ENOMEM", "EACCES",
271 "EFAULT", "ENOTBLK", "EBUSY", "EEXIST",
272 "EXDEV", "ENODEV", "ENOTDIR", "EISDIR",
273 "EINVAL", "ENFILE", "EMFILE", "ENOTTY",
274 "ETXTBSY","EFBIG", "ENOSPC", "ESPIPE",
a94eb99a 275 "EROFS","EMLINK", "EPIPE", "EDOM", "ERANGE" };
7fe481b4 276 int i = 0, num = sizeof(err) / sizeof(char *);
8b28bd41 277
a94eb99a 278 while (i < num) {
8b28bd41
DM
279 if (!strcmp(err[i], str))
280 return i + 1;
281 i++;
282 }
283 return 0;
284}
285
3ed673c6
TK
286static int ignore_error_type(struct thread_data *td, enum error_type_bit etype,
287 char *str)
8b28bd41
DM
288{
289 unsigned int i;
290 int *error;
291 char *fname;
292
293 if (etype >= ERROR_TYPE_CNT) {
294 log_err("Illegal error type\n");
295 return 1;
296 }
297
298 td->o.ignore_error_nr[etype] = 4;
685ffd57 299 error = calloc(4, sizeof(int));
8b28bd41
DM
300
301 i = 0;
302 while ((fname = strsep(&str, ":")) != NULL) {
303
304 if (!strlen(fname))
305 break;
306
307 /*
308 * grow struct buffer, if needed
309 */
310 if (i == td->o.ignore_error_nr[etype]) {
311 td->o.ignore_error_nr[etype] <<= 1;
312 error = realloc(error, td->o.ignore_error_nr[etype]
313 * sizeof(int));
314 }
315 if (fname[0] == 'E') {
316 error[i] = str2error(fname);
317 } else {
318 error[i] = atoi(fname);
319 if (error[i] < 0)
1616e025 320 error[i] = -error[i];
8b28bd41
DM
321 }
322 if (!error[i]) {
d503e281 323 log_err("Unknown error %s, please use number value\n",
8b28bd41 324 fname);
d503e281 325 td->o.ignore_error_nr[etype] = 0;
0fddbf7a 326 free(error);
8b28bd41
DM
327 return 1;
328 }
329 i++;
330 }
331 if (i) {
332 td->o.continue_on_error |= 1 << etype;
333 td->o.ignore_error_nr[etype] = i;
334 td->o.ignore_error[etype] = error;
d503e281
TK
335 } else {
336 td->o.ignore_error_nr[etype] = 0;
c7b086be 337 free(error);
d503e281 338 }
c7b086be 339
8b28bd41
DM
340 return 0;
341
342}
343
d7235efb
JA
344static int str_replay_skip_cb(void *data, const char *input)
345{
346 struct thread_data *td = cb_data_to_td(data);
347 char *str, *p, *n;
348 int ret = 0;
349
350 if (parse_dryrun())
351 return 0;
352
353 p = str = strdup(input);
354
355 strip_blank_front(&str);
356 strip_blank_end(str);
357
358 while (p) {
359 n = strchr(p, ',');
360 if (n)
361 *n++ = '\0';
362 if (!strcmp(p, "read"))
363 td->o.replay_skip |= 1u << DDIR_READ;
364 else if (!strcmp(p, "write"))
365 td->o.replay_skip |= 1u << DDIR_WRITE;
366 else if (!strcmp(p, "trim"))
367 td->o.replay_skip |= 1u << DDIR_TRIM;
368 else if (!strcmp(p, "sync"))
369 td->o.replay_skip |= 1u << DDIR_SYNC;
370 else {
371 log_err("Unknown skip type: %s\n", p);
372 ret = 1;
373 break;
374 }
375 p = n;
376 }
377 free(str);
378 return ret;
379}
380
8b28bd41
DM
381static int str_ignore_error_cb(void *data, const char *input)
382{
a609f12a 383 struct thread_data *td = cb_data_to_td(data);
8b28bd41 384 char *str, *p, *n;
3ed673c6
TK
385 int ret = 1;
386 enum error_type_bit type = 0;
52c0cea3
JA
387
388 if (parse_dryrun())
389 return 0;
390
8b28bd41
DM
391 p = str = strdup(input);
392
393 strip_blank_front(&str);
394 strip_blank_end(str);
395
396 while (p) {
397 n = strchr(p, ',');
398 if (n)
399 *n++ = '\0';
400 ret = ignore_error_type(td, type, p);
401 if (ret)
402 break;
403 p = n;
404 type++;
405 }
406 free(str);
407 return ret;
408}
409
211097b2
JA
410static int str_rw_cb(void *data, const char *str)
411{
a609f12a 412 struct thread_data *td = cb_data_to_td(data);
83ea422a 413 struct thread_options *o = &td->o;
27ca949f 414 char *nr;
211097b2 415
52c0cea3
JA
416 if (parse_dryrun())
417 return 0;
418
83ea422a
JA
419 o->ddir_seq_nr = 1;
420 o->ddir_seq_add = 0;
059b0802 421
27ca949f 422 nr = get_opt_postfix(str);
059b0802
JA
423 if (!nr)
424 return 0;
425
426 if (td_random(td))
83ea422a 427 o->ddir_seq_nr = atoi(nr);
059b0802
JA
428 else {
429 long long val;
430
88038bc7 431 if (str_to_decimal(nr, &val, 1, o, 0, 0)) {
059b0802
JA
432 log_err("fio: rw postfix parsing failed\n");
433 free(nr);
434 return 1;
435 }
436
83ea422a 437 o->ddir_seq_add = val;
182ec6ee 438 }
211097b2 439
059b0802 440 free(nr);
211097b2
JA
441 return 0;
442}
443
214e1eca
JA
444static int str_mem_cb(void *data, const char *mem)
445{
a609f12a 446 struct thread_data *td = cb_data_to_td(data);
214e1eca 447
217b0f1d
LG
448 if (td->o.mem_type == MEM_MMAPHUGE || td->o.mem_type == MEM_MMAP ||
449 td->o.mem_type == MEM_MMAPSHARED)
836fcc0f 450 td->o.mmapfile = get_opt_postfix(mem);
214e1eca
JA
451
452 return 0;
453}
454
c223da83
JA
455static int fio_clock_source_cb(void *data, const char *str)
456{
a609f12a 457 struct thread_data *td = cb_data_to_td(data);
c223da83
JA
458
459 fio_clock_source = td->o.clocksource;
fa80feae 460 fio_clock_source_set = 1;
01423eae 461 fio_clock_init();
c223da83
JA
462 return 0;
463}
464
85bc833b 465static int str_rwmix_read_cb(void *data, unsigned long long *val)
cb499fc4 466{
a609f12a 467 struct thread_data *td = cb_data_to_td(data);
cb499fc4
JA
468
469 td->o.rwmix[DDIR_READ] = *val;
470 td->o.rwmix[DDIR_WRITE] = 100 - *val;
471 return 0;
472}
473
85bc833b 474static int str_rwmix_write_cb(void *data, unsigned long long *val)
cb499fc4 475{
a609f12a 476 struct thread_data *td = cb_data_to_td(data);
cb499fc4
JA
477
478 td->o.rwmix[DDIR_WRITE] = *val;
479 td->o.rwmix[DDIR_READ] = 100 - *val;
480 return 0;
481}
482
214e1eca
JA
483static int str_exitall_cb(void)
484{
f1867a7f 485 exitall_on_terminate = true;
214e1eca
JA
486 return 0;
487}
488
214e1eca 489#ifdef FIO_HAVE_CPU_AFFINITY
50b5860b 490int fio_cpus_split(os_cpu_mask_t *mask, unsigned int cpu_index)
c2acfbac 491{
50b5860b 492 unsigned int i, index, cpus_in_mask;
c2acfbac 493 const long max_cpu = cpus_online();
c2acfbac 494
50b5860b
JA
495 cpus_in_mask = fio_cpu_count(mask);
496 cpu_index = cpu_index % cpus_in_mask;
497
498 index = 0;
c2acfbac 499 for (i = 0; i < max_cpu; i++) {
50b5860b 500 if (!fio_cpu_isset(mask, i))
c2acfbac 501 continue;
50b5860b
JA
502
503 if (cpu_index != index)
504 fio_cpu_clear(mask, i);
505
506 index++;
c2acfbac
JA
507 }
508
509 return fio_cpu_count(mask);
510}
511
85bc833b 512static int str_cpumask_cb(void *data, unsigned long long *val)
d2e268b0 513{
a609f12a 514 struct thread_data *td = cb_data_to_td(data);
214e1eca 515 unsigned int i;
b03daafb 516 long max_cpu;
d2ce18b5
JA
517 int ret;
518
52c0cea3
JA
519 if (parse_dryrun())
520 return 0;
521
d2ce18b5
JA
522 ret = fio_cpuset_init(&td->o.cpumask);
523 if (ret < 0) {
524 log_err("fio: cpuset_init failed\n");
525 td_verror(td, ret, "fio_cpuset_init");
526 return 1;
527 }
214e1eca 528
c00a2289 529 max_cpu = cpus_online();
214e1eca 530
62a7273d
JA
531 for (i = 0; i < sizeof(int) * 8; i++) {
532 if ((1 << i) & *val) {
b8411399 533 if (i >= max_cpu) {
b03daafb 534 log_err("fio: CPU %d too large (max=%ld)\n", i,
b8411399 535 max_cpu - 1);
b03daafb
JA
536 return 1;
537 }
62a7273d 538 dprint(FD_PARSE, "set cpu allowed %d\n", i);
6d459ee7 539 fio_cpu_set(&td->o.cpumask, i);
62a7273d
JA
540 }
541 }
d2e268b0 542
d2e268b0 543 return 0;
214e1eca
JA
544}
545
e8462bd8
JA
546static int set_cpus_allowed(struct thread_data *td, os_cpu_mask_t *mask,
547 const char *input)
214e1eca 548{
d2e268b0 549 char *cpu, *str, *p;
b03daafb 550 long max_cpu;
19608d6c 551 int ret = 0;
d2e268b0 552
e8462bd8 553 ret = fio_cpuset_init(mask);
d2ce18b5
JA
554 if (ret < 0) {
555 log_err("fio: cpuset_init failed\n");
556 td_verror(td, ret, "fio_cpuset_init");
557 return 1;
558 }
d2e268b0
JA
559
560 p = str = strdup(input);
214e1eca 561
d2e268b0
JA
562 strip_blank_front(&str);
563 strip_blank_end(str);
564
c00a2289 565 max_cpu = cpus_online();
b03daafb 566
d2e268b0 567 while ((cpu = strsep(&str, ",")) != NULL) {
62a7273d
JA
568 char *str2, *cpu2;
569 int icpu, icpu2;
570
d2e268b0
JA
571 if (!strlen(cpu))
572 break;
62a7273d
JA
573
574 str2 = cpu;
575 icpu2 = -1;
576 while ((cpu2 = strsep(&str2, "-")) != NULL) {
577 if (!strlen(cpu2))
578 break;
579
580 icpu2 = atoi(cpu2);
581 }
582
583 icpu = atoi(cpu);
584 if (icpu2 == -1)
585 icpu2 = icpu;
586 while (icpu <= icpu2) {
6d459ee7 587 if (icpu >= FIO_MAX_CPUS) {
19608d6c 588 log_err("fio: your OS only supports up to"
6d459ee7 589 " %d CPUs\n", (int) FIO_MAX_CPUS);
19608d6c
JA
590 ret = 1;
591 break;
592 }
9e986889 593 if (icpu >= max_cpu) {
b03daafb 594 log_err("fio: CPU %d too large (max=%ld)\n",
9e986889 595 icpu, max_cpu - 1);
b03daafb
JA
596 ret = 1;
597 break;
598 }
0b9d69ec 599
62a7273d 600 dprint(FD_PARSE, "set cpu allowed %d\n", icpu);
e8462bd8 601 fio_cpu_set(mask, icpu);
62a7273d
JA
602 icpu++;
603 }
19608d6c
JA
604 if (ret)
605 break;
d2e268b0
JA
606 }
607
608 free(p);
19608d6c 609 return ret;
214e1eca 610}
e8462bd8
JA
611
612static int str_cpus_allowed_cb(void *data, const char *input)
613{
a609f12a 614 struct thread_data *td = cb_data_to_td(data);
e8462bd8 615
52c0cea3
JA
616 if (parse_dryrun())
617 return 0;
618
b2a9e649 619 return set_cpus_allowed(td, &td->o.cpumask, input);
e8462bd8
JA
620}
621
622static int str_verify_cpus_allowed_cb(void *data, const char *input)
623{
a609f12a 624 struct thread_data *td = cb_data_to_td(data);
e8462bd8 625
466155e2
JA
626 if (parse_dryrun())
627 return 0;
628
b2a9e649 629 return set_cpus_allowed(td, &td->o.verify_cpumask, input);
e8462bd8 630}
c08f9fe2 631
105157ad 632#ifdef CONFIG_ZLIB
c08f9fe2
JA
633static int str_log_cpus_allowed_cb(void *data, const char *input)
634{
a609f12a 635 struct thread_data *td = cb_data_to_td(data);
c08f9fe2
JA
636
637 if (parse_dryrun())
638 return 0;
639
640 return set_cpus_allowed(td, &td->o.log_gz_cpumask, input);
641}
105157ad 642#endif /* CONFIG_ZLIB */
c08f9fe2 643
105157ad 644#endif /* FIO_HAVE_CPU_AFFINITY */
214e1eca 645
67bf9823 646#ifdef CONFIG_LIBNUMA
d0b937ed
YR
647static int str_numa_cpunodes_cb(void *data, char *input)
648{
a609f12a 649 struct thread_data *td = cb_data_to_td(data);
43522848 650 struct bitmask *verify_bitmask;
d0b937ed 651
52c0cea3
JA
652 if (parse_dryrun())
653 return 0;
654
d0b937ed
YR
655 /* numa_parse_nodestring() parses a character string list
656 * of nodes into a bit mask. The bit mask is allocated by
657 * numa_allocate_nodemask(), so it should be freed by
658 * numa_free_nodemask().
659 */
43522848
DG
660 verify_bitmask = numa_parse_nodestring(input);
661 if (verify_bitmask == NULL) {
d0b937ed
YR
662 log_err("fio: numa_parse_nodestring failed\n");
663 td_verror(td, 1, "str_numa_cpunodes_cb");
664 return 1;
665 }
43522848 666 numa_free_nodemask(verify_bitmask);
d0b937ed 667
43522848 668 td->o.numa_cpunodes = strdup(input);
d0b937ed
YR
669 return 0;
670}
671
672static int str_numa_mpol_cb(void *data, char *input)
673{
a609f12a 674 struct thread_data *td = cb_data_to_td(data);
d0b937ed 675 const char * const policy_types[] =
05d6f44b 676 { "default", "prefer", "bind", "interleave", "local", NULL };
d0b937ed 677 int i;
52c0cea3 678 char *nodelist;
43522848 679 struct bitmask *verify_bitmask;
52c0cea3
JA
680
681 if (parse_dryrun())
682 return 0;
d0b937ed 683
52c0cea3 684 nodelist = strchr(input, ':');
d0b937ed
YR
685 if (nodelist) {
686 /* NUL-terminate mode */
687 *nodelist++ = '\0';
688 }
689
690 for (i = 0; i <= MPOL_LOCAL; i++) {
691 if (!strcmp(input, policy_types[i])) {
692 td->o.numa_mem_mode = i;
693 break;
694 }
695 }
696 if (i > MPOL_LOCAL) {
697 log_err("fio: memory policy should be: default, prefer, bind, interleave, local\n");
698 goto out;
699 }
700
701 switch (td->o.numa_mem_mode) {
702 case MPOL_PREFERRED:
703 /*
704 * Insist on a nodelist of one node only
705 */
706 if (nodelist) {
707 char *rest = nodelist;
708 while (isdigit(*rest))
709 rest++;
710 if (*rest) {
711 log_err("fio: one node only for \'prefer\'\n");
712 goto out;
713 }
714 } else {
715 log_err("fio: one node is needed for \'prefer\'\n");
716 goto out;
717 }
718 break;
719 case MPOL_INTERLEAVE:
720 /*
721 * Default to online nodes with memory if no nodelist
722 */
723 if (!nodelist)
724 nodelist = strdup("all");
725 break;
726 case MPOL_LOCAL:
727 case MPOL_DEFAULT:
728 /*
729 * Don't allow a nodelist
730 */
731 if (nodelist) {
732 log_err("fio: NO nodelist for \'local\'\n");
733 goto out;
734 }
735 break;
736 case MPOL_BIND:
737 /*
738 * Insist on a nodelist
739 */
740 if (!nodelist) {
741 log_err("fio: a nodelist is needed for \'bind\'\n");
742 goto out;
743 }
744 break;
745 }
746
747
748 /* numa_parse_nodestring() parses a character string list
749 * of nodes into a bit mask. The bit mask is allocated by
750 * numa_allocate_nodemask(), so it should be freed by
751 * numa_free_nodemask().
752 */
753 switch (td->o.numa_mem_mode) {
754 case MPOL_PREFERRED:
755 td->o.numa_mem_prefer_node = atoi(nodelist);
756 break;
757 case MPOL_INTERLEAVE:
758 case MPOL_BIND:
43522848
DG
759 verify_bitmask = numa_parse_nodestring(nodelist);
760 if (verify_bitmask == NULL) {
d0b937ed
YR
761 log_err("fio: numa_parse_nodestring failed\n");
762 td_verror(td, 1, "str_numa_memnodes_cb");
763 return 1;
764 }
43522848
DG
765 td->o.numa_memnodes = strdup(nodelist);
766 numa_free_nodemask(verify_bitmask);
b74e419e 767
d0b937ed
YR
768 break;
769 case MPOL_LOCAL:
770 case MPOL_DEFAULT:
771 default:
772 break;
773 }
774
d0b937ed 775 return 0;
d0b937ed
YR
776out:
777 return 1;
778}
779#endif
780
214e1eca
JA
781static int str_fst_cb(void *data, const char *str)
782{
a609f12a 783 struct thread_data *td = cb_data_to_td(data);
8c07860d
JA
784 double val;
785 bool done = false;
786 char *nr;
214e1eca
JA
787
788 td->file_service_nr = 1;
8c07860d
JA
789
790 switch (td->o.file_service_type) {
791 case FIO_FSERVICE_RANDOM:
792 case FIO_FSERVICE_RR:
793 case FIO_FSERVICE_SEQ:
794 nr = get_opt_postfix(str);
795 if (nr) {
796 td->file_service_nr = atoi(nr);
797 free(nr);
798 }
799 done = true;
800 break;
801 case FIO_FSERVICE_ZIPF:
802 val = FIO_DEF_ZIPF;
803 break;
804 case FIO_FSERVICE_PARETO:
805 val = FIO_DEF_PARETO;
806 break;
807 case FIO_FSERVICE_GAUSS:
808 val = 0.0;
809 break;
810 default:
811 log_err("fio: bad file service type: %d\n", td->o.file_service_type);
812 return 1;
813 }
814
815 if (done)
816 return 0;
817
818 nr = get_opt_postfix(str);
819 if (nr && !str_to_float(nr, &val, 0)) {
820 log_err("fio: file service type random postfix parsing failed\n");
182ec6ee 821 free(nr);
8c07860d
JA
822 return 1;
823 }
824
825 free(nr);
826
827 switch (td->o.file_service_type) {
828 case FIO_FSERVICE_ZIPF:
829 if (val == 1.00) {
830 log_err("fio: zipf theta must be different than 1.0\n");
831 return 1;
832 }
833 if (parse_dryrun())
834 return 0;
835 td->zipf_theta = val;
836 break;
837 case FIO_FSERVICE_PARETO:
838 if (val <= 0.00 || val >= 1.00) {
839 log_err("fio: pareto input out of range (0 < input < 1.0)\n");
840 return 1;
841 }
842 if (parse_dryrun())
843 return 0;
844 td->pareto_h = val;
845 break;
846 case FIO_FSERVICE_GAUSS:
847 if (val < 0.00 || val >= 100.00) {
99c94a6b 848 log_err("fio: normal deviation out of range (0 <= input < 100.0)\n");
8c07860d
JA
849 return 1;
850 }
851 if (parse_dryrun())
852 return 0;
853 td->gauss_dev = val;
854 break;
182ec6ee 855 }
214e1eca
JA
856
857 return 0;
858}
859
67bf9823 860#ifdef CONFIG_SYNC_FILE_RANGE
44f29692
JA
861static int str_sfr_cb(void *data, const char *str)
862{
a609f12a 863 struct thread_data *td = cb_data_to_td(data);
44f29692
JA
864 char *nr = get_opt_postfix(str);
865
866 td->sync_file_range_nr = 1;
867 if (nr) {
868 td->sync_file_range_nr = atoi(nr);
869 free(nr);
870 }
871
872 return 0;
873}
3ae06371 874#endif
44f29692 875
764593c0 876static int zone_split_ddir(struct thread_options *o, enum fio_ddir ddir,
59466396 877 char *str, bool absolute)
e0a04ac1 878{
e0a04ac1 879 unsigned int i, perc, perc_missing, sperc, sperc_missing;
d2835319 880 struct split split;
e0a04ac1 881
d2835319 882 memset(&split, 0, sizeof(split));
e0a04ac1 883
517c9c72 884 if (split_parse_ddir(o, &split, str, absolute, ZONESPLIT_MAX))
d2835319
JA
885 return 1;
886 if (!split.nr)
887 return 0;
e0a04ac1 888
d2835319
JA
889 o->zone_split[ddir] = malloc(split.nr * sizeof(struct zone_split));
890 o->zone_split_nr[ddir] = split.nr;
891 for (i = 0; i < split.nr; i++) {
892 o->zone_split[ddir][i].access_perc = split.val1[i];
59466396
JA
893 if (absolute)
894 o->zone_split[ddir][i].size = split.val2[i];
895 else
896 o->zone_split[ddir][i].size_perc = split.val2[i];
e0a04ac1
JA
897 }
898
e0a04ac1
JA
899 /*
900 * Now check if the percentages add up, and how much is missing
901 */
902 perc = perc_missing = 0;
903 sperc = sperc_missing = 0;
904 for (i = 0; i < o->zone_split_nr[ddir]; i++) {
d2835319 905 struct zone_split *zsp = &o->zone_split[ddir][i];
e0a04ac1
JA
906
907 if (zsp->access_perc == (uint8_t) -1U)
908 perc_missing++;
909 else
910 perc += zsp->access_perc;
911
59466396
JA
912 if (!absolute) {
913 if (zsp->size_perc == (uint8_t) -1U)
914 sperc_missing++;
915 else
916 sperc += zsp->size_perc;
917 }
e0a04ac1
JA
918 }
919
920 if (perc > 100 || sperc > 100) {
921 log_err("fio: zone_split percentages add to more than 100%%\n");
d2835319
JA
922 free(o->zone_split[ddir]);
923 o->zone_split[ddir] = NULL;
e0a04ac1
JA
924 return 1;
925 }
926 if (perc < 100) {
927 log_err("fio: access percentage don't add up to 100 for zoned "
928 "random distribution (got=%u)\n", perc);
d2835319
JA
929 free(o->zone_split[ddir]);
930 o->zone_split[ddir] = NULL;
e0a04ac1
JA
931 return 1;
932 }
933
934 /*
935 * If values didn't have a percentage set, divide the remains between
936 * them.
937 */
938 if (perc_missing) {
939 if (perc_missing == 1 && o->zone_split_nr[ddir] == 1)
940 perc = 100;
941 for (i = 0; i < o->zone_split_nr[ddir]; i++) {
d2835319 942 struct zone_split *zsp = &o->zone_split[ddir][i];
e0a04ac1
JA
943
944 if (zsp->access_perc == (uint8_t) -1U)
945 zsp->access_perc = (100 - perc) / perc_missing;
946 }
947 }
948 if (sperc_missing) {
949 if (sperc_missing == 1 && o->zone_split_nr[ddir] == 1)
950 sperc = 100;
951 for (i = 0; i < o->zone_split_nr[ddir]; i++) {
d2835319 952 struct zone_split *zsp = &o->zone_split[ddir][i];
e0a04ac1
JA
953
954 if (zsp->size_perc == (uint8_t) -1U)
955 zsp->size_perc = (100 - sperc) / sperc_missing;
956 }
957 }
958
e0a04ac1
JA
959 return 0;
960}
961
59466396
JA
962static int parse_zoned_distribution(struct thread_data *td, const char *input,
963 bool absolute)
e0a04ac1 964{
59466396 965 const char *pre = absolute ? "zoned_abs:" : "zoned:";
764593c0 966 char *str, *p;
e0a04ac1
JA
967 int i, ret = 0;
968
969 p = str = strdup(input);
970
971 strip_blank_front(&str);
972 strip_blank_end(str);
973
974 /* We expect it to start like that, bail if not */
59466396 975 if (strncmp(str, pre, strlen(pre))) {
e0a04ac1
JA
976 log_err("fio: mismatch in zoned input <%s>\n", str);
977 free(p);
978 return 1;
979 }
59466396 980 str += strlen(pre);
e0a04ac1 981
59466396 982 ret = str_split_parse(td, str, zone_split_ddir, absolute);
e0a04ac1
JA
983
984 free(p);
985
986 for (i = 0; i < DDIR_RWDIR_CNT; i++) {
987 int j;
988
989 dprint(FD_PARSE, "zone ddir %d (nr=%u): \n", i, td->o.zone_split_nr[i]);
990
991 for (j = 0; j < td->o.zone_split_nr[i]; j++) {
992 struct zone_split *zsp = &td->o.zone_split[i][j];
993
59466396
JA
994 if (absolute) {
995 dprint(FD_PARSE, "\t%d: %u/%llu\n", j,
996 zsp->access_perc,
997 (unsigned long long) zsp->size);
998 } else {
999 dprint(FD_PARSE, "\t%d: %u/%u\n", j,
1000 zsp->access_perc,
1001 zsp->size_perc);
1002 }
e0a04ac1
JA
1003 }
1004 }
1005
55baca06 1006 if (parse_dryrun()) {
55baca06
JA
1007 for (i = 0; i < DDIR_RWDIR_CNT; i++) {
1008 free(td->o.zone_split[i]);
1009 td->o.zone_split[i] = NULL;
1010 td->o.zone_split_nr[i] = 0;
1011 }
1012
1013 return ret;
1014 }
1015
81bdb791 1016 if (ret) {
dc4bffb8
JA
1017 for (i = 0; i < DDIR_RWDIR_CNT; i++)
1018 td->o.zone_split_nr[i] = 0;
1019 }
e0a04ac1
JA
1020
1021 return ret;
1022}
1023
e25839d4
JA
1024static int str_random_distribution_cb(void *data, const char *str)
1025{
a609f12a 1026 struct thread_data *td = cb_data_to_td(data);
e25839d4
JA
1027 double val;
1028 char *nr;
1029
925fee33 1030 if (td->o.random_distribution == FIO_RAND_DIST_ZIPF)
c95f9404 1031 val = FIO_DEF_ZIPF;
925fee33 1032 else if (td->o.random_distribution == FIO_RAND_DIST_PARETO)
c95f9404 1033 val = FIO_DEF_PARETO;
56d9fa4b
JA
1034 else if (td->o.random_distribution == FIO_RAND_DIST_GAUSS)
1035 val = 0.0;
e0a04ac1 1036 else if (td->o.random_distribution == FIO_RAND_DIST_ZONED)
59466396
JA
1037 return parse_zoned_distribution(td, str, false);
1038 else if (td->o.random_distribution == FIO_RAND_DIST_ZONED_ABS)
1039 return parse_zoned_distribution(td, str, true);
925fee33 1040 else
e25839d4
JA
1041 return 0;
1042
1043 nr = get_opt_postfix(str);
88038bc7 1044 if (nr && !str_to_float(nr, &val, 0)) {
e25839d4
JA
1045 log_err("fio: random postfix parsing failed\n");
1046 free(nr);
1047 return 1;
1048 }
1049
078189c1
JA
1050 free(nr);
1051
18ded917
JA
1052 if (td->o.random_distribution == FIO_RAND_DIST_ZIPF) {
1053 if (val == 1.00) {
1054 log_err("fio: zipf theta must different than 1.0\n");
1055 return 1;
1056 }
55baca06
JA
1057 if (parse_dryrun())
1058 return 0;
1e5324e7 1059 td->o.zipf_theta.u.f = val;
56d9fa4b 1060 } else if (td->o.random_distribution == FIO_RAND_DIST_PARETO) {
078189c1
JA
1061 if (val <= 0.00 || val >= 1.00) {
1062 log_err("fio: pareto input out of range (0 < input < 1.0)\n");
1063 return 1;
1064 }
55baca06
JA
1065 if (parse_dryrun())
1066 return 0;
1e5324e7 1067 td->o.pareto_h.u.f = val;
3cdb8cf3 1068 } else {
76527b19 1069 if (val < 0.00 || val >= 100.0) {
99c94a6b 1070 log_err("fio: normal deviation out of range (0 <= input < 100.0)\n");
3cdb8cf3
JA
1071 return 1;
1072 }
55baca06
JA
1073 if (parse_dryrun())
1074 return 0;
f88cd222 1075 td->o.gauss_dev.u.f = val;
3cdb8cf3 1076 }
921c766f
JA
1077
1078 return 0;
1079}
1080
16e56d25
VF
1081static int str_steadystate_cb(void *data, const char *str)
1082{
94f218f6 1083 struct thread_data *td = cb_data_to_td(data);
16e56d25
VF
1084 double val;
1085 char *nr;
1086 char *pct;
1087 long long ll;
1088
2c5d94bc
VF
1089 if (td->o.ss_state != FIO_SS_IOPS && td->o.ss_state != FIO_SS_IOPS_SLOPE &&
1090 td->o.ss_state != FIO_SS_BW && td->o.ss_state != FIO_SS_BW_SLOPE) {
16e56d25
VF
1091 /* should be impossible to get here */
1092 log_err("fio: unknown steady state criterion\n");
1093 return 1;
1094 }
1095
1096 nr = get_opt_postfix(str);
1097 if (!nr) {
1098 log_err("fio: steadystate threshold must be specified in addition to criterion\n");
1099 free(nr);
1100 return 1;
1101 }
1102
1103 /* ENHANCEMENT Allow fio to understand size=10.2% and use here */
1104 pct = strstr(nr, "%");
1105 if (pct) {
1106 *pct = '\0';
1107 strip_blank_end(nr);
1108 if (!str_to_float(nr, &val, 0)) {
1109 log_err("fio: could not parse steadystate threshold percentage\n");
1110 free(nr);
1111 return 1;
1112 }
1113
1114 dprint(FD_PARSE, "set steady state threshold to %f%%\n", val);
1115 free(nr);
1116 if (parse_dryrun())
1117 return 0;
1118
c8caba48 1119 td->o.ss_state |= FIO_SS_PCT;
16e56d25 1120 td->o.ss_limit.u.f = val;
c8caba48 1121 } else if (td->o.ss_state & FIO_SS_IOPS) {
16e56d25
VF
1122 if (!str_to_float(nr, &val, 0)) {
1123 log_err("fio: steadystate IOPS threshold postfix parsing failed\n");
1124 free(nr);
1125 return 1;
1126 }
1127
1128 dprint(FD_PARSE, "set steady state IOPS threshold to %f\n", val);
1129 free(nr);
1130 if (parse_dryrun())
1131 return 0;
1132
16e56d25 1133 td->o.ss_limit.u.f = val;
16e56d25
VF
1134 } else { /* bandwidth criterion */
1135 if (str_to_decimal(nr, &ll, 1, td, 0, 0)) {
1136 log_err("fio: steadystate BW threshold postfix parsing failed\n");
1137 free(nr);
1138 return 1;
1139 }
1140
1141 dprint(FD_PARSE, "set steady state BW threshold to %lld\n", ll);
1142 free(nr);
1143 if (parse_dryrun())
1144 return 0;
1145
16e56d25 1146 td->o.ss_limit.u.f = (double) ll;
16e56d25
VF
1147 }
1148
2c5d94bc 1149 td->ss.state = td->o.ss_state;
16e56d25
VF
1150 return 0;
1151}
1152
8e827d35 1153/*
bcbfeefa 1154 * Return next name in the string. Files are separated with ':'. If the ':'
8e827d35
JA
1155 * is escaped with a '\', then that ':' is part of the filename and does not
1156 * indicate a new file.
1157 */
532eda7e 1158char *get_next_str(char **ptr)
8e827d35
JA
1159{
1160 char *str = *ptr;
1161 char *p, *start;
1162
1163 if (!str || !strlen(str))
1164 return NULL;
1165
1166 start = str;
1167 do {
1168 /*
1169 * No colon, we are done
1170 */
1171 p = strchr(str, ':');
1172 if (!p) {
1173 *ptr = NULL;
1174 break;
1175 }
1176
1177 /*
1178 * We got a colon, but it's the first character. Skip and
1179 * continue
1180 */
1181 if (p == start) {
1182 str = ++start;
1183 continue;
1184 }
1185
1186 if (*(p - 1) != '\\') {
1187 *p = '\0';
1188 *ptr = p + 1;
1189 break;
1190 }
1191
1192 memmove(p - 1, p, strlen(p) + 1);
1193 str = p;
1194 } while (1);
1195
1196 return start;
1197}
1198
bcbfeefa 1199
532eda7e 1200int get_max_str_idx(char *input)
bcbfeefa
CE
1201{
1202 unsigned int cur_idx;
1203 char *str, *p;
1204
1205 p = str = strdup(input);
1206 for (cur_idx = 0; ; cur_idx++)
532eda7e 1207 if (get_next_str(&str) == NULL)
bcbfeefa
CE
1208 break;
1209
1210 free(p);
1211 return cur_idx;
1212}
1213
1214/*
1215 * Returns the directory at the index, indexes > entires will be
1216 * assigned via modulo division of the index
1217 */
922a5be8
JA
1218int set_name_idx(char *target, size_t tlen, char *input, int index,
1219 bool unique_filename)
bcbfeefa
CE
1220{
1221 unsigned int cur_idx;
1222 int len;
1223 char *fname, *str, *p;
1224
1225 p = str = strdup(input);
1226
532eda7e 1227 index %= get_max_str_idx(input);
bcbfeefa 1228 for (cur_idx = 0; cur_idx <= index; cur_idx++)
532eda7e 1229 fname = get_next_str(&str);
bcbfeefa 1230
922a5be8 1231 if (client_sockaddr_str[0] && unique_filename) {
e13c3b50
JA
1232 len = snprintf(target, tlen, "%s/%s.", fname,
1233 client_sockaddr_str);
1234 } else
1235 len = snprintf(target, tlen, "%s/", fname);
72a703da 1236
e13c3b50 1237 target[tlen - 1] = '\0';
bcbfeefa
CE
1238 free(p);
1239
1240 return len;
1241}
1242
c70c7f58
AK
1243char* get_name_by_idx(char *input, int index)
1244{
1245 unsigned int cur_idx;
1246 char *fname, *str, *p;
1247
1248 p = str = strdup(input);
1249
532eda7e 1250 index %= get_max_str_idx(input);
c70c7f58 1251 for (cur_idx = 0; cur_idx <= index; cur_idx++)
532eda7e 1252 fname = get_next_str(&str);
c70c7f58
AK
1253
1254 fname = strdup(fname);
1255 free(p);
1256
1257 return fname;
1258}
1259
214e1eca
JA
1260static int str_filename_cb(void *data, const char *input)
1261{
a609f12a 1262 struct thread_data *td = cb_data_to_td(data);
214e1eca
JA
1263 char *fname, *str, *p;
1264
1265 p = str = strdup(input);
1266
1267 strip_blank_front(&str);
1268 strip_blank_end(str);
1269
79591fa9
TK
1270 /*
1271 * Ignore what we may already have from nrfiles option.
1272 */
214e1eca 1273 if (!td->files_index)
2dc1bbeb 1274 td->o.nr_files = 0;
214e1eca 1275
532eda7e 1276 while ((fname = get_next_str(&str)) != NULL) {
214e1eca
JA
1277 if (!strlen(fname))
1278 break;
5903e7b7 1279 add_file(td, fname, 0, 1);
214e1eca
JA
1280 }
1281
1282 free(p);
1283 return 0;
1284}
1285
bcbfeefa 1286static int str_directory_cb(void *data, const char fio_unused *unused)
214e1eca 1287{
a609f12a 1288 struct thread_data *td = cb_data_to_td(data);
214e1eca 1289 struct stat sb;
bcbfeefa
CE
1290 char *dirname, *str, *p;
1291 int ret = 0;
214e1eca 1292
f9633d72
JA
1293 if (parse_dryrun())
1294 return 0;
1295
bcbfeefa 1296 p = str = strdup(td->o.directory);
532eda7e 1297 while ((dirname = get_next_str(&str)) != NULL) {
bcbfeefa
CE
1298 if (lstat(dirname, &sb) < 0) {
1299 ret = errno;
921c766f 1300
bcbfeefa
CE
1301 log_err("fio: %s is not a directory\n", dirname);
1302 td_verror(td, ret, "lstat");
1303 goto out;
1304 }
1305 if (!S_ISDIR(sb.st_mode)) {
1306 log_err("fio: %s is not a directory\n", dirname);
1307 ret = 1;
1308 goto out;
1309 }
214e1eca
JA
1310 }
1311
bcbfeefa
CE
1312out:
1313 free(p);
1314 return ret;
214e1eca
JA
1315}
1316
1317static int str_opendir_cb(void *data, const char fio_unused *str)
1318{
a609f12a 1319 struct thread_data *td = cb_data_to_td(data);
214e1eca 1320
52c0cea3
JA
1321 if (parse_dryrun())
1322 return 0;
1323
214e1eca 1324 if (!td->files_index)
2dc1bbeb 1325 td->o.nr_files = 0;
214e1eca 1326
2dc1bbeb 1327 return add_dir_files(td, td->o.opendir);
214e1eca
JA
1328}
1329
ce35b1ec
JA
1330static int str_buffer_pattern_cb(void *data, const char *input)
1331{
a609f12a 1332 struct thread_data *td = cb_data_to_td(data);
ce35b1ec
JA
1333 int ret;
1334
61b9861d
RP
1335 /* FIXME: for now buffer pattern does not support formats */
1336 ret = parse_and_fill_pattern(input, strlen(input), td->o.buffer_pattern,
1337 MAX_PATTERN_SIZE, NULL, 0, NULL, NULL);
1338 if (ret < 0)
1339 return 1;
ce35b1ec 1340
61b9861d
RP
1341 assert(ret != 0);
1342 td->o.buffer_pattern_bytes = ret;
c55fae03
JA
1343
1344 /*
1345 * If this job is doing any reading or has compression set,
1346 * ensure that we refill buffers for writes or we could be
1347 * invalidating the pattern through reads.
1348 */
1349 if (!td->o.compress_percentage && !td_read(td))
61b9861d 1350 td->o.refill_buffers = 0;
c55fae03
JA
1351 else
1352 td->o.refill_buffers = 1;
1353
61b9861d
RP
1354 td->o.scramble_buffers = 0;
1355 td->o.zero_buffers = 0;
efcd9dcc 1356
61b9861d 1357 return 0;
ce35b1ec
JA
1358}
1359
bedc9dc2
JA
1360static int str_buffer_compress_cb(void *data, unsigned long long *il)
1361{
a609f12a 1362 struct thread_data *td = cb_data_to_td(data);
bedc9dc2
JA
1363
1364 td->flags |= TD_F_COMPRESS;
1365 td->o.compress_percentage = *il;
1366 return 0;
1367}
1368
5c94b008
JA
1369static int str_dedupe_cb(void *data, unsigned long long *il)
1370{
a609f12a 1371 struct thread_data *td = cb_data_to_td(data);
5c94b008
JA
1372
1373 td->flags |= TD_F_COMPRESS;
1374 td->o.dedupe_percentage = *il;
1375 td->o.refill_buffers = 1;
1376 return 0;
1377}
1378
ce35b1ec
JA
1379static int str_verify_pattern_cb(void *data, const char *input)
1380{
a609f12a 1381 struct thread_data *td = cb_data_to_td(data);
ce35b1ec
JA
1382 int ret;
1383
61b9861d
RP
1384 td->o.verify_fmt_sz = ARRAY_SIZE(td->o.verify_fmt);
1385 ret = parse_and_fill_pattern(input, strlen(input), td->o.verify_pattern,
4205998f
JA
1386 MAX_PATTERN_SIZE, fmt_desc, sizeof(fmt_desc),
1387 td->o.verify_fmt, &td->o.verify_fmt_sz);
61b9861d
RP
1388 if (ret < 0)
1389 return 1;
efcd9dcc 1390
61b9861d
RP
1391 assert(ret != 0);
1392 td->o.verify_pattern_bytes = ret;
92bf48d5 1393 /*
b638d82f 1394 * VERIFY_* could already be set
92bf48d5 1395 */
61b9861d 1396 if (!fio_option_is_set(&td->o, verify))
92bf48d5 1397 td->o.verify = VERIFY_PATTERN;
efcd9dcc 1398
61b9861d 1399 return 0;
90059d65 1400}
214e1eca 1401
993bf48b
JA
1402static int str_gtod_reduce_cb(void *data, int *il)
1403{
a609f12a 1404 struct thread_data *td = cb_data_to_td(data);
993bf48b
JA
1405 int val = *il;
1406
02af0988 1407 td->o.disable_lat = !!val;
993bf48b
JA
1408 td->o.disable_clat = !!val;
1409 td->o.disable_slat = !!val;
1410 td->o.disable_bw = !!val;
0dc1bc03 1411 td->o.clat_percentiles = !val;
993bf48b 1412 if (val)
8b6a404c 1413 td->ts_cache_mask = 63;
993bf48b
JA
1414
1415 return 0;
1416}
1417
89978a6b
BW
1418static int str_offset_cb(void *data, unsigned long long *__val)
1419{
1420 struct thread_data *td = cb_data_to_td(data);
1421 unsigned long long v = *__val;
1422
1423 if (parse_is_percent(v)) {
1424 td->o.start_offset = 0;
1425 td->o.start_offset_percent = -1ULL - v;
872e0415
JA
1426 dprint(FD_PARSE, "SET start_offset_percent %d\n",
1427 td->o.start_offset_percent);
89978a6b
BW
1428 } else
1429 td->o.start_offset = v;
1430
1431 return 0;
1432}
1433
7bb59102
JA
1434static int str_size_cb(void *data, unsigned long long *__val)
1435{
a609f12a 1436 struct thread_data *td = cb_data_to_td(data);
7bb59102
JA
1437 unsigned long long v = *__val;
1438
1439 if (parse_is_percent(v)) {
1440 td->o.size = 0;
1441 td->o.size_percent = -1ULL - v;
24e4321c
TK
1442 dprint(FD_PARSE, "SET size_percent %d\n",
1443 td->o.size_percent);
7bb59102
JA
1444 } else
1445 td->o.size = v;
1446
1447 return 0;
1448}
1449
dded427c
OS
1450static int str_write_bw_log_cb(void *data, const char *str)
1451{
1452 struct thread_data *td = cb_data_to_td(data);
1453
1454 if (str)
1455 td->o.bw_log_file = strdup(str);
1456
1457 td->o.write_bw_log = 1;
1458 return 0;
1459}
1460
1461static int str_write_lat_log_cb(void *data, const char *str)
1462{
1463 struct thread_data *td = cb_data_to_td(data);
1464
1465 if (str)
1466 td->o.lat_log_file = strdup(str);
1467
1468 td->o.write_lat_log = 1;
1469 return 0;
1470}
1471
1472static int str_write_iops_log_cb(void *data, const char *str)
1473{
1474 struct thread_data *td = cb_data_to_td(data);
1475
1476 if (str)
1477 td->o.iops_log_file = strdup(str);
1478
1479 td->o.write_iops_log = 1;
1480 return 0;
1481}
1482
1483static int str_write_hist_log_cb(void *data, const char *str)
1484{
1485 struct thread_data *td = cb_data_to_td(data);
1486
1487 if (str)
1488 td->o.hist_log_file = strdup(str);
1489
1490 td->o.write_hist_log = 1;
1491 return 0;
1492}
1493
6730b40f
TK
1494/*
1495 * str is supposed to be a substring of the strdup'd original string,
1496 * and is valid only if it's a regular file path.
1497 * This function keeps the pointer to the path as needed later.
1498 *
1499 * "external:/path/to/so\0" <- original pointer updated with strdup'd
1500 * "external\0" <- above pointer after parsed, i.e. ->ioengine
1501 * "/path/to/so\0" <- str argument, i.e. ->ioengine_so_path
1502 */
1503static int str_ioengine_external_cb(void *data, const char *str)
1504{
1505 struct thread_data *td = cb_data_to_td(data);
1506 struct stat sb;
1507 char *p;
1508
1509 if (!str) {
1510 log_err("fio: null external ioengine path\n");
1511 return 1;
1512 }
1513
1514 p = (char *)str; /* str is mutable */
1515 strip_blank_front(&p);
1516 strip_blank_end(p);
1517
1518 if (stat(p, &sb) || !S_ISREG(sb.st_mode)) {
1519 log_err("fio: invalid external ioengine path \"%s\"\n", p);
1520 return 1;
1521 }
1522
1523 td->o.ioengine_so_path = p;
1524 return 0;
1525}
1526
9109883a 1527static int rw_verify(const struct fio_option *o, void *data)
896cac2a 1528{
a609f12a 1529 struct thread_data *td = cb_data_to_td(data);
896cac2a 1530
d81d0f99
VF
1531 if (read_only && (td_write(td) || td_trim(td))) {
1532 log_err("fio: job <%s> has write or trim bit set, but"
1533 " fio is in read-only mode\n", td->o.name);
896cac2a
JA
1534 return 1;
1535 }
1536
1537 return 0;
1538}
1539
9109883a 1540static int gtod_cpu_verify(const struct fio_option *o, void *data)
29d43ff9 1541{
276ca4f7 1542#ifndef FIO_HAVE_CPU_AFFINITY
a609f12a 1543 struct thread_data *td = cb_data_to_td(data);
29d43ff9 1544
29d43ff9
JA
1545 if (td->o.gtod_cpu) {
1546 log_err("fio: platform must support CPU affinity for"
1547 "gettimeofday() offloading\n");
1548 return 1;
1549 }
1550#endif
1551
1552 return 0;
1553}
1554
214e1eca
JA
1555/*
1556 * Map of job/command line options
1557 */
9af4a244 1558struct fio_option fio_options[FIO_MAX_OPTS] = {
214e1eca
JA
1559 {
1560 .name = "description",
e8b0e958 1561 .lname = "Description of job",
214e1eca 1562 .type = FIO_OPT_STR_STORE,
a609f12a 1563 .off1 = offsetof(struct thread_options, description),
214e1eca 1564 .help = "Text job description",
e8b0e958 1565 .category = FIO_OPT_C_GENERAL,
0626037e 1566 .group = FIO_OPT_G_DESC,
214e1eca
JA
1567 },
1568 {
1569 .name = "name",
e8b0e958 1570 .lname = "Job name",
214e1eca 1571 .type = FIO_OPT_STR_STORE,
a609f12a 1572 .off1 = offsetof(struct thread_options, name),
214e1eca 1573 .help = "Name of this job",
e8b0e958 1574 .category = FIO_OPT_C_GENERAL,
0626037e 1575 .group = FIO_OPT_G_DESC,
214e1eca 1576 },
9cc8cb91
AK
1577 {
1578 .name = "wait_for",
1579 .lname = "Waitee name",
1580 .type = FIO_OPT_STR_STORE,
a609f12a 1581 .off1 = offsetof(struct thread_options, wait_for),
9cc8cb91
AK
1582 .help = "Name of the job this one wants to wait for before starting",
1583 .category = FIO_OPT_C_GENERAL,
1584 .group = FIO_OPT_G_DESC,
1585 },
214e1eca
JA
1586 {
1587 .name = "filename",
e8b0e958 1588 .lname = "Filename(s)",
214e1eca 1589 .type = FIO_OPT_STR_STORE,
a609f12a 1590 .off1 = offsetof(struct thread_options, filename),
214e1eca 1591 .cb = str_filename_cb,
f0d524b0 1592 .prio = -1, /* must come after "directory" */
214e1eca 1593 .help = "File(s) to use for the workload",
e8b0e958 1594 .category = FIO_OPT_C_FILE,
0626037e 1595 .group = FIO_OPT_G_FILENAME,
214e1eca 1596 },
90fef2d1 1597 {
e8b0e958
JA
1598 .name = "directory",
1599 .lname = "Directory",
1600 .type = FIO_OPT_STR_STORE,
a609f12a 1601 .off1 = offsetof(struct thread_options, directory),
e8b0e958
JA
1602 .cb = str_directory_cb,
1603 .help = "Directory to store files in",
1604 .category = FIO_OPT_C_FILE,
0626037e 1605 .group = FIO_OPT_G_FILENAME,
90fef2d1 1606 },
de98bd30
JA
1607 {
1608 .name = "filename_format",
922a5be8 1609 .lname = "Filename Format",
de98bd30 1610 .type = FIO_OPT_STR_STORE,
a609f12a 1611 .off1 = offsetof(struct thread_options, filename_format),
de98bd30
JA
1612 .prio = -1, /* must come after "directory" */
1613 .help = "Override default $jobname.$jobnum.$filenum naming",
1614 .def = "$jobname.$jobnum.$filenum",
93bb626a
JA
1615 .category = FIO_OPT_C_FILE,
1616 .group = FIO_OPT_G_FILENAME,
ad705bcb 1617 },
922a5be8
JA
1618 {
1619 .name = "unique_filename",
1620 .lname = "Unique Filename",
1621 .type = FIO_OPT_BOOL,
a609f12a 1622 .off1 = offsetof(struct thread_options, unique_filename),
922a5be8
JA
1623 .help = "For network clients, prefix file with source IP",
1624 .def = "1",
1625 .category = FIO_OPT_C_FILE,
1626 .group = FIO_OPT_G_FILENAME,
1627 },
29c1349f
JA
1628 {
1629 .name = "lockfile",
e8b0e958 1630 .lname = "Lockfile",
4d4e80f2 1631 .type = FIO_OPT_STR,
a609f12a 1632 .off1 = offsetof(struct thread_options, file_lock_mode),
29c1349f 1633 .help = "Lock file when doing IO to it",
bc6a0a5d 1634 .prio = 1,
29c1349f 1635 .parent = "filename",
d71c154c 1636 .hide = 0,
4d4e80f2 1637 .def = "none",
e8b0e958 1638 .category = FIO_OPT_C_FILE,
0626037e 1639 .group = FIO_OPT_G_FILENAME,
4d4e80f2
JA
1640 .posval = {
1641 { .ival = "none",
1642 .oval = FILE_LOCK_NONE,
1643 .help = "No file locking",
1644 },
1645 { .ival = "exclusive",
1646 .oval = FILE_LOCK_EXCLUSIVE,
1647 .help = "Exclusive file lock",
1648 },
1649 {
1650 .ival = "readwrite",
1651 .oval = FILE_LOCK_READWRITE,
1652 .help = "Read vs write lock",
1653 },
1654 },
29c1349f 1655 },
214e1eca
JA
1656 {
1657 .name = "opendir",
e8b0e958 1658 .lname = "Open directory",
214e1eca 1659 .type = FIO_OPT_STR_STORE,
a609f12a 1660 .off1 = offsetof(struct thread_options, opendir),
214e1eca
JA
1661 .cb = str_opendir_cb,
1662 .help = "Recursively add files from this directory and down",
e8b0e958 1663 .category = FIO_OPT_C_FILE,
0626037e 1664 .group = FIO_OPT_G_FILENAME,
214e1eca
JA
1665 },
1666 {
1667 .name = "rw",
e8b0e958 1668 .lname = "Read/write",
d3aad8f2 1669 .alias = "readwrite",
214e1eca 1670 .type = FIO_OPT_STR,
211097b2 1671 .cb = str_rw_cb,
a609f12a 1672 .off1 = offsetof(struct thread_options, td_ddir),
214e1eca
JA
1673 .help = "IO direction",
1674 .def = "read",
896cac2a 1675 .verify = rw_verify,
e8b0e958 1676 .category = FIO_OPT_C_IO,
0626037e 1677 .group = FIO_OPT_G_IO_BASIC,
214e1eca
JA
1678 .posval = {
1679 { .ival = "read",
1680 .oval = TD_DDIR_READ,
1681 .help = "Sequential read",
1682 },
1683 { .ival = "write",
1684 .oval = TD_DDIR_WRITE,
1685 .help = "Sequential write",
1686 },
6eaf09d6
SL
1687 { .ival = "trim",
1688 .oval = TD_DDIR_TRIM,
1689 .help = "Sequential trim",
1690 },
214e1eca
JA
1691 { .ival = "randread",
1692 .oval = TD_DDIR_RANDREAD,
1693 .help = "Random read",
1694 },
1695 { .ival = "randwrite",
1696 .oval = TD_DDIR_RANDWRITE,
1697 .help = "Random write",
1698 },
6eaf09d6
SL
1699 { .ival = "randtrim",
1700 .oval = TD_DDIR_RANDTRIM,
1701 .help = "Random trim",
1702 },
214e1eca
JA
1703 { .ival = "rw",
1704 .oval = TD_DDIR_RW,
1705 .help = "Sequential read and write mix",
1706 },
10b023db
JA
1707 { .ival = "readwrite",
1708 .oval = TD_DDIR_RW,
1709 .help = "Sequential read and write mix",
1710 },
214e1eca
JA
1711 { .ival = "randrw",
1712 .oval = TD_DDIR_RANDRW,
1713 .help = "Random read and write mix"
1714 },
82a90686
JA
1715 { .ival = "trimwrite",
1716 .oval = TD_DDIR_TRIMWRITE,
1717 .help = "Trim and write mix, trims preceding writes"
0e4dd95c 1718 },
214e1eca
JA
1719 },
1720 },
38dad62d
JA
1721 {
1722 .name = "rw_sequencer",
e8b0e958 1723 .lname = "RW Sequencer",
38dad62d 1724 .type = FIO_OPT_STR,
a609f12a 1725 .off1 = offsetof(struct thread_options, rw_seq),
38dad62d
JA
1726 .help = "IO offset generator modifier",
1727 .def = "sequential",
e8b0e958 1728 .category = FIO_OPT_C_IO,
0626037e 1729 .group = FIO_OPT_G_IO_BASIC,
38dad62d
JA
1730 .posval = {
1731 { .ival = "sequential",
1732 .oval = RW_SEQ_SEQ,
1733 .help = "Generate sequential offsets",
1734 },
1735 { .ival = "identical",
1736 .oval = RW_SEQ_IDENT,
1737 .help = "Generate identical offsets",
1738 },
1739 },
1740 },
1741
214e1eca
JA
1742 {
1743 .name = "ioengine",
e8b0e958 1744 .lname = "IO Engine",
214e1eca 1745 .type = FIO_OPT_STR_STORE,
a609f12a 1746 .off1 = offsetof(struct thread_options, ioengine),
214e1eca 1747 .help = "IO engine to use",
58483fa4 1748 .def = FIO_PREFERRED_ENGINE,
e8b0e958 1749 .category = FIO_OPT_C_IO,
0626037e 1750 .group = FIO_OPT_G_IO_BASIC,
214e1eca
JA
1751 .posval = {
1752 { .ival = "sync",
1753 .help = "Use read/write",
1754 },
a31041ea 1755 { .ival = "psync",
1756 .help = "Use pread/pwrite",
1757 },
1d2af02a 1758 { .ival = "vsync",
03e20d68 1759 .help = "Use readv/writev",
1d2af02a 1760 },
07fc0acd
JA
1761#ifdef CONFIG_PWRITEV
1762 { .ival = "pvsync",
1763 .help = "Use preadv/pwritev",
1764 },
1765#endif
6562685f 1766#ifdef FIO_HAVE_PWRITEV2
2cafffbe
JA
1767 { .ival = "pvsync2",
1768 .help = "Use preadv2/pwritev2",
1769 },
1770#endif
67bf9823 1771#ifdef CONFIG_LIBAIO
214e1eca
JA
1772 { .ival = "libaio",
1773 .help = "Linux native asynchronous IO",
1774 },
1775#endif
67bf9823 1776#ifdef CONFIG_POSIXAIO
214e1eca
JA
1777 { .ival = "posixaio",
1778 .help = "POSIX asynchronous IO",
1779 },
417f0068 1780#endif
997843cb 1781#ifdef CONFIG_SOLARISAIO
417f0068
JA
1782 { .ival = "solarisaio",
1783 .help = "Solaris native asynchronous IO",
1784 },
214e1eca 1785#endif
4700b234 1786#ifdef CONFIG_WINDOWSAIO
03e20d68 1787 { .ival = "windowsaio",
3be80071 1788 .help = "Windows native asynchronous IO"
de890a1e 1789 },
fc5c0345
DG
1790#endif
1791#ifdef CONFIG_RBD
1792 { .ival = "rbd",
1793 .help = "Rados Block Device asynchronous IO"
1794 },
3be80071 1795#endif
214e1eca 1796 { .ival = "mmap",
03e20d68 1797 .help = "Memory mapped IO"
214e1eca 1798 },
67bf9823 1799#ifdef CONFIG_LINUX_SPLICE
214e1eca
JA
1800 { .ival = "splice",
1801 .help = "splice/vmsplice based IO",
1802 },
9cce02e8
JA
1803 { .ival = "netsplice",
1804 .help = "splice/vmsplice to/from the network",
1805 },
214e1eca
JA
1806#endif
1807#ifdef FIO_HAVE_SGIO
1808 { .ival = "sg",
1809 .help = "SCSI generic v3 IO",
1810 },
1811#endif
1812 { .ival = "null",
1813 .help = "Testing engine (no data transfer)",
1814 },
1815 { .ival = "net",
1816 .help = "Network IO",
1817 },
214e1eca 1818 { .ival = "cpuio",
03e20d68 1819 .help = "CPU cycle burner engine",
214e1eca 1820 },
67bf9823 1821#ifdef CONFIG_GUASI
b8c82a46
JA
1822 { .ival = "guasi",
1823 .help = "GUASI IO engine",
1824 },
79a43187 1825#endif
67bf9823 1826#ifdef CONFIG_RDMA
21b8aee8 1827 { .ival = "rdma",
1828 .help = "RDMA IO engine",
1829 },
8200b8c7 1830#endif
997843cb 1831#ifdef CONFIG_LINUX_EXT4_MOVE_EXTENT
1ecc95ca
JA
1832 { .ival = "e4defrag",
1833 .help = "ext4 defrag engine",
1834 },
1835#endif
997843cb 1836#ifdef CONFIG_LINUX_FALLOCATE
1ecc95ca
JA
1837 { .ival = "falloc",
1838 .help = "fallocate() file based engine",
1839 },
b8c82a46 1840#endif
a7c386f4 1841#ifdef CONFIG_GFAPI
1842 { .ival = "gfapi",
cc47f094 1843 .help = "Glusterfs libgfapi(sync) based engine"
1844 },
1845 { .ival = "gfapi_async",
1846 .help = "Glusterfs libgfapi(async) based engine"
a7c386f4 1847 },
1848#endif
1b10477b 1849#ifdef CONFIG_LIBHDFS
b74e419e 1850 { .ival = "libhdfs",
1b10477b
MM
1851 .help = "Hadoop Distributed Filesystem (HDFS) engine"
1852 },
5c4ef02e
JA
1853#endif
1854#ifdef CONFIG_PMEMBLK
1855 { .ival = "pmemblk",
363a5f65 1856 .help = "PMDK libpmemblk based IO engine",
5c4ef02e
JA
1857 },
1858
104ee4de 1859#endif
a40e7a59
GB
1860#ifdef CONFIG_IME
1861 { .ival = "ime_psync",
1862 .help = "DDN's IME synchronous IO engine",
1863 },
1864 { .ival = "ime_psyncv",
1865 .help = "DDN's IME synchronous IO engine using iovecs",
1866 },
1867 { .ival = "ime_aio",
1868 .help = "DDN's IME asynchronous IO engine",
1869 },
1870#endif
104ee4de
DJ
1871#ifdef CONFIG_LINUX_DEVDAX
1872 { .ival = "dev-dax",
1873 .help = "DAX Device based IO engine",
1874 },
1b10477b 1875#endif
edc5fa12
JA
1876 {
1877 .ival = "filecreate",
1878 .help = "File creation engine",
1879 },
214e1eca
JA
1880 { .ival = "external",
1881 .help = "Load external engine (append name)",
6730b40f 1882 .cb = str_ioengine_external_cb,
214e1eca 1883 },
ae0db592
TI
1884#ifdef CONFIG_LIBPMEM
1885 { .ival = "libpmem",
363a5f65 1886 .help = "PMDK libpmem based IO engine",
ae0db592 1887 },
c2f6a13d
LMB
1888#endif
1889#ifdef CONFIG_HTTP
1890 { .ival = "http",
1891 .help = "HTTP (WebDAV/S3) IO engine",
1892 },
ae0db592 1893#endif
214e1eca
JA
1894 },
1895 },
1896 {
1897 .name = "iodepth",
e8b0e958 1898 .lname = "IO Depth",
214e1eca 1899 .type = FIO_OPT_INT,
a609f12a 1900 .off1 = offsetof(struct thread_options, iodepth),
03e20d68 1901 .help = "Number of IO buffers to keep in flight",
757aff4f 1902 .minval = 1,
20eb06bd 1903 .interval = 1,
214e1eca 1904 .def = "1",
e8b0e958 1905 .category = FIO_OPT_C_IO,
0626037e 1906 .group = FIO_OPT_G_IO_BASIC,
214e1eca
JA
1907 },
1908 {
1909 .name = "iodepth_batch",
e8b0e958 1910 .lname = "IO Depth batch",
4950421a 1911 .alias = "iodepth_batch_submit",
214e1eca 1912 .type = FIO_OPT_INT,
a609f12a 1913 .off1 = offsetof(struct thread_options, iodepth_batch),
d65db441 1914 .help = "Number of IO buffers to submit in one go",
afdf9352 1915 .parent = "iodepth",
d71c154c 1916 .hide = 1,
20eb06bd 1917 .interval = 1,
a2e6f8ac 1918 .def = "1",
e8b0e958 1919 .category = FIO_OPT_C_IO,
0626037e 1920 .group = FIO_OPT_G_IO_BASIC,
4950421a
JA
1921 },
1922 {
82407585
RP
1923 .name = "iodepth_batch_complete_min",
1924 .lname = "Min IO depth batch complete",
1925 .alias = "iodepth_batch_complete",
4950421a 1926 .type = FIO_OPT_INT,
a609f12a 1927 .off1 = offsetof(struct thread_options, iodepth_batch_complete_min),
82407585 1928 .help = "Min number of IO buffers to retrieve in one go",
4950421a 1929 .parent = "iodepth",
d71c154c 1930 .hide = 1,
4950421a 1931 .minval = 0,
20eb06bd 1932 .interval = 1,
4950421a 1933 .def = "1",
e8b0e958 1934 .category = FIO_OPT_C_IO,
0626037e 1935 .group = FIO_OPT_G_IO_BASIC,
214e1eca 1936 },
82407585
RP
1937 {
1938 .name = "iodepth_batch_complete_max",
1939 .lname = "Max IO depth batch complete",
1940 .type = FIO_OPT_INT,
a609f12a 1941 .off1 = offsetof(struct thread_options, iodepth_batch_complete_max),
82407585
RP
1942 .help = "Max number of IO buffers to retrieve in one go",
1943 .parent = "iodepth",
1944 .hide = 1,
1945 .minval = 0,
1946 .interval = 1,
1947 .category = FIO_OPT_C_IO,
1948 .group = FIO_OPT_G_IO_BASIC,
1949 },
214e1eca
JA
1950 {
1951 .name = "iodepth_low",
e8b0e958 1952 .lname = "IO Depth batch low",
214e1eca 1953 .type = FIO_OPT_INT,
a609f12a 1954 .off1 = offsetof(struct thread_options, iodepth_low),
214e1eca 1955 .help = "Low water mark for queuing depth",
afdf9352 1956 .parent = "iodepth",
d71c154c 1957 .hide = 1,
20eb06bd 1958 .interval = 1,
e8b0e958 1959 .category = FIO_OPT_C_IO,
0626037e 1960 .group = FIO_OPT_G_IO_BASIC,
214e1eca 1961 },
997b5680
SW
1962 {
1963 .name = "serialize_overlap",
1964 .lname = "Serialize overlap",
1965 .off1 = offsetof(struct thread_options, serialize_overlap),
1966 .type = FIO_OPT_BOOL,
1967 .help = "Wait for in-flight IOs that collide to complete",
1968 .parent = "iodepth",
1969 .def = "0",
1970 .category = FIO_OPT_C_IO,
1971 .group = FIO_OPT_G_IO_BASIC,
1972 },
a9da8ab2
JA
1973 {
1974 .name = "io_submit_mode",
1975 .lname = "IO submit mode",
1976 .type = FIO_OPT_STR,
a609f12a 1977 .off1 = offsetof(struct thread_options, io_submit_mode),
a9da8ab2
JA
1978 .help = "How IO submissions and completions are done",
1979 .def = "inline",
1980 .category = FIO_OPT_C_IO,
1981 .group = FIO_OPT_G_IO_BASIC,
1982 .posval = {
1983 { .ival = "inline",
1984 .oval = IO_MODE_INLINE,
1985 .help = "Submit and complete IO inline",
1986 },
1987 { .ival = "offload",
1988 .oval = IO_MODE_OFFLOAD,
1989 .help = "Offload submit and complete to threads",
1990 },
1991 },
1992 },
214e1eca
JA
1993 {
1994 .name = "size",
e8b0e958 1995 .lname = "Size",
214e1eca 1996 .type = FIO_OPT_STR_VAL,
7bb59102 1997 .cb = str_size_cb,
a609f12a 1998 .off1 = offsetof(struct thread_options, size),
214e1eca 1999 .help = "Total size of device or files",
20eb06bd 2000 .interval = 1024 * 1024,
e8b0e958
JA
2001 .category = FIO_OPT_C_IO,
2002 .group = FIO_OPT_G_INVALID,
214e1eca 2003 },
77731b29 2004 {
a4d3b4db
JA
2005 .name = "io_size",
2006 .alias = "io_limit",
2007 .lname = "IO Size",
77731b29 2008 .type = FIO_OPT_STR_VAL,
5be9bf09 2009 .off1 = offsetof(struct thread_options, io_size),
1684f7fd 2010 .help = "Total size of I/O to be performed",
77731b29
JA
2011 .interval = 1024 * 1024,
2012 .category = FIO_OPT_C_IO,
2013 .group = FIO_OPT_G_INVALID,
2014 },
aa31f1f1
SL
2015 {
2016 .name = "fill_device",
e8b0e958 2017 .lname = "Fill device",
74586c1e 2018 .alias = "fill_fs",
aa31f1f1 2019 .type = FIO_OPT_BOOL,
a609f12a 2020 .off1 = offsetof(struct thread_options, fill_device),
aa31f1f1
SL
2021 .help = "Write until an ENOSPC error occurs",
2022 .def = "0",
e8b0e958
JA
2023 .category = FIO_OPT_C_FILE,
2024 .group = FIO_OPT_G_INVALID,
aa31f1f1 2025 },
214e1eca
JA
2026 {
2027 .name = "filesize",
e8b0e958 2028 .lname = "File size",
214e1eca 2029 .type = FIO_OPT_STR_VAL,
a609f12a
JA
2030 .off1 = offsetof(struct thread_options, file_size_low),
2031 .off2 = offsetof(struct thread_options, file_size_high),
c3edbdba 2032 .minval = 1,
214e1eca 2033 .help = "Size of individual files",
20eb06bd 2034 .interval = 1024 * 1024,
e8b0e958
JA
2035 .category = FIO_OPT_C_FILE,
2036 .group = FIO_OPT_G_INVALID,
214e1eca 2037 },
bedc9dc2
JA
2038 {
2039 .name = "file_append",
2040 .lname = "File append",
2041 .type = FIO_OPT_BOOL,
a609f12a 2042 .off1 = offsetof(struct thread_options, file_append),
bedc9dc2
JA
2043 .help = "IO will start at the end of the file(s)",
2044 .def = "0",
2045 .category = FIO_OPT_C_FILE,
2046 .group = FIO_OPT_G_INVALID,
2047 },
67a1000f
JA
2048 {
2049 .name = "offset",
e8b0e958 2050 .lname = "IO offset",
67a1000f
JA
2051 .alias = "fileoffset",
2052 .type = FIO_OPT_STR_VAL,
89978a6b 2053 .cb = str_offset_cb,
a609f12a 2054 .off1 = offsetof(struct thread_options, start_offset),
67a1000f
JA
2055 .help = "Start IO from this offset",
2056 .def = "0",
20eb06bd 2057 .interval = 1024 * 1024,
e8b0e958
JA
2058 .category = FIO_OPT_C_IO,
2059 .group = FIO_OPT_G_INVALID,
67a1000f 2060 },
83c8b093
JF
2061 {
2062 .name = "offset_align",
2063 .lname = "IO offset alignment",
2064 .type = FIO_OPT_INT,
2065 .off1 = offsetof(struct thread_options, start_offset_align),
2066 .help = "Start IO from this offset alignment",
2067 .def = "0",
2068 .interval = 512,
2069 .category = FIO_OPT_C_IO,
2070 .group = FIO_OPT_G_INVALID,
2071 },
2d7cd868
JA
2072 {
2073 .name = "offset_increment",
e8b0e958 2074 .lname = "IO offset increment",
2d7cd868 2075 .type = FIO_OPT_STR_VAL,
a609f12a 2076 .off1 = offsetof(struct thread_options, offset_increment),
2d7cd868
JA
2077 .help = "What is the increment from one offset to the next",
2078 .parent = "offset",
d71c154c 2079 .hide = 1,
2d7cd868 2080 .def = "0",
20eb06bd 2081 .interval = 1024 * 1024,
e8b0e958
JA
2082 .category = FIO_OPT_C_IO,
2083 .group = FIO_OPT_G_INVALID,
2d7cd868 2084 },
ddf24e42
JA
2085 {
2086 .name = "number_ios",
2087 .lname = "Number of IOs to perform",
2088 .type = FIO_OPT_STR_VAL,
a609f12a 2089 .off1 = offsetof(struct thread_options, number_ios),
be3fec7d 2090 .help = "Force job completion after this number of IOs",
ddf24e42
JA
2091 .def = "0",
2092 .category = FIO_OPT_C_IO,
2093 .group = FIO_OPT_G_INVALID,
2094 },
214e1eca
JA
2095 {
2096 .name = "bs",
e8b0e958 2097 .lname = "Block size",
d3aad8f2 2098 .alias = "blocksize",
5fff9543 2099 .type = FIO_OPT_ULL,
a609f12a
JA
2100 .off1 = offsetof(struct thread_options, bs[DDIR_READ]),
2101 .off2 = offsetof(struct thread_options, bs[DDIR_WRITE]),
2102 .off3 = offsetof(struct thread_options, bs[DDIR_TRIM]),
c3edbdba 2103 .minval = 1,
214e1eca 2104 .help = "Block size unit",
2b9136a3 2105 .def = "4096",
67a1000f 2106 .parent = "rw",
d71c154c 2107 .hide = 1,
20eb06bd 2108 .interval = 512,
e8b0e958
JA
2109 .category = FIO_OPT_C_IO,
2110 .group = FIO_OPT_G_INVALID,
214e1eca 2111 },
2b7a01d0
JA
2112 {
2113 .name = "ba",
e8b0e958 2114 .lname = "Block size align",
2b7a01d0 2115 .alias = "blockalign",
5fff9543 2116 .type = FIO_OPT_ULL,
a609f12a
JA
2117 .off1 = offsetof(struct thread_options, ba[DDIR_READ]),
2118 .off2 = offsetof(struct thread_options, ba[DDIR_WRITE]),
2119 .off3 = offsetof(struct thread_options, ba[DDIR_TRIM]),
2b7a01d0
JA
2120 .minval = 1,
2121 .help = "IO block offset alignment",
2122 .parent = "rw",
d71c154c 2123 .hide = 1,
20eb06bd 2124 .interval = 512,
e8b0e958
JA
2125 .category = FIO_OPT_C_IO,
2126 .group = FIO_OPT_G_INVALID,
2b7a01d0 2127 },
214e1eca
JA
2128 {
2129 .name = "bsrange",
e8b0e958 2130 .lname = "Block size range",
d3aad8f2 2131 .alias = "blocksize_range",
214e1eca 2132 .type = FIO_OPT_RANGE,
a609f12a
JA
2133 .off1 = offsetof(struct thread_options, min_bs[DDIR_READ]),
2134 .off2 = offsetof(struct thread_options, max_bs[DDIR_READ]),
2135 .off3 = offsetof(struct thread_options, min_bs[DDIR_WRITE]),
2136 .off4 = offsetof(struct thread_options, max_bs[DDIR_WRITE]),
2137 .off5 = offsetof(struct thread_options, min_bs[DDIR_TRIM]),
2138 .off6 = offsetof(struct thread_options, max_bs[DDIR_TRIM]),
c3edbdba 2139 .minval = 1,
214e1eca 2140 .help = "Set block size range (in more detail than bs)",
67a1000f 2141 .parent = "rw",
d71c154c 2142 .hide = 1,
20eb06bd 2143 .interval = 4096,
e8b0e958
JA
2144 .category = FIO_OPT_C_IO,
2145 .group = FIO_OPT_G_INVALID,
214e1eca 2146 },
564ca972
JA
2147 {
2148 .name = "bssplit",
e8b0e958 2149 .lname = "Block size split",
5fff9543 2150 .type = FIO_OPT_STR_ULL,
564ca972 2151 .cb = str_bssplit_cb,
a609f12a 2152 .off1 = offsetof(struct thread_options, bssplit),
564ca972
JA
2153 .help = "Set a specific mix of block sizes",
2154 .parent = "rw",
d71c154c 2155 .hide = 1,
e8b0e958
JA
2156 .category = FIO_OPT_C_IO,
2157 .group = FIO_OPT_G_INVALID,
564ca972 2158 },
214e1eca
JA
2159 {
2160 .name = "bs_unaligned",
e8b0e958 2161 .lname = "Block size unaligned",
d3aad8f2 2162 .alias = "blocksize_unaligned",
214e1eca 2163 .type = FIO_OPT_STR_SET,
a609f12a 2164 .off1 = offsetof(struct thread_options, bs_unaligned),
214e1eca 2165 .help = "Don't sector align IO buffer sizes",
67a1000f 2166 .parent = "rw",
d71c154c 2167 .hide = 1,
e8b0e958
JA
2168 .category = FIO_OPT_C_IO,
2169 .group = FIO_OPT_G_INVALID,
214e1eca 2170 },
6aca9b3d
JA
2171 {
2172 .name = "bs_is_seq_rand",
2173 .lname = "Block size division is seq/random (not read/write)",
2174 .type = FIO_OPT_BOOL,
a609f12a 2175 .off1 = offsetof(struct thread_options, bs_is_seq_rand),
86d59660 2176 .help = "Consider any blocksize setting to be sequential,random",
6aca9b3d
JA
2177 .def = "0",
2178 .parent = "blocksize",
2179 .category = FIO_OPT_C_IO,
2180 .group = FIO_OPT_G_INVALID,
2181 },
214e1eca
JA
2182 {
2183 .name = "randrepeat",
e8b0e958 2184 .lname = "Random repeatable",
214e1eca 2185 .type = FIO_OPT_BOOL,
a609f12a 2186 .off1 = offsetof(struct thread_options, rand_repeatable),
214e1eca
JA
2187 .help = "Use repeatable random IO pattern",
2188 .def = "1",
67a1000f 2189 .parent = "rw",
d71c154c 2190 .hide = 1,
e8b0e958 2191 .category = FIO_OPT_C_IO,
3ceb458f 2192 .group = FIO_OPT_G_RANDOM,
214e1eca 2193 },
04778baf
JA
2194 {
2195 .name = "randseed",
2196 .lname = "The random generator seed",
363cffa7 2197 .type = FIO_OPT_STR_VAL,
a609f12a 2198 .off1 = offsetof(struct thread_options, rand_seed),
04778baf 2199 .help = "Set the random generator seed value",
40fe5e7b 2200 .def = "0x89",
04778baf
JA
2201 .parent = "rw",
2202 .category = FIO_OPT_C_IO,
2203 .group = FIO_OPT_G_RANDOM,
2204 },
214e1eca
JA
2205 {
2206 .name = "norandommap",
e8b0e958 2207 .lname = "No randommap",
214e1eca 2208 .type = FIO_OPT_STR_SET,
a609f12a 2209 .off1 = offsetof(struct thread_options, norandommap),
214e1eca 2210 .help = "Accept potential duplicate random blocks",
67a1000f 2211 .parent = "rw",
d71c154c 2212 .hide = 1,
b2452a43 2213 .hide_on_set = 1,
e8b0e958 2214 .category = FIO_OPT_C_IO,
3ceb458f 2215 .group = FIO_OPT_G_RANDOM,
214e1eca 2216 },
2b386d25
JA
2217 {
2218 .name = "softrandommap",
e8b0e958 2219 .lname = "Soft randommap",
2b386d25 2220 .type = FIO_OPT_BOOL,
a609f12a 2221 .off1 = offsetof(struct thread_options, softrandommap),
f66ab3c8 2222 .help = "Set norandommap if randommap allocation fails",
2b386d25 2223 .parent = "norandommap",
d71c154c 2224 .hide = 1,
2b386d25 2225 .def = "0",
e8b0e958 2226 .category = FIO_OPT_C_IO,
3ceb458f 2227 .group = FIO_OPT_G_RANDOM,
2b386d25 2228 },
8055e41d
JA
2229 {
2230 .name = "random_generator",
cce2fdfe 2231 .lname = "Random Generator",
8055e41d 2232 .type = FIO_OPT_STR,
a609f12a 2233 .off1 = offsetof(struct thread_options, random_generator),
8055e41d
JA
2234 .help = "Type of random number generator to use",
2235 .def = "tausworthe",
2236 .posval = {
2237 { .ival = "tausworthe",
2238 .oval = FIO_RAND_GEN_TAUSWORTHE,
2239 .help = "Strong Tausworthe generator",
2240 },
2241 { .ival = "lfsr",
2242 .oval = FIO_RAND_GEN_LFSR,
2243 .help = "Variable length LFSR",
2244 },
c3546b53
JA
2245 {
2246 .ival = "tausworthe64",
2247 .oval = FIO_RAND_GEN_TAUSWORTHE64,
2248 .help = "64-bit Tausworthe variant",
2249 },
8055e41d 2250 },
48107598
JA
2251 .category = FIO_OPT_C_IO,
2252 .group = FIO_OPT_G_RANDOM,
8055e41d 2253 },
e25839d4
JA
2254 {
2255 .name = "random_distribution",
cce2fdfe 2256 .lname = "Random Distribution",
e25839d4 2257 .type = FIO_OPT_STR,
a609f12a 2258 .off1 = offsetof(struct thread_options, random_distribution),
e25839d4
JA
2259 .cb = str_random_distribution_cb,
2260 .help = "Random offset distribution generator",
2261 .def = "random",
2262 .posval = {
2263 { .ival = "random",
2264 .oval = FIO_RAND_DIST_RANDOM,
2265 .help = "Completely random",
2266 },
2267 { .ival = "zipf",
2268 .oval = FIO_RAND_DIST_ZIPF,
2269 .help = "Zipf distribution",
2270 },
925fee33
JA
2271 { .ival = "pareto",
2272 .oval = FIO_RAND_DIST_PARETO,
2273 .help = "Pareto distribution",
2274 },
56d9fa4b
JA
2275 { .ival = "normal",
2276 .oval = FIO_RAND_DIST_GAUSS,
ba2b3b07 2277 .help = "Normal (Gaussian) distribution",
56d9fa4b 2278 },
e0a04ac1
JA
2279 { .ival = "zoned",
2280 .oval = FIO_RAND_DIST_ZONED,
2281 .help = "Zoned random distribution",
2282 },
59466396
JA
2283 { .ival = "zoned_abs",
2284 .oval = FIO_RAND_DIST_ZONED_ABS,
2285 .help = "Zoned absolute random distribution",
2286 },
e25839d4 2287 },
48107598
JA
2288 .category = FIO_OPT_C_IO,
2289 .group = FIO_OPT_G_RANDOM,
e25839d4 2290 },
211c9b89
JA
2291 {
2292 .name = "percentage_random",
2293 .lname = "Percentage Random",
2294 .type = FIO_OPT_INT,
a609f12a
JA
2295 .off1 = offsetof(struct thread_options, perc_rand[DDIR_READ]),
2296 .off2 = offsetof(struct thread_options, perc_rand[DDIR_WRITE]),
2297 .off3 = offsetof(struct thread_options, perc_rand[DDIR_TRIM]),
211c9b89
JA
2298 .maxval = 100,
2299 .help = "Percentage of seq/random mix that should be random",
d9472271 2300 .def = "100,100,100",
211c9b89
JA
2301 .interval = 5,
2302 .inverse = "percentage_sequential",
2303 .category = FIO_OPT_C_IO,
2304 .group = FIO_OPT_G_RANDOM,
2305 },
2306 {
2307 .name = "percentage_sequential",
2308 .lname = "Percentage Sequential",
d9472271 2309 .type = FIO_OPT_DEPRECATED,
211c9b89
JA
2310 .category = FIO_OPT_C_IO,
2311 .group = FIO_OPT_G_RANDOM,
2312 },
56e2a5fc
CE
2313 {
2314 .name = "allrandrepeat",
cce2fdfe 2315 .lname = "All Random Repeat",
56e2a5fc 2316 .type = FIO_OPT_BOOL,
a609f12a 2317 .off1 = offsetof(struct thread_options, allrand_repeatable),
56e2a5fc
CE
2318 .help = "Use repeatable random numbers for everything",
2319 .def = "0",
a869d9c6
JA
2320 .category = FIO_OPT_C_IO,
2321 .group = FIO_OPT_G_RANDOM,
56e2a5fc 2322 },
214e1eca
JA
2323 {
2324 .name = "nrfiles",
e8b0e958 2325 .lname = "Number of files",
d7c8be03 2326 .alias = "nr_files",
214e1eca 2327 .type = FIO_OPT_INT,
a609f12a 2328 .off1 = offsetof(struct thread_options, nr_files),
214e1eca
JA
2329 .help = "Split job workload between this number of files",
2330 .def = "1",
20eb06bd 2331 .interval = 1,
e8b0e958
JA
2332 .category = FIO_OPT_C_FILE,
2333 .group = FIO_OPT_G_INVALID,
214e1eca
JA
2334 },
2335 {
2336 .name = "openfiles",
e8b0e958 2337 .lname = "Number of open files",
214e1eca 2338 .type = FIO_OPT_INT,
a609f12a 2339 .off1 = offsetof(struct thread_options, open_files),
214e1eca 2340 .help = "Number of files to keep open at the same time",
e8b0e958
JA
2341 .category = FIO_OPT_C_FILE,
2342 .group = FIO_OPT_G_INVALID,
214e1eca
JA
2343 },
2344 {
2345 .name = "file_service_type",
e8b0e958 2346 .lname = "File service type",
214e1eca
JA
2347 .type = FIO_OPT_STR,
2348 .cb = str_fst_cb,
a609f12a 2349 .off1 = offsetof(struct thread_options, file_service_type),
214e1eca
JA
2350 .help = "How to select which file to service next",
2351 .def = "roundrobin",
e8b0e958
JA
2352 .category = FIO_OPT_C_FILE,
2353 .group = FIO_OPT_G_INVALID,
214e1eca
JA
2354 .posval = {
2355 { .ival = "random",
2356 .oval = FIO_FSERVICE_RANDOM,
8c07860d
JA
2357 .help = "Choose a file at random (uniform)",
2358 },
2359 { .ival = "zipf",
2360 .oval = FIO_FSERVICE_ZIPF,
2361 .help = "Zipf randomized",
2362 },
2363 { .ival = "pareto",
2364 .oval = FIO_FSERVICE_PARETO,
2365 .help = "Pareto randomized",
2366 },
dd3503d3
SW
2367 { .ival = "normal",
2368 .oval = FIO_FSERVICE_GAUSS,
2369 .help = "Normal (Gaussian) randomized",
2370 },
8c07860d
JA
2371 { .ival = "gauss",
2372 .oval = FIO_FSERVICE_GAUSS,
dd3503d3 2373 .help = "Alias for normal",
214e1eca
JA
2374 },
2375 { .ival = "roundrobin",
2376 .oval = FIO_FSERVICE_RR,
2377 .help = "Round robin select files",
2378 },
a086c257
JA
2379 { .ival = "sequential",
2380 .oval = FIO_FSERVICE_SEQ,
2381 .help = "Finish one file before moving to the next",
2382 },
214e1eca 2383 },
67a1000f 2384 .parent = "nrfiles",
d71c154c 2385 .hide = 1,
67a1000f 2386 },
cbbdf1c8 2387#ifdef FIO_HAVE_ANY_FALLOCATE
7bc8c2cf
JA
2388 {
2389 .name = "fallocate",
e8b0e958 2390 .lname = "Fallocate",
a596f047 2391 .type = FIO_OPT_STR,
a609f12a 2392 .off1 = offsetof(struct thread_options, fallocate_mode),
a596f047 2393 .help = "Whether pre-allocation is performed when laying out files",
2c3e17be 2394 .def = "native",
e8b0e958
JA
2395 .category = FIO_OPT_C_FILE,
2396 .group = FIO_OPT_G_INVALID,
a596f047
EG
2397 .posval = {
2398 { .ival = "none",
2399 .oval = FIO_FALLOCATE_NONE,
2400 .help = "Do not pre-allocate space",
2401 },
2c3e17be
SW
2402 { .ival = "native",
2403 .oval = FIO_FALLOCATE_NATIVE,
2404 .help = "Use native pre-allocation if possible",
2405 },
2406#ifdef CONFIG_POSIX_FALLOCATE
a596f047
EG
2407 { .ival = "posix",
2408 .oval = FIO_FALLOCATE_POSIX,
2409 .help = "Use posix_fallocate()",
2410 },
2c3e17be 2411#endif
97ac992c 2412#ifdef CONFIG_LINUX_FALLOCATE
a596f047
EG
2413 { .ival = "keep",
2414 .oval = FIO_FALLOCATE_KEEP_SIZE,
2415 .help = "Use fallocate(..., FALLOC_FL_KEEP_SIZE, ...)",
2416 },
7bc8c2cf 2417#endif
a596f047
EG
2418 /* Compatibility with former boolean values */
2419 { .ival = "0",
2420 .oval = FIO_FALLOCATE_NONE,
2421 .help = "Alias for 'none'",
2422 },
2c3e17be 2423#ifdef CONFIG_POSIX_FALLOCATE
a596f047
EG
2424 { .ival = "1",
2425 .oval = FIO_FALLOCATE_POSIX,
2426 .help = "Alias for 'posix'",
2427 },
2c3e17be 2428#endif
a596f047
EG
2429 },
2430 },
cbbdf1c8 2431#else /* FIO_HAVE_ANY_FALLOCATE */
a275c37a
JA
2432 {
2433 .name = "fallocate",
2434 .lname = "Fallocate",
2435 .type = FIO_OPT_UNSUPPORTED,
2436 .help = "Your platform does not support fallocate",
2437 },
cbbdf1c8 2438#endif /* FIO_HAVE_ANY_FALLOCATE */
67a1000f
JA
2439 {
2440 .name = "fadvise_hint",
e8b0e958 2441 .lname = "Fadvise hint",
ecb2083d 2442 .type = FIO_OPT_STR,
a609f12a 2443 .off1 = offsetof(struct thread_options, fadvise_hint),
ecb2083d
JA
2444 .posval = {
2445 { .ival = "0",
2446 .oval = F_ADV_NONE,
c712c97a 2447 .help = "Don't issue fadvise/madvise",
ecb2083d
JA
2448 },
2449 { .ival = "1",
2450 .oval = F_ADV_TYPE,
2451 .help = "Advise using fio IO pattern",
2452 },
2453 { .ival = "random",
2454 .oval = F_ADV_RANDOM,
2455 .help = "Advise using FADV_RANDOM",
2456 },
2457 { .ival = "sequential",
2458 .oval = F_ADV_SEQUENTIAL,
2459 .help = "Advise using FADV_SEQUENTIAL",
2460 },
2461 },
67a1000f
JA
2462 .help = "Use fadvise() to advise the kernel on IO pattern",
2463 .def = "1",
e8b0e958
JA
2464 .category = FIO_OPT_C_FILE,
2465 .group = FIO_OPT_G_INVALID,
214e1eca
JA
2466 },
2467 {
2468 .name = "fsync",
e8b0e958 2469 .lname = "Fsync",
214e1eca 2470 .type = FIO_OPT_INT,
a609f12a 2471 .off1 = offsetof(struct thread_options, fsync_blocks),
214e1eca
JA
2472 .help = "Issue fsync for writes every given number of blocks",
2473 .def = "0",
20eb06bd 2474 .interval = 1,
e8b0e958
JA
2475 .category = FIO_OPT_C_FILE,
2476 .group = FIO_OPT_G_INVALID,
214e1eca 2477 },
5f9099ea
JA
2478 {
2479 .name = "fdatasync",
e8b0e958 2480 .lname = "Fdatasync",
5f9099ea 2481 .type = FIO_OPT_INT,
a609f12a 2482 .off1 = offsetof(struct thread_options, fdatasync_blocks),
5f9099ea
JA
2483 .help = "Issue fdatasync for writes every given number of blocks",
2484 .def = "0",
20eb06bd 2485 .interval = 1,
e8b0e958
JA
2486 .category = FIO_OPT_C_FILE,
2487 .group = FIO_OPT_G_INVALID,
5f9099ea 2488 },
1ef2b6be
JA
2489 {
2490 .name = "write_barrier",
e8b0e958 2491 .lname = "Write barrier",
1ef2b6be 2492 .type = FIO_OPT_INT,
a609f12a 2493 .off1 = offsetof(struct thread_options, barrier_blocks),
1ef2b6be
JA
2494 .help = "Make every Nth write a barrier write",
2495 .def = "0",
20eb06bd 2496 .interval = 1,
e8b0e958
JA
2497 .category = FIO_OPT_C_IO,
2498 .group = FIO_OPT_G_INVALID,
1ef2b6be 2499 },
67bf9823 2500#ifdef CONFIG_SYNC_FILE_RANGE
44f29692
JA
2501 {
2502 .name = "sync_file_range",
e8b0e958 2503 .lname = "Sync file range",
44f29692
JA
2504 .posval = {
2505 { .ival = "wait_before",
2506 .oval = SYNC_FILE_RANGE_WAIT_BEFORE,
2507 .help = "SYNC_FILE_RANGE_WAIT_BEFORE",
ebadc0ce 2508 .orval = 1,
44f29692
JA
2509 },
2510 { .ival = "write",
2511 .oval = SYNC_FILE_RANGE_WRITE,
2512 .help = "SYNC_FILE_RANGE_WRITE",
ebadc0ce 2513 .orval = 1,
44f29692
JA
2514 },
2515 {
2516 .ival = "wait_after",
2517 .oval = SYNC_FILE_RANGE_WAIT_AFTER,
2518 .help = "SYNC_FILE_RANGE_WAIT_AFTER",
ebadc0ce 2519 .orval = 1,
44f29692
JA
2520 },
2521 },
3843deb3 2522 .type = FIO_OPT_STR_MULTI,
44f29692 2523 .cb = str_sfr_cb,
a609f12a 2524 .off1 = offsetof(struct thread_options, sync_file_range),
44f29692 2525 .help = "Use sync_file_range()",
e8b0e958
JA
2526 .category = FIO_OPT_C_FILE,
2527 .group = FIO_OPT_G_INVALID,
44f29692 2528 },
a275c37a 2529#else
54d0a315 2530 {
a275c37a
JA
2531 .name = "sync_file_range",
2532 .lname = "Sync file range",
2533 .type = FIO_OPT_UNSUPPORTED,
2534 .help = "Your platform does not support sync_file_range",
2535 },
44f29692 2536#endif
214e1eca
JA
2537 {
2538 .name = "direct",
e8b0e958 2539 .lname = "Direct I/O",
214e1eca 2540 .type = FIO_OPT_BOOL,
a609f12a 2541 .off1 = offsetof(struct thread_options, odirect),
214e1eca
JA
2542 .help = "Use O_DIRECT IO (negates buffered)",
2543 .def = "0",
a01a1bc5 2544 .inverse = "buffered",
e8b0e958 2545 .category = FIO_OPT_C_IO,
3ceb458f 2546 .group = FIO_OPT_G_IO_TYPE,
214e1eca 2547 },
d01612f3
CM
2548 {
2549 .name = "atomic",
2550 .lname = "Atomic I/O",
2551 .type = FIO_OPT_BOOL,
a609f12a 2552 .off1 = offsetof(struct thread_options, oatomic),
d01612f3
CM
2553 .help = "Use Atomic IO with O_DIRECT (implies O_DIRECT)",
2554 .def = "0",
2555 .category = FIO_OPT_C_IO,
2556 .group = FIO_OPT_G_IO_TYPE,
2557 },
214e1eca
JA
2558 {
2559 .name = "buffered",
e8b0e958 2560 .lname = "Buffered I/O",
214e1eca 2561 .type = FIO_OPT_BOOL,
a609f12a 2562 .off1 = offsetof(struct thread_options, odirect),
214e1eca
JA
2563 .neg = 1,
2564 .help = "Use buffered IO (negates direct)",
2565 .def = "1",
a01a1bc5 2566 .inverse = "direct",
e8b0e958 2567 .category = FIO_OPT_C_IO,
3ceb458f 2568 .group = FIO_OPT_G_IO_TYPE,
214e1eca
JA
2569 },
2570 {
2571 .name = "overwrite",
e8b0e958 2572 .lname = "Overwrite",
214e1eca 2573 .type = FIO_OPT_BOOL,
a609f12a 2574 .off1 = offsetof(struct thread_options, overwrite),
214e1eca
JA
2575 .help = "When writing, set whether to overwrite current data",
2576 .def = "0",
e8b0e958
JA
2577 .category = FIO_OPT_C_FILE,
2578 .group = FIO_OPT_G_INVALID,
214e1eca
JA
2579 },
2580 {
2581 .name = "loops",
e8b0e958 2582 .lname = "Loops",
214e1eca 2583 .type = FIO_OPT_INT,
a609f12a 2584 .off1 = offsetof(struct thread_options, loops),
214e1eca
JA
2585 .help = "Number of times to run the job",
2586 .def = "1",
20eb06bd 2587 .interval = 1,
e8b0e958 2588 .category = FIO_OPT_C_GENERAL,
a1f6afec 2589 .group = FIO_OPT_G_RUNTIME,
214e1eca
JA
2590 },
2591 {
2592 .name = "numjobs",
e8b0e958 2593 .lname = "Number of jobs",
214e1eca 2594 .type = FIO_OPT_INT,
a609f12a 2595 .off1 = offsetof(struct thread_options, numjobs),
214e1eca
JA
2596 .help = "Duplicate this job this many times",
2597 .def = "1",
20eb06bd 2598 .interval = 1,
e8b0e958 2599 .category = FIO_OPT_C_GENERAL,
a1f6afec 2600 .group = FIO_OPT_G_RUNTIME,
214e1eca
JA
2601 },
2602 {
2603 .name = "startdelay",
e8b0e958 2604 .lname = "Start delay",
a5737c93 2605 .type = FIO_OPT_STR_VAL_TIME,
a609f12a
JA
2606 .off1 = offsetof(struct thread_options, start_delay),
2607 .off2 = offsetof(struct thread_options, start_delay_high),
214e1eca
JA
2608 .help = "Only start job when this period has passed",
2609 .def = "0",
0de5b26f 2610 .is_seconds = 1,
88038bc7 2611 .is_time = 1,
e8b0e958 2612 .category = FIO_OPT_C_GENERAL,
a1f6afec 2613 .group = FIO_OPT_G_RUNTIME,
214e1eca
JA
2614 },
2615 {
2616 .name = "runtime",
e8b0e958 2617 .lname = "Runtime",
214e1eca
JA
2618 .alias = "timeout",
2619 .type = FIO_OPT_STR_VAL_TIME,
a609f12a 2620 .off1 = offsetof(struct thread_options, timeout),
214e1eca
JA
2621 .help = "Stop workload when this amount of time has passed",
2622 .def = "0",
0de5b26f 2623 .is_seconds = 1,
88038bc7 2624 .is_time = 1,
e8b0e958 2625 .category = FIO_OPT_C_GENERAL,
a1f6afec 2626 .group = FIO_OPT_G_RUNTIME,
214e1eca 2627 },
cf4464ca
JA
2628 {
2629 .name = "time_based",
e8b0e958 2630 .lname = "Time based",
cf4464ca 2631 .type = FIO_OPT_STR_SET,
a609f12a 2632 .off1 = offsetof(struct thread_options, time_based),
cf4464ca 2633 .help = "Keep running until runtime/timeout is met",
e8b0e958 2634 .category = FIO_OPT_C_GENERAL,
a1f6afec 2635 .group = FIO_OPT_G_RUNTIME,
cf4464ca 2636 },
62167762
JC
2637 {
2638 .name = "verify_only",
2639 .lname = "Verify only",
2640 .type = FIO_OPT_STR_SET,
a609f12a 2641 .off1 = offsetof(struct thread_options, verify_only),
62167762
JC
2642 .help = "Verifies previously written data is still valid",
2643 .category = FIO_OPT_C_GENERAL,
2644 .group = FIO_OPT_G_RUNTIME,
2645 },
721938ae
JA
2646 {
2647 .name = "ramp_time",
e8b0e958 2648 .lname = "Ramp time",
721938ae 2649 .type = FIO_OPT_STR_VAL_TIME,
a609f12a 2650 .off1 = offsetof(struct thread_options, ramp_time),
721938ae 2651 .help = "Ramp up time before measuring performance",
0de5b26f 2652 .is_seconds = 1,
88038bc7 2653 .is_time = 1,
e8b0e958 2654 .category = FIO_OPT_C_GENERAL,
a1f6afec 2655 .group = FIO_OPT_G_RUNTIME,
721938ae 2656 },
c223da83
JA
2657 {
2658 .name = "clocksource",
e8b0e958 2659 .lname = "Clock source",
c223da83
JA
2660 .type = FIO_OPT_STR,
2661 .cb = fio_clock_source_cb,
a609f12a 2662 .off1 = offsetof(struct thread_options, clocksource),
c223da83 2663 .help = "What type of timing source to use",
e8b0e958 2664 .category = FIO_OPT_C_GENERAL,
10860056 2665 .group = FIO_OPT_G_CLOCK,
c223da83 2666 .posval = {
67bf9823 2667#ifdef CONFIG_GETTIMEOFDAY
c223da83
JA
2668 { .ival = "gettimeofday",
2669 .oval = CS_GTOD,
2670 .help = "Use gettimeofday(2) for timing",
2671 },
67bf9823
JA
2672#endif
2673#ifdef CONFIG_CLOCK_GETTIME
c223da83
JA
2674 { .ival = "clock_gettime",
2675 .oval = CS_CGETTIME,
2676 .help = "Use clock_gettime(2) for timing",
2677 },
67bf9823 2678#endif
c223da83
JA
2679#ifdef ARCH_HAVE_CPU_CLOCK
2680 { .ival = "cpu",
2681 .oval = CS_CPUCLOCK,
2682 .help = "Use CPU private clock",
2683 },
2684#endif
2685 },
2686 },
214e1eca
JA
2687 {
2688 .name = "mem",
d3aad8f2 2689 .alias = "iomem",
e8b0e958 2690 .lname = "I/O Memory",
214e1eca
JA
2691 .type = FIO_OPT_STR,
2692 .cb = str_mem_cb,
a609f12a 2693 .off1 = offsetof(struct thread_options, mem_type),
214e1eca
JA
2694 .help = "Backing type for IO buffers",
2695 .def = "malloc",
e8b0e958
JA
2696 .category = FIO_OPT_C_IO,
2697 .group = FIO_OPT_G_INVALID,
214e1eca
JA
2698 .posval = {
2699 { .ival = "malloc",
2700 .oval = MEM_MALLOC,
2701 .help = "Use malloc(3) for IO buffers",
2702 },
c8931876 2703#ifndef CONFIG_NO_SHM
37c8cdfe
JA
2704 { .ival = "shm",
2705 .oval = MEM_SHM,
2706 .help = "Use shared memory segments for IO buffers",
2707 },
214e1eca
JA
2708#ifdef FIO_HAVE_HUGETLB
2709 { .ival = "shmhuge",
2710 .oval = MEM_SHMHUGE,
2711 .help = "Like shm, but use huge pages",
2712 },
c8931876 2713#endif
b370e46a 2714#endif
37c8cdfe
JA
2715 { .ival = "mmap",
2716 .oval = MEM_MMAP,
2717 .help = "Use mmap(2) (file or anon) for IO buffers",
2718 },
217b0f1d
LG
2719 { .ival = "mmapshared",
2720 .oval = MEM_MMAPSHARED,
2721 .help = "Like mmap, but use the shared flag",
2722 },
214e1eca
JA
2723#ifdef FIO_HAVE_HUGETLB
2724 { .ival = "mmaphuge",
2725 .oval = MEM_MMAPHUGE,
2726 .help = "Like mmap, but use huge pages",
2727 },
03553853
YR
2728#endif
2729#ifdef CONFIG_CUDA
2730 { .ival = "cudamalloc",
2731 .oval = MEM_CUDA_MALLOC,
2732 .help = "Allocate GPU device memory for GPUDirect RDMA",
2733 },
214e1eca
JA
2734#endif
2735 },
2736 },
d529ee19
JA
2737 {
2738 .name = "iomem_align",
2739 .alias = "mem_align",
e8b0e958 2740 .lname = "I/O memory alignment",
d529ee19 2741 .type = FIO_OPT_INT,
a609f12a 2742 .off1 = offsetof(struct thread_options, mem_align),
d529ee19
JA
2743 .minval = 0,
2744 .help = "IO memory buffer offset alignment",
2745 .def = "0",
2746 .parent = "iomem",
d71c154c 2747 .hide = 1,
e8b0e958
JA
2748 .category = FIO_OPT_C_IO,
2749 .group = FIO_OPT_G_INVALID,
d529ee19 2750 },
214e1eca
JA
2751 {
2752 .name = "verify",
e8b0e958 2753 .lname = "Verify",
214e1eca 2754 .type = FIO_OPT_STR,
a609f12a 2755 .off1 = offsetof(struct thread_options, verify),
214e1eca
JA
2756 .help = "Verify data written",
2757 .def = "0",
e8b0e958 2758 .category = FIO_OPT_C_IO,
3ceb458f 2759 .group = FIO_OPT_G_VERIFY,
214e1eca
JA
2760 .posval = {
2761 { .ival = "0",
2762 .oval = VERIFY_NONE,
2763 .help = "Don't do IO verification",
2764 },
fcca4b58
JA
2765 { .ival = "md5",
2766 .oval = VERIFY_MD5,
2767 .help = "Use md5 checksums for verification",
2768 },
d77a7af3
JA
2769 { .ival = "crc64",
2770 .oval = VERIFY_CRC64,
2771 .help = "Use crc64 checksums for verification",
2772 },
214e1eca
JA
2773 { .ival = "crc32",
2774 .oval = VERIFY_CRC32,
2775 .help = "Use crc32 checksums for verification",
2776 },
af497e6a 2777 { .ival = "crc32c-intel",
e3aaafc4
JA
2778 .oval = VERIFY_CRC32C,
2779 .help = "Use crc32c checksums for verification (hw assisted, if available)",
af497e6a 2780 },
bac39e0e
JA
2781 { .ival = "crc32c",
2782 .oval = VERIFY_CRC32C,
e3aaafc4 2783 .help = "Use crc32c checksums for verification (hw assisted, if available)",
bac39e0e 2784 },
969f7ed3
JA
2785 { .ival = "crc16",
2786 .oval = VERIFY_CRC16,
2787 .help = "Use crc16 checksums for verification",
2788 },
1e154bdb
JA
2789 { .ival = "crc7",
2790 .oval = VERIFY_CRC7,
2791 .help = "Use crc7 checksums for verification",
2792 },
7c353ceb
JA
2793 { .ival = "sha1",
2794 .oval = VERIFY_SHA1,
2795 .help = "Use sha1 checksums for verification",
2796 },
cd14cc10
JA
2797 { .ival = "sha256",
2798 .oval = VERIFY_SHA256,
2799 .help = "Use sha256 checksums for verification",
2800 },
2801 { .ival = "sha512",
2802 .oval = VERIFY_SHA512,
2803 .help = "Use sha512 checksums for verification",
ae3a5acc
JA
2804 },
2805 { .ival = "sha3-224",
2806 .oval = VERIFY_SHA3_224,
2807 .help = "Use sha3-224 checksums for verification",
2808 },
2809 { .ival = "sha3-256",
2810 .oval = VERIFY_SHA3_256,
2811 .help = "Use sha3-256 checksums for verification",
2812 },
2813 { .ival = "sha3-384",
2814 .oval = VERIFY_SHA3_384,
2815 .help = "Use sha3-384 checksums for verification",
2816 },
2817 { .ival = "sha3-512",
2818 .oval = VERIFY_SHA3_512,
2819 .help = "Use sha3-512 checksums for verification",
cd14cc10 2820 },
844ea602
JA
2821 { .ival = "xxhash",
2822 .oval = VERIFY_XXHASH,
2823 .help = "Use xxhash checksums for verification",
2824 },
b638d82f
RP
2825 /* Meta information was included into verify_header,
2826 * 'meta' verification is implied by default. */
7437ee87 2827 { .ival = "meta",
b638d82f
RP
2828 .oval = VERIFY_HDR_ONLY,
2829 .help = "Use io information for verification. "
2830 "Now is implied by default, thus option is obsolete, "
2831 "don't use it",
7437ee87 2832 },
59245381
JA
2833 { .ival = "pattern",
2834 .oval = VERIFY_PATTERN_NO_HDR,
2835 .help = "Verify strict pattern",
2836 },
36690c9b
JA
2837 {
2838 .ival = "null",
2839 .oval = VERIFY_NULL,
2840 .help = "Pretend to verify",
2841 },
214e1eca
JA
2842 },
2843 },
005c565a
JA
2844 {
2845 .name = "do_verify",
e8b0e958 2846 .lname = "Perform verify step",
68e1f29a 2847 .type = FIO_OPT_BOOL,
a609f12a 2848 .off1 = offsetof(struct thread_options, do_verify),
005c565a
JA
2849 .help = "Run verification stage after write",
2850 .def = "1",
2851 .parent = "verify",
d71c154c 2852 .hide = 1,
e8b0e958
JA
2853 .category = FIO_OPT_C_IO,
2854 .group = FIO_OPT_G_VERIFY,
005c565a 2855 },
160b966d
JA
2856 {
2857 .name = "verifysort",
e8b0e958 2858 .lname = "Verify sort",
f31feaa2 2859 .type = FIO_OPT_SOFT_DEPRECATED,
e8b0e958
JA
2860 .category = FIO_OPT_C_IO,
2861 .group = FIO_OPT_G_VERIFY,
160b966d 2862 },
1ae83d45
JA
2863 {
2864 .name = "verifysort_nr",
cce2fdfe 2865 .lname = "Verify Sort Nr",
f31feaa2 2866 .type = FIO_OPT_SOFT_DEPRECATED,
836fcc0f
JA
2867 .category = FIO_OPT_C_IO,
2868 .group = FIO_OPT_G_VERIFY,
1ae83d45 2869 },
3f9f4e26 2870 {
a59e170d 2871 .name = "verify_interval",
e8b0e958 2872 .lname = "Verify interval",
e01b22b8 2873 .type = FIO_OPT_INT,
a609f12a 2874 .off1 = offsetof(struct thread_options, verify_interval),
819a9680 2875 .minval = 2 * sizeof(struct verify_header),
a59e170d 2876 .help = "Store verify buffer header every N bytes",
afdf9352 2877 .parent = "verify",
d71c154c 2878 .hide = 1,
20eb06bd 2879 .interval = 2 * sizeof(struct verify_header),
e8b0e958
JA
2880 .category = FIO_OPT_C_IO,
2881 .group = FIO_OPT_G_VERIFY,
3f9f4e26 2882 },
546a9142 2883 {
a59e170d 2884 .name = "verify_offset",
e8b0e958 2885 .lname = "Verify offset",
e01b22b8 2886 .type = FIO_OPT_INT,
a59e170d 2887 .help = "Offset verify header location by N bytes",
a609f12a 2888 .off1 = offsetof(struct thread_options, verify_offset),
203160d5 2889 .minval = sizeof(struct verify_header),
afdf9352 2890 .parent = "verify",
d71c154c 2891 .hide = 1,
e8b0e958
JA
2892 .category = FIO_OPT_C_IO,
2893 .group = FIO_OPT_G_VERIFY,
546a9142 2894 },
e28218f3
SL
2895 {
2896 .name = "verify_pattern",
e8b0e958 2897 .lname = "Verify pattern",
0e92f873 2898 .type = FIO_OPT_STR,
e28218f3 2899 .cb = str_verify_pattern_cb,
a609f12a 2900 .off1 = offsetof(struct thread_options, verify_pattern),
e28218f3
SL
2901 .help = "Fill pattern for IO buffers",
2902 .parent = "verify",
d71c154c 2903 .hide = 1,
e8b0e958
JA
2904 .category = FIO_OPT_C_IO,
2905 .group = FIO_OPT_G_VERIFY,
e28218f3 2906 },
a12a3b4d
JA
2907 {
2908 .name = "verify_fatal",
e8b0e958 2909 .lname = "Verify fatal",
68e1f29a 2910 .type = FIO_OPT_BOOL,
a609f12a 2911 .off1 = offsetof(struct thread_options, verify_fatal),
a12a3b4d
JA
2912 .def = "0",
2913 .help = "Exit on a single verify failure, don't continue",
2914 .parent = "verify",
d71c154c 2915 .hide = 1,
e8b0e958
JA
2916 .category = FIO_OPT_C_IO,
2917 .group = FIO_OPT_G_VERIFY,
a12a3b4d 2918 },
b463e936
JA
2919 {
2920 .name = "verify_dump",
e8b0e958 2921 .lname = "Verify dump",
b463e936 2922 .type = FIO_OPT_BOOL,
a609f12a 2923 .off1 = offsetof(struct thread_options, verify_dump),
ef71e317 2924 .def = "0",
b463e936
JA
2925 .help = "Dump contents of good and bad blocks on failure",
2926 .parent = "verify",
d71c154c 2927 .hide = 1,
e8b0e958
JA
2928 .category = FIO_OPT_C_IO,
2929 .group = FIO_OPT_G_VERIFY,
b463e936 2930 },
e8462bd8
JA
2931 {
2932 .name = "verify_async",
e8b0e958 2933 .lname = "Verify asynchronously",
e8462bd8 2934 .type = FIO_OPT_INT,
a609f12a 2935 .off1 = offsetof(struct thread_options, verify_async),
e8462bd8
JA
2936 .def = "0",
2937 .help = "Number of async verifier threads to use",
2938 .parent = "verify",
d71c154c 2939 .hide = 1,
e8b0e958
JA
2940 .category = FIO_OPT_C_IO,
2941 .group = FIO_OPT_G_VERIFY,
e8462bd8 2942 },
9e144189
JA
2943 {
2944 .name = "verify_backlog",
e8b0e958 2945 .lname = "Verify backlog",
9e144189 2946 .type = FIO_OPT_STR_VAL,
a609f12a 2947 .off1 = offsetof(struct thread_options, verify_backlog),
9e144189
JA
2948 .help = "Verify after this number of blocks are written",
2949 .parent = "verify",
d71c154c 2950 .hide = 1,
e8b0e958
JA
2951 .category = FIO_OPT_C_IO,
2952 .group = FIO_OPT_G_VERIFY,
9e144189
JA
2953 },
2954 {
2955 .name = "verify_backlog_batch",
e8b0e958 2956 .lname = "Verify backlog batch",
9e144189 2957 .type = FIO_OPT_INT,
a609f12a 2958 .off1 = offsetof(struct thread_options, verify_batch),
9e144189 2959 .help = "Verify this number of IO blocks",
0d29de83 2960 .parent = "verify",
d71c154c 2961 .hide = 1,
e8b0e958
JA
2962 .category = FIO_OPT_C_IO,
2963 .group = FIO_OPT_G_VERIFY,
9e144189 2964 },
e8462bd8
JA
2965#ifdef FIO_HAVE_CPU_AFFINITY
2966 {
2967 .name = "verify_async_cpus",
e8b0e958 2968 .lname = "Async verify CPUs",
e8462bd8
JA
2969 .type = FIO_OPT_STR,
2970 .cb = str_verify_cpus_allowed_cb,
a609f12a 2971 .off1 = offsetof(struct thread_options, verify_cpumask),
e8462bd8
JA
2972 .help = "Set CPUs allowed for async verify threads",
2973 .parent = "verify_async",
d71c154c 2974 .hide = 1,
e8b0e958
JA
2975 .category = FIO_OPT_C_IO,
2976 .group = FIO_OPT_G_VERIFY,
e8462bd8 2977 },
a275c37a
JA
2978#else
2979 {
2980 .name = "verify_async_cpus",
2981 .lname = "Async verify CPUs",
2982 .type = FIO_OPT_UNSUPPORTED,
54d0a315 2983 .help = "Your platform does not support CPU affinities",
a275c37a 2984 },
0d29de83 2985#endif
51aa2da8
JA
2986 {
2987 .name = "experimental_verify",
cce2fdfe 2988 .lname = "Experimental Verify",
a609f12a 2989 .off1 = offsetof(struct thread_options, experimental_verify),
51aa2da8 2990 .type = FIO_OPT_BOOL,
b31eaac9 2991 .help = "Enable experimental verification",
ca09be4b
JA
2992 .parent = "verify",
2993 .category = FIO_OPT_C_IO,
2994 .group = FIO_OPT_G_VERIFY,
2995 },
2996 {
2997 .name = "verify_state_load",
2998 .lname = "Load verify state",
a609f12a 2999 .off1 = offsetof(struct thread_options, verify_state),
ca09be4b
JA
3000 .type = FIO_OPT_BOOL,
3001 .help = "Load verify termination state",
3002 .parent = "verify",
3003 .category = FIO_OPT_C_IO,
3004 .group = FIO_OPT_G_VERIFY,
3005 },
3006 {
3007 .name = "verify_state_save",
3008 .lname = "Save verify state",
a609f12a 3009 .off1 = offsetof(struct thread_options, verify_state_save),
ca09be4b
JA
3010 .type = FIO_OPT_BOOL,
3011 .def = "1",
3012 .help = "Save verify state on termination",
3013 .parent = "verify",
836fcc0f
JA
3014 .category = FIO_OPT_C_IO,
3015 .group = FIO_OPT_G_VERIFY,
51aa2da8 3016 },
0d29de83
JA
3017#ifdef FIO_HAVE_TRIM
3018 {
3019 .name = "trim_percentage",
e8b0e958 3020 .lname = "Trim percentage",
0d29de83 3021 .type = FIO_OPT_INT,
a609f12a 3022 .off1 = offsetof(struct thread_options, trim_percentage),
20eb06bd 3023 .minval = 0,
0d29de83 3024 .maxval = 100,
169c098d 3025 .help = "Number of verify blocks to trim (i.e., discard)",
0d29de83
JA
3026 .parent = "verify",
3027 .def = "0",
20eb06bd 3028 .interval = 1,
d71c154c 3029 .hide = 1,
e8b0e958
JA
3030 .category = FIO_OPT_C_IO,
3031 .group = FIO_OPT_G_TRIM,
0d29de83
JA
3032 },
3033 {
3034 .name = "trim_verify_zero",
e8b0e958 3035 .lname = "Verify trim zero",
20eb06bd 3036 .type = FIO_OPT_BOOL,
169c098d 3037 .help = "Verify that trimmed (i.e., discarded) blocks are returned as zeroes",
a609f12a 3038 .off1 = offsetof(struct thread_options, trim_zero),
0d29de83 3039 .parent = "trim_percentage",
d71c154c 3040 .hide = 1,
0d29de83 3041 .def = "1",
e8b0e958
JA
3042 .category = FIO_OPT_C_IO,
3043 .group = FIO_OPT_G_TRIM,
0d29de83
JA
3044 },
3045 {
3046 .name = "trim_backlog",
e8b0e958 3047 .lname = "Trim backlog",
0d29de83 3048 .type = FIO_OPT_STR_VAL,
a609f12a 3049 .off1 = offsetof(struct thread_options, trim_backlog),
0d29de83
JA
3050 .help = "Trim after this number of blocks are written",
3051 .parent = "trim_percentage",
d71c154c 3052 .hide = 1,
20eb06bd 3053 .interval = 1,
e8b0e958
JA
3054 .category = FIO_OPT_C_IO,
3055 .group = FIO_OPT_G_TRIM,
0d29de83
JA
3056 },
3057 {
3058 .name = "trim_backlog_batch",
e8b0e958 3059 .lname = "Trim backlog batch",
0d29de83 3060 .type = FIO_OPT_INT,
a609f12a 3061 .off1 = offsetof(struct thread_options, trim_batch),
0d29de83
JA
3062 .help = "Trim this number of IO blocks",
3063 .parent = "trim_percentage",
d71c154c 3064 .hide = 1,
20eb06bd 3065 .interval = 1,
e8b0e958
JA
3066 .category = FIO_OPT_C_IO,
3067 .group = FIO_OPT_G_TRIM,
0d29de83 3068 },
a275c37a
JA
3069#else
3070 {
3071 .name = "trim_percentage",
3072 .lname = "Trim percentage",
3073 .type = FIO_OPT_UNSUPPORTED,
3074 .help = "Fio does not support TRIM on your platform",
3075 },
3076 {
3077 .name = "trim_verify_zero",
3078 .lname = "Verify trim zero",
3079 .type = FIO_OPT_UNSUPPORTED,
3080 .help = "Fio does not support TRIM on your platform",
3081 },
3082 {
3083 .name = "trim_backlog",
3084 .lname = "Trim backlog",
3085 .type = FIO_OPT_UNSUPPORTED,
3086 .help = "Fio does not support TRIM on your platform",
3087 },
3088 {
3089 .name = "trim_backlog_batch",
3090 .lname = "Trim backlog batch",
3091 .type = FIO_OPT_UNSUPPORTED,
3092 .help = "Fio does not support TRIM on your platform",
3093 },
e8462bd8 3094#endif
214e1eca
JA
3095 {
3096 .name = "write_iolog",
e8b0e958 3097 .lname = "Write I/O log",
214e1eca 3098 .type = FIO_OPT_STR_STORE,
a609f12a 3099 .off1 = offsetof(struct thread_options, write_iolog_file),
214e1eca 3100 .help = "Store IO pattern to file",
e8b0e958
JA
3101 .category = FIO_OPT_C_IO,
3102 .group = FIO_OPT_G_IOLOG,
214e1eca
JA
3103 },
3104 {
3105 .name = "read_iolog",
e8b0e958 3106 .lname = "Read I/O log",
214e1eca 3107 .type = FIO_OPT_STR_STORE,
a609f12a 3108 .off1 = offsetof(struct thread_options, read_iolog_file),
214e1eca 3109 .help = "Playback IO pattern from file",
e8b0e958
JA
3110 .category = FIO_OPT_C_IO,
3111 .group = FIO_OPT_G_IOLOG,
214e1eca 3112 },
98e7161c
AK
3113 {
3114 .name = "read_iolog_chunked",
3115 .lname = "Read I/O log in parts",
3116 .type = FIO_OPT_BOOL,
3117 .off1 = offsetof(struct thread_options, read_iolog_chunked),
3118 .def = "0",
3119 .parent = "read_iolog",
3120 .help = "Parse IO pattern in chunks",
3121 .category = FIO_OPT_C_IO,
3122 .group = FIO_OPT_G_IOLOG,
3123 },
64bbb865
DN
3124 {
3125 .name = "replay_no_stall",
e8b0e958 3126 .lname = "Don't stall on replay",
20eb06bd 3127 .type = FIO_OPT_BOOL,
a609f12a 3128 .off1 = offsetof(struct thread_options, no_stall),
64bbb865 3129 .def = "0",
87e7a972 3130 .parent = "read_iolog",
d71c154c 3131 .hide = 1,
64bbb865 3132 .help = "Playback IO pattern file as fast as possible without stalls",
e8b0e958
JA
3133 .category = FIO_OPT_C_IO,
3134 .group = FIO_OPT_G_IOLOG,
64bbb865 3135 },
d1c46c04
DN
3136 {
3137 .name = "replay_redirect",
e8b0e958 3138 .lname = "Redirect device for replay",
d1c46c04 3139 .type = FIO_OPT_STR_STORE,
a609f12a 3140 .off1 = offsetof(struct thread_options, replay_redirect),
d1c46c04 3141 .parent = "read_iolog",
d71c154c 3142 .hide = 1,
d1c46c04 3143 .help = "Replay all I/O onto this device, regardless of trace device",
e8b0e958
JA
3144 .category = FIO_OPT_C_IO,
3145 .group = FIO_OPT_G_IOLOG,
d1c46c04 3146 },
0c63576e
JA
3147 {
3148 .name = "replay_scale",
3149 .lname = "Replace offset scale factor",
3150 .type = FIO_OPT_INT,
a609f12a 3151 .off1 = offsetof(struct thread_options, replay_scale),
0c63576e
JA
3152 .parent = "read_iolog",
3153 .def = "1",
3154 .help = "Align offsets to this blocksize",
3155 .category = FIO_OPT_C_IO,
3156 .group = FIO_OPT_G_IOLOG,
3157 },
3158 {
3159 .name = "replay_align",
3160 .lname = "Replace alignment",
3161 .type = FIO_OPT_INT,
a609f12a 3162 .off1 = offsetof(struct thread_options, replay_align),
0c63576e
JA
3163 .parent = "read_iolog",
3164 .help = "Scale offset down by this factor",
3165 .category = FIO_OPT_C_IO,
3166 .group = FIO_OPT_G_IOLOG,
3167 .pow2 = 1,
3168 },
6dd7fa77
JA
3169 {
3170 .name = "replay_time_scale",
3171 .lname = "Replay Time Scale",
3172 .type = FIO_OPT_INT,
3173 .off1 = offsetof(struct thread_options, replay_time_scale),
3174 .def = "100",
3175 .minval = 1,
3176 .parent = "read_iolog",
3177 .hide = 1,
3178 .help = "Scale time for replay events",
3179 .category = FIO_OPT_C_IO,
3180 .group = FIO_OPT_G_IOLOG,
3181 },
d7235efb
JA
3182 {
3183 .name = "replay_skip",
3184 .lname = "Replay Skip",
3185 .type = FIO_OPT_STR,
3186 .cb = str_replay_skip_cb,
3187 .off1 = offsetof(struct thread_options, replay_skip),
3188 .parent = "read_iolog",
3189 .help = "Skip certain IO types (read,write,trim,flush)",
3190 .category = FIO_OPT_C_IO,
3191 .group = FIO_OPT_G_IOLOG,
3192 },
b9921d1a
DZ
3193 {
3194 .name = "merge_blktrace_file",
3195 .lname = "Merged blktrace output filename",
3196 .type = FIO_OPT_STR_STORE,
3197 .off1 = offsetof(struct thread_options, merge_blktrace_file),
3198 .help = "Merged blktrace output filename",
3199 .category = FIO_OPT_C_IO,
3200 .group = FIO_OPT_G_IOLOG,
3201 },
87a48ada
DZ
3202 {
3203 .name = "merge_blktrace_scalars",
3204 .lname = "Percentage to scale each trace",
3205 .type = FIO_OPT_FLOAT_LIST,
3206 .off1 = offsetof(struct thread_options, merge_blktrace_scalars),
3207 .maxlen = FIO_IO_U_LIST_MAX_LEN,
3208 .help = "Percentage to scale each trace",
3209 .category = FIO_OPT_C_IO,
3210 .group = FIO_OPT_G_IOLOG,
3211 },
55bfd8c8
DZ
3212 {
3213 .name = "merge_blktrace_iters",
3214 .lname = "Number of iterations to run per trace",
3215 .type = FIO_OPT_FLOAT_LIST,
3216 .off1 = offsetof(struct thread_options, merge_blktrace_iters),
3217 .maxlen = FIO_IO_U_LIST_MAX_LEN,
3218 .help = "Number of iterations to run per trace",
3219 .category = FIO_OPT_C_IO,
3220 .group = FIO_OPT_G_IOLOG,
3221 },
214e1eca
JA
3222 {
3223 .name = "exec_prerun",
e8b0e958 3224 .lname = "Pre-execute runnable",
214e1eca 3225 .type = FIO_OPT_STR_STORE,
a609f12a 3226 .off1 = offsetof(struct thread_options, exec_prerun),
214e1eca 3227 .help = "Execute this file prior to running job",
e8b0e958
JA
3228 .category = FIO_OPT_C_GENERAL,
3229 .group = FIO_OPT_G_INVALID,
214e1eca
JA
3230 },
3231 {
3232 .name = "exec_postrun",
e8b0e958 3233 .lname = "Post-execute runnable",
214e1eca 3234 .type = FIO_OPT_STR_STORE,
a609f12a 3235 .off1 = offsetof(struct thread_options, exec_postrun),
214e1eca 3236 .help = "Execute this file after running job",
e8b0e958
JA
3237 .category = FIO_OPT_C_GENERAL,
3238 .group = FIO_OPT_G_INVALID,
214e1eca
JA
3239 },
3240#ifdef FIO_HAVE_IOSCHED_SWITCH
3241 {
3242 .name = "ioscheduler",
e8b0e958 3243 .lname = "I/O scheduler",
214e1eca 3244 .type = FIO_OPT_STR_STORE,
a609f12a 3245 .off1 = offsetof(struct thread_options, ioscheduler),
214e1eca 3246 .help = "Use this IO scheduler on the backing device",
e8b0e958
JA
3247 .category = FIO_OPT_C_FILE,
3248 .group = FIO_OPT_G_INVALID,
214e1eca 3249 },
a275c37a
JA
3250#else
3251 {
3252 .name = "ioscheduler",
3253 .lname = "I/O scheduler",
3254 .type = FIO_OPT_UNSUPPORTED,
3255 .help = "Your platform does not support IO scheduler switching",
3256 },
214e1eca 3257#endif
7b865a2f
BVA
3258 {
3259 .name = "zonemode",
3260 .lname = "Zone mode",
3261 .help = "Mode for the zonesize, zonerange and zoneskip parameters",
3262 .type = FIO_OPT_STR,
3263 .off1 = offsetof(struct thread_options, zone_mode),
3264 .def = "none",
3265 .category = FIO_OPT_C_IO,
3266 .group = FIO_OPT_G_ZONE,
3267 .posval = {
3268 { .ival = "none",
3269 .oval = ZONE_MODE_NONE,
3270 .help = "no zoning",
3271 },
3272 { .ival = "strided",
3273 .oval = ZONE_MODE_STRIDED,
3274 .help = "strided mode - random I/O is restricted to a single zone",
3275 },
3276 { .ival = "zbd",
3277 .oval = ZONE_MODE_ZBD,
3278 .help = "zoned block device mode - random I/O selects one of multiple zones randomly",
3279 },
3280 },
3281 },
214e1eca
JA
3282 {
3283 .name = "zonesize",
e8b0e958 3284 .lname = "Zone size",
214e1eca 3285 .type = FIO_OPT_STR_VAL,
a609f12a 3286 .off1 = offsetof(struct thread_options, zone_size),
ed335855
SN
3287 .help = "Amount of data to read per zone",
3288 .def = "0",
20eb06bd 3289 .interval = 1024 * 1024,
e8b0e958
JA
3290 .category = FIO_OPT_C_IO,
3291 .group = FIO_OPT_G_ZONE,
ed335855
SN
3292 },
3293 {
3294 .name = "zonerange",
e8b0e958 3295 .lname = "Zone range",
ed335855 3296 .type = FIO_OPT_STR_VAL,
a609f12a 3297 .off1 = offsetof(struct thread_options, zone_range),
214e1eca
JA
3298 .help = "Give size of an IO zone",
3299 .def = "0",
20eb06bd 3300 .interval = 1024 * 1024,
e8b0e958
JA
3301 .category = FIO_OPT_C_IO,
3302 .group = FIO_OPT_G_ZONE,
214e1eca
JA
3303 },
3304 {
3305 .name = "zoneskip",
e8b0e958 3306 .lname = "Zone skip",
214e1eca 3307 .type = FIO_OPT_STR_VAL,
a609f12a 3308 .off1 = offsetof(struct thread_options, zone_skip),
214e1eca
JA
3309 .help = "Space between IO zones",
3310 .def = "0",
20eb06bd 3311 .interval = 1024 * 1024,
e8b0e958
JA
3312 .category = FIO_OPT_C_IO,
3313 .group = FIO_OPT_G_ZONE,
214e1eca 3314 },
bfbdd35b
BVA
3315 {
3316 .name = "read_beyond_wp",
3317 .lname = "Allow reads beyond the zone write pointer",
3318 .type = FIO_OPT_BOOL,
3319 .off1 = offsetof(struct thread_options, read_beyond_wp),
3320 .help = "Allow reads beyond the zone write pointer",
3321 .def = "0",
3322 .category = FIO_OPT_C_IO,
3323 .group = FIO_OPT_G_INVALID,
3324 },
59b07544
BVA
3325 {
3326 .name = "max_open_zones",
3327 .lname = "Maximum number of open zones",
3328 .type = FIO_OPT_INT,
3329 .off1 = offsetof(struct thread_options, max_open_zones),
3330 .maxval = FIO_MAX_OPEN_ZBD_ZONES,
3331 .help = "Limit random writes to SMR drives to the specified"
3332 " number of sequential zones",
3333 .def = "0",
3334 .category = FIO_OPT_C_IO,
3335 .group = FIO_OPT_G_INVALID,
3336 },
a7c2b6fc
BVA
3337 {
3338 .name = "zone_reset_threshold",
3339 .lname = "Zone reset threshold",
3340 .help = "Zoned block device reset threshold",
3341 .type = FIO_OPT_FLOAT_LIST,
3342 .maxlen = 1,
3343 .off1 = offsetof(struct thread_options, zrt),
3344 .minfp = 0,
3345 .maxfp = 1,
3346 .category = FIO_OPT_C_IO,
3347 .group = FIO_OPT_G_ZONE,
3348 },
3349 {
3350 .name = "zone_reset_frequency",
3351 .lname = "Zone reset frequency",
3352 .help = "Zoned block device zone reset frequency in HZ",
3353 .type = FIO_OPT_FLOAT_LIST,
3354 .maxlen = 1,
3355 .off1 = offsetof(struct thread_options, zrf),
3356 .minfp = 0,
3357 .maxfp = 1,
3358 .category = FIO_OPT_C_IO,
3359 .group = FIO_OPT_G_ZONE,
3360 },
214e1eca
JA
3361 {
3362 .name = "lockmem",
e8b0e958 3363 .lname = "Lock memory",
214e1eca 3364 .type = FIO_OPT_STR_VAL,
a609f12a 3365 .off1 = offsetof(struct thread_options, lockmem),
81c6b6cd 3366 .help = "Lock down this amount of memory (per worker)",
214e1eca 3367 .def = "0",
20eb06bd 3368 .interval = 1024 * 1024,
e8b0e958
JA
3369 .category = FIO_OPT_C_GENERAL,
3370 .group = FIO_OPT_G_INVALID,
214e1eca 3371 },
214e1eca
JA
3372 {
3373 .name = "rwmixread",
e8b0e958 3374 .lname = "Read/write mix read",
214e1eca 3375 .type = FIO_OPT_INT,
cb499fc4 3376 .cb = str_rwmix_read_cb,
a609f12a 3377 .off1 = offsetof(struct thread_options, rwmix[DDIR_READ]),
214e1eca
JA
3378 .maxval = 100,
3379 .help = "Percentage of mixed workload that is reads",
3380 .def = "50",
20eb06bd 3381 .interval = 5,
90265353 3382 .inverse = "rwmixwrite",
e8b0e958
JA
3383 .category = FIO_OPT_C_IO,
3384 .group = FIO_OPT_G_RWMIX,
214e1eca
JA
3385 },
3386 {
3387 .name = "rwmixwrite",
e8b0e958 3388 .lname = "Read/write mix write",
214e1eca 3389 .type = FIO_OPT_INT,
cb499fc4 3390 .cb = str_rwmix_write_cb,
a609f12a 3391 .off1 = offsetof(struct thread_options, rwmix[DDIR_WRITE]),
214e1eca
JA
3392 .maxval = 100,
3393 .help = "Percentage of mixed workload that is writes",
3394 .def = "50",
20eb06bd 3395 .interval = 5,
90265353 3396 .inverse = "rwmixread",
e8b0e958
JA
3397 .category = FIO_OPT_C_IO,
3398 .group = FIO_OPT_G_RWMIX,
214e1eca 3399 },
afdf9352
JA
3400 {
3401 .name = "rwmixcycle",
e8b0e958 3402 .lname = "Read/write mix cycle",
15ca150e 3403 .type = FIO_OPT_DEPRECATED,
e8b0e958
JA
3404 .category = FIO_OPT_C_IO,
3405 .group = FIO_OPT_G_RWMIX,
afdf9352 3406 },
214e1eca
JA
3407 {
3408 .name = "nice",
e8b0e958 3409 .lname = "Nice",
214e1eca 3410 .type = FIO_OPT_INT,
a609f12a 3411 .off1 = offsetof(struct thread_options, nice),
214e1eca 3412 .help = "Set job CPU nice value",
11fd6aa8
RC
3413 .minval = -20,
3414 .maxval = 19,
214e1eca 3415 .def = "0",
20eb06bd 3416 .interval = 1,
e8b0e958 3417 .category = FIO_OPT_C_GENERAL,
10860056 3418 .group = FIO_OPT_G_CRED,
214e1eca
JA
3419 },
3420#ifdef FIO_HAVE_IOPRIO
3421 {
3422 .name = "prio",
e8b0e958 3423 .lname = "I/O nice priority",
214e1eca 3424 .type = FIO_OPT_INT,
a609f12a 3425 .off1 = offsetof(struct thread_options, ioprio),
214e1eca 3426 .help = "Set job IO priority value",
1767bd34
TK
3427 .minval = IOPRIO_MIN_PRIO,
3428 .maxval = IOPRIO_MAX_PRIO,
20eb06bd 3429 .interval = 1,
e8b0e958 3430 .category = FIO_OPT_C_GENERAL,
10860056 3431 .group = FIO_OPT_G_CRED,
214e1eca 3432 },
32ef447a
TK
3433#else
3434 {
3435 .name = "prio",
3436 .lname = "I/O nice priority",
3437 .type = FIO_OPT_UNSUPPORTED,
3438 .help = "Your platform does not support IO priorities",
3439 },
3440#endif
3441#ifdef FIO_HAVE_IOPRIO_CLASS
3442#ifndef FIO_HAVE_IOPRIO
3443#error "FIO_HAVE_IOPRIO_CLASS requires FIO_HAVE_IOPRIO"
3444#endif
214e1eca
JA
3445 {
3446 .name = "prioclass",
e8b0e958 3447 .lname = "I/O nice priority class",
214e1eca 3448 .type = FIO_OPT_INT,
a609f12a 3449 .off1 = offsetof(struct thread_options, ioprio_class),
214e1eca 3450 .help = "Set job IO priority class",
1767bd34
TK
3451 .minval = IOPRIO_MIN_PRIO_CLASS,
3452 .maxval = IOPRIO_MAX_PRIO_CLASS,
20eb06bd 3453 .interval = 1,
e8b0e958 3454 .category = FIO_OPT_C_GENERAL,
10860056 3455 .group = FIO_OPT_G_CRED,
214e1eca 3456 },
a275c37a 3457#else
a275c37a
JA
3458 {
3459 .name = "prioclass",
3460 .lname = "I/O nice priority class",
3461 .type = FIO_OPT_UNSUPPORTED,
32ef447a 3462 .help = "Your platform does not support IO priority classes",
a275c37a 3463 },
214e1eca
JA
3464#endif
3465 {
3466 .name = "thinktime",
e8b0e958 3467 .lname = "Thinktime",
214e1eca 3468 .type = FIO_OPT_INT,
a609f12a 3469 .off1 = offsetof(struct thread_options, thinktime),
214e1eca
JA
3470 .help = "Idle time between IO buffers (usec)",
3471 .def = "0",
88038bc7 3472 .is_time = 1,
e8b0e958 3473 .category = FIO_OPT_C_IO,
3ceb458f 3474 .group = FIO_OPT_G_THINKTIME,
214e1eca
JA
3475 },
3476 {
3477 .name = "thinktime_spin",
e8b0e958 3478 .lname = "Thinktime spin",
214e1eca 3479 .type = FIO_OPT_INT,
a609f12a 3480 .off1 = offsetof(struct thread_options, thinktime_spin),
214e1eca
JA
3481 .help = "Start think time by spinning this amount (usec)",
3482 .def = "0",
88038bc7 3483 .is_time = 1,
afdf9352 3484 .parent = "thinktime",
d71c154c