/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. * * rewritten from UCB 4.13 83/09/25 * rewritten from SunOS 4.1 SID 1.18 89/10/06 */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dsr.h" #include "statcommon.h" #define DISK_OLD 0x0001 #define DISK_NEW 0x0002 #define DISK_EXTENDED 0x0004 #define DISK_ERRORS 0x0008 #define DISK_EXTENDED_ERRORS 0x0010 #define DISK_IOPATH 0x0020 #define DISK_NORMAL (DISK_OLD | DISK_NEW) #define DISK_IO_MASK (DISK_OLD | DISK_NEW | DISK_EXTENDED) #define DISK_ERROR_MASK (DISK_ERRORS | DISK_EXTENDED_ERRORS) #define PRINT_VERTICAL (DISK_ERROR_MASK | DISK_EXTENDED | DISK_IOPATH) #define REPRINT 19 /* * It's really a pseudo-gigabyte. We use 1000000000 bytes so that the disk * labels don't look bad. 1GB is really 1073741824 bytes. */ #define DISK_GIGABYTE 1000000000.0 /* * Function desciptor to be called when extended * headers are used. */ typedef struct formatter { void (*nfunc)(void); struct formatter *next; } format_t; /* * Used to get formatting right when printing tty/cpu * data to the right of disk data */ enum show_disk_mode { SHOW_FIRST_ONLY, SHOW_SECOND_ONWARDS, SHOW_ALL }; enum show_disk_mode show_disk_mode = SHOW_ALL; char cmdname[] = "iostat"; static char one_blank[] = " "; static char two_blanks[] = " "; /* * count for number of lines to be emitted before a header is * shown again. Only used for the basic format. */ static uint_t tohdr = 1; /* * If we're in raw format, have we printed a header? We only do it * once for raw but we emit it every REPRINT lines in non-raw format. * This applies only for the basic header. The extended header is * done only once in both formats. */ static uint_t hdr_out; /* * Flags representing arguments from command line */ static uint_t do_tty; /* show tty info (-t) */ static uint_t do_disk; /* show disk info per selected */ /* format (-d, -D, -e, -E, -x -X) */ static uint_t do_cpu; /* show cpu info (-c) */ static uint_t do_interval; /* do intervals (-I) */ static int do_partitions; /* per-partition stats (-p) */ static int do_partitions_only; /* per-partition stats only (-P) */ /* no per-device stats for disks */ static uint_t do_conversions; /* display disks as cXtYdZ (-n) */ static uint_t do_megabytes; /* display data in MB/sec (-M) */ static uint_t do_controller; /* display controller info (-C) */ static uint_t do_raw; /* emit raw format (-r) */ static uint_t do_timestamp; /* timestamp each display (-T) */ static uint_t do_devid; /* -E should show devid */ /* * Definition of allowable types of timestamps */ #define CDATE 1 #define UDATE 2 /* * Default number of disk drives to be displayed in basic format */ #define DEFAULT_LIMIT 4 struct iodev_filter df; static uint_t suppress_state; /* skip state change messages */ static uint_t suppress_zero; /* skip zero valued lines */ static uint_t show_mountpts; /* show mount points */ static int interval; /* interval (seconds) to output */ static int iter; /* iterations from command line */ #define SMALL_SCRATCH_BUFLEN 64 #define DISPLAYED_NAME_FORMAT "%-9.9s" static char disk_header[132]; static uint_t dh_len; /* disk header length for centering */ static int lineout; /* data waiting to be printed? */ static struct snapshot *newss; static struct snapshot *oldss; static double getime; /* elapsed time */ static double percent; /* 100 / etime */ /* * List of functions to be called which will construct the desired output */ static format_t *formatter_list; static format_t *formatter_end; static uint64_t hrtime_delta(hrtime_t, hrtime_t); static u_longlong_t ull_delta(u_longlong_t, u_longlong_t); static uint_t u32_delta(uint_t, uint_t); static void setup(void (*nfunc)(void)); static void print_timestamp(void); static void print_tty_hdr1(void); static void print_tty_hdr2(void); static void print_cpu_hdr1(void); static void print_cpu_hdr2(void); static void print_tty_data(void); static void print_cpu_data(void); static void print_err_hdr(void); static void print_disk_header(void); static void hdrout(void); static void disk_errors(void); static void do_newline(void); static void push_out(const char *, ...); static void printhdr(int); static void printxhdr(void); static void usage(void); static void do_args(int, char **); static void do_format(void); static void set_timer(int); static void handle_sig(int); static void show_all_disks(void); static void show_first_disk(void); static void show_other_disks(void); static void show_disk_errors(void *, void *, void *); static void write_core_header(void); static int fzero(double value); static int safe_strtoi(char const *val, char *errmsg); int main(int argc, char **argv) { enum snapshot_types types = SNAP_SYSTEM; kstat_ctl_t *kc; long hz; do_args(argc, argv); do_format(); /* * iostat historically showed CPU changes, even though * it doesn't provide much useful information */ types |= SNAP_CPUS; if (do_disk) types |= SNAP_IODEVS; if (do_disk && !do_partitions_only) df.if_allowed_types |= IODEV_DISK; if (do_disk & DISK_IOPATH) { df.if_allowed_types |= IODEV_IOPATH; types |= SNAP_IOPATHS; } if (do_disk & DISK_ERROR_MASK) types |= SNAP_IODEV_ERRORS; if (do_partitions || do_partitions_only) df.if_allowed_types |= IODEV_PARTITION; if (do_conversions) types |= SNAP_IODEV_PRETTY; if (do_controller) { if (!(do_disk & PRINT_VERTICAL) || (do_disk & DISK_EXTENDED_ERRORS)) fail(0, "-C can only be used with -e or -x."); types |= SNAP_CONTROLLERS; df.if_allowed_types |= IODEV_CONTROLLER; } hz = sysconf(_SC_CLK_TCK); /* * Undocumented behavior - sending a SIGCONT will result * in a new header being emitted. Used only if we're not * doing extended headers. This is a historical * artifact. */ if (!(do_disk & PRINT_VERTICAL)) (void) signal(SIGCONT, printhdr); if (interval) set_timer(interval); kc = open_kstat(); newss = acquire_snapshot(kc, types, &df); do { if (do_tty || do_cpu) { kstat_t *oldks; oldks = oldss ? &oldss->s_sys.ss_agg_sys : NULL; getime = cpu_ticks_delta(oldks, &newss->s_sys.ss_agg_sys); percent = (getime > 0.0) ? 100.0 / getime : 0.0; getime = (getime / nr_active_cpus(newss)) / hz; if (getime == 0.0) getime = (double)interval; if (getime == 0.0 || do_interval) getime = 1.0; } if (formatter_list) { format_t *tmp; tmp = formatter_list; while (tmp) { (tmp->nfunc)(); tmp = tmp->next; } (void) fflush(stdout); } if (interval > 0 && iter != 1) (void) pause(); free_snapshot(oldss); oldss = newss; newss = acquire_snapshot(kc, types, &df); if (!suppress_state) snapshot_report_changes(oldss, newss); /* if config changed, show stats from boot */ if (snapshot_has_changed(oldss, newss)) { free_snapshot(oldss); oldss = NULL; } } while (--iter); free_snapshot(oldss); free_snapshot(newss); return (0); } /* * Some magic numbers used in header formatting. * * DISK_LEN = length of either "kps tps serv" or "wps rps util" * using 0 as the first position * * DISK_ERROR_LEN = length of "s/w h/w trn tot" with one space on * either side. Does not use zero as first pos. * * DEVICE_LEN = length of "device" + 1 character. */ #define DISK_LEN 11 #define DISK_ERROR_LEN 16 #define DEVICE_LEN 7 /*ARGSUSED*/ static void show_disk_name(void *v1, void *v2, void *data) { struct iodev_snapshot *dev = (struct iodev_snapshot *)v2; size_t slen; char *name; char fbuf[SMALL_SCRATCH_BUFLEN]; if (dev == NULL) return; name = dev->is_pretty ? dev->is_pretty : dev->is_name; if (!do_raw) { uint_t width; slen = strlen(name); /* * The length is less * than the section * which will be displayed * on the next line. * Center the entry. */ width = (DISK_LEN + 1)/2 + (slen / 2); (void) snprintf(fbuf, sizeof (fbuf), "%*s", width, name); name = fbuf; push_out("%-14.14s", name); } else { push_out(name); } } /*ARGSUSED*/ static void show_disk_header(void *v1, void *v2, void *data) { push_out(disk_header); } /* * Write out a two line header. What is written out depends on the flags * selected but in the worst case consists of a tty header, a disk header * providing information for 4 disks and a cpu header. * * The tty header consists of the word "tty" on the first line above the * words "tin tout" on the next line. If present the tty portion consumes * the first 10 characters of each line since "tin tout" is surrounded * by single spaces. * * Each of the disk sections is a 14 character "block" in which the name of * the disk is centered in the first 12 characters of the first line. * * The cpu section is an 11 character block with "cpu" centered over the * section. * * The worst case should look as follows: * * 0---------1--------2---------3---------4---------5---------6---------7------- * tty sd0 sd1 sd2 sd3 cpu * tin tout kps tps serv kps tps serv kps tps serv kps tps serv us sy wt id * NNN NNNN NNN NNN NNNN NNN NNN NNNN NNN NNN NNNN NNN NNN NNNN NN NN NN NN * * When -D is specified, the disk header looks as follows (worst case): * * 0---------1--------2---------3---------4---------5---------6---------7------- * tty sd0 sd1 sd2 sd3 cpu * tin tout rps wps util rps wps util rps wps util rps wps util us sy wt id * NNN NNNN NNN NNN NNNN NNN NNN NNNN NNN NNN NNNN NNN NNN NNNN NN NN NN NN */ static void printhdr(int sig) { /* * If we're here because a signal fired, reenable the * signal. */ if (sig) (void) signal(SIGCONT, printhdr); /* * Horizontal mode headers * * First line */ if (do_tty) print_tty_hdr1(); if (do_disk & DISK_NORMAL) { (void) snapshot_walk(SNAP_IODEVS, NULL, newss, show_disk_name, NULL); } if (do_cpu) print_cpu_hdr1(); do_newline(); /* * Second line */ if (do_tty) print_tty_hdr2(); if (do_disk & DISK_NORMAL) { (void) snapshot_walk(SNAP_IODEVS, NULL, newss, show_disk_header, NULL); } if (do_cpu) print_cpu_hdr2(); do_newline(); tohdr = REPRINT; } /* * Write out the extended header centered over the core information. */ static void write_core_header(void) { char *edev = "extended device statistics"; uint_t lead_space_ct; uint_t follow_space_ct; size_t edevlen; if (do_raw == 0) { /* * The things we do to look nice... * * Center the core output header. Make sure we have the * right number of trailing spaces for follow-on headers * (i.e., cpu and/or tty and/or errors). */ edevlen = strlen(edev); lead_space_ct = dh_len - edevlen; lead_space_ct /= 2; if (lead_space_ct > 0) { follow_space_ct = dh_len - (lead_space_ct + edevlen); if (do_disk & DISK_ERRORS) follow_space_ct -= DISK_ERROR_LEN; if ((do_disk & DISK_EXTENDED) && do_conversions) follow_space_ct -= DEVICE_LEN; push_out("%1$*2$.*2$s%3$s%4$*5$.*5$s", one_blank, lead_space_ct, edev, one_blank, follow_space_ct); } else push_out("%56s", edev); } else push_out(edev); } /* * In extended mode headers, we don't want to reprint the header on * signals as they are printed every time anyways. */ static void printxhdr(void) { /* * Vertical mode headers */ if (do_disk & DISK_EXTENDED) setup(write_core_header); if (do_disk & DISK_ERRORS) setup(print_err_hdr); if (do_conversions) { setup(do_newline); if (do_disk & (DISK_EXTENDED | DISK_ERRORS)) setup(print_disk_header); setup(do_newline); } else { if (do_tty) setup(print_tty_hdr1); if (do_cpu) setup(print_cpu_hdr1); setup(do_newline); if (do_disk & (DISK_EXTENDED | DISK_ERRORS)) setup(print_disk_header); if (do_tty) setup(print_tty_hdr2); if (do_cpu) setup(print_cpu_hdr2); setup(do_newline); } } /* * Write out a line for this disk - note that show_disk writes out * full lines or blocks for each selected disk. */ static void show_disk(void *v1, void *v2, void *data) { struct iodev_snapshot *old = (struct iodev_snapshot *)v1; struct iodev_snapshot *new = (struct iodev_snapshot *)v2; int *count = (int *)data; double rps, wps, tps, mtps, krps, kwps, kps, avw, avr, w_pct, r_pct; double wserv, rserv, serv; double iosize; /* kb/sec or MB/sec */ double etime, hr_etime; char *disk_name; u_longlong_t ldeltas; uint_t udeltas; uint64_t t_delta; uint64_t w_delta; uint64_t r_delta; int doit = 1; int i; uint_t toterrs; char *fstr; if (new == NULL) return; switch (show_disk_mode) { case SHOW_FIRST_ONLY: if (count != NULL && *count) return; break; case SHOW_SECOND_ONWARDS: if (count != NULL && !*count) { (*count)++; return; } break; default: break; } disk_name = new->is_pretty ? new->is_pretty : new->is_name; /* * Only do if we want IO stats - Avoids errors traveling this * section if that's all we want to see. */ if (do_disk & DISK_IO_MASK) { if (old) { t_delta = hrtime_delta(old->is_snaptime, new->is_snaptime); } else { t_delta = hrtime_delta(new->is_crtime, new->is_snaptime); } if (new->is_type == IODEV_CONTROLLER && new->is_nr_children) t_delta /= new->is_nr_children; hr_etime = (double)t_delta; if (hr_etime == 0.0) hr_etime = (double)NANOSEC; etime = hr_etime / (double)NANOSEC; /* reads per second */ udeltas = u32_delta(old ? old->is_stats.reads : 0, new->is_stats.reads); rps = (double)udeltas; rps /= etime; /* writes per second */ udeltas = u32_delta(old ? old->is_stats.writes : 0, new->is_stats.writes); wps = (double)udeltas; wps /= etime; tps = rps + wps; /* transactions per second */ /* * report throughput as either kb/sec or MB/sec */ if (!do_megabytes) iosize = 1024.0; else iosize = 1048576.0; ldeltas = ull_delta(old ? old->is_stats.nread : 0, new->is_stats.nread); if (ldeltas) { krps = (double)ldeltas; krps /= etime; krps /= iosize; } else krps = 0.0; ldeltas = ull_delta(old ? old->is_stats.nwritten : 0, new->is_stats.nwritten); if (ldeltas) { kwps = (double)ldeltas; kwps /= etime; kwps /= iosize; } else kwps = 0.0; /* * Blocks transferred per second */ kps = krps + kwps; /* * Average number of wait transactions waiting */ w_delta = hrtime_delta((u_longlong_t) (old ? old->is_stats.wlentime : 0), new->is_stats.wlentime); if (w_delta) { avw = (double)w_delta; avw /= hr_etime; } else avw = 0.0; /* * Average number of run transactions waiting */ r_delta = hrtime_delta(old ? old->is_stats.rlentime : 0, new->is_stats.rlentime); if (r_delta) { avr = (double)r_delta; avr /= hr_etime; } else avr = 0.0; /* * Average wait service time in milliseconds */ if (tps > 0.0 && (avw != 0.0 || avr != 0.0)) { mtps = 1000.0 / tps; if (avw != 0.0) wserv = avw * mtps; else wserv = 0.0; if (avr != 0.0) rserv = avr * mtps; else rserv = 0.0; serv = rserv + wserv; } else { rserv = 0.0; wserv = 0.0; serv = 0.0; } /* % of time there is a transaction waiting for service */ t_delta = hrtime_delta(old ? old->is_stats.wtime : 0, new->is_stats.wtime); if (t_delta) { w_pct = (double)t_delta; w_pct /= hr_etime; w_pct *= 100.0; /* * Average the wait queue utilization over the * the controller's devices, if this is a controller. */ if (new->is_type == IODEV_CONTROLLER) w_pct /= new->is_nr_children; } else w_pct = 0.0; /* % of time there is a transaction running */ t_delta = hrtime_delta(old ? old->is_stats.rtime : 0, new->is_stats.rtime); if (t_delta) { r_pct = (double)t_delta; r_pct /= hr_etime; r_pct *= 100.0; /* * Average the percent busy over the controller's * devices, if this is a controller. */ if (new->is_type == IODEV_CONTROLLER) w_pct /= new->is_nr_children; } else { r_pct = 0.0; } /* % of time there is a transaction running */ if (do_interval) { rps *= etime; wps *= etime; tps *= etime; krps *= etime; kwps *= etime; kps *= etime; } } if (do_disk & (DISK_EXTENDED | DISK_ERRORS)) { if ((!do_conversions) && ((suppress_zero == 0) || ((do_disk & DISK_EXTENDED) == 0))) { if (do_raw == 0) push_out(DISPLAYED_NAME_FORMAT, disk_name); else push_out(disk_name); } } switch (do_disk & DISK_IO_MASK) { case DISK_OLD: if (do_raw == 0) fstr = "%3.0f %3.0f %4.0f "; else fstr = "%.0f,%.0f,%.0f"; push_out(fstr, kps, tps, serv); break; case DISK_NEW: if (do_raw == 0) fstr = "%3.0f %3.0f %4.1f "; else fstr = "%.0f,%.0f,%.1f"; push_out(fstr, rps, wps, r_pct); break; case DISK_EXTENDED: if (suppress_zero) { if (fzero(rps) && fzero(wps) && fzero(krps) && fzero(kwps) && fzero(avw) && fzero(avr) && fzero(serv) && fzero(w_pct) && fzero(r_pct)) doit = 0; else if (do_conversions == 0) { if (do_raw == 0) push_out(DISPLAYED_NAME_FORMAT, disk_name); else push_out(disk_name); } } if (doit) { if (!do_conversions) { if (do_raw == 0) { fstr = " %6.1f %6.1f %6.1f %6.1f " "%4.1f %4.1f %6.1f %3.0f " "%3.0f "; } else { fstr = "%.1f,%.1f,%.1f,%.1f,%.1f,%.1f," "%.1f,%.0f,%.0f"; } push_out(fstr, rps, wps, krps, kwps, avw, avr, serv, w_pct, r_pct); } else { if (do_raw == 0) { fstr = " %6.1f %6.1f %6.1f %6.1f " "%4.1f %4.1f %6.1f %6.1f " "%3.0f %3.0f "; } else { fstr = "%.1f,%.1f,%.1f,%.1f,%.1f,%.1f," "%.1f,%.1f,%.0f,%.0f"; } push_out(fstr, rps, wps, krps, kwps, avw, avr, wserv, rserv, w_pct, r_pct); } } break; } if (do_disk & DISK_ERRORS) { if ((do_disk == DISK_ERRORS)) { if (do_raw == 0) push_out(two_blanks); } if (new->is_errors.ks_data) { kstat_named_t *knp; char *efstr; if (do_raw == 0) efstr = "%3u "; else efstr = "%u"; toterrs = 0; knp = KSTAT_NAMED_PTR(&new->is_errors); for (i = 0; i < 3; i++) { switch (knp[i].data_type) { case KSTAT_DATA_ULONG: push_out(efstr, knp[i].value.ui32); toterrs += knp[i].value.ui32; break; case KSTAT_DATA_ULONGLONG: /* * We're only set up to * write out the low * order 32-bits so * just grab that. */ push_out(efstr, knp[i].value.ui32); toterrs += knp[i].value.ui32; break; default: break; } } push_out(efstr, toterrs); } else { if (do_raw == 0) push_out(" 0 0 0 0 "); else push_out("0,0,0,0"); } } if (suppress_zero == 0 || doit == 1) { if ((do_disk & (DISK_EXTENDED | DISK_ERRORS)) && do_conversions) { push_out("%s", disk_name); if (show_mountpts && new->is_dname) { mnt_t *mount_pt; char *lu; char lub[SMALL_SCRATCH_BUFLEN]; lu = strrchr(new->is_dname, '/'); if (lu) { if (strcmp(disk_name, lu) == 0) lu = new->is_dname; else { *lu = 0; (void) strcpy(lub, new->is_dname); *lu = '/'; (void) strcat(lub, "/"); (void) strcat(lub, disk_name); lu = lub; } } else lu = disk_name; mount_pt = lookup_mntent_byname(lu); if (mount_pt) { if (do_raw == 0) push_out(" (%s)", mount_pt->mount_point); else push_out("(%s)", mount_pt->mount_point); } } } } if ((do_disk & PRINT_VERTICAL) && show_disk_mode != SHOW_FIRST_ONLY) do_newline(); if (count != NULL) (*count)++; } static void usage(void) { (void) fprintf(stderr, "Usage: iostat [-cCdDeEiImMnpPrstxXz] " " [-l n] [-T d|u] [disk ...] [interval [count]]\n" "\t\t-c: report percentage of time system has spent\n" "\t\t\tin user/system/wait/idle mode\n" "\t\t-C: report disk statistics by controller\n" "\t\t-d: display disk Kb/sec, transfers/sec, avg. \n" "\t\t\tservice time in milliseconds \n" "\t\t-D: display disk reads/sec, writes/sec, \n" "\t\t\tpercentage disk utilization \n" "\t\t-e: report device error summary statistics\n" "\t\t-E: report extended device error statistics\n" "\t\t-i: show device IDs for -E output\n" "\t\t-I: report the counts in each interval,\n" "\t\t\tinstead of rates, where applicable\n" "\t\t-l n: Limit the number of disks to n\n" "\t\t-m: Display mount points (most useful with -p)\n" "\t\t-M: Display data throughput in MB/sec " "instead of Kb/sec\n" "\t\t-n: convert device names to cXdYtZ format\n" "\t\t-p: report per-partition disk statistics\n" "\t\t-P: report per-partition disk statistics only,\n" "\t\t\tno per-device disk statistics\n" "\t\t-r: Display data in comma separated format\n" "\t\t-s: Suppress state change messages\n" "\t\t-T d|u Display a timestamp in date (d) or unix " "time_t (u)\n" "\t\t-t: display chars read/written to terminals\n" "\t\t-x: display extended disk statistics\n" "\t\t-X: display I/O path statistics\n" "\t\t-z: Suppress entries with all zero values\n"); exit(1); } /*ARGSUSED*/ static void show_disk_errors(void *v1, void *v2, void *d) { struct iodev_snapshot *disk = (struct iodev_snapshot *)v2; kstat_named_t *knp; size_t col; int i, len; char *dev_name = disk->is_name; if (disk->is_errors.ks_ndata == 0) return; if (disk->is_type == IODEV_CONTROLLER) return; if (disk->is_pretty) dev_name = disk->is_pretty; len = strlen(dev_name); if (len > 20) push_out("%s ", dev_name); else if (len > 16) push_out("%-20.20s ", dev_name); else { if (do_conversions) push_out("%-16.16s ", dev_name); else push_out("%-9.9s ", dev_name); } col = 0; knp = KSTAT_NAMED_PTR(&disk->is_errors); for (i = 0; i < disk->is_errors.ks_ndata; i++) { /* skip kstats that the driver did not kstat_named_init */ if (knp[i].name[0] == 0) continue; col += strlen(knp[i].name); switch (knp[i].data_type) { case KSTAT_DATA_CHAR: if ((strcmp(knp[i].name, "Serial No") == 0) && do_devid) { if (disk->is_devid) { push_out("Device Id: %s ", disk->is_devid); col += strlen(disk->is_devid); } else push_out("Device Id: "); } else { push_out("%s: %-.16s ", knp[i].name, &knp[i].value.c[0]); col += strlen(&knp[i].value.c[0]); } break; case KSTAT_DATA_ULONG: push_out("%s: %u ", knp[i].name, knp[i].value.ui32); col += 4; break; case KSTAT_DATA_ULONGLONG: if (strcmp(knp[i].name, "Size") == 0) { push_out("%s: %2.2fGB <%llu bytes>\n", knp[i].name, (float)knp[i].value.ui64 / DISK_GIGABYTE, knp[i].value.ui64); col = 0; break; } push_out("%s: %u ", knp[i].name, knp[i].value.ui32); col += 4; break; } if ((col >= 62) || (i == 2)) { do_newline(); col = 0; } } if (col > 0) { do_newline(); } do_newline(); } void do_args(int argc, char **argv) { int c; int errflg = 0; extern char *optarg; extern int optind; while ((c = getopt(argc, argv, "tdDxXCciIpPnmMeEszrT:l:")) != EOF) switch (c) { case 't': do_tty++; break; case 'd': do_disk |= DISK_OLD; break; case 'D': do_disk |= DISK_NEW; break; case 'x': do_disk |= DISK_EXTENDED; break; case 'X': do_disk |= DISK_IOPATH; break; case 'C': do_controller++; break; case 'c': do_cpu++; break; case 'I': do_interval++; break; case 'p': do_partitions++; break; case 'P': do_partitions_only++; break; case 'n': do_conversions++; break; case 'M': do_megabytes++; break; case 'e': do_disk |= DISK_ERRORS; break; case 'E': do_disk |= DISK_EXTENDED_ERRORS; break; case 'i': do_devid = 1; break; case 's': suppress_state = 1; break; case 'z': suppress_zero = 1; break; case 'm': show_mountpts = 1; break; case 'T': if (optarg) { if (*optarg == 'u') do_timestamp = UDATE; else if (*optarg == 'd') do_timestamp = CDATE; else errflg++; } else errflg++; break; case 'r': do_raw = 1; break; case 'l': df.if_max_iodevs = safe_strtoi(optarg, "invalid limit"); if (df.if_max_iodevs < 1) usage(); break; case '?': errflg++; } if ((do_disk & DISK_OLD) && (do_disk & DISK_NEW)) { (void) fprintf(stderr, "-d and -D are incompatible.\n"); usage(); } if (errflg) { usage(); } /* if no output classes explicity specified, use defaults */ if (do_tty == 0 && do_disk == 0 && do_cpu == 0) do_tty = do_cpu = 1, do_disk = DISK_OLD; /* * If conflicting options take the preferred * -D and -x result in -x * -d or -D and -e or -E gives only whatever -d or -D was specified */ if ((do_disk & DISK_EXTENDED) && (do_disk & DISK_NORMAL)) do_disk &= ~DISK_NORMAL; if ((do_disk & DISK_NORMAL) && (do_disk & DISK_ERROR_MASK)) do_disk &= ~DISK_ERROR_MASK; /* * I/O path stats are only available with extended (-x) stats */ if ((do_disk & DISK_IOPATH) && !(do_disk & DISK_EXTENDED)) do_disk &= ~DISK_IOPATH; /* nfs, tape, always shown */ df.if_allowed_types = IODEV_NFS | IODEV_TAPE; /* * If limit == 0 then no command line limit was set, else if any of * the flags that cause unlimited disks were not set, * use the default of 4 */ if (df.if_max_iodevs == 0) { df.if_max_iodevs = DEFAULT_LIMIT; df.if_skip_floppy = 1; if (do_disk & (DISK_EXTENDED | DISK_ERRORS | DISK_EXTENDED_ERRORS)) { df.if_max_iodevs = UNLIMITED_IODEVS; df.if_skip_floppy = 0; } } if (do_disk) { size_t count = 0; size_t i = optind; while (i < argc && !isdigit(argv[i][0])) { count++; i++; } /* * "Note: disks explicitly requested * are not subject to this disk limit" */ if (count > df.if_max_iodevs) df.if_max_iodevs = count; df.if_names = safe_alloc(count * sizeof (char *)); (void) memset(df.if_names, 0, count * sizeof (char *)); while (optind < argc && !isdigit(argv[optind][0])) df.if_names[df.if_nr_names++] = argv[optind++]; } if (optind < argc) { interval = safe_strtoi(argv[optind], "invalid interval"); if (interval < 1) fail(0, "invalid interval"); optind++; if (optind < argc) { iter = safe_strtoi(argv[optind], "invalid count"); if (iter < 1) fail(0, "invalid count"); optind++; } } if (interval == 0) iter = 1; if (optind < argc) usage(); } /* * Driver for doing the extended header formatting. Will produce * the function stack needed to output an extended header based * on the options selected. */ void do_format(void) { char header[SMALL_SCRATCH_BUFLEN]; char ch; char iosz; const char *fstr; disk_header[0] = 0; ch = (do_interval ? 'i' : 's'); iosz = (do_megabytes ? 'M' : 'k'); if (do_disk & DISK_ERRORS) { if (do_raw == 0) { (void) sprintf(header, "s/w h/w trn tot "); } else (void) sprintf(header, "s/w,h/w,trn,tot"); } else *header = NULL; switch (do_disk & DISK_IO_MASK) { case DISK_OLD: if (do_raw == 0) fstr = "%cp%c tp%c serv "; else fstr = "%cp%c,tp%c,serv"; (void) snprintf(disk_header, sizeof (disk_header), fstr, iosz, ch, ch); break; case DISK_NEW: if (do_raw == 0) fstr = "rp%c wp%c util "; else fstr = "%rp%c,wp%c,util"; (void) snprintf(disk_header, sizeof (disk_header), fstr, ch, ch); break; case DISK_EXTENDED: if (!do_conversions) { if (do_raw == 0) fstr = "device r/%c w/%c " "%cr/%c %cw/%c wait actv " "svc_t %%%%w %%%%b %s"; else fstr = "device,r/%c,w/%c,%cr/%c,%cw/%c," "wait,actv,svc_t,%%%%w," "%%%%b,%s"; (void) snprintf(disk_header, sizeof (disk_header), fstr, ch, ch, iosz, ch, iosz, ch, header); } else { if (do_raw == 0) { fstr = " r/%c w/%c %cr/%c " "%cw/%c wait actv wsvc_t asvc_t " "%%%%w %%%%b %sdevice"; } else { fstr = "r/%c,w/%c,%cr/%c,%cw/%c," "wait,actv,wsvc_t,asvc_t," "%%%%w,%%%%b,%sdevice"; } (void) snprintf(disk_header, sizeof (disk_header), fstr, ch, ch, iosz, ch, iosz, ch, header); } break; default: break; } if (do_disk == DISK_ERRORS) { char *sep; if (!do_conversions) { if (do_raw == 0) { sep = " "; } else sep = ","; (void) snprintf(disk_header, sizeof (disk_header), "%s%s%s", "device", sep, header); } else { if (do_raw == 0) { (void) snprintf(disk_header, sizeof (disk_header), " %s", header); } else (void) strcpy(disk_header, header); } } else { /* * Need to subtract two characters for the % escape in * the string. */ dh_len = strlen(disk_header) - 2; } if (do_timestamp) setup(print_timestamp); /* * -n *and* (-E *or* -e *or* -x) */ if (do_conversions && (do_disk & PRINT_VERTICAL)) { if (do_tty) setup(print_tty_hdr1); if (do_cpu) setup(print_cpu_hdr1); if (do_tty || do_cpu) setup(do_newline); if (do_tty) setup(print_tty_hdr2); if (do_cpu) setup(print_cpu_hdr2); if (do_tty || do_cpu) setup(do_newline); if (do_tty) setup(print_tty_data); if (do_cpu) setup(print_cpu_data); if (do_tty || do_cpu) setup(do_newline); printxhdr(); setup(show_all_disks); } else { /* * These unholy gymnastics are necessary to place CPU/tty * data to the right of the disks/errors for the first * line in vertical mode. */ if (do_disk & PRINT_VERTICAL) { printxhdr(); setup(show_first_disk); if (do_tty) setup(print_tty_data); if (do_cpu) setup(print_cpu_data); setup(do_newline); setup(show_other_disks); } else { setup(hdrout); if (do_tty) setup(print_tty_data); setup(show_all_disks); if (do_cpu) setup(print_cpu_data); } setup(do_newline); } if (do_disk & DISK_EXTENDED_ERRORS) setup(disk_errors); } /* * Add a new function to the list of functions * for this invocation. Once on the stack the * function is never removed nor does its place * change. */ void setup(void (*nfunc)(void)) { format_t *tmp; tmp = safe_alloc(sizeof (format_t)); tmp->nfunc = nfunc; tmp->next = 0; if (formatter_end) formatter_end->next = tmp; else formatter_list = tmp; formatter_end = tmp; } /* * The functions after this comment are devoted to printing * various parts of the header. They are selected based on the * options provided when the program was invoked. The functions * are either directly invoked in printhdr() or are indirectly * invoked by being placed on the list of functions used when * extended headers are used. */ void print_tty_hdr1(void) { char *fstr; char *dstr; if (do_raw == 0) { fstr = "%10.10s"; dstr = "tty "; } else { fstr = "%s"; dstr = "tty"; } push_out(fstr, dstr); } void print_tty_hdr2(void) { if (do_raw == 0) push_out("%-10.10s", " tin tout"); else push_out("tin,tout"); } void print_cpu_hdr1(void) { char *dstr; if (do_raw == 0) dstr = " cpu"; else dstr = "cpu"; push_out(dstr); } void print_cpu_hdr2(void) { char *dstr; if (do_raw == 0) dstr = " us sy wt id"; else dstr = "us,sy,wt,id"; push_out(dstr); } /* * Assumption is that tty data is always first - no need for raw mode leading * comma. */ void print_tty_data(void) { char *fstr; uint64_t deltas; double raw; double outch; kstat_t *oldks = NULL; if (oldss) oldks = &oldss->s_sys.ss_agg_sys; if (do_raw == 0) fstr = " %3.0f %4.0f "; else fstr = "%.0f,%.0f"; deltas = kstat_delta(oldks, &newss->s_sys.ss_agg_sys, "rawch"); raw = deltas; raw /= getime; deltas = kstat_delta(oldks, &newss->s_sys.ss_agg_sys, "outch"); outch = deltas; outch /= getime; push_out(fstr, raw, outch); } /* * Write out CPU data */ void print_cpu_data(void) { char *fstr; uint64_t idle; uint64_t user; uint64_t kern; uint64_t wait; kstat_t *oldks = NULL; if (oldss) oldks = &oldss->s_sys.ss_agg_sys; if (do_raw == 0) fstr = " %2.0f %2.0f %2.0f %2.0f"; else fstr = "%.0f,%.0f,%.0f,%.0f"; idle = kstat_delta(oldks, &newss->s_sys.ss_agg_sys, "cpu_ticks_idle"); user = kstat_delta(oldks, &newss->s_sys.ss_agg_sys, "cpu_ticks_user"); kern = kstat_delta(oldks, &newss->s_sys.ss_agg_sys, "cpu_ticks_kernel"); wait = kstat_delta(oldks, &newss->s_sys.ss_agg_sys, "cpu_ticks_wait"); push_out(fstr, user * percent, kern * percent, wait * percent, idle * percent); } /* * Emit the appropriate header. */ void hdrout(void) { if (do_raw == 0) { if (--tohdr == 0) printhdr(0); } else if (hdr_out == 0) { printhdr(0); hdr_out = 1; } } /* * Write out disk errors when -E is specified. */ void disk_errors(void) { (void) snapshot_walk(SNAP_IODEVS, oldss, newss, show_disk_errors, NULL); } void show_first_disk(void) { int count = 0; show_disk_mode = SHOW_FIRST_ONLY; (void) snapshot_walk(SNAP_IODEVS, oldss, newss, show_disk, &count); } void show_other_disks(void) { int count = 0; show_disk_mode = SHOW_SECOND_ONWARDS; (void) snapshot_walk(SNAP_IODEVS, oldss, newss, show_disk, &count); } void show_all_disks(void) { int count = 0; show_disk_mode = SHOW_ALL; (void) snapshot_walk(SNAP_IODEVS, oldss, newss, show_disk, &count); } /* * Write a newline out and clear the lineout flag. */ static void do_newline(void) { if (lineout) { (void) putchar('\n'); lineout = 0; } } /* * Generalized printf function that determines what extra * to print out if we're in raw mode. At this time we * don't care about errors. */ static void push_out(const char *message, ...) { va_list args; va_start(args, message); if (do_raw && lineout == 1) (void) putchar(','); (void) vprintf(message, args); va_end(args); lineout = 1; } /* * Emit the header string when -e is specified. */ static void print_err_hdr(void) { char obuf[SMALL_SCRATCH_BUFLEN]; if (do_conversions == 0) { if (!(do_disk & DISK_EXTENDED)) { (void) snprintf(obuf, sizeof (obuf), "%11s", one_blank); push_out(obuf); } } else if (do_disk == DISK_ERRORS) push_out(two_blanks); else push_out(one_blank); push_out("---- errors --- "); } /* * Emit the header string when -e is specified. */ static void print_disk_header(void) { push_out(disk_header); } /* * Write out a timestamp. Format is all that goes out on * the line so no use of push_out. * * Write out as decimal reprentation of time_t value * (-T u was specified) or the string returned from * ctime() (-T d was specified). */ static void print_timestamp(void) { time_t t; if (time(&t) != -1) { if (do_timestamp == UDATE) { (void) printf("%ld\n", t); } else if (do_timestamp == CDATE) { char *cpt; cpt = ctime(&t); if (cpt) { (void) fputs(cpt, stdout); } } } } /* * No, UINTMAX_MAX isn't the right thing here since * it is #defined to be either INT32_MAX or INT64_MAX * depending on the whether _LP64 is defined. * * We want to handle the odd future case of having * ulonglong_t be more than 64 bits but we have * no nice #define MAX value we can drop in place * without having to change this code in the future. */ u_longlong_t ull_delta(u_longlong_t old, u_longlong_t new) { if (new >= old) return (new - old); else return ((UINT64_MAX - old) + new + 1); } /* * Return the number of ticks delta between two hrtime_t * values. Attempt to cater for various kinds of overflow * in hrtime_t - no matter how improbable. */ uint64_t hrtime_delta(hrtime_t old, hrtime_t new) { uint64_t del; if ((new >= old) && (old >= 0L)) return (new - old); else { /* * We've overflowed the positive portion of an * hrtime_t. */ if (new < 0L) { /* * The new value is negative. Handle the * case where the old value is positive or * negative. */ uint64_t n1; uint64_t o1; n1 = -new; if (old > 0L) return (n1 - old); else { o1 = -old; del = n1 - o1; return (del); } } else { /* * Either we've just gone from being negative * to positive *or* the last entry was positive * and the new entry is also positive but *less* * than the old entry. This implies we waited * quite a few days on a very fast system between * iostat displays. */ if (old < 0L) { uint64_t o2; o2 = -old; del = UINT64_MAX - o2; } else { del = UINT64_MAX - old; } del += new; return (del); } } } /* * Take the difference of an unsigned 32 * bit int attempting to cater for * overflow. */ uint_t u32_delta(uint_t old, uint_t new) { if (new >= old) return (new - old); else return ((UINT32_MAX - old) + new + 1); } /* * Create and arm the timer. Used only when an interval has been specified. * Used in lieu of poll to ensure that we provide info for exactly the * desired period. */ void set_timer(int interval) { timer_t t_id; itimerspec_t time_struct; struct sigevent sig_struct; struct sigaction act; bzero(&sig_struct, sizeof (struct sigevent)); bzero(&act, sizeof (struct sigaction)); /* Create timer */ sig_struct.sigev_notify = SIGEV_SIGNAL; sig_struct.sigev_signo = SIGUSR1; sig_struct.sigev_value.sival_int = 0; if (timer_create(CLOCK_REALTIME, &sig_struct, &t_id) != 0) { fail(1, "Timer creation failed"); } act.sa_handler = handle_sig; if (sigaction(SIGUSR1, &act, NULL) != 0) { fail(1, "Could not set up signal handler"); } time_struct.it_value.tv_sec = interval; time_struct.it_value.tv_nsec = 0; time_struct.it_interval.tv_sec = interval; time_struct.it_interval.tv_nsec = 0; /* Arm timer */ if ((timer_settime(t_id, 0, &time_struct, NULL)) != 0) { fail(1, "Setting timer failed"); } } /* ARGSUSED */ void handle_sig(int x) { } /* * This is exactly what is needed for standard iostat output, * but make sure to use it only for that */ #define EPSILON (0.1) static int fzero(double value) { return (value >= 0.0 && value < EPSILON); } static int safe_strtoi(char const *val, char *errmsg) { char *end; long tmp; errno = 0; tmp = strtol(val, &end, 10); if (*end != '\0' || errno) fail(0, "%s %s", errmsg, val); return ((int)tmp); }