/* * This file contains job initialization and setup functions. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "fio.h" #include "parse.h" #include "smalloc.h" #include "filehash.h" #include "verify.h" #include "profile.h" static char fio_version_string[] = "fio 1.38"; #define FIO_RANDSEED (0xb1899bedUL) static char **ini_file; static int max_jobs = MAX_JOBS; static int dump_cmdline; static struct thread_data def_thread; struct thread_data *threads = NULL; int exitall_on_terminate = 0; int terse_output = 0; int eta_print; unsigned long long mlock_size = 0; FILE *f_out = NULL; FILE *f_err = NULL; char *job_section = NULL; char *exec_profile = NULL; int write_bw_log = 0; int read_only = 0; static int def_timeout; static int write_lat_log; static int prev_group_jobs; unsigned long fio_debug = 0; unsigned int fio_debug_jobno = -1; unsigned int *fio_debug_jobp = NULL; /* * Command line options. These will contain the above, plus a few * extra that only pertain to fio itself and not jobs. */ static struct option l_opts[FIO_NR_OPTIONS] = { { .name = "output", .has_arg = required_argument, .val = 'o', }, { .name = "timeout", .has_arg = required_argument, .val = 't', }, { .name = "latency-log", .has_arg = required_argument, .val = 'l', }, { .name = "bandwidth-log", .has_arg = required_argument, .val = 'b', }, { .name = "minimal", .has_arg = optional_argument, .val = 'm', }, { .name = "version", .has_arg = no_argument, .val = 'v', }, { .name = "help", .has_arg = no_argument, .val = 'h', }, { .name = "cmdhelp", .has_arg = optional_argument, .val = 'c', }, { .name = "showcmd", .has_arg = no_argument, .val = 's', }, { .name = "readonly", .has_arg = no_argument, .val = 'r', }, { .name = "eta", .has_arg = required_argument, .val = 'e', }, { .name = "debug", .has_arg = required_argument, .val = 'd', }, { .name = "section", .has_arg = required_argument, .val = 'x', }, { .name = "alloc-size", .has_arg = required_argument, .val = 'a', }, { .name = "profile", .has_arg = required_argument, .val = 'p', }, { .name = NULL, }, }; FILE *get_f_out() { return f_out; } FILE *get_f_err() { return f_err; } /* * Return a free job structure. */ static struct thread_data *get_new_job(int global, struct thread_data *parent) { struct thread_data *td; if (global) return &def_thread; if (thread_number >= max_jobs) return NULL; td = &threads[thread_number++]; *td = *parent; td->o.uid = td->o.gid = -1U; dup_files(td, parent); options_mem_dupe(td); profile_add_hooks(td); td->thread_number = thread_number; return td; } static void put_job(struct thread_data *td) { if (td == &def_thread) return; profile_td_exit(td); if (td->error) log_info("fio: %s\n", td->verror); memset(&threads[td->thread_number - 1], 0, sizeof(*td)); thread_number--; } static int __setup_rate(struct thread_data *td, enum fio_ddir ddir) { unsigned int bs = td->o.min_bs[ddir]; unsigned long long bytes_per_sec; if (td->o.rate[ddir]) bytes_per_sec = td->o.rate[ddir]; else bytes_per_sec = td->o.rate_iops[ddir] * bs; if (!bytes_per_sec) { log_err("rate lower than supported\n"); return -1; } td->rate_nsec_cycle[ddir] = 1000000000ULL / bytes_per_sec; td->rate_pending_usleep[ddir] = 0; return 0; } static int setup_rate(struct thread_data *td) { int ret = 0; if (td->o.rate[DDIR_READ] || td->o.rate_iops[DDIR_READ]) ret = __setup_rate(td, DDIR_READ); if (td->o.rate[DDIR_WRITE] || td->o.rate_iops[DDIR_WRITE]) ret |= __setup_rate(td, DDIR_WRITE); return ret; } static int fixed_block_size(struct thread_options *o) { return o->min_bs[DDIR_READ] == o->max_bs[DDIR_READ] && o->min_bs[DDIR_WRITE] == o->max_bs[DDIR_WRITE] && o->min_bs[DDIR_READ] == o->min_bs[DDIR_WRITE]; } /* * Lazy way of fixing up options that depend on each other. We could also * define option callback handlers, but this is easier. */ static int fixup_options(struct thread_data *td) { struct thread_options *o = &td->o; #ifndef FIO_HAVE_PSHARED_MUTEX if (!o->use_thread) { log_info("fio: this platform does not support process shared" " mutexes, forcing use of threads. Use the 'thread'" " option to get rid of this warning.\n"); o->use_thread = 1; } #endif if (o->write_iolog_file && o->read_iolog_file) { log_err("fio: read iolog overrides write_iolog\n"); free(o->write_iolog_file); o->write_iolog_file = NULL; } /* * only really works for sequential io for now, and with 1 file */ if (o->zone_size && td_random(td) && o->open_files == 1) o->zone_size = 0; /* * Reads can do overwrites, we always need to pre-create the file */ if (td_read(td) || td_rw(td)) o->overwrite = 1; if (!o->min_bs[DDIR_READ]) o->min_bs[DDIR_READ] = o->bs[DDIR_READ]; if (!o->max_bs[DDIR_READ]) o->max_bs[DDIR_READ] = o->bs[DDIR_READ]; if (!o->min_bs[DDIR_WRITE]) o->min_bs[DDIR_WRITE] = o->bs[DDIR_WRITE]; if (!o->max_bs[DDIR_WRITE]) o->max_bs[DDIR_WRITE] = o->bs[DDIR_WRITE]; o->rw_min_bs = min(o->min_bs[DDIR_READ], o->min_bs[DDIR_WRITE]); /* * For random IO, allow blockalign offset other than min_bs. */ if (!o->ba[DDIR_READ] || !td_random(td)) o->ba[DDIR_READ] = o->min_bs[DDIR_READ]; if (!o->ba[DDIR_WRITE] || !td_random(td)) o->ba[DDIR_WRITE] = o->min_bs[DDIR_WRITE]; if ((o->ba[DDIR_READ] != o->min_bs[DDIR_READ] || o->ba[DDIR_WRITE] != o->min_bs[DDIR_WRITE]) && !o->norandommap) { log_err("fio: Any use of blockalign= turns off randommap\n"); o->norandommap = 1; } if (!o->file_size_high) o->file_size_high = o->file_size_low; if (o->norandommap && o->verify != VERIFY_NONE && !fixed_block_size(o)) { log_err("fio: norandommap given for variable block sizes, " "verify disabled\n"); o->verify = VERIFY_NONE; } if (o->bs_unaligned && (o->odirect || td->io_ops->flags & FIO_RAWIO)) log_err("fio: bs_unaligned may not work with raw io\n"); /* * thinktime_spin must be less than thinktime */ if (o->thinktime_spin > o->thinktime) o->thinktime_spin = o->thinktime; /* * The low water mark cannot be bigger than the iodepth */ if (o->iodepth_low > o->iodepth || !o->iodepth_low) { /* * syslet work around - if the workload is sequential, * we want to let the queue drain all the way down to * avoid seeking between async threads */ if (!strcmp(td->io_ops->name, "syslet-rw") && !td_random(td)) o->iodepth_low = 1; else o->iodepth_low = o->iodepth; } /* * If batch number isn't set, default to the same as iodepth */ if (o->iodepth_batch > o->iodepth || !o->iodepth_batch) o->iodepth_batch = o->iodepth; if (o->nr_files > td->files_index) o->nr_files = td->files_index; if (o->open_files > o->nr_files || !o->open_files) o->open_files = o->nr_files; if (((o->rate[0] + o->rate[1]) && (o->rate_iops[0] + o->rate_iops[1]))|| ((o->ratemin[0] + o->ratemin[1]) && (o->rate_iops_min[0] + o->rate_iops_min[1]))) { log_err("fio: rate and rate_iops are mutually exclusive\n"); return 1; } if ((o->rate[0] < o->ratemin[0]) || (o->rate[1] < o->ratemin[1]) || (o->rate_iops[0] < o->rate_iops_min[0]) || (o->rate_iops[1] < o->rate_iops_min[1])) { log_err("fio: minimum rate exceeds rate\n"); return 1; } if (!o->timeout && o->time_based) { log_err("fio: time_based requires a runtime/timeout setting\n"); o->time_based = 0; } if (o->fill_device && !o->size) o->size = -1ULL; if (td_rw(td) && o->verify != VERIFY_NONE) log_info("fio: mixed read/write workload with verify. May not " "work as expected, unless you pre-populated the file\n"); if (o->verify != VERIFY_NONE) { o->refill_buffers = 1; if (o->max_bs[DDIR_WRITE] != o->min_bs[DDIR_WRITE] && !o->verify_interval) o->verify_interval = o->min_bs[DDIR_WRITE]; } if (o->pre_read) { o->invalidate_cache = 0; if (td->io_ops->flags & FIO_PIPEIO) log_info("fio: cannot pre-read files with an IO engine" " that isn't seekable. Pre-read disabled.\n"); } #ifndef FIO_HAVE_FDATASYNC if (o->fdatasync_blocks) { log_info("fio: this platform does not support fdatasync()" " falling back to using fsync(). Use the 'fsync'" " option instead of 'fdatasync' to get rid of" " this warning\n"); o->fsync_blocks = o->fdatasync_blocks; o->fdatasync_blocks = 0; } #endif return 0; } /* * This function leaks the buffer */ static char *to_kmg(unsigned int val) { char *buf = malloc(32); char post[] = { 0, 'K', 'M', 'G', 'P', 'E', 0 }; char *p = post; do { if (val & 1023) break; val >>= 10; p++; } while (*p); snprintf(buf, 31, "%u%c", val, *p); return buf; } /* External engines are specified by "external:name.o") */ static const char *get_engine_name(const char *str) { char *p = strstr(str, ":"); if (!p) return str; p++; strip_blank_front(&p); strip_blank_end(p); return p; } static int exists_and_not_file(const char *filename) { struct stat sb; if (lstat(filename, &sb) == -1) return 0; if (S_ISREG(sb.st_mode)) return 0; return 1; } void td_fill_rand_seeds(struct thread_data *td) { os_random_seed(td->rand_seeds[0], &td->bsrange_state); os_random_seed(td->rand_seeds[1], &td->verify_state); os_random_seed(td->rand_seeds[2], &td->rwmix_state); if (td->o.file_service_type == FIO_FSERVICE_RANDOM) os_random_seed(td->rand_seeds[3], &td->next_file_state); os_random_seed(td->rand_seeds[5], &td->file_size_state); if (!td_random(td)) return; if (td->o.rand_repeatable) td->rand_seeds[4] = FIO_RANDSEED * td->thread_number; os_random_seed(td->rand_seeds[4], &td->random_state); } /* * Initialize the various random states we need (random io, block size ranges, * read/write mix, etc). */ static int init_random_state(struct thread_data *td) { int fd; fd = open("/dev/urandom", O_RDONLY); if (fd == -1) { td_verror(td, errno, "open"); return 1; } if (read(fd, td->rand_seeds, sizeof(td->rand_seeds)) < (int) sizeof(td->rand_seeds)) { td_verror(td, EIO, "read"); close(fd); return 1; } close(fd); td_fill_rand_seeds(td); return 0; } /* * Adds a job to the list of things todo. Sanitizes the various options * to make sure we don't have conflicts, and initializes various * members of td. */ static int add_job(struct thread_data *td, const char *jobname, int job_add_num) { const char *ddir_str[] = { NULL, "read", "write", "rw", NULL, "randread", "randwrite", "randrw" }; unsigned int i; const char *engine; char fname[PATH_MAX]; int numjobs, file_alloced; /* * the def_thread is just for options, it's not a real job */ if (td == &def_thread) return 0; /* * if we are just dumping the output command line, don't add the job */ if (dump_cmdline) { put_job(td); return 0; } if (profile_td_init(td)) return 1; engine = get_engine_name(td->o.ioengine); td->io_ops = load_ioengine(td, engine); if (!td->io_ops) { log_err("fio: failed to load engine %s\n", engine); goto err; } if (td->o.use_thread) nr_thread++; else nr_process++; if (td->o.odirect) td->io_ops->flags |= FIO_RAWIO; file_alloced = 0; if (!td->o.filename && !td->files_index && !td->o.read_iolog_file) { file_alloced = 1; if (td->o.nr_files == 1 && exists_and_not_file(jobname)) add_file(td, jobname); else { for (i = 0; i < td->o.nr_files; i++) { sprintf(fname, "%s.%d.%d", jobname, td->thread_number, i); add_file(td, fname); } } } if (fixup_options(td)) goto err; if (td->io_ops->flags & FIO_DISKLESSIO) { struct fio_file *f; for_each_file(td, f, i) f->real_file_size = -1ULL; } td->mutex = fio_mutex_init(0); td->ts.clat_stat[0].min_val = td->ts.clat_stat[1].min_val = ULONG_MAX; td->ts.slat_stat[0].min_val = td->ts.slat_stat[1].min_val = ULONG_MAX; td->ts.bw_stat[0].min_val = td->ts.bw_stat[1].min_val = ULONG_MAX; td->ddir_nr = td->o.ddir_nr; if ((td->o.stonewall || td->o.new_group) && prev_group_jobs) { prev_group_jobs = 0; groupid++; } td->groupid = groupid; prev_group_jobs++; if (init_random_state(td)) goto err; if (setup_rate(td)) goto err; if (td->o.write_lat_log) { setup_log(&td->ts.slat_log); setup_log(&td->ts.clat_log); } if (td->o.write_bw_log) setup_log(&td->ts.bw_log); if (!td->o.name) td->o.name = strdup(jobname); if (!terse_output) { if (!job_add_num) { if (!strcmp(td->io_ops->name, "cpuio")) { log_info("%s: ioengine=cpu, cpuload=%u," " cpucycle=%u\n", td->o.name, td->o.cpuload, td->o.cpucycle); } else { char *c1, *c2, *c3, *c4; c1 = to_kmg(td->o.min_bs[DDIR_READ]); c2 = to_kmg(td->o.max_bs[DDIR_READ]); c3 = to_kmg(td->o.min_bs[DDIR_WRITE]); c4 = to_kmg(td->o.max_bs[DDIR_WRITE]); log_info("%s: (g=%d): rw=%s, bs=%s-%s/%s-%s," " ioengine=%s, iodepth=%u\n", td->o.name, td->groupid, ddir_str[td->o.td_ddir], c1, c2, c3, c4, td->io_ops->name, td->o.iodepth); free(c1); free(c2); free(c3); free(c4); } } else if (job_add_num == 1) log_info("...\n"); } /* * recurse add identical jobs, clear numjobs and stonewall options * as they don't apply to sub-jobs */ numjobs = td->o.numjobs; while (--numjobs) { struct thread_data *td_new = get_new_job(0, td); if (!td_new) goto err; td_new->o.numjobs = 1; td_new->o.stonewall = 0; td_new->o.new_group = 0; if (file_alloced) { td_new->o.filename = NULL; td_new->files_index = 0; td_new->files_size = 0; td_new->files = NULL; } job_add_num = numjobs - 1; if (add_job(td_new, jobname, job_add_num)) goto err; } return 0; err: put_job(td); return -1; } /* * Parse as if 'o' was a command line */ void add_job_opts(const char **o) { struct thread_data *td, *td_parent; int i, in_global = 1; char jobname[32]; i = 0; td_parent = td = NULL; while (o[i]) { if (!strncmp(o[i], "name", 4)) { in_global = 0; if (td) add_job(td, jobname, 0); td = NULL; sprintf(jobname, "%s", o[i] + 5); } if (in_global && !td_parent) td_parent = get_new_job(1, &def_thread); else if (!in_global && !td) { if (!td_parent) td_parent = &def_thread; td = get_new_job(0, td_parent); } if (in_global) fio_options_parse(td_parent, (char **) &o[i], 1); else fio_options_parse(td, (char **) &o[i], 1); i++; } if (td) add_job(td, jobname, 0); } static int skip_this_section(const char *name) { if (!job_section) return 0; if (!strncmp(name, "global", 6)) return 0; return strcmp(job_section, name); } static int is_empty_or_comment(char *line) { unsigned int i; for (i = 0; i < strlen(line); i++) { if (line[i] == ';') return 1; if (line[i] == '#') return 1; if (!isspace(line[i]) && !iscntrl(line[i])) return 0; } return 1; } /* * This is our [ini] type file parser. */ static int parse_jobs_ini(char *file, int stonewall_flag) { unsigned int global; struct thread_data *td; char *string, *name; FILE *f; char *p; int ret = 0, stonewall; int first_sect = 1; int skip_fgets = 0; int inside_skip = 0; char **opts; int i, alloc_opts, num_opts; if (!strcmp(file, "-")) f = stdin; else f = fopen(file, "r"); if (!f) { perror("fopen job file"); return 1; } string = malloc(4096); /* * it's really 256 + small bit, 280 should suffice */ name = malloc(280); memset(name, 0, 280); alloc_opts = 8; opts = malloc(sizeof(char *) * alloc_opts); num_opts = 0; stonewall = stonewall_flag; do { /* * if skip_fgets is set, we already have loaded a line we * haven't handled. */ if (!skip_fgets) { p = fgets(string, 4095, f); if (!p) break; } skip_fgets = 0; strip_blank_front(&p); strip_blank_end(p); if (is_empty_or_comment(p)) continue; if (sscanf(p, "[%255s]", name) != 1) { if (inside_skip) continue; log_err("fio: option <%s> outside of [] job section\n", p); break; } if (skip_this_section(name)) { inside_skip = 1; continue; } else inside_skip = 0; global = !strncmp(name, "global", 6); name[strlen(name) - 1] = '\0'; if (dump_cmdline) { if (first_sect) log_info("fio "); if (!global) log_info("--name=%s ", name); first_sect = 0; } td = get_new_job(global, &def_thread); if (!td) { ret = 1; break; } /* * Seperate multiple job files by a stonewall */ if (!global && stonewall) { td->o.stonewall = stonewall; stonewall = 0; } num_opts = 0; memset(opts, 0, alloc_opts * sizeof(char *)); while ((p = fgets(string, 4096, f)) != NULL) { if (is_empty_or_comment(p)) continue; strip_blank_front(&p); /* * new section, break out and make sure we don't * fgets() a new line at the top. */ if (p[0] == '[') { skip_fgets = 1; break; } strip_blank_end(p); if (num_opts == alloc_opts) { alloc_opts <<= 1; opts = realloc(opts, alloc_opts * sizeof(char *)); } opts[num_opts] = strdup(p); num_opts++; } ret = fio_options_parse(td, opts, num_opts); if (!ret) { if (dump_cmdline) for (i = 0; i < num_opts; i++) log_info("--%s ", opts[i]); ret = add_job(td, name, 0); } else { log_err("fio: job %s dropped\n", name); put_job(td); } for (i = 0; i < num_opts; i++) free(opts[i]); num_opts = 0; } while (!ret); if (dump_cmdline) log_info("\n"); for (i = 0; i < num_opts; i++) free(opts[i]); free(string); free(name); free(opts); if (f != stdin) fclose(f); return ret; } static int fill_def_thread(void) { memset(&def_thread, 0, sizeof(def_thread)); fio_getaffinity(getpid(), &def_thread.o.cpumask); /* * fill default options */ fio_fill_default_options(&def_thread); def_thread.o.timeout = def_timeout; def_thread.o.write_bw_log = write_bw_log; def_thread.o.write_lat_log = write_lat_log; return 0; } static void free_shm(void) { struct shmid_ds sbuf; if (threads) { void *tp = threads; threads = NULL; file_hash_exit(); fio_debug_jobp = NULL; shmdt(tp); shmctl(shm_id, IPC_RMID, &sbuf); } scleanup(); } /* * The thread area is shared between the main process and the job * threads/processes. So setup a shared memory segment that will hold * all the job info. We use the end of the region for keeping track of * open files across jobs, for file sharing. */ static int setup_thread_area(void) { void *hash; /* * 1024 is too much on some machines, scale max_jobs if * we get a failure that looks like too large a shm segment */ do { size_t size = max_jobs * sizeof(struct thread_data); size += file_hash_size; size += sizeof(unsigned int); shm_id = shmget(0, size, IPC_CREAT | 0600); if (shm_id != -1) break; if (errno != EINVAL) { perror("shmget"); break; } max_jobs >>= 1; } while (max_jobs); if (shm_id == -1) return 1; threads = shmat(shm_id, NULL, 0); if (threads == (void *) -1) { perror("shmat"); return 1; } memset(threads, 0, max_jobs * sizeof(struct thread_data)); hash = (void *) threads + max_jobs * sizeof(struct thread_data); fio_debug_jobp = (void *) hash + file_hash_size; *fio_debug_jobp = -1; file_hash_init(hash); atexit(free_shm); return 0; } static void usage(const char *name) { printf("%s\n", fio_version_string); printf("%s [options] [job options] \n", name); printf("\t--debug=options\tEnable debug logging\n"); printf("\t--output\tWrite output to file\n"); printf("\t--timeout\tRuntime in seconds\n"); printf("\t--latency-log\tGenerate per-job latency logs\n"); printf("\t--bandwidth-log\tGenerate per-job bandwidth logs\n"); printf("\t--minimal\tMinimal (terse) output\n"); printf("\t--version\tPrint version info and exit\n"); printf("\t--help\t\tPrint this page\n"); printf("\t--cmdhelp=cmd\tPrint command help, \"all\" for all of" " them\n"); printf("\t--showcmd\tTurn a job file into command line options\n"); printf("\t--eta=when\tWhen ETA estimate should be printed\n"); printf("\t \tMay be \"always\", \"never\" or \"auto\"\n"); printf("\t--readonly\tTurn on safety read-only checks, preventing" " writes\n"); printf("\t--section=name\tOnly run specified section in job file\n"); printf("\t--alloc-size=kb\tSet smalloc pool to this size in kb" " (def 1024)\n"); printf("\nFio was written by Jens Axboe \n"); } #ifdef FIO_INC_DEBUG struct debug_level debug_levels[] = { { .name = "process", .shift = FD_PROCESS, }, { .name = "file", .shift = FD_FILE, }, { .name = "io", .shift = FD_IO, }, { .name = "mem", .shift = FD_MEM, }, { .name = "blktrace", .shift = FD_BLKTRACE }, { .name = "verify", .shift = FD_VERIFY }, { .name = "random", .shift = FD_RANDOM }, { .name = "parse", .shift = FD_PARSE }, { .name = "diskutil", .shift = FD_DISKUTIL }, { .name = "job", .shift = FD_JOB }, { .name = "mutex", .shift = FD_MUTEX }, { .name = "profile", .shift = FD_PROFILE }, { .name = "time", .shift = FD_TIME }, { .name = NULL, }, }; static int set_debug(const char *string) { struct debug_level *dl; char *p = (char *) string; char *opt; int i; if (!strcmp(string, "?") || !strcmp(string, "help")) { int i; log_info("fio: dumping debug options:"); for (i = 0; debug_levels[i].name; i++) { dl = &debug_levels[i]; log_info("%s,", dl->name); } log_info("all\n"); return 1; } while ((opt = strsep(&p, ",")) != NULL) { int found = 0; if (!strncmp(opt, "all", 3)) { log_info("fio: set all debug options\n"); fio_debug = ~0UL; continue; } for (i = 0; debug_levels[i].name; i++) { dl = &debug_levels[i]; found = !strncmp(opt, dl->name, strlen(dl->name)); if (!found) continue; if (dl->shift == FD_JOB) { opt = strchr(opt, ':'); if (!opt) { log_err("fio: missing job number\n"); break; } opt++; fio_debug_jobno = atoi(opt); log_info("fio: set debug jobno %d\n", fio_debug_jobno); } else { log_info("fio: set debug option %s\n", opt); fio_debug |= (1UL << dl->shift); } break; } if (!found) log_err("fio: debug mask %s not found\n", opt); } return 0; } #else static int set_debug(const char *string) { log_err("fio: debug tracing not included in build\n"); return 1; } #endif static int parse_cmd_line(int argc, char *argv[]) { struct thread_data *td = NULL; int c, ini_idx = 0, lidx, ret = 0, do_exit = 0, exit_val = 0; while ((c = getopt_long_only(argc, argv, "", l_opts, &lidx)) != -1) { switch (c) { case 'a': smalloc_pool_size = atoi(optarg); break; case 't': def_timeout = atoi(optarg); break; case 'l': write_lat_log = 1; break; case 'b': write_bw_log = 1; break; case 'o': f_out = fopen(optarg, "w+"); if (!f_out) { perror("fopen output"); exit(1); } f_err = f_out; break; case 'm': terse_output = 1; break; case 'h': usage(argv[0]); exit(0); case 'c': exit(fio_show_option_help(optarg)); case 's': dump_cmdline = 1; break; case 'r': read_only = 1; break; case 'v': printf("%s\n", fio_version_string); exit(0); case 'e': if (!strcmp("always", optarg)) eta_print = FIO_ETA_ALWAYS; else if (!strcmp("never", optarg)) eta_print = FIO_ETA_NEVER; break; case 'd': if (set_debug(optarg)) do_exit++; break; case 'x': if (!strcmp(optarg, "global")) { log_err("fio: can't use global as only " "section\n"); do_exit++; exit_val = 1; break; } if (job_section) free(job_section); job_section = strdup(optarg); break; case 'p': exec_profile = strdup(optarg); break; case FIO_GETOPT_JOB: { const char *opt = l_opts[lidx].name; char *val = optarg; if (!strncmp(opt, "name", 4) && td) { ret = add_job(td, td->o.name ?: "fio", 0); if (ret) { put_job(td); return 0; } td = NULL; } if (!td) { int is_section = !strncmp(opt, "name", 4); int global = 0; if (!is_section || !strncmp(val, "global", 6)) global = 1; if (is_section && skip_this_section(val)) continue; td = get_new_job(global, &def_thread); if (!td) return 0; } ret = fio_cmd_option_parse(td, opt, val); break; } default: do_exit++; exit_val = 1; break; } } if (do_exit) exit(exit_val); if (td) { if (!ret) ret = add_job(td, td->o.name ?: "fio", 0); if (ret) put_job(td); } while (optind < argc) { ini_idx++; ini_file = realloc(ini_file, ini_idx * sizeof(char *)); ini_file[ini_idx - 1] = strdup(argv[optind]); optind++; } return ini_idx; } int parse_options(int argc, char *argv[]) { int job_files, i; f_out = stdout; f_err = stderr; fio_options_dup_and_init(l_opts); if (setup_thread_area()) return 1; if (fill_def_thread()) return 1; job_files = parse_cmd_line(argc, argv); for (i = 0; i < job_files; i++) { if (fill_def_thread()) return 1; if (parse_jobs_ini(ini_file[i], i)) return 1; free(ini_file[i]); } free(ini_file); options_mem_free(&def_thread); if (!thread_number) { if (dump_cmdline) return 0; if (exec_profile) return 0; log_err("No jobs defined(s)\n\n"); usage(argv[0]); return 1; } if (def_thread.o.gtod_offload) { fio_gtod_init(); fio_gtod_offload = 1; fio_gtod_cpu = def_thread.o.gtod_cpu; } return 0; }