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freebsd-dev/usr.bin/ctlstat/ctlstat.c
Kenneth D. Merry 5e79631638 Fix bugs in the elapsed time calculation in ctlstat_standard() 
pointed out by bde:

- Casting to long double isn't needed.
- The division isn't needed, multiplication can be used.
  "When 1 nanosecond is in a floating point literal, the whole
  expression is automatically promoted correctly."
- non-KNF indentation (1 tab) for the newly split line
- different non-KNF indentation (5 spaces) for the previously split
  line
- exessive parentheses around the division operation
- bogus blank line which splits up the etime initialization
- general verboseness from the above.

Submitted by:	bde
MFC after:	3 days
2013-04-11 21:18:04 +00:00

728 lines
20 KiB
C
Raw Blame History

/*-
* Copyright (c) 2004, 2008, 2009 Silicon Graphics International Corp.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions, and the following disclaimer,
* without modification.
* 2. Redistributions in binary form must reproduce at minimum a disclaimer
* substantially similar to the "NO WARRANTY" disclaimer below
* ("Disclaimer") and any redistribution must be conditioned upon
* including a substantially similar Disclaimer requirement for further
* binary redistribution.
*
* NO WARRANTY
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGES.
*
* $Id: //depot/users/kenm/FreeBSD-test2/usr.bin/ctlstat/ctlstat.c#4 $
*/
/*
* CAM Target Layer statistics program
*
* Authors: Ken Merry <ken@FreeBSD.org>, Will Andrews <will@FreeBSD.org>
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/ioctl.h>
#include <sys/types.h>
#include <sys/param.h>
#include <sys/time.h>
#include <sys/sysctl.h>
#include <sys/resource.h>
#include <sys/queue.h>
#include <sys/callout.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <fcntl.h>
#include <getopt.h>
#include <string.h>
#include <errno.h>
#include <err.h>
#include <ctype.h>
#include <bitstring.h>
#include <cam/scsi/scsi_all.h>
#include <cam/ctl/ctl.h>
#include <cam/ctl/ctl_io.h>
#include <cam/ctl/ctl_scsi_all.h>
#include <cam/ctl/ctl_util.h>
#include <cam/ctl/ctl_frontend_internal.h>
#include <cam/ctl/ctl_backend.h>
#include <cam/ctl/ctl_ioctl.h>
/*
* The default amount of space we allocate for LUN storage space. We
* dynamically allocate more if needed.
*/
#define CTL_STAT_NUM_LUNS 30
/*
* The default number of LUN selection bits we allocate. This is large
* because we don't currently increase it if the user specifies a LUN
* number of 1024 or larger.
*/
#define CTL_STAT_LUN_BITS 1024L
static const char *ctlstat_opts = "Cc:Ddhjl:n:tw:";
static const char *ctlstat_usage = "Usage: ctlstat [-CDdjht] [-l lunnum]"
"[-c count] [-n numdevs] [-w wait]\n";
struct ctl_cpu_stats {
uint64_t user;
uint64_t nice;
uint64_t system;
uint64_t intr;
uint64_t idle;
};
typedef enum {
CTLSTAT_MODE_STANDARD,
CTLSTAT_MODE_DUMP,
CTLSTAT_MODE_JSON,
} ctlstat_mode_types;
#define CTLSTAT_FLAG_CPU (1 << 0)
#define CTLSTAT_FLAG_HEADER (1 << 1)
#define CTLSTAT_FLAG_FIRST_RUN (1 << 2)
#define CTLSTAT_FLAG_TOTALS (1 << 3)
#define CTLSTAT_FLAG_DMA_TIME (1 << 4)
#define CTLSTAT_FLAG_LUN_TIME_VALID (1 << 5)
#define F_CPU(ctx) ((ctx)->flags & CTLSTAT_FLAG_CPU)
#define F_HDR(ctx) ((ctx)->flags & CTLSTAT_FLAG_HEADER)
#define F_FIRST(ctx) ((ctx)->flags & CTLSTAT_FLAG_FIRST_RUN)
#define F_TOTALS(ctx) ((ctx)->flags & CTLSTAT_FLAG_TOTALS)
#define F_DMA(ctx) ((ctx)->flags & CTLSTAT_FLAG_DMA_TIME)
#define F_LUNVAL(ctx) ((ctx)->flags & CTLSTAT_FLAG_LUN_TIME_VALID)
struct ctlstat_context {
ctlstat_mode_types mode;
int flags;
struct ctl_lun_io_stats *cur_lun_stats, *prev_lun_stats,
*tmp_lun_stats;
struct ctl_lun_io_stats cur_total_stats[3], prev_total_stats[3];
struct timespec cur_time, prev_time;
struct ctl_cpu_stats cur_cpu, prev_cpu;
uint64_t cur_total_jiffies, prev_total_jiffies;
uint64_t cur_idle, prev_idle;
bitstr_t bit_decl(lun_mask, CTL_STAT_LUN_BITS);
int num_luns;
int numdevs;
int header_interval;
};
#ifndef min
#define min(x,y) (((x) < (y)) ? (x) : (y))
#endif
static void usage(int error);
static int getstats(int fd, int *num_luns, struct ctl_lun_io_stats **xlun_stats,
struct timespec *cur_time, int *lun_time_valid);
static int getcpu(struct ctl_cpu_stats *cpu_stats);
static void compute_stats(struct ctl_lun_io_stats *cur_stats,
struct ctl_lun_io_stats *prev_stats,
long double etime, long double *mbsec,
long double *kb_per_transfer,
long double *transfers_per_second,
long double *ms_per_transfer,
long double *ms_per_dma,
long double *dmas_per_second);
static void
usage(int error)
{
fputs(ctlstat_usage, error ? stderr : stdout);
}
static int
getstats(int fd, int *num_luns, struct ctl_lun_io_stats **xlun_stats,
struct timespec *cur_time, int *flags)
{
struct ctl_lun_io_stats *lun_stats;
struct ctl_stats stats;
int more_space_count;
more_space_count = 0;
if (*num_luns == 0)
*num_luns = CTL_STAT_NUM_LUNS;
lun_stats = *xlun_stats;
retry:
if (lun_stats == NULL) {
lun_stats = (struct ctl_lun_io_stats *)malloc(
sizeof(*lun_stats) * *num_luns);
}
memset(&stats, 0, sizeof(stats));
stats.alloc_len = *num_luns * sizeof(*lun_stats);
memset(lun_stats, 0, stats.alloc_len);
stats.lun_stats = lun_stats;
if (ioctl(fd, CTL_GETSTATS, &stats) == -1)
err(1, "error returned from CTL_GETSTATS ioctl");
switch (stats.status) {
case CTL_SS_OK:
break;
case CTL_SS_ERROR:
err(1, "CTL_SS_ERROR returned from CTL_GETSTATS ioctl");
break;
case CTL_SS_NEED_MORE_SPACE:
if (more_space_count > 0) {
errx(1, "CTL_GETSTATS returned NEED_MORE_SPACE again");
}
*num_luns = stats.num_luns;
free(lun_stats);
lun_stats = NULL;
more_space_count++;
goto retry;
break; /* NOTREACHED */
default:
errx(1, "unknown status %d returned from CTL_GETSTATS ioctl",
stats.status);
break;
}
*xlun_stats = lun_stats;
*num_luns = stats.num_luns;
cur_time->tv_sec = stats.timestamp.tv_sec;
cur_time->tv_nsec = stats.timestamp.tv_nsec;
if (stats.flags & CTL_STATS_FLAG_TIME_VALID)
*flags |= CTLSTAT_FLAG_LUN_TIME_VALID;
else
*flags &= ~CTLSTAT_FLAG_LUN_TIME_VALID;
return (0);
}
static int
getcpu(struct ctl_cpu_stats *cpu_stats)
{
long cp_time[CPUSTATES];
size_t cplen;
cplen = sizeof(cp_time);
if (sysctlbyname("kern.cp_time", &cp_time, &cplen, NULL, 0) == -1) {
warn("sysctlbyname(kern.cp_time...) failed");
return (1);
}
cpu_stats->user = cp_time[CP_USER];
cpu_stats->nice = cp_time[CP_NICE];
cpu_stats->system = cp_time[CP_SYS];
cpu_stats->intr = cp_time[CP_INTR];
cpu_stats->idle = cp_time[CP_IDLE];
return (0);
}
static void
compute_stats(struct ctl_lun_io_stats *cur_stats,
struct ctl_lun_io_stats *prev_stats, long double etime,
long double *mbsec, long double *kb_per_transfer,
long double *transfers_per_second, long double *ms_per_transfer,
long double *ms_per_dma, long double *dmas_per_second)
{
uint64_t total_bytes = 0, total_operations = 0, total_dmas = 0;
uint32_t port;
struct bintime total_time_bt, total_dma_bt;
struct timespec total_time_ts, total_dma_ts;
int i;
bzero(&total_time_bt, sizeof(total_time_bt));
bzero(&total_dma_bt, sizeof(total_dma_bt));
bzero(&total_time_ts, sizeof(total_time_ts));
bzero(&total_dma_ts, sizeof(total_dma_ts));
for (port = 0; port < CTL_MAX_PORTS; port++) {
for (i = 0; i < CTL_STATS_NUM_TYPES; i++) {
total_bytes += cur_stats->ports[port].bytes[i];
total_operations +=
cur_stats->ports[port].operations[i];
total_dmas += cur_stats->ports[port].num_dmas[i];
bintime_add(&total_time_bt,
&cur_stats->ports[port].time[i]);
bintime_add(&total_dma_bt,
&cur_stats->ports[port].dma_time[i]);
if (prev_stats != NULL) {
total_bytes -=
prev_stats->ports[port].bytes[i];
total_operations -=
prev_stats->ports[port].operations[i];
total_dmas -=
prev_stats->ports[port].num_dmas[i];
bintime_sub(&total_time_bt,
&prev_stats->ports[port].time[i]);
bintime_sub(&total_dma_bt,
&prev_stats->ports[port].dma_time[i]);
}
}
}
*mbsec = total_bytes;
*mbsec /= 1024 * 1024;
if (etime > 0.0)
*mbsec /= etime;
else
*mbsec = 0;
*kb_per_transfer = total_bytes;
*kb_per_transfer /= 1024;
if (total_operations > 0)
*kb_per_transfer /= total_operations;
else
*kb_per_transfer = 0;
*transfers_per_second = total_operations;
*dmas_per_second = total_dmas;
if (etime > 0.0) {
*transfers_per_second /= etime;
*dmas_per_second /= etime;
} else {
*transfers_per_second = 0;
*dmas_per_second = 0;
}
bintime2timespec(&total_time_bt, &total_time_ts);
bintime2timespec(&total_dma_bt, &total_dma_ts);
if (total_operations > 0) {
/*
* Convert the timespec to milliseconds.
*/
*ms_per_transfer = total_time_ts.tv_sec * 1000;
*ms_per_transfer += total_time_ts.tv_nsec / 1000000;
*ms_per_transfer /= total_operations;
} else
*ms_per_transfer = 0;
if (total_dmas > 0) {
/*
* Convert the timespec to milliseconds.
*/
*ms_per_dma = total_dma_ts.tv_sec * 1000;
*ms_per_dma += total_dma_ts.tv_nsec / 1000000;
*ms_per_dma /= total_dmas;
} else
*ms_per_dma = 0;
}
/* The dump_stats() and json_stats() functions perform essentially the same
* purpose, but dump the statistics in different formats. JSON is more
* conducive to programming, however.
*/
#define PRINT_BINTIME(prefix, bt) \
printf("%s %jd s %ju frac\n", prefix, (intmax_t)(bt).sec, \
(uintmax_t)(bt).frac)
static const char *iotypes[] = {"NO IO", "READ", "WRITE"};
static void
ctlstat_dump(struct ctlstat_context *ctx) {
int iotype, lun, port;
struct ctl_lun_io_stats *stats = ctx->cur_lun_stats;
for (lun = 0; lun < ctx->num_luns;lun++) {
printf("lun %d\n", lun);
for (port = 0; port < CTL_MAX_PORTS; port++) {
printf(" port %d\n",
stats[lun].ports[port].targ_port);
for (iotype = 0; iotype < CTL_STATS_NUM_TYPES;
iotype++) {
printf(" io type %d (%s)\n", iotype,
iotypes[iotype]);
printf(" bytes %ju\n", (uintmax_t)
stats[lun].ports[port].bytes[iotype]);
printf(" operations %ju\n", (uintmax_t)
stats[lun].ports[port].operations[iotype]);
PRINT_BINTIME(" io time",
stats[lun].ports[port].time[iotype]);
printf(" num dmas %ju\n", (uintmax_t)
stats[lun].ports[port].num_dmas[iotype]);
PRINT_BINTIME(" dma time",
stats[lun].ports[port].dma_time[iotype]);
}
}
}
}
#define JSON_BINTIME(prefix, bt) \
printf("\"%s\":{\"sec\":%jd,\"frac\":%ju},", \
prefix, (intmax_t)(bt).sec, (uintmax_t)(bt).frac)
static void
ctlstat_json(struct ctlstat_context *ctx) {
int iotype, lun, port;
struct ctl_lun_io_stats *stats = ctx->cur_lun_stats;
printf("{\"luns\":[");
for (lun = 0; lun < ctx->num_luns; lun++) {
printf("{\"ports\":[");
for (port = 0; port < CTL_MAX_PORTS;port++) {
printf("{\"num\":%d,\"io\":[",
stats[lun].ports[port].targ_port);
for (iotype = 0; iotype < CTL_STATS_NUM_TYPES;
iotype++) {
printf("{\"type\":\"%s\",", iotypes[iotype]);
printf("\"bytes\":%ju,", (uintmax_t)stats[
lun].ports[port].bytes[iotype]);
printf("\"operations\":%ju,", (uintmax_t)stats[
lun].ports[port].operations[iotype]);
JSON_BINTIME("io time",
stats[lun].ports[port].time[iotype]);
JSON_BINTIME("dma time",
stats[lun].ports[port].dma_time[iotype]);
printf("\"num dmas\":%ju}", (uintmax_t)
stats[lun].ports[port].num_dmas[iotype]);
if (iotype < (CTL_STATS_NUM_TYPES - 1))
printf(","); /* continue io array */
}
printf("]}"); /* close port */
if (port < (CTL_MAX_PORTS - 1))
printf(","); /* continue port array */
}
printf("]}"); /* close lun */
if (lun < (ctx->num_luns - 1))
printf(","); /* continue lun array */
}
printf("]}"); /* close luns and toplevel */
}
static void
ctlstat_standard(struct ctlstat_context *ctx) {
long double etime;
uint64_t delta_jiffies, delta_idle;
uint32_t port;
long double cpu_percentage;
int i;
int j;
cpu_percentage = 0;
if (F_CPU(ctx) && (getcpu(&ctx->cur_cpu) != 0))
errx(1, "error returned from getcpu()");
etime = ctx->cur_time.tv_sec - ctx->prev_time.tv_sec +
(ctx->prev_time.tv_nsec - ctx->cur_time.tv_nsec) * 1e-9;
if (F_CPU(ctx)) {
ctx->prev_total_jiffies = ctx->cur_total_jiffies;
ctx->cur_total_jiffies = ctx->cur_cpu.user +
ctx->cur_cpu.nice + ctx->cur_cpu.system +
ctx->cur_cpu.intr + ctx->cur_cpu.idle;
delta_jiffies = ctx->cur_total_jiffies;
if (F_FIRST(ctx) == 0)
delta_jiffies -= ctx->prev_total_jiffies;
ctx->prev_idle = ctx->cur_idle;
ctx->cur_idle = ctx->cur_cpu.idle;
delta_idle = ctx->cur_idle - ctx->prev_idle;
cpu_percentage = delta_jiffies - delta_idle;
cpu_percentage /= delta_jiffies;
cpu_percentage *= 100;
}
if (F_HDR(ctx)) {
ctx->header_interval--;
if (ctx->header_interval <= 0) {
int hdr_devs;
hdr_devs = 0;
if (F_TOTALS(ctx)) {
fprintf(stdout, "%s System Read %s"
"System Write %sSystem Total%s\n",
(F_LUNVAL(ctx) != 0) ? " " : "",
(F_LUNVAL(ctx) != 0) ? " " : "",
(F_LUNVAL(ctx) != 0) ? " " : "",
(F_CPU(ctx) == 0) ? " CPU" : "");
hdr_devs = 3;
} else {
if (F_CPU(ctx))
fprintf(stdout, " CPU ");
for (i = 0; i < min(CTL_STAT_LUN_BITS,
ctx->num_luns); i++) {
int lun;
/*
* Obviously this won't work with
* LUN numbers greater than a signed
* integer.
*/
lun = (int)ctx->cur_lun_stats[i
].lun_number;
if (bit_test(ctx->lun_mask, lun) == 0)
continue;
fprintf(stdout, "%15.6s%d ",
"lun", lun);
hdr_devs++;
}
fprintf(stdout, "\n");
}
for (i = 0; i < hdr_devs; i++)
fprintf(stdout, "%s %sKB/t %s MB/s ",
((F_CPU(ctx) != 0) && (i == 0) &&
(F_TOTALS(ctx) == 0)) ? " " : "",
(F_LUNVAL(ctx) != 0) ? " ms " : "",
(F_DMA(ctx) == 0) ? "tps" : "dps");
fprintf(stdout, "\n");
ctx->header_interval = 20;
}
}
if (F_TOTALS(ctx) != 0) {
long double mbsec[3];
long double kb_per_transfer[3];
long double transfers_per_sec[3];
long double ms_per_transfer[3];
long double ms_per_dma[3];
long double dmas_per_sec[3];
for (i = 0; i < 3; i++)
ctx->prev_total_stats[i] = ctx->cur_total_stats[i];
memset(&ctx->cur_total_stats, 0, sizeof(ctx->cur_total_stats));
/* Use macros to make the next loop more readable. */
#define ADD_STATS_BYTES(st, p, i, j) \
ctx->cur_total_stats[st].ports[p].bytes[j] += \
ctx->cur_lun_stats[i].ports[p].bytes[j]
#define ADD_STATS_OPERATIONS(st, p, i, j) \
ctx->cur_total_stats[st].ports[p].operations[j] += \
ctx->cur_lun_stats[i].ports[p].operations[j]
#define ADD_STATS_NUM_DMAS(st, p, i, j) \
ctx->cur_total_stats[st].ports[p].num_dmas[j] += \
ctx->cur_lun_stats[i].ports[p].num_dmas[j]
#define ADD_STATS_TIME(st, p, i, j) \
bintime_add(&ctx->cur_total_stats[st].ports[p].time[j], \
&ctx->cur_lun_stats[i].ports[p].time[j])
#define ADD_STATS_DMA_TIME(st, p, i, j) \
bintime_add(&ctx->cur_total_stats[st].ports[p].dma_time[j], \
&ctx->cur_lun_stats[i].ports[p].dma_time[j])
for (i = 0; i < ctx->num_luns; i++) {
for (port = 0; port < CTL_MAX_PORTS; port++) {
for (j = 0; j < CTL_STATS_NUM_TYPES; j++) {
ADD_STATS_BYTES(2, port, i, j);
ADD_STATS_OPERATIONS(2, port, i, j);
ADD_STATS_NUM_DMAS(2, port, i, j);
ADD_STATS_TIME(2, port, i, j);
ADD_STATS_DMA_TIME(2, port, i, j);
}
ADD_STATS_BYTES(0, port, i, CTL_STATS_READ);
ADD_STATS_OPERATIONS(0, port, i,
CTL_STATS_READ);
ADD_STATS_NUM_DMAS(0, port, i, CTL_STATS_READ);
ADD_STATS_TIME(0, port, i, CTL_STATS_READ);
ADD_STATS_DMA_TIME(0, port, i, CTL_STATS_READ);
ADD_STATS_BYTES(1, port, i, CTL_STATS_WRITE);
ADD_STATS_OPERATIONS(1, port, i,
CTL_STATS_WRITE);
ADD_STATS_NUM_DMAS(1, port, i, CTL_STATS_WRITE);
ADD_STATS_TIME(1, port, i, CTL_STATS_WRITE);
ADD_STATS_DMA_TIME(1, port, i, CTL_STATS_WRITE);
}
}
for (i = 0; i < 3; i++) {
compute_stats(&ctx->cur_total_stats[i],
F_FIRST(ctx) ? NULL : &ctx->prev_total_stats[i],
etime, &mbsec[i], &kb_per_transfer[i],
&transfers_per_sec[i],
&ms_per_transfer[i], &ms_per_dma[i],
&dmas_per_sec[i]);
if (F_DMA(ctx) != 0)
fprintf(stdout, " %2.2Lf",
ms_per_dma[i]);
else if (F_LUNVAL(ctx) != 0)
fprintf(stdout, " %2.2Lf",
ms_per_transfer[i]);
fprintf(stdout, " %5.2Lf %3.0Lf %5.2Lf ",
kb_per_transfer[i],
(F_DMA(ctx) == 0) ? transfers_per_sec[i] :
dmas_per_sec[i], mbsec[i]);
}
if (F_CPU(ctx))
fprintf(stdout, " %5.1Lf%%", cpu_percentage);
} else {
if (F_CPU(ctx))
fprintf(stdout, "%5.1Lf%% ", cpu_percentage);
for (i = 0; i < min(CTL_STAT_LUN_BITS, ctx->num_luns); i++) {
long double mbsec, kb_per_transfer;
long double transfers_per_sec;
long double ms_per_transfer;
long double ms_per_dma;
long double dmas_per_sec;
if (bit_test(ctx->lun_mask,
(int)ctx->cur_lun_stats[i].lun_number) == 0)
continue;
compute_stats(&ctx->cur_lun_stats[i], F_FIRST(ctx) ?
NULL : &ctx->prev_lun_stats[i], etime,
&mbsec, &kb_per_transfer,
&transfers_per_sec, &ms_per_transfer,
&ms_per_dma, &dmas_per_sec);
if (F_DMA(ctx))
fprintf(stdout, " %2.2Lf",
ms_per_dma);
else if (F_LUNVAL(ctx) != 0)
fprintf(stdout, " %2.2Lf",
ms_per_transfer);
fprintf(stdout, " %5.2Lf %3.0Lf %5.2Lf ",
kb_per_transfer, (F_DMA(ctx) == 0) ?
transfers_per_sec : dmas_per_sec, mbsec);
}
}
}
int
main(int argc, char **argv)
{
int c;
int count, waittime;
int set_lun;
int fd, retval;
struct ctlstat_context ctx;
/* default values */
retval = 0;
waittime = 1;
count = -1;
memset(&ctx, 0, sizeof(ctx));
ctx.numdevs = 3;
ctx.mode = CTLSTAT_MODE_STANDARD;
ctx.flags |= CTLSTAT_FLAG_CPU;
ctx.flags |= CTLSTAT_FLAG_FIRST_RUN;
ctx.flags |= CTLSTAT_FLAG_HEADER;
while ((c = getopt(argc, argv, ctlstat_opts)) != -1) {
switch (c) {
case 'C':
ctx.flags &= ~CTLSTAT_FLAG_CPU;
break;
case 'c':
count = atoi(optarg);
break;
case 'd':
ctx.flags |= CTLSTAT_FLAG_DMA_TIME;
break;
case 'D':
ctx.mode = CTLSTAT_MODE_DUMP;
waittime = 30;
break;
case 'h':
ctx.flags &= ~CTLSTAT_FLAG_HEADER;
break;
case 'j':
ctx.mode = CTLSTAT_MODE_JSON;
waittime = 30;
break;
case 'l': {
int cur_lun;
cur_lun = atoi(optarg);
if (cur_lun > CTL_STAT_LUN_BITS)
errx(1, "Invalid LUN number %d", cur_lun);
bit_ffs(ctx.lun_mask, CTL_STAT_LUN_BITS, &set_lun);
if (set_lun == -1)
ctx.numdevs = 1;
else
ctx.numdevs++;
bit_set(ctx.lun_mask, cur_lun);
break;
}
case 'n':
ctx.numdevs = atoi(optarg);
break;
case 't':
ctx.flags |= CTLSTAT_FLAG_TOTALS;
ctx.numdevs = 3;
break;
case 'w':
waittime = atoi(optarg);
break;
default:
retval = 1;
usage(retval);
exit(retval);
break;
}
}
bit_ffs(ctx.lun_mask, CTL_STAT_LUN_BITS, &set_lun);
if ((F_TOTALS(&ctx))
&& (set_lun != -1)) {
errx(1, "Total Mode (-t) is incompatible with individual "
"LUN mode (-l)");
} else if (set_lun == -1) {
/*
* Note that this just selects the first N LUNs to display,
* but at this point we have no knoweledge of which LUN
* numbers actually exist. So we may select LUNs that
* aren't there.
*/
bit_nset(ctx.lun_mask, 0, min(ctx.numdevs - 1,
CTL_STAT_LUN_BITS - 1));
}
if ((fd = open(CTL_DEFAULT_DEV, O_RDWR)) == -1)
err(1, "cannot open %s", CTL_DEFAULT_DEV);
for (;count != 0;) {
ctx.tmp_lun_stats = ctx.prev_lun_stats;
ctx.prev_lun_stats = ctx.cur_lun_stats;
ctx.cur_lun_stats = ctx.tmp_lun_stats;
ctx.prev_time = ctx.cur_time;
ctx.prev_cpu = ctx.cur_cpu;
if (getstats(fd, &ctx.num_luns, &ctx.cur_lun_stats,
&ctx.cur_time, &ctx.flags) != 0)
errx(1, "error returned from getstats()");
switch(ctx.mode) {
case CTLSTAT_MODE_STANDARD:
ctlstat_standard(&ctx);
break;
case CTLSTAT_MODE_DUMP:
ctlstat_dump(&ctx);
break;
case CTLSTAT_MODE_JSON:
ctlstat_json(&ctx);
break;
default:
break;
}
fprintf(stdout, "\n");
ctx.flags &= ~CTLSTAT_FLAG_FIRST_RUN;
if (count != 1)
sleep(waittime);
if (count > 0)
count--;
}
exit (retval);
}
/*
* vim: ts=8
*/
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