Kill fusion atomic write engine
[fio.git] / options.c
1 #include <stdio.h>
2 #include <stdlib.h>
3 #include <unistd.h>
4 #include <ctype.h>
5 #include <string.h>
6 #include <assert.h>
7 #include <sys/stat.h>
8 #include <netinet/in.h>
9
10 #include "fio.h"
11 #include "verify.h"
12 #include "parse.h"
13 #include "lib/pattern.h"
14 #include "options.h"
15 #include "optgroup.h"
16
17 char client_sockaddr_str[INET6_ADDRSTRLEN] = { 0 };
18
19 #define cb_data_to_td(data)     container_of(data, struct thread_data, o)
20
21 static struct pattern_fmt_desc fmt_desc[] = {
22         {
23                 .fmt   = "%o",
24                 .len   = FIELD_SIZE(struct io_u *, offset),
25                 .paste = paste_blockoff
26         }
27 };
28
29 /*
30  * Check if mmap/mmaphuge has a :/foo/bar/file at the end. If so, return that.
31  */
32 static 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
45 static int bs_cmp(const void *p1, const void *p2)
46 {
47         const struct bssplit *bsp1 = p1;
48         const struct bssplit *bsp2 = p2;
49
50         return (int) bsp1->perc - (int) bsp2->perc;
51 }
52
53 struct split {
54         unsigned int nr;
55         unsigned long long val1[ZONESPLIT_MAX];
56         unsigned long long val2[ZONESPLIT_MAX];
57 };
58
59 static int split_parse_ddir(struct thread_options *o, struct split *split,
60                             char *str, bool absolute, unsigned int max_splits)
61 {
62         unsigned long long perc;
63         unsigned int i;
64         long long val;
65         char *fname;
66
67         split->nr = 0;
68
69         i = 0;
70         while ((fname = strsep(&str, ":")) != NULL) {
71                 char *perc_str;
72
73                 if (!strlen(fname))
74                         break;
75
76                 perc_str = strstr(fname, "/");
77                 if (perc_str) {
78                         *perc_str = '\0';
79                         perc_str++;
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
97                                 perc = -1U;
98                 }
99
100                 if (str_to_decimal(fname, &val, 1, o, 0, 0)) {
101                         log_err("fio: split conversion failed\n");
102                         return 1;
103                 }
104
105                 split->val1[i] = val;
106                 split->val2[i] = perc;
107                 i++;
108                 if (i == max_splits) {
109                         log_err("fio: hit max of %d split entries\n", i);
110                         break;
111                 }
112         }
113
114         split->nr = i;
115         return 0;
116 }
117
118 static int bssplit_ddir(struct thread_options *o, enum fio_ddir ddir, char *str,
119                         bool data)
120 {
121         unsigned int i, perc, perc_missing;
122         unsigned long long max_bs, min_bs;
123         struct split split;
124
125         memset(&split, 0, sizeof(split));
126
127         if (split_parse_ddir(o, &split, str, data, BSSPLIT_MAX))
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         }
145
146         /*
147          * Now check if the percentages add up, and how much is missing
148          */
149         perc = perc_missing = 0;
150         for (i = 0; i < o->bssplit_nr[ddir]; i++) {
151                 struct bssplit *bsp = &o->bssplit[ddir][i];
152
153                 if (bsp->perc == -1U)
154                         perc_missing++;
155                 else
156                         perc += bsp->perc;
157         }
158
159         if (perc > 100 && perc_missing > 1) {
160                 log_err("fio: bssplit percentages add to more than 100%%\n");
161                 free(o->bssplit[ddir]);
162                 o->bssplit[ddir] = NULL;
163                 return 1;
164         }
165
166         /*
167          * If values didn't have a percentage set, divide the remains between
168          * them.
169          */
170         if (perc_missing) {
171                 if (perc_missing == 1 && o->bssplit_nr[ddir] == 1)
172                         perc = 100;
173                 for (i = 0; i < o->bssplit_nr[ddir]; i++) {
174                         struct bssplit *bsp = &o->bssplit[ddir][i];
175
176                         if (bsp->perc == -1U)
177                                 bsp->perc = (100 - perc) / perc_missing;
178                 }
179         }
180
181         o->min_bs[ddir] = min_bs;
182         o->max_bs[ddir] = max_bs;
183
184         /*
185          * now sort based on percentages, for ease of lookup
186          */
187         qsort(o->bssplit[ddir], o->bssplit_nr[ddir], sizeof(struct bssplit), bs_cmp);
188         return 0;
189 }
190
191 typedef int (split_parse_fn)(struct thread_options *, enum fio_ddir, char *, bool);
192
193 static int str_split_parse(struct thread_data *td, char *str,
194                            split_parse_fn *fn, bool data)
195 {
196         char *odir, *ddir;
197         int ret = 0;
198
199         odir = strchr(str, ',');
200         if (odir) {
201                 ddir = strchr(odir + 1, ',');
202                 if (ddir) {
203                         ret = fn(&td->o, DDIR_TRIM, ddir + 1, data);
204                         if (!ret)
205                                 *ddir = '\0';
206                 } else {
207                         char *op;
208
209                         op = strdup(odir + 1);
210                         ret = fn(&td->o, DDIR_TRIM, op, data);
211
212                         free(op);
213                 }
214                 if (!ret)
215                         ret = fn(&td->o, DDIR_WRITE, odir + 1, data);
216                 if (!ret) {
217                         *odir = '\0';
218                         ret = fn(&td->o, DDIR_READ, str, data);
219                 }
220         } else {
221                 char *op;
222
223                 op = strdup(str);
224                 ret = fn(&td->o, DDIR_WRITE, op, data);
225                 free(op);
226
227                 if (!ret) {
228                         op = strdup(str);
229                         ret = fn(&td->o, DDIR_TRIM, op, data);
230                         free(op);
231                 }
232                 if (!ret)
233                         ret = fn(&td->o, DDIR_READ, str, data);
234         }
235
236         return ret;
237 }
238
239 static int str_bssplit_cb(void *data, const char *input)
240 {
241         struct thread_data *td = cb_data_to_td(data);
242         char *str, *p;
243         int ret = 0;
244
245         p = str = strdup(input);
246
247         strip_blank_front(&str);
248         strip_blank_end(str);
249
250         ret = str_split_parse(td, str, bssplit_ddir, false);
251
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
262         free(p);
263         return ret;
264 }
265
266 static int str2error(char *str)
267 {
268         const char *err[] = { "EPERM", "ENOENT", "ESRCH", "EINTR", "EIO",
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",
275                             "EROFS","EMLINK", "EPIPE", "EDOM", "ERANGE" };
276         int i = 0, num = sizeof(err) / sizeof(char *);
277
278         while (i < num) {
279                 if (!strcmp(err[i], str))
280                         return i + 1;
281                 i++;
282         }
283         return 0;
284 }
285
286 static int ignore_error_type(struct thread_data *td, enum error_type_bit etype,
287                                 char *str)
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;
299         error = calloc(4, sizeof(int));
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)
320                                 error[i] = -error[i];
321                 }
322                 if (!error[i]) {
323                         log_err("Unknown error %s, please use number value\n",
324                                   fname);
325                         td->o.ignore_error_nr[etype] = 0;
326                         free(error);
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;
335         } else {
336                 td->o.ignore_error_nr[etype] = 0;
337                 free(error);
338         }
339
340         return 0;
341
342 }
343
344 static 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
381 static int str_ignore_error_cb(void *data, const char *input)
382 {
383         struct thread_data *td = cb_data_to_td(data);
384         char *str, *p, *n;
385         int ret = 1;
386         enum error_type_bit type = 0;
387
388         if (parse_dryrun())
389                 return 0;
390
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
410 static int str_rw_cb(void *data, const char *str)
411 {
412         struct thread_data *td = cb_data_to_td(data);
413         struct thread_options *o = &td->o;
414         char *nr;
415
416         if (parse_dryrun())
417                 return 0;
418
419         o->ddir_seq_nr = 1;
420         o->ddir_seq_add = 0;
421
422         nr = get_opt_postfix(str);
423         if (!nr)
424                 return 0;
425
426         if (td_random(td))
427                 o->ddir_seq_nr = atoi(nr);
428         else {
429                 long long val;
430
431                 if (str_to_decimal(nr, &val, 1, o, 0, 0)) {
432                         log_err("fio: rw postfix parsing failed\n");
433                         free(nr);
434                         return 1;
435                 }
436
437                 o->ddir_seq_add = val;
438         }
439
440         free(nr);
441         return 0;
442 }
443
444 static int str_mem_cb(void *data, const char *mem)
445 {
446         struct thread_data *td = cb_data_to_td(data);
447
448         if (td->o.mem_type == MEM_MMAPHUGE || td->o.mem_type == MEM_MMAP ||
449             td->o.mem_type == MEM_MMAPSHARED)
450                 td->o.mmapfile = get_opt_postfix(mem);
451
452         return 0;
453 }
454
455 static int fio_clock_source_cb(void *data, const char *str)
456 {
457         struct thread_data *td = cb_data_to_td(data);
458
459         fio_clock_source = td->o.clocksource;
460         fio_clock_source_set = 1;
461         fio_clock_init();
462         return 0;
463 }
464
465 static int str_rwmix_read_cb(void *data, unsigned long long *val)
466 {
467         struct thread_data *td = cb_data_to_td(data);
468
469         td->o.rwmix[DDIR_READ] = *val;
470         td->o.rwmix[DDIR_WRITE] = 100 - *val;
471         return 0;
472 }
473
474 static int str_rwmix_write_cb(void *data, unsigned long long *val)
475 {
476         struct thread_data *td = cb_data_to_td(data);
477
478         td->o.rwmix[DDIR_WRITE] = *val;
479         td->o.rwmix[DDIR_READ] = 100 - *val;
480         return 0;
481 }
482
483 static int str_exitall_cb(void)
484 {
485         exitall_on_terminate = 1;
486         return 0;
487 }
488
489 #ifdef FIO_HAVE_CPU_AFFINITY
490 int fio_cpus_split(os_cpu_mask_t *mask, unsigned int cpu_index)
491 {
492         unsigned int i, index, cpus_in_mask;
493         const long max_cpu = cpus_online();
494
495         cpus_in_mask = fio_cpu_count(mask);
496         cpu_index = cpu_index % cpus_in_mask;
497
498         index = 0;
499         for (i = 0; i < max_cpu; i++) {
500                 if (!fio_cpu_isset(mask, i))
501                         continue;
502
503                 if (cpu_index != index)
504                         fio_cpu_clear(mask, i);
505
506                 index++;
507         }
508
509         return fio_cpu_count(mask);
510 }
511
512 static int str_cpumask_cb(void *data, unsigned long long *val)
513 {
514         struct thread_data *td = cb_data_to_td(data);
515         unsigned int i;
516         long max_cpu;
517         int ret;
518
519         if (parse_dryrun())
520                 return 0;
521
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         }
528
529         max_cpu = cpus_online();
530
531         for (i = 0; i < sizeof(int) * 8; i++) {
532                 if ((1 << i) & *val) {
533                         if (i >= max_cpu) {
534                                 log_err("fio: CPU %d too large (max=%ld)\n", i,
535                                                                 max_cpu - 1);
536                                 return 1;
537                         }
538                         dprint(FD_PARSE, "set cpu allowed %d\n", i);
539                         fio_cpu_set(&td->o.cpumask, i);
540                 }
541         }
542
543         return 0;
544 }
545
546 static int set_cpus_allowed(struct thread_data *td, os_cpu_mask_t *mask,
547                             const char *input)
548 {
549         char *cpu, *str, *p;
550         long max_cpu;
551         int ret = 0;
552
553         ret = fio_cpuset_init(mask);
554         if (ret < 0) {
555                 log_err("fio: cpuset_init failed\n");
556                 td_verror(td, ret, "fio_cpuset_init");
557                 return 1;
558         }
559
560         p = str = strdup(input);
561
562         strip_blank_front(&str);
563         strip_blank_end(str);
564
565         max_cpu = cpus_online();
566
567         while ((cpu = strsep(&str, ",")) != NULL) {
568                 char *str2, *cpu2;
569                 int icpu, icpu2;
570
571                 if (!strlen(cpu))
572                         break;
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) {
587                         if (icpu >= FIO_MAX_CPUS) {
588                                 log_err("fio: your OS only supports up to"
589                                         " %d CPUs\n", (int) FIO_MAX_CPUS);
590                                 ret = 1;
591                                 break;
592                         }
593                         if (icpu >= max_cpu) {
594                                 log_err("fio: CPU %d too large (max=%ld)\n",
595                                                         icpu, max_cpu - 1);
596                                 ret = 1;
597                                 break;
598                         }
599
600                         dprint(FD_PARSE, "set cpu allowed %d\n", icpu);
601                         fio_cpu_set(mask, icpu);
602                         icpu++;
603                 }
604                 if (ret)
605                         break;
606         }
607
608         free(p);
609         return ret;
610 }
611
612 static int str_cpus_allowed_cb(void *data, const char *input)
613 {
614         struct thread_data *td = cb_data_to_td(data);
615
616         if (parse_dryrun())
617                 return 0;
618
619         return set_cpus_allowed(td, &td->o.cpumask, input);
620 }
621
622 static int str_verify_cpus_allowed_cb(void *data, const char *input)
623 {
624         struct thread_data *td = cb_data_to_td(data);
625
626         if (parse_dryrun())
627                 return 0;
628
629         return set_cpus_allowed(td, &td->o.verify_cpumask, input);
630 }
631
632 #ifdef CONFIG_ZLIB
633 static int str_log_cpus_allowed_cb(void *data, const char *input)
634 {
635         struct thread_data *td = cb_data_to_td(data);
636
637         if (parse_dryrun())
638                 return 0;
639
640         return set_cpus_allowed(td, &td->o.log_gz_cpumask, input);
641 }
642 #endif /* CONFIG_ZLIB */
643
644 #endif /* FIO_HAVE_CPU_AFFINITY */
645
646 #ifdef CONFIG_LIBNUMA
647 static int str_numa_cpunodes_cb(void *data, char *input)
648 {
649         struct thread_data *td = cb_data_to_td(data);
650         struct bitmask *verify_bitmask;
651
652         if (parse_dryrun())
653                 return 0;
654
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          */
660         verify_bitmask = numa_parse_nodestring(input);
661         if (verify_bitmask == NULL) {
662                 log_err("fio: numa_parse_nodestring failed\n");
663                 td_verror(td, 1, "str_numa_cpunodes_cb");
664                 return 1;
665         }
666         numa_free_nodemask(verify_bitmask);
667
668         td->o.numa_cpunodes = strdup(input);
669         return 0;
670 }
671
672 static int str_numa_mpol_cb(void *data, char *input)
673 {
674         struct thread_data *td = cb_data_to_td(data);
675         const char * const policy_types[] =
676                 { "default", "prefer", "bind", "interleave", "local", NULL };
677         int i;
678         char *nodelist;
679         struct bitmask *verify_bitmask;
680
681         if (parse_dryrun())
682                 return 0;
683
684         nodelist = strchr(input, ':');
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:
759                 verify_bitmask = numa_parse_nodestring(nodelist);
760                 if (verify_bitmask == NULL) {
761                         log_err("fio: numa_parse_nodestring failed\n");
762                         td_verror(td, 1, "str_numa_memnodes_cb");
763                         return 1;
764                 }
765                 td->o.numa_memnodes = strdup(nodelist);
766                 numa_free_nodemask(verify_bitmask);
767
768                 break;
769         case MPOL_LOCAL:
770         case MPOL_DEFAULT:
771         default:
772                 break;
773         }
774
775         return 0;
776 out:
777         return 1;
778 }
779 #endif
780
781 static int str_fst_cb(void *data, const char *str)
782 {
783         struct thread_data *td = cb_data_to_td(data);
784         double val;
785         bool done = false;
786         char *nr;
787
788         td->file_service_nr = 1;
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");
821                 free(nr);
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) {
848                           log_err("fio: normal deviation out of range (0 <= input < 100.0)\n");
849                           return 1;
850                 }
851                 if (parse_dryrun())
852                         return 0;
853                 td->gauss_dev = val;
854                 break;
855         }
856
857         return 0;
858 }
859
860 #ifdef CONFIG_SYNC_FILE_RANGE
861 static int str_sfr_cb(void *data, const char *str)
862 {
863         struct thread_data *td = cb_data_to_td(data);
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 }
874 #endif
875
876 static int zone_split_ddir(struct thread_options *o, enum fio_ddir ddir,
877                            char *str, bool absolute)
878 {
879         unsigned int i, perc, perc_missing, sperc, sperc_missing;
880         struct split split;
881
882         memset(&split, 0, sizeof(split));
883
884         if (split_parse_ddir(o, &split, str, absolute, ZONESPLIT_MAX))
885                 return 1;
886         if (!split.nr)
887                 return 0;
888
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];
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];
897         }
898
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++) {
905                 struct zone_split *zsp = &o->zone_split[ddir][i];
906
907                 if (zsp->access_perc == (uint8_t) -1U)
908                         perc_missing++;
909                 else
910                         perc += zsp->access_perc;
911
912                 if (!absolute) {
913                         if (zsp->size_perc == (uint8_t) -1U)
914                                 sperc_missing++;
915                         else
916                                 sperc += zsp->size_perc;
917                 }
918         }
919
920         if (perc > 100 || sperc > 100) {
921                 log_err("fio: zone_split percentages add to more than 100%%\n");
922                 free(o->zone_split[ddir]);
923                 o->zone_split[ddir] = NULL;
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);
929                 free(o->zone_split[ddir]);
930                 o->zone_split[ddir] = NULL;
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++) {
942                         struct zone_split *zsp = &o->zone_split[ddir][i];
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++) {
952                         struct zone_split *zsp = &o->zone_split[ddir][i];
953
954                         if (zsp->size_perc == (uint8_t) -1U)
955                                 zsp->size_perc = (100 - sperc) / sperc_missing;
956                 }
957         }
958
959         return 0;
960 }
961
962 static int parse_zoned_distribution(struct thread_data *td, const char *input,
963                                     bool absolute)
964 {
965         const char *pre = absolute ? "zoned_abs:" : "zoned:";
966         char *str, *p;
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 */
975         if (strncmp(str, pre, strlen(pre))) {
976                 log_err("fio: mismatch in zoned input <%s>\n", str);
977                 free(p);
978                 return 1;
979         }
980         str += strlen(pre);
981
982         ret = str_split_parse(td, str, zone_split_ddir, absolute);
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
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                         }
1003                 }
1004         }
1005
1006         if (parse_dryrun()) {
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
1016         if (ret) {
1017                 for (i = 0; i < DDIR_RWDIR_CNT; i++)
1018                         td->o.zone_split_nr[i] = 0;
1019         }
1020
1021         return ret;
1022 }
1023
1024 static int str_random_distribution_cb(void *data, const char *str)
1025 {
1026         struct thread_data *td = cb_data_to_td(data);
1027         double val;
1028         char *nr;
1029
1030         if (td->o.random_distribution == FIO_RAND_DIST_ZIPF)
1031                 val = FIO_DEF_ZIPF;
1032         else if (td->o.random_distribution == FIO_RAND_DIST_PARETO)
1033                 val = FIO_DEF_PARETO;
1034         else if (td->o.random_distribution == FIO_RAND_DIST_GAUSS)
1035                 val = 0.0;
1036         else if (td->o.random_distribution == FIO_RAND_DIST_ZONED)
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);
1040         else
1041                 return 0;
1042
1043         nr = get_opt_postfix(str);
1044         if (nr && !str_to_float(nr, &val, 0)) {
1045                 log_err("fio: random postfix parsing failed\n");
1046                 free(nr);
1047                 return 1;
1048         }
1049
1050         free(nr);
1051
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                 }
1057                 if (parse_dryrun())
1058                         return 0;
1059                 td->o.zipf_theta.u.f = val;
1060         } else if (td->o.random_distribution == FIO_RAND_DIST_PARETO) {
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                 }
1065                 if (parse_dryrun())
1066                         return 0;
1067                 td->o.pareto_h.u.f = val;
1068         } else {
1069                 if (val < 0.00 || val >= 100.0) {
1070                         log_err("fio: normal deviation out of range (0 <= input < 100.0)\n");
1071                         return 1;
1072                 }
1073                 if (parse_dryrun())
1074                         return 0;
1075                 td->o.gauss_dev.u.f = val;
1076         }
1077
1078         return 0;
1079 }
1080
1081 static int str_steadystate_cb(void *data, const char *str)
1082 {
1083         struct thread_data *td = cb_data_to_td(data);
1084         double val;
1085         char *nr;
1086         char *pct;
1087         long long ll;
1088
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) {
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
1119                 td->o.ss_state |= FIO_SS_PCT;
1120                 td->o.ss_limit.u.f = val;
1121         } else if (td->o.ss_state & FIO_SS_IOPS) {
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
1133                 td->o.ss_limit.u.f = val;
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
1146                 td->o.ss_limit.u.f = (double) ll;
1147         }
1148
1149         td->ss.state = td->o.ss_state;
1150         return 0;
1151 }
1152
1153 /*
1154  * Return next name in the string. Files are separated with ':'. If the ':'
1155  * is escaped with a '\', then that ':' is part of the filename and does not
1156  * indicate a new file.
1157  */
1158 static char *get_next_name(char **ptr)
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
1199
1200 static int get_max_name_idx(char *input)
1201 {
1202         unsigned int cur_idx;
1203         char *str, *p;
1204
1205         p = str = strdup(input);
1206         for (cur_idx = 0; ; cur_idx++)
1207                 if (get_next_name(&str) == NULL)
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  */
1218 int set_name_idx(char *target, size_t tlen, char *input, int index,
1219                  bool unique_filename)
1220 {
1221         unsigned int cur_idx;
1222         int len;
1223         char *fname, *str, *p;
1224
1225         p = str = strdup(input);
1226
1227         index %= get_max_name_idx(input);
1228         for (cur_idx = 0; cur_idx <= index; cur_idx++)
1229                 fname = get_next_name(&str);
1230
1231         if (client_sockaddr_str[0] && unique_filename) {
1232                 len = snprintf(target, tlen, "%s/%s.", fname,
1233                                 client_sockaddr_str);
1234         } else
1235                 len = snprintf(target, tlen, "%s/", fname);
1236
1237         target[tlen - 1] = '\0';
1238         free(p);
1239
1240         return len;
1241 }
1242
1243 char* 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
1250         index %= get_max_name_idx(input);
1251         for (cur_idx = 0; cur_idx <= index; cur_idx++)
1252                 fname = get_next_name(&str);
1253
1254         fname = strdup(fname);
1255         free(p);
1256
1257         return fname;
1258 }
1259
1260 static int str_filename_cb(void *data, const char *input)
1261 {
1262         struct thread_data *td = cb_data_to_td(data);
1263         char *fname, *str, *p;
1264
1265         p = str = strdup(input);
1266
1267         strip_blank_front(&str);
1268         strip_blank_end(str);
1269
1270         /*
1271          * Ignore what we may already have from nrfiles option.
1272          */
1273         if (!td->files_index)
1274                 td->o.nr_files = 0;
1275
1276         while ((fname = get_next_name(&str)) != NULL) {
1277                 if (!strlen(fname))
1278                         break;
1279                 add_file(td, fname, 0, 1);
1280         }
1281
1282         free(p);
1283         return 0;
1284 }
1285
1286 static int str_directory_cb(void *data, const char fio_unused *unused)
1287 {
1288         struct thread_data *td = cb_data_to_td(data);
1289         struct stat sb;
1290         char *dirname, *str, *p;
1291         int ret = 0;
1292
1293         if (parse_dryrun())
1294                 return 0;
1295
1296         p = str = strdup(td->o.directory);
1297         while ((dirname = get_next_name(&str)) != NULL) {
1298                 if (lstat(dirname, &sb) < 0) {
1299                         ret = errno;
1300
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                 }
1310         }
1311
1312 out:
1313         free(p);
1314         return ret;
1315 }
1316
1317 static int str_opendir_cb(void *data, const char fio_unused *str)
1318 {
1319         struct thread_data *td = cb_data_to_td(data);
1320
1321         if (parse_dryrun())
1322                 return 0;
1323
1324         if (!td->files_index)
1325                 td->o.nr_files = 0;
1326
1327         return add_dir_files(td, td->o.opendir);
1328 }
1329
1330 static int str_buffer_pattern_cb(void *data, const char *input)
1331 {
1332         struct thread_data *td = cb_data_to_td(data);
1333         int ret;
1334
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;
1340
1341         assert(ret != 0);
1342         td->o.buffer_pattern_bytes = ret;
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))
1350                 td->o.refill_buffers = 0;
1351         else
1352                 td->o.refill_buffers = 1;
1353
1354         td->o.scramble_buffers = 0;
1355         td->o.zero_buffers = 0;
1356
1357         return 0;
1358 }
1359
1360 static int str_buffer_compress_cb(void *data, unsigned long long *il)
1361 {
1362         struct thread_data *td = cb_data_to_td(data);
1363
1364         td->flags |= TD_F_COMPRESS;
1365         td->o.compress_percentage = *il;
1366         return 0;
1367 }
1368
1369 static int str_dedupe_cb(void *data, unsigned long long *il)
1370 {
1371         struct thread_data *td = cb_data_to_td(data);
1372
1373         td->flags |= TD_F_COMPRESS;
1374         td->o.dedupe_percentage = *il;
1375         td->o.refill_buffers = 1;
1376         return 0;
1377 }
1378
1379 static int str_verify_pattern_cb(void *data, const char *input)
1380 {
1381         struct thread_data *td = cb_data_to_td(data);
1382         int ret;
1383
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,
1386                                      MAX_PATTERN_SIZE, fmt_desc, sizeof(fmt_desc),
1387                                      td->o.verify_fmt, &td->o.verify_fmt_sz);
1388         if (ret < 0)
1389                 return 1;
1390
1391         assert(ret != 0);
1392         td->o.verify_pattern_bytes = ret;
1393         /*
1394          * VERIFY_* could already be set
1395          */
1396         if (!fio_option_is_set(&td->o, verify))
1397                 td->o.verify = VERIFY_PATTERN;
1398
1399         return 0;
1400 }
1401
1402 static int str_gtod_reduce_cb(void *data, int *il)
1403 {
1404         struct thread_data *td = cb_data_to_td(data);
1405         int val = *il;
1406
1407         td->o.disable_lat = !!val;
1408         td->o.disable_clat = !!val;
1409         td->o.disable_slat = !!val;
1410         td->o.disable_bw = !!val;
1411         td->o.clat_percentiles = !val;
1412         if (val)
1413                 td->ts_cache_mask = 63;
1414
1415         return 0;
1416 }
1417
1418 static 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;
1426                 dprint(FD_PARSE, "SET start_offset_percent %d\n",
1427                                         td->o.start_offset_percent);
1428         } else
1429                 td->o.start_offset = v;
1430
1431         return 0;
1432 }
1433
1434 static int str_size_cb(void *data, unsigned long long *__val)
1435 {
1436         struct thread_data *td = cb_data_to_td(data);
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;
1442                 dprint(FD_PARSE, "SET size_percent %d\n",
1443                                         td->o.size_percent);
1444         } else
1445                 td->o.size = v;
1446
1447         return 0;
1448 }
1449
1450 static 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
1461 static 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
1472 static 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
1483 static 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
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  */
1503 static 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
1527 static int rw_verify(const struct fio_option *o, void *data)
1528 {
1529         struct thread_data *td = cb_data_to_td(data);
1530
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);
1534                 return 1;
1535         }
1536
1537         return 0;
1538 }
1539
1540 static int gtod_cpu_verify(const struct fio_option *o, void *data)
1541 {
1542 #ifndef FIO_HAVE_CPU_AFFINITY
1543         struct thread_data *td = cb_data_to_td(data);
1544
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
1555 /*
1556  * Map of job/command line options
1557  */
1558 struct fio_option fio_options[FIO_MAX_OPTS] = {
1559         {
1560                 .name   = "description",
1561                 .lname  = "Description of job",
1562                 .type   = FIO_OPT_STR_STORE,
1563                 .off1   = offsetof(struct thread_options, description),
1564                 .help   = "Text job description",
1565                 .category = FIO_OPT_C_GENERAL,
1566                 .group  = FIO_OPT_G_DESC,
1567         },
1568         {
1569                 .name   = "name",
1570                 .lname  = "Job name",
1571                 .type   = FIO_OPT_STR_STORE,
1572                 .off1   = offsetof(struct thread_options, name),
1573                 .help   = "Name of this job",
1574                 .category = FIO_OPT_C_GENERAL,
1575                 .group  = FIO_OPT_G_DESC,
1576         },
1577         {
1578                 .name   = "wait_for",
1579                 .lname  = "Waitee name",
1580                 .type   = FIO_OPT_STR_STORE,
1581                 .off1   = offsetof(struct thread_options, wait_for),
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         },
1586         {
1587                 .name   = "filename",
1588                 .lname  = "Filename(s)",
1589                 .type   = FIO_OPT_STR_STORE,
1590                 .off1   = offsetof(struct thread_options, filename),
1591                 .cb     = str_filename_cb,
1592                 .prio   = -1, /* must come after "directory" */
1593                 .help   = "File(s) to use for the workload",
1594                 .category = FIO_OPT_C_FILE,
1595                 .group  = FIO_OPT_G_FILENAME,
1596         },
1597         {
1598                 .name   = "directory",
1599                 .lname  = "Directory",
1600                 .type   = FIO_OPT_STR_STORE,
1601                 .off1   = offsetof(struct thread_options, directory),
1602                 .cb     = str_directory_cb,
1603                 .help   = "Directory to store files in",
1604                 .category = FIO_OPT_C_FILE,
1605                 .group  = FIO_OPT_G_FILENAME,
1606         },
1607         {
1608                 .name   = "filename_format",
1609                 .lname  = "Filename Format",
1610                 .type   = FIO_OPT_STR_STORE,
1611                 .off1   = offsetof(struct thread_options, filename_format),
1612                 .prio   = -1, /* must come after "directory" */
1613                 .help   = "Override default $jobname.$jobnum.$filenum naming",
1614                 .def    = "$jobname.$jobnum.$filenum",
1615                 .category = FIO_OPT_C_FILE,
1616                 .group  = FIO_OPT_G_FILENAME,
1617         },
1618         {
1619                 .name   = "unique_filename",
1620                 .lname  = "Unique Filename",
1621                 .type   = FIO_OPT_BOOL,
1622                 .off1   = offsetof(struct thread_options, unique_filename),
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         },
1628         {
1629                 .name   = "lockfile",
1630                 .lname  = "Lockfile",
1631                 .type   = FIO_OPT_STR,
1632                 .off1   = offsetof(struct thread_options, file_lock_mode),
1633                 .help   = "Lock file when doing IO to it",
1634                 .prio   = 1,
1635                 .parent = "filename",
1636                 .hide   = 0,
1637                 .def    = "none",
1638                 .category = FIO_OPT_C_FILE,
1639                 .group  = FIO_OPT_G_FILENAME,
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                 },
1655         },
1656         {
1657                 .name   = "opendir",
1658                 .lname  = "Open directory",
1659                 .type   = FIO_OPT_STR_STORE,
1660                 .off1   = offsetof(struct thread_options, opendir),
1661                 .cb     = str_opendir_cb,
1662                 .help   = "Recursively add files from this directory and down",
1663                 .category = FIO_OPT_C_FILE,
1664                 .group  = FIO_OPT_G_FILENAME,
1665         },
1666         {
1667                 .name   = "rw",
1668                 .lname  = "Read/write",
1669                 .alias  = "readwrite",
1670                 .type   = FIO_OPT_STR,
1671                 .cb     = str_rw_cb,
1672                 .off1   = offsetof(struct thread_options, td_ddir),
1673                 .help   = "IO direction",
1674                 .def    = "read",
1675                 .verify = rw_verify,
1676                 .category = FIO_OPT_C_IO,
1677                 .group  = FIO_OPT_G_IO_BASIC,
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                           },
1687                           { .ival = "trim",
1688                             .oval = TD_DDIR_TRIM,
1689                             .help = "Sequential trim",
1690                           },
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                           },
1699                           { .ival = "randtrim",
1700                             .oval = TD_DDIR_RANDTRIM,
1701                             .help = "Random trim",
1702                           },
1703                           { .ival = "rw",
1704                             .oval = TD_DDIR_RW,
1705                             .help = "Sequential read and write mix",
1706                           },
1707                           { .ival = "readwrite",
1708                             .oval = TD_DDIR_RW,
1709                             .help = "Sequential read and write mix",
1710                           },
1711                           { .ival = "randrw",
1712                             .oval = TD_DDIR_RANDRW,
1713                             .help = "Random read and write mix"
1714                           },
1715                           { .ival = "trimwrite",
1716                             .oval = TD_DDIR_TRIMWRITE,
1717                             .help = "Trim and write mix, trims preceding writes"
1718                           },
1719                 },
1720         },
1721         {
1722                 .name   = "rw_sequencer",
1723                 .lname  = "RW Sequencer",
1724                 .type   = FIO_OPT_STR,
1725                 .off1   = offsetof(struct thread_options, rw_seq),
1726                 .help   = "IO offset generator modifier",
1727                 .def    = "sequential",
1728                 .category = FIO_OPT_C_IO,
1729                 .group  = FIO_OPT_G_IO_BASIC,
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
1742         {
1743                 .name   = "ioengine",
1744                 .lname  = "IO Engine",
1745                 .type   = FIO_OPT_STR_STORE,
1746                 .off1   = offsetof(struct thread_options, ioengine),
1747                 .help   = "IO engine to use",
1748                 .def    = FIO_PREFERRED_ENGINE,
1749                 .category = FIO_OPT_C_IO,
1750                 .group  = FIO_OPT_G_IO_BASIC,
1751                 .posval = {
1752                           { .ival = "sync",
1753                             .help = "Use read/write",
1754                           },
1755                           { .ival = "psync",
1756                             .help = "Use pread/pwrite",
1757                           },
1758                           { .ival = "vsync",
1759                             .help = "Use readv/writev",
1760                           },
1761 #ifdef CONFIG_PWRITEV
1762                           { .ival = "pvsync",
1763                             .help = "Use preadv/pwritev",
1764                           },
1765 #endif
1766 #ifdef FIO_HAVE_PWRITEV2
1767                           { .ival = "pvsync2",
1768                             .help = "Use preadv2/pwritev2",
1769                           },
1770 #endif
1771 #ifdef CONFIG_LIBAIO
1772                           { .ival = "libaio",
1773                             .help = "Linux native asynchronous IO",
1774                           },
1775 #endif
1776 #ifdef CONFIG_POSIXAIO
1777                           { .ival = "posixaio",
1778                             .help = "POSIX asynchronous IO",
1779                           },
1780 #endif
1781 #ifdef CONFIG_SOLARISAIO
1782                           { .ival = "solarisaio",
1783                             .help = "Solaris native asynchronous IO",
1784                           },
1785 #endif
1786 #ifdef CONFIG_WINDOWSAIO
1787                           { .ival = "windowsaio",
1788                             .help = "Windows native asynchronous IO"
1789                           },
1790 #endif
1791 #ifdef CONFIG_RBD
1792                           { .ival = "rbd",
1793                             .help = "Rados Block Device asynchronous IO"
1794                           },
1795 #endif
1796                           { .ival = "mmap",
1797                             .help = "Memory mapped IO"
1798                           },
1799 #ifdef CONFIG_LINUX_SPLICE
1800                           { .ival = "splice",
1801                             .help = "splice/vmsplice based IO",
1802                           },
1803                           { .ival = "netsplice",
1804                             .help = "splice/vmsplice to/from the network",
1805                           },
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                           },
1818                           { .ival = "cpuio",
1819                             .help = "CPU cycle burner engine",
1820                           },
1821 #ifdef CONFIG_GUASI
1822                           { .ival = "guasi",
1823                             .help = "GUASI IO engine",
1824                           },
1825 #endif
1826 #ifdef CONFIG_RDMA
1827                           { .ival = "rdma",
1828                             .help = "RDMA IO engine",
1829                           },
1830 #endif
1831 #ifdef CONFIG_LINUX_EXT4_MOVE_EXTENT
1832                           { .ival = "e4defrag",
1833                             .help = "ext4 defrag engine",
1834                           },
1835 #endif
1836 #ifdef CONFIG_LINUX_FALLOCATE
1837                           { .ival = "falloc",
1838                             .help = "fallocate() file based engine",
1839                           },
1840 #endif
1841 #ifdef CONFIG_GFAPI
1842                           { .ival = "gfapi",
1843                             .help = "Glusterfs libgfapi(sync) based engine"
1844                           },
1845                           { .ival = "gfapi_async",
1846                             .help = "Glusterfs libgfapi(async) based engine"
1847                           },
1848 #endif
1849 #ifdef CONFIG_LIBHDFS
1850                           { .ival = "libhdfs",
1851                             .help = "Hadoop Distributed Filesystem (HDFS) engine"
1852                           },
1853 #endif
1854 #ifdef CONFIG_PMEMBLK
1855                           { .ival = "pmemblk",
1856                             .help = "PMDK libpmemblk based IO engine",
1857                           },
1858
1859 #endif
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
1871 #ifdef CONFIG_LINUX_DEVDAX
1872                           { .ival = "dev-dax",
1873                             .help = "DAX Device based IO engine",
1874                           },
1875 #endif
1876                           {
1877                             .ival = "filecreate",
1878                             .help = "File creation engine",
1879                           },
1880                           { .ival = "external",
1881                             .help = "Load external engine (append name)",
1882                             .cb = str_ioengine_external_cb,
1883                           },
1884 #ifdef CONFIG_LIBPMEM
1885                           { .ival = "libpmem",
1886                             .help = "PMDK libpmem based IO engine",
1887                           },
1888 #endif
1889 #ifdef CONFIG_HTTP
1890                           { .ival = "http",
1891                             .help = "HTTP (WebDAV/S3) IO engine",
1892                           },
1893 #endif
1894                 },
1895         },
1896         {
1897                 .name   = "iodepth",
1898                 .lname  = "IO Depth",
1899                 .type   = FIO_OPT_INT,
1900                 .off1   = offsetof(struct thread_options, iodepth),
1901                 .help   = "Number of IO buffers to keep in flight",
1902                 .minval = 1,
1903                 .interval = 1,
1904                 .def    = "1",
1905                 .category = FIO_OPT_C_IO,
1906                 .group  = FIO_OPT_G_IO_BASIC,
1907         },
1908         {
1909                 .name   = "iodepth_batch",
1910                 .lname  = "IO Depth batch",
1911                 .alias  = "iodepth_batch_submit",
1912                 .type   = FIO_OPT_INT,
1913                 .off1   = offsetof(struct thread_options, iodepth_batch),
1914                 .help   = "Number of IO buffers to submit in one go",
1915                 .parent = "iodepth",
1916                 .hide   = 1,
1917                 .interval = 1,
1918                 .def    = "1",
1919                 .category = FIO_OPT_C_IO,
1920                 .group  = FIO_OPT_G_IO_BASIC,
1921         },
1922         {
1923                 .name   = "iodepth_batch_complete_min",
1924                 .lname  = "Min IO depth batch complete",
1925                 .alias  = "iodepth_batch_complete",
1926                 .type   = FIO_OPT_INT,
1927                 .off1   = offsetof(struct thread_options, iodepth_batch_complete_min),
1928                 .help   = "Min number of IO buffers to retrieve in one go",
1929                 .parent = "iodepth",
1930                 .hide   = 1,
1931                 .minval = 0,
1932                 .interval = 1,
1933                 .def    = "1",
1934                 .category = FIO_OPT_C_IO,
1935                 .group  = FIO_OPT_G_IO_BASIC,
1936         },
1937         {
1938                 .name   = "iodepth_batch_complete_max",
1939                 .lname  = "Max IO depth batch complete",
1940                 .type   = FIO_OPT_INT,
1941                 .off1   = offsetof(struct thread_options, iodepth_batch_complete_max),
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         },
1950         {
1951                 .name   = "iodepth_low",
1952                 .lname  = "IO Depth batch low",
1953                 .type   = FIO_OPT_INT,
1954                 .off1   = offsetof(struct thread_options, iodepth_low),
1955                 .help   = "Low water mark for queuing depth",
1956                 .parent = "iodepth",
1957                 .hide   = 1,
1958                 .interval = 1,
1959                 .category = FIO_OPT_C_IO,
1960                 .group  = FIO_OPT_G_IO_BASIC,
1961         },
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         },
1973         {
1974                 .name   = "io_submit_mode",
1975                 .lname  = "IO submit mode",
1976                 .type   = FIO_OPT_STR,
1977                 .off1   = offsetof(struct thread_options, io_submit_mode),
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         },
1993         {
1994                 .name   = "size",
1995                 .lname  = "Size",
1996                 .type   = FIO_OPT_STR_VAL,
1997                 .cb     = str_size_cb,
1998                 .off1   = offsetof(struct thread_options, size),
1999                 .help   = "Total size of device or files",
2000                 .interval = 1024 * 1024,
2001                 .category = FIO_OPT_C_IO,
2002                 .group  = FIO_OPT_G_INVALID,
2003         },
2004         {
2005                 .name   = "io_size",
2006                 .alias  = "io_limit",
2007                 .lname  = "IO Size",
2008                 .type   = FIO_OPT_STR_VAL,
2009                 .off1   = offsetof(struct thread_options, io_size),
2010                 .help   = "Total size of I/O to be performed",
2011                 .interval = 1024 * 1024,
2012                 .category = FIO_OPT_C_IO,
2013                 .group  = FIO_OPT_G_INVALID,
2014         },
2015         {
2016                 .name   = "fill_device",
2017                 .lname  = "Fill device",
2018                 .alias  = "fill_fs",
2019                 .type   = FIO_OPT_BOOL,
2020                 .off1   = offsetof(struct thread_options, fill_device),
2021                 .help   = "Write until an ENOSPC error occurs",
2022                 .def    = "0",
2023                 .category = FIO_OPT_C_FILE,
2024                 .group  = FIO_OPT_G_INVALID,
2025         },
2026         {
2027                 .name   = "filesize",
2028                 .lname  = "File size",
2029                 .type   = FIO_OPT_STR_VAL,
2030                 .off1   = offsetof(struct thread_options, file_size_low),
2031                 .off2   = offsetof(struct thread_options, file_size_high),
2032                 .minval = 1,
2033                 .help   = "Size of individual files",
2034                 .interval = 1024 * 1024,
2035                 .category = FIO_OPT_C_FILE,
2036                 .group  = FIO_OPT_G_INVALID,
2037         },
2038         {
2039                 .name   = "file_append",
2040                 .lname  = "File append",
2041                 .type   = FIO_OPT_BOOL,
2042                 .off1   = offsetof(struct thread_options, file_append),
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         },
2048         {
2049                 .name   = "offset",
2050                 .lname  = "IO offset",
2051                 .alias  = "fileoffset",
2052                 .type   = FIO_OPT_STR_VAL,
2053                 .cb     = str_offset_cb,
2054                 .off1   = offsetof(struct thread_options, start_offset),
2055                 .help   = "Start IO from this offset",
2056                 .def    = "0",
2057                 .interval = 1024 * 1024,
2058                 .category = FIO_OPT_C_IO,
2059                 .group  = FIO_OPT_G_INVALID,
2060         },
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         },
2072         {
2073                 .name   = "offset_increment",
2074                 .lname  = "IO offset increment",
2075                 .type   = FIO_OPT_STR_VAL,
2076                 .off1   = offsetof(struct thread_options, offset_increment),
2077                 .help   = "What is the increment from one offset to the next",
2078                 .parent = "offset",
2079                 .hide   = 1,
2080                 .def    = "0",
2081                 .interval = 1024 * 1024,
2082                 .category = FIO_OPT_C_IO,
2083                 .group  = FIO_OPT_G_INVALID,
2084         },
2085         {
2086                 .name   = "number_ios",
2087                 .lname  = "Number of IOs to perform",
2088                 .type   = FIO_OPT_STR_VAL,
2089                 .off1   = offsetof(struct thread_options, number_ios),
2090                 .help   = "Force job completion after this number of IOs",
2091                 .def    = "0",
2092                 .category = FIO_OPT_C_IO,
2093                 .group  = FIO_OPT_G_INVALID,
2094         },
2095         {
2096                 .name   = "bs",
2097                 .lname  = "Block size",
2098                 .alias  = "blocksize",
2099                 .type   = FIO_OPT_ULL,
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]),
2103                 .minval = 1,
2104                 .help   = "Block size unit",
2105                 .def    = "4096",
2106                 .parent = "rw",
2107                 .hide   = 1,
2108                 .interval = 512,
2109                 .category = FIO_OPT_C_IO,
2110                 .group  = FIO_OPT_G_INVALID,
2111         },
2112         {
2113                 .name   = "ba",
2114                 .lname  = "Block size align",
2115                 .alias  = "blockalign",
2116                 .type   = FIO_OPT_ULL,
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]),
2120                 .minval = 1,
2121                 .help   = "IO block offset alignment",
2122                 .parent = "rw",
2123                 .hide   = 1,
2124                 .interval = 512,
2125                 .category = FIO_OPT_C_IO,
2126                 .group  = FIO_OPT_G_INVALID,
2127         },
2128         {
2129                 .name   = "bsrange",
2130                 .lname  = "Block size range",
2131                 .alias  = "blocksize_range",
2132                 .type   = FIO_OPT_RANGE,
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]),
2139                 .minval = 1,
2140                 .help   = "Set block size range (in more detail than bs)",
2141                 .parent = "rw",
2142                 .hide   = 1,
2143                 .interval = 4096,
2144                 .category = FIO_OPT_C_IO,
2145                 .group  = FIO_OPT_G_INVALID,
2146         },
2147         {
2148                 .name   = "bssplit",
2149                 .lname  = "Block size split",
2150                 .type   = FIO_OPT_STR_ULL,
2151                 .cb     = str_bssplit_cb,
2152                 .off1   = offsetof(struct thread_options, bssplit),
2153                 .help   = "Set a specific mix of block sizes",
2154                 .parent = "rw",
2155                 .hide   = 1,
2156                 .category = FIO_OPT_C_IO,
2157                 .group  = FIO_OPT_G_INVALID,
2158         },
2159         {
2160                 .name   = "bs_unaligned",
2161                 .lname  = "Block size unaligned",
2162                 .alias  = "blocksize_unaligned",
2163                 .type   = FIO_OPT_STR_SET,
2164                 .off1   = offsetof(struct thread_options, bs_unaligned),
2165                 .help   = "Don't sector align IO buffer sizes",
2166                 .parent = "rw",
2167                 .hide   = 1,
2168                 .category = FIO_OPT_C_IO,
2169                 .group  = FIO_OPT_G_INVALID,
2170         },
2171         {
2172                 .name   = "bs_is_seq_rand",
2173                 .lname  = "Block size division is seq/random (not read/write)",
2174                 .type   = FIO_OPT_BOOL,
2175                 .off1   = offsetof(struct thread_options, bs_is_seq_rand),
2176                 .help   = "Consider any blocksize setting to be sequential,random",
2177                 .def    = "0",
2178                 .parent = "blocksize",
2179                 .category = FIO_OPT_C_IO,
2180                 .group  = FIO_OPT_G_INVALID,
2181         },
2182         {
2183                 .name   = "randrepeat",
2184                 .lname  = "Random repeatable",
2185                 .type   = FIO_OPT_BOOL,
2186                 .off1   = offsetof(struct thread_options, rand_repeatable),
2187                 .help   = "Use repeatable random IO pattern",
2188                 .def    = "1",
2189                 .parent = "rw",
2190                 .hide   = 1,
2191                 .category = FIO_OPT_C_IO,
2192                 .group  = FIO_OPT_G_RANDOM,
2193         },
2194         {
2195                 .name   = "randseed",
2196                 .lname  = "The random generator seed",
2197                 .type   = FIO_OPT_STR_VAL,
2198                 .off1   = offsetof(struct thread_options, rand_seed),
2199                 .help   = "Set the random generator seed value",
2200                 .def    = "0x89",
2201                 .parent = "rw",
2202                 .category = FIO_OPT_C_IO,
2203                 .group  = FIO_OPT_G_RANDOM,
2204         },
2205         {
2206                 .name   = "use_os_rand",
2207                 .lname  = "Use OS random",
2208                 .type   = FIO_OPT_DEPRECATED,
2209                 .off1   = offsetof(struct thread_options, dep_use_os_rand),
2210                 .category = FIO_OPT_C_IO,
2211                 .group  = FIO_OPT_G_RANDOM,
2212         },
2213         {
2214                 .name   = "norandommap",
2215                 .lname  = "No randommap",
2216                 .type   = FIO_OPT_STR_SET,
2217                 .off1   = offsetof(struct thread_options, norandommap),
2218                 .help   = "Accept potential duplicate random blocks",
2219                 .parent = "rw",
2220                 .hide   = 1,
2221                 .hide_on_set = 1,
2222                 .category = FIO_OPT_C_IO,
2223                 .group  = FIO_OPT_G_RANDOM,
2224         },
2225         {
2226                 .name   = "softrandommap",
2227                 .lname  = "Soft randommap",
2228                 .type   = FIO_OPT_BOOL,
2229                 .off1   = offsetof(struct thread_options, softrandommap),
2230                 .help   = "Set norandommap if randommap allocation fails",
2231                 .parent = "norandommap",
2232                 .hide   = 1,
2233                 .def    = "0",
2234                 .category = FIO_OPT_C_IO,
2235                 .group  = FIO_OPT_G_RANDOM,
2236         },
2237         {
2238                 .name   = "random_generator",
2239                 .lname  = "Random Generator",
2240                 .type   = FIO_OPT_STR,
2241                 .off1   = offsetof(struct thread_options, random_generator),
2242                 .help   = "Type of random number generator to use",
2243                 .def    = "tausworthe",
2244                 .posval = {
2245                           { .ival = "tausworthe",
2246                             .oval = FIO_RAND_GEN_TAUSWORTHE,
2247                             .help = "Strong Tausworthe generator",
2248                           },
2249                           { .ival = "lfsr",
2250                             .oval = FIO_RAND_GEN_LFSR,
2251                             .help = "Variable length LFSR",
2252                           },
2253                           {
2254                             .ival = "tausworthe64",
2255                             .oval = FIO_RAND_GEN_TAUSWORTHE64,
2256                             .help = "64-bit Tausworthe variant",
2257                           },
2258                 },
2259                 .category = FIO_OPT_C_IO,
2260                 .group  = FIO_OPT_G_RANDOM,
2261         },
2262         {
2263                 .name   = "random_distribution",
2264                 .lname  = "Random Distribution",
2265                 .type   = FIO_OPT_STR,
2266                 .off1   = offsetof(struct thread_options, random_distribution),
2267                 .cb     = str_random_distribution_cb,
2268                 .help   = "Random offset distribution generator",
2269                 .def    = "random",
2270                 .posval = {
2271                           { .ival = "random",
2272                             .oval = FIO_RAND_DIST_RANDOM,
2273                             .help = "Completely random",
2274                           },
2275                           { .ival = "zipf",
2276                             .oval = FIO_RAND_DIST_ZIPF,
2277                             .help = "Zipf distribution",
2278                           },
2279                           { .ival = "pareto",
2280                             .oval = FIO_RAND_DIST_PARETO,
2281                             .help = "Pareto distribution",
2282                           },
2283                           { .ival = "normal",
2284                             .oval = FIO_RAND_DIST_GAUSS,
2285                             .help = "Normal (Gaussian) distribution",
2286                           },
2287                           { .ival = "zoned",
2288                             .oval = FIO_RAND_DIST_ZONED,
2289                             .help = "Zoned random distribution",
2290                           },
2291                           { .ival = "zoned_abs",
2292                             .oval = FIO_RAND_DIST_ZONED_ABS,
2293                             .help = "Zoned absolute random distribution",
2294                           },
2295                 },
2296                 .category = FIO_OPT_C_IO,
2297                 .group  = FIO_OPT_G_RANDOM,
2298         },
2299         {
2300                 .name   = "percentage_random",
2301                 .lname  = "Percentage Random",
2302                 .type   = FIO_OPT_INT,
2303                 .off1   = offsetof(struct thread_options, perc_rand[DDIR_READ]),
2304                 .off2   = offsetof(struct thread_options, perc_rand[DDIR_WRITE]),
2305                 .off3   = offsetof(struct thread_options, perc_rand[DDIR_TRIM]),
2306                 .maxval = 100,
2307                 .help   = "Percentage of seq/random mix that should be random",
2308                 .def    = "100,100,100",
2309                 .interval = 5,
2310                 .inverse = "percentage_sequential",
2311                 .category = FIO_OPT_C_IO,
2312                 .group  = FIO_OPT_G_RANDOM,
2313         },
2314         {
2315                 .name   = "percentage_sequential",
2316                 .lname  = "Percentage Sequential",
2317                 .type   = FIO_OPT_DEPRECATED,
2318                 .category = FIO_OPT_C_IO,
2319                 .group  = FIO_OPT_G_RANDOM,
2320         },
2321         {
2322                 .name   = "allrandrepeat",
2323                 .lname  = "All Random Repeat",
2324                 .type   = FIO_OPT_BOOL,
2325                 .off1   = offsetof(struct thread_options, allrand_repeatable),
2326                 .help   = "Use repeatable random numbers for everything",
2327                 .def    = "0",
2328                 .category = FIO_OPT_C_IO,
2329                 .group  = FIO_OPT_G_RANDOM,
2330         },
2331         {
2332                 .name   = "nrfiles",
2333                 .lname  = "Number of files",
2334                 .alias  = "nr_files",
2335                 .type   = FIO_OPT_INT,
2336                 .off1   = offsetof(struct thread_options, nr_files),
2337                 .help   = "Split job workload between this number of files",
2338                 .def    = "1",
2339                 .interval = 1,
2340                 .category = FIO_OPT_C_FILE,
2341                 .group  = FIO_OPT_G_INVALID,
2342         },
2343         {
2344                 .name   = "openfiles",
2345                 .lname  = "Number of open files",
2346                 .type   = FIO_OPT_INT,
2347                 .off1   = offsetof(struct thread_options, open_files),
2348                 .help   = "Number of files to keep open at the same time",
2349                 .category = FIO_OPT_C_FILE,
2350                 .group  = FIO_OPT_G_INVALID,
2351         },
2352         {
2353                 .name   = "file_service_type",
2354                 .lname  = "File service type",
2355                 .type   = FIO_OPT_STR,
2356                 .cb     = str_fst_cb,
2357                 .off1   = offsetof(struct thread_options, file_service_type),
2358                 .help   = "How to select which file to service next",
2359                 .def    = "roundrobin",
2360                 .category = FIO_OPT_C_FILE,
2361                 .group  = FIO_OPT_G_INVALID,
2362                 .posval = {
2363                           { .ival = "random",
2364                             .oval = FIO_FSERVICE_RANDOM,
2365                             .help = "Choose a file at random (uniform)",
2366                           },
2367                           { .ival = "zipf",
2368                             .oval = FIO_FSERVICE_ZIPF,
2369                             .help = "Zipf randomized",
2370                           },
2371                           { .ival = "pareto",
2372                             .oval = FIO_FSERVICE_PARETO,
2373                             .help = "Pareto randomized",
2374                           },
2375                           { .ival = "normal",
2376                             .oval = FIO_FSERVICE_GAUSS,
2377                             .help = "Normal (Gaussian) randomized",
2378                           },
2379                           { .ival = "gauss",
2380                             .oval = FIO_FSERVICE_GAUSS,
2381                             .help = "Alias for normal",
2382                           },
2383                           { .ival = "roundrobin",
2384                             .oval = FIO_FSERVICE_RR,
2385                             .help = "Round robin select files",
2386                           },
2387                           { .ival = "sequential",
2388                             .oval = FIO_FSERVICE_SEQ,
2389                             .help = "Finish one file before moving to the next",
2390                           },
2391                 },
2392                 .parent = "nrfiles",
2393                 .hide   = 1,
2394         },
2395 #ifdef FIO_HAVE_ANY_FALLOCATE
2396         {
2397                 .name   = "fallocate",
2398                 .lname  = "Fallocate",
2399                 .type   = FIO_OPT_STR,
2400                 .off1   = offsetof(struct thread_options, fallocate_mode),
2401                 .help   = "Whether pre-allocation is performed when laying out files",
2402                 .def    = "native",
2403                 .category = FIO_OPT_C_FILE,
2404                 .group  = FIO_OPT_G_INVALID,
2405                 .posval = {
2406                           { .ival = "none",
2407                             .oval = FIO_FALLOCATE_NONE,
2408                             .help = "Do not pre-allocate space",
2409                           },
2410                           { .ival = "native",
2411                             .oval = FIO_FALLOCATE_NATIVE,
2412                             .help = "Use native pre-allocation if possible",
2413                           },
2414 #ifdef CONFIG_POSIX_FALLOCATE
2415                           { .ival = "posix",
2416                             .oval = FIO_FALLOCATE_POSIX,
2417                             .help = "Use posix_fallocate()",
2418                           },
2419 #endif
2420 #ifdef CONFIG_LINUX_FALLOCATE
2421                           { .ival = "keep",
2422                             .oval = FIO_FALLOCATE_KEEP_SIZE,
2423                             .help = "Use fallocate(..., FALLOC_FL_KEEP_SIZE, ...)",
2424                           },
2425 #endif
2426                           /* Compatibility with former boolean values */
2427                           { .ival = "0",
2428                             .oval = FIO_FALLOCATE_NONE,
2429                             .help = "Alias for 'none'",
2430                           },
2431 #ifdef CONFIG_POSIX_FALLOCATE
2432                           { .ival = "1",
2433                             .oval = FIO_FALLOCATE_POSIX,
2434                             .help = "Alias for 'posix'",
2435                           },
2436 #endif
2437                 },
2438         },
2439 #else   /* FIO_HAVE_ANY_FALLOCATE */
2440         {
2441                 .name   = "fallocate",
2442                 .lname  = "Fallocate",
2443                 .type   = FIO_OPT_UNSUPPORTED,
2444                 .help   = "Your platform does not support fallocate",
2445         },
2446 #endif /* FIO_HAVE_ANY_FALLOCATE */
2447         {
2448                 .name   = "fadvise_hint",
2449                 .lname  = "Fadvise hint",
2450                 .type   = FIO_OPT_STR,
2451                 .off1   = offsetof(struct thread_options, fadvise_hint),
2452                 .posval = {
2453                           { .ival = "0",
2454                             .oval = F_ADV_NONE,
2455                             .help = "Don't issue fadvise/madvise",
2456                           },
2457                           { .ival = "1",
2458                             .oval = F_ADV_TYPE,
2459                             .help = "Advise using fio IO pattern",
2460                           },
2461                           { .ival = "random",
2462                             .oval = F_ADV_RANDOM,
2463                             .help = "Advise using FADV_RANDOM",
2464                           },
2465                           { .ival = "sequential",
2466                             .oval = F_ADV_SEQUENTIAL,
2467                             .help = "Advise using FADV_SEQUENTIAL",
2468                           },
2469                 },
2470                 .help   = "Use fadvise() to advise the kernel on IO pattern",
2471                 .def    = "1",
2472                 .category = FIO_OPT_C_FILE,
2473                 .group  = FIO_OPT_G_INVALID,
2474         },
2475         {
2476                 .name   = "fsync",
2477                 .lname  = "Fsync",
2478                 .type   = FIO_OPT_INT,
2479                 .off1   = offsetof(struct thread_options, fsync_blocks),
2480                 .help   = "Issue fsync for writes every given number of blocks",
2481                 .def    = "0",
2482                 .interval = 1,
2483                 .category = FIO_OPT_C_FILE,
2484                 .group  = FIO_OPT_G_INVALID,
2485         },
2486         {
2487                 .name   = "fdatasync",
2488                 .lname  = "Fdatasync",
2489                 .type   = FIO_OPT_INT,
2490                 .off1   = offsetof(struct thread_options, fdatasync_blocks),
2491                 .help   = "Issue fdatasync for writes every given number of blocks",
2492                 .def    = "0",
2493                 .interval = 1,
2494                 .category = FIO_OPT_C_FILE,
2495                 .group  = FIO_OPT_G_INVALID,
2496         },
2497         {
2498                 .name   = "write_barrier",
2499                 .lname  = "Write barrier",
2500                 .type   = FIO_OPT_INT,
2501                 .off1   = offsetof(struct thread_options, barrier_blocks),
2502                 .help   = "Make every Nth write a barrier write",
2503                 .def    = "0",
2504                 .interval = 1,
2505                 .category = FIO_OPT_C_IO,
2506                 .group  = FIO_OPT_G_INVALID,
2507         },
2508 #ifdef CONFIG_SYNC_FILE_RANGE
2509         {
2510                 .name   = "sync_file_range",
2511                 .lname  = "Sync file range",
2512                 .posval = {
2513                           { .ival = "wait_before",
2514                             .oval = SYNC_FILE_RANGE_WAIT_BEFORE,
2515                             .help = "SYNC_FILE_RANGE_WAIT_BEFORE",
2516                             .orval  = 1,
2517                           },
2518                           { .ival = "write",
2519                             .oval = SYNC_FILE_RANGE_WRITE,
2520                             .help = "SYNC_FILE_RANGE_WRITE",
2521                             .orval  = 1,
2522                           },
2523                           {
2524                             .ival = "wait_after",
2525                             .oval = SYNC_FILE_RANGE_WAIT_AFTER,
2526                             .help = "SYNC_FILE_RANGE_WAIT_AFTER",
2527                             .orval  = 1,
2528                           },
2529                 },
2530                 .type   = FIO_OPT_STR_MULTI,
2531                 .cb     = str_sfr_cb,
2532                 .off1   = offsetof(struct thread_options, sync_file_range),
2533                 .help   = "Use sync_file_range()",
2534                 .category = FIO_OPT_C_FILE,
2535                 .group  = FIO_OPT_G_INVALID,
2536         },
2537 #else
2538         {
2539                 .name   = "sync_file_range",
2540                 .lname  = "Sync file range",
2541                 .type   = FIO_OPT_UNSUPPORTED,
2542                 .help   = "Your platform does not support sync_file_range",
2543         },
2544 #endif
2545         {
2546                 .name   = "direct",
2547                 .lname  = "Direct I/O",
2548                 .type   = FIO_OPT_BOOL,
2549                 .off1   = offsetof(struct thread_options, odirect),
2550                 .help   = "Use O_DIRECT IO (negates buffered)",
2551                 .def    = "0",
2552                 .inverse = "buffered",
2553                 .category = FIO_OPT_C_IO,
2554                 .group  = FIO_OPT_G_IO_TYPE,
2555         },
2556         {
2557                 .name   = "atomic",
2558                 .lname  = "Atomic I/O",
2559                 .type   = FIO_OPT_BOOL,
2560                 .off1   = offsetof(struct thread_options, oatomic),
2561                 .help   = "Use Atomic IO with O_DIRECT (implies O_DIRECT)",
2562                 .def    = "0",
2563                 .category = FIO_OPT_C_IO,
2564                 .group  = FIO_OPT_G_IO_TYPE,
2565         },
2566         {
2567                 .name   = "buffered",
2568                 .lname  = "Buffered I/O",
2569                 .type   = FIO_OPT_BOOL,
2570                 .off1   = offsetof(struct thread_options, odirect),
2571                 .neg    = 1,
2572                 .help   = "Use buffered IO (negates direct)",
2573                 .def    = "1",
2574                 .inverse = "direct",
2575                 .category = FIO_OPT_C_IO,
2576                 .group  = FIO_OPT_G_IO_TYPE,
2577         },
2578         {
2579                 .name   = "overwrite",
2580                 .lname  = "Overwrite",
2581                 .type   = FIO_OPT_BOOL,
2582                 .off1   = offsetof(struct thread_options, overwrite),
2583                 .help   = "When writing, set whether to overwrite current data",
2584                 .def    = "0",
2585                 .category = FIO_OPT_C_FILE,
2586                 .group  = FIO_OPT_G_INVALID,
2587         },
2588         {
2589                 .name   = "loops",
2590                 .lname  = "Loops",
2591                 .type   = FIO_OPT_INT,
2592                 .off1   = offsetof(struct thread_options, loops),
2593                 .help   = "Number of times to run the job",
2594                 .def    = "1",
2595                 .interval = 1,
2596                 .category = FIO_OPT_C_GENERAL,
2597                 .group  = FIO_OPT_G_RUNTIME,
2598         },
2599         {
2600                 .name   = "numjobs",
2601                 .lname  = "Number of jobs",
2602                 .type   = FIO_OPT_INT,
2603                 .off1   = offsetof(struct thread_options, numjobs),
2604                 .help   = "Duplicate this job this many times",
2605                 .def    = "1",
2606                 .interval = 1,
2607                 .category = FIO_OPT_C_GENERAL,
2608                 .group  = FIO_OPT_G_RUNTIME,
2609         },
2610         {
2611                 .name   = "startdelay",
2612                 .lname  = "Start delay",
2613                 .type   = FIO_OPT_STR_VAL_TIME,
2614                 .off1   = offsetof(struct thread_options, start_delay),
2615                 .off2   = offsetof(struct thread_options, start_delay_high),
2616                 .help   = "Only start job when this period has passed",
2617                 .def    = "0",
2618                 .is_seconds = 1,
2619                 .is_time = 1,
2620                 .category = FIO_OPT_C_GENERAL,
2621                 .group  = FIO_OPT_G_RUNTIME,
2622         },
2623         {
2624                 .name   = "runtime",
2625                 .lname  = "Runtime",
2626                 .alias  = "timeout",
2627                 .type   = FIO_OPT_STR_VAL_TIME,
2628                 .off1   = offsetof(struct thread_options, timeout),
2629                 .help   = "Stop workload when this amount of time has passed",
2630                 .def    = "0",
2631                 .is_seconds = 1,
2632                 .is_time = 1,
2633                 .category = FIO_OPT_C_GENERAL,
2634                 .group  = FIO_OPT_G_RUNTIME,
2635         },
2636         {
2637                 .name   = "time_based",
2638                 .lname  = "Time based",
2639                 .type   = FIO_OPT_STR_SET,
2640                 .off1   = offsetof(struct thread_options, time_based),
2641                 .help   = "Keep running until runtime/timeout is met",
2642                 .category = FIO_OPT_C_GENERAL,
2643                 .group  = FIO_OPT_G_RUNTIME,
2644         },
2645         {
2646                 .name   = "verify_only",
2647                 .lname  = "Verify only",
2648                 .type   = FIO_OPT_STR_SET,
2649                 .off1   = offsetof(struct thread_options, verify_only),
2650                 .help   = "Verifies previously written data is still valid",
2651                 .category = FIO_OPT_C_GENERAL,
2652                 .group  = FIO_OPT_G_RUNTIME,
2653         },
2654         {
2655                 .name   = "ramp_time",
2656                 .lname  = "Ramp time",
2657                 .type   = FIO_OPT_STR_VAL_TIME,
2658                 .off1   = offsetof(struct thread_options, ramp_time),
2659                 .help   = "Ramp up time before measuring performance",
2660                 .is_seconds = 1,
2661                 .is_time = 1,
2662                 .category = FIO_OPT_C_GENERAL,
2663                 .group  = FIO_OPT_G_RUNTIME,
2664         },
2665         {
2666                 .name   = "clocksource",
2667                 .lname  = "Clock source",
2668                 .type   = FIO_OPT_STR,
2669                 .cb     = fio_clock_source_cb,
2670                 .off1   = offsetof(struct thread_options, clocksource),
2671                 .help   = "What type of timing source to use",
2672                 .category = FIO_OPT_C_GENERAL,
2673                 .group  = FIO_OPT_G_CLOCK,
2674                 .posval = {
2675 #ifdef CONFIG_GETTIMEOFDAY
2676                           { .ival = "gettimeofday",
2677                             .oval = CS_GTOD,
2678                             .help = "Use gettimeofday(2) for timing",
2679                           },
2680 #endif
2681 #ifdef CONFIG_CLOCK_GETTIME
2682                           { .ival = "clock_gettime",
2683                             .oval = CS_CGETTIME,
2684                             .help = "Use clock_gettime(2) for timing",
2685                           },
2686 #endif
2687 #ifdef ARCH_HAVE_CPU_CLOCK
2688                           { .ival = "cpu",
2689                             .oval = CS_CPUCLOCK,
2690                             .help = "Use CPU private clock",
2691                           },
2692 #endif
2693                 },
2694         },
2695         {
2696                 .name   = "mem",
2697                 .alias  = "iomem",
2698                 .lname  = "I/O Memory",
2699                 .type   = FIO_OPT_STR,
2700                 .cb     = str_mem_cb,
2701                 .off1   = offsetof(struct thread_options, mem_type),
2702                 .help   = "Backing type for IO buffers",
2703                 .def    = "malloc",
2704                 .category = FIO_OPT_C_IO,
2705                 .group  = FIO_OPT_G_INVALID,
2706                 .posval = {
2707                           { .ival = "malloc",
2708                             .oval = MEM_MALLOC,
2709                             .help = "Use malloc(3) for IO buffers",
2710                           },
2711 #ifndef CONFIG_NO_SHM
2712                           { .ival = "shm",
2713                             .oval = MEM_SHM,
2714                             .help = "Use shared memory segments for IO buffers",
2715                           },
2716 #ifdef FIO_HAVE_HUGETLB
2717                           { .ival = "shmhuge",
2718                             .oval = MEM_SHMHUGE,
2719                             .help = "Like shm, but use huge pages",
2720                           },
2721 #endif
2722 #endif
2723                           { .ival = "mmap",
2724                             .oval = MEM_MMAP,
2725                             .help = "Use mmap(2) (file or anon) for IO buffers",
2726                           },
2727                           { .ival = "mmapshared",
2728                             .oval = MEM_MMAPSHARED,
2729                             .help = "Like mmap, but use the shared flag",
2730                           },
2731 #ifdef FIO_HAVE_HUGETLB
2732                           { .ival = "mmaphuge",
2733                             .oval = MEM_MMAPHUGE,
2734                             .help = "Like mmap, but use huge pages",
2735                           },
2736 #endif
2737 #ifdef CONFIG_CUDA
2738                           { .ival = "cudamalloc",
2739                             .oval = MEM_CUDA_MALLOC,
2740                             .help = "Allocate GPU device memory for GPUDirect RDMA",
2741                           },
2742 #endif
2743                   },
2744         },
2745         {
2746                 .name   = "iomem_align",
2747                 .alias  = "mem_align",
2748                 .lname  = "I/O memory alignment",
2749                 .type   = FIO_OPT_INT,
2750                 .off1   = offsetof(struct thread_options, mem_align),
2751                 .minval = 0,
2752                 .help   = "IO memory buffer offset alignment",
2753                 .def    = "0",
2754                 .parent = "iomem",
2755                 .hide   = 1,
2756                 .category = FIO_OPT_C_IO,
2757                 .group  = FIO_OPT_G_INVALID,
2758         },
2759         {
2760                 .name   = "verify",
2761                 .lname  = "Verify",
2762                 .type   = FIO_OPT_STR,
2763                 .off1   = offsetof(struct thread_options, verify),
2764                 .help   = "Verify data written",
2765                 .def    = "0",
2766                 .category = FIO_OPT_C_IO,
2767                 .group  = FIO_OPT_G_VERIFY,
2768                 .posval = {
2769                           { .ival = "0",
2770                             .oval = VERIFY_NONE,
2771                             .help = "Don't do IO verification",
2772                           },
2773                           { .ival = "md5",
2774                             .oval = VERIFY_MD5,
2775                             .help = "Use md5 checksums for verification",
2776                           },
2777                           { .ival = "crc64",
2778                             .oval = VERIFY_CRC64,
2779                             .help = "Use crc64 checksums for verification",
2780                           },
2781                           { .ival = "crc32",
2782                             .oval = VERIFY_CRC32,
2783                             .help = "Use crc32 checksums for verification",
2784                           },
2785                           { .ival = "crc32c-intel",
2786                             .oval = VERIFY_CRC32C,
2787                             .help = "Use crc32c checksums for verification (hw assisted, if available)",
2788                           },
2789                           { .ival = "crc32c",
2790                             .oval = VERIFY_CRC32C,
2791                             .help = "Use crc32c checksums for verification (hw assisted, if available)",
2792                           },
2793                           { .ival = "crc16",
2794                             .oval = VERIFY_CRC16,
2795                             .help = "Use crc16 checksums for verification",
2796                           },
2797                           { .ival = "crc7",
2798                             .oval = VERIFY_CRC7,
2799                             .help = "Use crc7 checksums for verification",
2800                           },
2801                           { .ival = "sha1",
2802                             .oval = VERIFY_SHA1,
2803                             .help = "Use sha1 checksums for verification",
2804                           },
2805                           { .ival = "sha256",
2806                             .oval = VERIFY_SHA256,
2807                             .help = "Use sha256 checksums for verification",
2808                           },
2809                           { .ival = "sha512",
2810                             .oval = VERIFY_SHA512,
2811                             .help = "Use sha512 checksums for verification",
2812                           },
2813                           { .ival = "sha3-224",
2814                             .oval = VERIFY_SHA3_224,
2815                             .help = "Use sha3-224 checksums for verification",
2816                           },
2817                           { .ival = "sha3-256",
2818                             .oval = VERIFY_SHA3_256,
2819                             .help = "Use sha3-256 checksums for verification",
2820                           },
2821                           { .ival = "sha3-384",
2822                             .oval = VERIFY_SHA3_384,
2823                             .help = "Use sha3-384 checksums for verification",
2824                           },
2825                           { .ival = "sha3-512",
2826                             .oval = VERIFY_SHA3_512,
2827                             .help = "Use sha3-512 checksums for verification",
2828                           },
2829                           { .ival = "xxhash",
2830                             .oval = VERIFY_XXHASH,
2831                             .help = "Use xxhash checksums for verification",
2832                           },
2833                           /* Meta information was included into verify_header,
2834                            * 'meta' verification is implied by default. */
2835                           { .ival = "meta",
2836                             .oval = VERIFY_HDR_ONLY,
2837                             .help = "Use io information for verification. "
2838                                     "Now is implied by default, thus option is obsolete, "
2839                                     "don't use it",
2840                           },
2841                           { .ival = "pattern",
2842                             .oval = VERIFY_PATTERN_NO_HDR,
2843                             .help = "Verify strict pattern",
2844                           },
2845                           {
2846                             .ival = "null",
2847                             .oval = VERIFY_NULL,
2848                             .help = "Pretend to verify",
2849                           },
2850                 },
2851         },
2852         {
2853                 .name   = "do_verify",
2854                 .lname  = "Perform verify step",
2855                 .type   = FIO_OPT_BOOL,
2856                 .off1   = offsetof(struct thread_options, do_verify),
2857                 .help   = "Run verification stage after write",
2858                 .def    = "1",
2859                 .parent = "verify",
2860                 .hide   = 1,
2861                 .category = FIO_OPT_C_IO,
2862                 .group  = FIO_OPT_G_VERIFY,
2863         },
2864         {
2865                 .name   = "verifysort",
2866                 .lname  = "Verify sort",
2867                 .type   = FIO_OPT_SOFT_DEPRECATED,
2868                 .category = FIO_OPT_C_IO,
2869                 .group  = FIO_OPT_G_VERIFY,
2870         },
2871         {
2872                 .name   = "verifysort_nr",
2873                 .lname  = "Verify Sort Nr",
2874                 .type   = FIO_OPT_SOFT_DEPRECATED,
2875                 .category = FIO_OPT_C_IO,
2876                 .group  = FIO_OPT_G_VERIFY,
2877         },
2878         {
2879                 .name   = "verify_interval",
2880                 .lname  = "Verify interval",
2881                 .type   = FIO_OPT_INT,
2882                 .off1   = offsetof(struct thread_options, verify_interval),
2883                 .minval = 2 * sizeof(struct verify_header),
2884                 .help   = "Store verify buffer header every N bytes",
2885                 .parent = "verify",
2886                 .hide   = 1,
2887                 .interval = 2 * sizeof(struct verify_header),
2888                 .category = FIO_OPT_C_IO,
2889                 .group  = FIO_OPT_G_VERIFY,
2890         },
2891         {
2892                 .name   = "verify_offset",
2893                 .lname  = "Verify offset",
2894                 .type   = FIO_OPT_INT,
2895                 .help   = "Offset verify header location by N bytes",
2896                 .off1   = offsetof(struct thread_options, verify_offset),
2897                 .minval = sizeof(struct verify_header),
2898                 .parent = "verify",
2899                 .hide   = 1,
2900                 .category = FIO_OPT_C_IO,
2901                 .group  = FIO_OPT_G_VERIFY,
2902         },
2903         {
2904                 .name   = "verify_pattern",
2905                 .lname  = "Verify pattern",
2906                 .type   = FIO_OPT_STR,
2907                 .cb     = str_verify_pattern_cb,
2908                 .off1   = offsetof(struct thread_options, verify_pattern),
2909                 .help   = "Fill pattern for IO buffers",
2910                 .parent = "verify",
2911                 .hide   = 1,
2912                 .category = FIO_OPT_C_IO,
2913                 .group  = FIO_OPT_G_VERIFY,
2914         },
2915         {
2916                 .name   = "verify_fatal",
2917                 .lname  = "Verify fatal",
2918                 .type   = FIO_OPT_BOOL,
2919                 .off1   = offsetof(struct thread_options, verify_fatal),
2920                 .def    = "0",
2921                 .help   = "Exit on a single verify failure, don't continue",
2922                 .parent = "verify",
2923                 .hide   = 1,
2924                 .category = FIO_OPT_C_IO,
2925                 .group  = FIO_OPT_G_VERIFY,
2926         },
2927         {
2928                 .name   = "verify_dump",
2929                 .lname  = "Verify dump",
2930                 .type   = FIO_OPT_BOOL,
2931                 .off1   = offsetof(struct thread_options, verify_dump),
2932                 .def    = "0",
2933                 .help   = "Dump contents of good and bad blocks on failure",
2934                 .parent = "verify",
2935                 .hide   = 1,
2936                 .category = FIO_OPT_C_IO,
2937                 .group  = FIO_OPT_G_VERIFY,
2938         },
2939         {
2940                 .name   = "verify_async",
2941                 .lname  = "Verify asynchronously",
2942                 .type   = FIO_OPT_INT,
2943                 .off1   = offsetof(struct thread_options, verify_async),
2944                 .def    = "0",
2945                 .help   = "Number of async verifier threads to use",
2946                 .parent = "verify",
2947                 .hide   = 1,
2948                 .category = FIO_OPT_C_IO,
2949                 .group  = FIO_OPT_G_VERIFY,
2950         },
2951         {
2952                 .name   = "verify_backlog",
2953                 .lname  = "Verify backlog",
2954                 .type   = FIO_OPT_STR_VAL,
2955                 .off1   = offsetof(struct thread_options, verify_backlog),
2956                 .help   = "Verify after this number of blocks are written",
2957                 .parent = "verify",
2958                 .hide   = 1,
2959                 .category = FIO_OPT_C_IO,
2960                 .group  = FIO_OPT_G_VERIFY,
2961         },
2962         {
2963                 .name   = "verify_backlog_batch",
2964                 .lname  = "Verify backlog batch",
2965                 .type   = FIO_OPT_INT,
2966                 .off1   = offsetof(struct thread_options, verify_batch),
2967                 .help   = "Verify this number of IO blocks",
2968                 .parent = "verify",
2969                 .hide   = 1,
2970                 .category = FIO_OPT_C_IO,
2971                 .group  = FIO_OPT_G_VERIFY,
2972         },
2973 #ifdef FIO_HAVE_CPU_AFFINITY
2974         {
2975                 .name   = "verify_async_cpus",
2976                 .lname  = "Async verify CPUs",
2977                 .type   = FIO_OPT_STR,
2978                 .cb     = str_verify_cpus_allowed_cb,
2979                 .off1   = offsetof(struct thread_options, verify_cpumask),
2980                 .help   = "Set CPUs allowed for async verify threads",
2981                 .parent = "verify_async",
2982                 .hide   = 1,
2983                 .category = FIO_OPT_C_IO,
2984                 .group  = FIO_OPT_G_VERIFY,
2985         },
2986 #else
2987         {
2988                 .name   = "verify_async_cpus",
2989                 .lname  = "Async verify CPUs",
2990                 .type   = FIO_OPT_UNSUPPORTED,
2991                 .help   = "Your platform does not support CPU affinities",
2992         },
2993 #endif
2994         {
2995                 .name   = "experimental_verify",
2996                 .lname  = "Experimental Verify",
2997                 .off1   = offsetof(struct thread_options, experimental_verify),
2998                 .type   = FIO_OPT_BOOL,
2999                 .help   = "Enable experimental verification",
3000                 .parent = "verify",
3001                 .category = FIO_OPT_C_IO,
3002                 .group  = FIO_OPT_G_VERIFY,
3003         },
3004         {
3005                 .name   = "verify_state_load",
3006                 .lname  = "Load verify state",
3007                 .off1   = offsetof(struct thread_options, verify_state),
3008                 .type   = FIO_OPT_BOOL,
3009                 .help   = "Load verify termination state",
3010                 .parent = "verify",
3011                 .category = FIO_OPT_C_IO,
3012                 .group  = FIO_OPT_G_VERIFY,
3013         },
3014         {
3015                 .name   = "verify_state_save",
3016                 .lname  = "Save verify state",
3017                 .off1   = offsetof(struct thread_options, verify_state_save),
3018                 .type   = FIO_OPT_BOOL,
3019                 .def    = "1",
3020                 .help   = "Save verify state on termination",
3021                 .parent = "verify",
3022                 .category = FIO_OPT_C_IO,
3023                 .group  = FIO_OPT_G_VERIFY,
3024         },
3025 #ifdef FIO_HAVE_TRIM
3026         {
3027                 .name   = "trim_percentage",
3028                 .lname  = "Trim percentage",
3029                 .type   = FIO_OPT_INT,
3030                 .off1   = offsetof(struct thread_options, trim_percentage),
3031                 .minval = 0,
3032                 .maxval = 100,
3033                 .help   = "Number of verify blocks to trim (i.e., discard)",
3034                 .parent = "verify",
3035                 .def    = "0",
3036                 .interval = 1,
3037                 .hide   = 1,
3038                 .category = FIO_OPT_C_IO,
3039                 .group  = FIO_OPT_G_TRIM,
3040         },
3041         {
3042                 .name   = "trim_verify_zero",
3043                 .lname  = "Verify trim zero",
3044                 .type   = FIO_OPT_BOOL,
3045                 .help   = "Verify that trimmed (i.e., discarded) blocks are returned as zeroes",
3046                 .off1   = offsetof(struct thread_options, trim_zero),
3047                 .parent = "trim_percentage",
3048                 .hide   = 1,
3049                 .def    = "1",
3050                 .category = FIO_OPT_C_IO,
3051                 .group  = FIO_OPT_G_TRIM,
3052         },
3053         {
3054                 .name   = "trim_backlog",
3055                 .lname  = "Trim backlog",
3056                 .type   = FIO_OPT_STR_VAL,
3057                 .off1   = offsetof(struct thread_options, trim_backlog),
3058                 .help   = "Trim after this number of blocks are written",
3059                 .parent = "trim_percentage",
3060                 .hide   = 1,
3061                 .interval = 1,
3062                 .category = FIO_OPT_C_IO,
3063                 .group  = FIO_OPT_G_TRIM,
3064         },
3065         {
3066                 .name   = "trim_backlog_batch",
3067                 .lname  = "Trim backlog batch",
3068                 .type   = FIO_OPT_INT,
3069                 .off1   = offsetof(struct thread_options, trim_batch),
3070                 .help   = "Trim this number of IO blocks",
3071                 .parent = "trim_percentage",
3072                 .hide   = 1,
3073                 .interval = 1,
3074                 .category = FIO_OPT_C_IO,
3075                 .group  = FIO_OPT_G_TRIM,
3076         },
3077 #else
3078         {
3079                 .name   = "trim_percentage",
3080                 .lname  = "Trim percentage",
3081                 .type   = FIO_OPT_UNSUPPORTED,
3082                 .help   = "Fio does not support TRIM on your platform",
3083         },
3084         {
3085                 .name   = "trim_verify_zero",
3086                 .lname  = "Verify trim zero",
3087                 .type   = FIO_OPT_UNSUPPORTED,
3088                 .help   = "Fio does not support TRIM on your platform",
3089         },
3090         {
3091                 .name   = "trim_backlog",
3092                 .lname  = "Trim backlog",
3093                 .type   = FIO_OPT_UNSUPPORTED,
3094                 .help   = "Fio does not support TRIM on your platform",
3095         },
3096         {
3097                 .name   = "trim_backlog_batch",
3098                 .lname  = "Trim backlog batch",
3099                 .type   = FIO_OPT_UNSUPPORTED,
3100                 .help   = "Fio does not support TRIM on your platform",
3101         },
3102 #endif
3103         {
3104                 .name   = "write_iolog",
3105                 .lname  = "Write I/O log",
3106                 .type   = FIO_OPT_STR_STORE,
3107                 .off1   = offsetof(struct thread_options, write_iolog_file),
3108                 .help   = "Store IO pattern to file",
3109                 .category = FIO_OPT_C_IO,
3110                 .group  = FIO_OPT_G_IOLOG,
3111         },
3112         {
3113                 .name   = "read_iolog",
3114                 .lname  = "Read I/O log",
3115                 .type   = FIO_OPT_STR_STORE,
3116                 .off1   = offsetof(struct thread_options, read_iolog_file),
3117                 .help   = "Playback IO pattern from file",
3118                 .category = FIO_OPT_C_IO,
3119                 .group  = FIO_OPT_G_IOLOG,
3120         },
3121         {
3122                 .name   = "read_iolog_chunked",
3123                 .lname  = "Read I/O log in parts",
3124                 .type   = FIO_OPT_BOOL,
3125                 .off1   = offsetof(struct thread_options, read_iolog_chunked),
3126                 .def    = "0",
3127                 .parent = "read_iolog",
3128                 .help   = "Parse IO pattern in chunks",
3129                 .category = FIO_OPT_C_IO,
3130                 .group  = FIO_OPT_G_IOLOG,
3131         },
3132         {
3133                 .name   = "replay_no_stall",
3134                 .lname  = "Don't stall on replay",
3135                 .type   = FIO_OPT_BOOL,
3136                 .off1   = offsetof(struct thread_options, no_stall),
3137                 .def    = "0",
3138                 .parent = "read_iolog",
3139                 .hide   = 1,
3140                 .help   = "Playback IO pattern file as fast as possible without stalls",
3141                 .category = FIO_OPT_C_IO,
3142                 .group  = FIO_OPT_G_IOLOG,
3143         },
3144         {
3145                 .name   = "replay_redirect",
3146                 .lname  = "Redirect device for replay",
3147                 .type   = FIO_OPT_STR_STORE,
3148                 .off1   = offsetof(struct thread_options, replay_redirect),
3149                 .parent = "read_iolog",
3150                 .hide   = 1,
3151                 .help   = "Replay all I/O onto this device, regardless of trace device",
3152                 .category = FIO_OPT_C_IO,
3153                 .group  = FIO_OPT_G_IOLOG,
3154         },
3155         {
3156                 .name   = "replay_scale",
3157                 .lname  = "Replace offset scale factor",
3158                 .type   = FIO_OPT_INT,
3159                 .off1   = offsetof(struct thread_options, replay_scale),
3160                 .parent = "read_iolog",
3161                 .def    = "1",
3162                 .help   = "Align offsets to this blocksize",
3163                 .category = FIO_OPT_C_IO,
3164                 .group  = FIO_OPT_G_IOLOG,
3165         },
3166         {
3167                 .name   = "replay_align",
3168                 .lname  = "Replace alignment",
3169                 .type   = FIO_OPT_INT,
3170                 .off1   = offsetof(struct thread_options, replay_align),
3171                 .parent = "read_iolog",
3172                 .help   = "Scale offset down by this factor",
3173                 .category = FIO_OPT_C_IO,
3174                 .group  = FIO_OPT_G_IOLOG,
3175                 .pow2   = 1,
3176         },
3177         {
3178                 .name   = "replay_time_scale",
3179                 .lname  = "Replay Time Scale",
3180                 .type   = FIO_OPT_INT,
3181                 .off1   = offsetof(struct thread_options, replay_time_scale),
3182                 .def    = "100",
3183                 .minval = 1,
3184                 .parent = "read_iolog",
3185                 .hide   = 1,
3186                 .help   = "Scale time for replay events",
3187                 .category = FIO_OPT_C_IO,
3188                 .group  = FIO_OPT_G_IOLOG,
3189         },
3190         {
3191                 .name   = "replay_skip",
3192                 .lname  = "Replay Skip",
3193                 .type   = FIO_OPT_STR,
3194                 .cb     = str_replay_skip_cb,
3195                 .off1   = offsetof(struct thread_options, replay_skip),
3196                 .parent = "read_iolog",
3197                 .help   = "Skip certain IO types (read,write,trim,flush)",
3198                 .category = FIO_OPT_C_IO,
3199                 .group  = FIO_OPT_G_IOLOG,
3200         },
3201         {
3202                 .name   = "exec_prerun",
3203                 .lname  = "Pre-execute runnable",
3204                 .type   = FIO_OPT_STR_STORE,
3205                 .off1   = offsetof(struct thread_options, exec_prerun),
3206                 .help   = "Execute this file prior to running job",
3207                 .category = FIO_OPT_C_GENERAL,
3208                 .group  = FIO_OPT_G_INVALID,
3209         },
3210         {
3211                 .name   = "exec_postrun",
3212                 .lname  = "Post-execute runnable",
3213                 .type   = FIO_OPT_STR_STORE,
3214                 .off1   = offsetof(struct thread_options, exec_postrun),
3215                 .help   = "Execute this file after running job",
3216                 .category = FIO_OPT_C_GENERAL,
3217                 .group  = FIO_OPT_G_INVALID,
3218         },
3219 #ifdef FIO_HAVE_IOSCHED_SWITCH
3220         {
3221                 .name   = "ioscheduler",
3222                 .lname  = "I/O scheduler",
3223                 .type   = FIO_OPT_STR_STORE,
3224                 .off1   = offsetof(struct thread_options, ioscheduler),
3225                 .help   = "Use this IO scheduler on the backing device",
3226                 .category = FIO_OPT_C_FILE,
3227                 .group  = FIO_OPT_G_INVALID,
3228         },
3229 #else
3230         {
3231                 .name   = "ioscheduler",
3232                 .lname  = "I/O scheduler",
3233                 .type   = FIO_OPT_UNSUPPORTED,
3234                 .help   = "Your platform does not support IO scheduler switching",
3235         },
3236 #endif
3237         {
3238                 .name   = "zonemode",
3239                 .lname  = "Zone mode",
3240                 .help   = "Mode for the zonesize, zonerange and zoneskip parameters",
3241                 .type   = FIO_OPT_STR,
3242                 .off1   = offsetof(struct thread_options, zone_mode),
3243                 .def    = "none",
3244                 .category = FIO_OPT_C_IO,
3245                 .group  = FIO_OPT_G_ZONE,
3246                 .posval = {
3247                            { .ival = "none",
3248                              .oval = ZONE_MODE_NONE,
3249                              .help = "no zoning",
3250                            },
3251                            { .ival = "strided",
3252                              .oval = ZONE_MODE_STRIDED,
3253                              .help = "strided mode - random I/O is restricted to a single zone",
3254                            },
3255                            { .ival = "zbd",
3256                              .oval = ZONE_MODE_ZBD,
3257                              .help = "zoned block device mode - random I/O selects one of multiple zones randomly",
3258                            },
3259                 },
3260         },
3261         {
3262                 .name   = "zonesize",
3263                 .lname  = "Zone size",
3264                 .type   = FIO_OPT_STR_VAL,
3265                 .off1   = offsetof(struct thread_options, zone_size),
3266                 .help   = "Amount of data to read per zone",
3267                 .def    = "0",
3268                 .interval = 1024 * 1024,
3269                 .category = FIO_OPT_C_IO,
3270                 .group  = FIO_OPT_G_ZONE,
3271         },
3272         {
3273                 .name   = "zonerange",
3274                 .lname  = "Zone range",
3275                 .type   = FIO_OPT_STR_VAL,
3276                 .off1   = offsetof(struct thread_options, zone_range),
3277                 .help   = "Give size of an IO zone",
3278                 .def    = "0",
3279                 .interval = 1024 * 1024,
3280                 .category = FIO_OPT_C_IO,
3281                 .group  = FIO_OPT_G_ZONE,
3282         },
3283         {
3284                 .name   = "zoneskip",
3285                 .lname  = "Zone skip",
3286                 .type   = FIO_OPT_STR_VAL,
3287                 .off1   = offsetof(struct thread_options, zone_skip),
3288                 .help   = "Space between IO zones",
3289                 .def    = "0",
3290                 .interval = 1024 * 1024,
3291                 .category = FIO_OPT_C_IO,
3292                 .group  = FIO_OPT_G_ZONE,
3293         },
3294         {
3295                 .name   = "read_beyond_wp",
3296                 .lname  = "Allow reads beyond the zone write pointer",
3297                 .type   = FIO_OPT_BOOL,
3298                 .off1   = offsetof(struct thread_options, read_beyond_wp),
3299                 .help   = "Allow reads beyond the zone write pointer",
3300                 .def    = "0",
3301                 .category = FIO_OPT_C_IO,
3302                 .group  = FIO_OPT_G_INVALID,
3303         },
3304         {
3305                 .name   = "max_open_zones",
3306                 .lname  = "Maximum number of open zones",
3307                 .type   = FIO_OPT_INT,
3308                 .off1   = offsetof(struct thread_options, max_open_zones),
3309                 .maxval = FIO_MAX_OPEN_ZBD_ZONES,
3310                 .help   = "Limit random writes to SMR drives to the specified"
3311                           " number of sequential zones",
3312                 .def    = "0",
3313                 .category = FIO_OPT_C_IO,
3314                 .group  = FIO_OPT_G_INVALID,
3315         },
3316         {
3317                 .name   = "zone_reset_threshold",
3318                 .lname  = "Zone reset threshold",
3319                 .help   = "Zoned block device reset threshold",
3320                 .type   = FIO_OPT_FLOAT_LIST,
3321                 .maxlen = 1,
3322                 .off1   = offsetof(struct thread_options, zrt),
3323                 .minfp  = 0,
3324                 .maxfp  = 1,
3325                 .category = FIO_OPT_C_IO,
3326                 .group  = FIO_OPT_G_ZONE,
3327         },
3328         {
3329                 .name   = "zone_reset_frequency",
3330                 .lname  = "Zone reset frequency",
3331                 .help   = "Zoned block device zone reset frequency in HZ",
3332                 .type   = FIO_OPT_FLOAT_LIST,
3333                 .maxlen = 1,
3334                 .off1   = offsetof(struct thread_options, zrf),
3335                 .minfp  = 0,
3336                 .maxfp  = 1,
3337                 .category = FIO_OPT_C_IO,
3338                 .group  = FIO_OPT_G_ZONE,
3339         },
3340         {
3341                 .name   = "lockmem",
3342                 .lname  = "Lock memory",
3343                 .type   = FIO_OPT_STR_VAL,
3344                 .off1   = offsetof(struct thread_options, lockmem),
3345                 .help   = "Lock down this amount of memory (per worker)",
3346                 .def    = "0",
3347                 .interval = 1024 * 1024,
3348                 .category = FIO_OPT_C_GENERAL,
3349                 .group  = FIO_OPT_G_INVALID,
3350         },
3351         {