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|
/* $NetBSD: vmstat.c,v 1.29.4.1 1996/06/05 00:21:05 cgd Exp $ */
/* $OpenBSD: vmstat.c,v 1.151 2021/07/12 15:09:20 beck Exp $ */
/*
* Copyright (c) 1980, 1986, 1991, 1993
* The Regents of the University of California. 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.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, 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 DAMAGE.
*/
#include <sys/param.h> /* MAXCOMLEN */
#include <sys/time.h>
#include <sys/proc.h>
#include <sys/namei.h>
#include <sys/malloc.h>
#include <sys/ioctl.h>
#include <sys/sysctl.h>
#include <sys/device.h>
#include <sys/pool.h>
#include <sys/sched.h>
#include <sys/vmmeter.h>
#include <ctype.h>
#include <err.h>
#include <errno.h>
#include <fcntl.h>
#include <kvm.h>
#include <limits.h>
#include <nlist.h>
#include <paths.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#include "dkstats.h"
struct nlist namelist[] = {
#define X_UVMEXP 0 /* sysctl */
{ "_uvmexp" },
#define X_TIME_UPTIME 1
{ "_time_uptime" },
#define X_NCHSTATS 2 /* sysctl */
{ "_nchstats" },
#define X_KMEMSTAT 3 /* sysctl */
{ "_kmemstats" },
#define X_KMEMBUCKETS 4 /* sysctl */
{ "_bucket" },
#define X_FORKSTAT 5 /* sysctl */
{ "_forkstat" },
#define X_NSELCOLL 6 /* sysctl */
{ "_nselcoll" },
#define X_POOLHEAD 7 /* sysctl */
{ "_pool_head" },
#define X_NAPTIME 8
{ "_naptime" },
{ "" },
};
/* Objects defined in dkstats.c */
extern struct _disk cur, last;
extern char **dr_name;
extern int *dk_select, dk_ndrive;
struct uvmexp uvmexp, ouvmexp;
int ndrives;
int winlines = 20;
kvm_t *kd;
#define FORKSTAT 0x01
#define INTRSTAT 0x02
#define MEMSTAT 0x04
#define SUMSTAT 0x08
#define TIMESTAT 0x10
#define VMSTAT 0x20
void cpustats(void);
time_t getuptime(void);
void dkstats(void);
void dointr(void);
void domem(void);
void dopool(void);
void dosum(void);
void dovmstat(u_int, int);
void kread(int, void *, size_t);
void usage(void);
void dotimes(void);
void doforkst(void);
void needhdr(int);
int pct(int64_t, int64_t);
void printhdr(void);
char **choosedrives(char **);
/* Namelist and memory file names. */
char *nlistf, *memf;
extern char *__progname;
int verbose = 0;
int zflag = 0;
int
main(int argc, char *argv[])
{
char errbuf[_POSIX2_LINE_MAX];
int c, todo = 0, reps = 0;
struct winsize winsize;
const char *errstr;
u_int interval = 0;
while ((c = getopt(argc, argv, "c:fiM:mN:stw:vz")) != -1) {
switch (c) {
case 'c':
reps = strtonum(optarg, 0, INT_MAX, &errstr);
if (errstr)
errx(1, "-c %s: %s", optarg, errstr);
break;
case 'f':
todo |= FORKSTAT;
break;
case 'i':
todo |= INTRSTAT;
break;
case 'M':
memf = optarg;
break;
case 'm':
todo |= MEMSTAT;
break;
case 'N':
nlistf = optarg;
break;
case 's':
todo |= SUMSTAT;
break;
case 't':
todo |= TIMESTAT;
break;
case 'w':
interval = (u_int)strtonum(optarg, 0, 1000, &errstr);
if (errstr)
errx(1, "-w %s: %s", optarg, errstr);
break;
case 'v':
verbose = 1;
break;
case 'z':
zflag = 1;
break;
case '?':
default:
usage();
}
}
argc -= optind;
argv += optind;
if (todo == 0)
todo = VMSTAT;
if (nlistf != NULL || memf != NULL) {
kd = kvm_openfiles(nlistf, memf, NULL, O_RDONLY, errbuf);
if (kd == 0)
errx(1, "kvm_openfiles: %s", errbuf);
if ((c = kvm_nlist(kd, namelist)) != 0) {
if (c > 0) {
(void)fprintf(stderr,
"%s: undefined symbols:", __progname);
for (c = 0;
c < sizeof(namelist)/sizeof(namelist[0]);
c++)
if (namelist[c].n_type == 0)
fprintf(stderr, " %s",
namelist[c].n_name);
(void)fputc('\n', stderr);
exit(1);
} else
errx(1, "kvm_nlist: %s", kvm_geterr(kd));
}
}
if (todo & VMSTAT) {
dkinit(0); /* Initialize disk stats, no disks selected. */
argv = choosedrives(argv); /* Select disks. */
}
if (unveil("/", "") == -1)
err(1, "unveil /");
if (unveil(NULL, NULL) == -1)
err(1, "unveil");
winsize.ws_row = 0;
if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &winsize) == 0) {
if (winsize.ws_row > 0)
winlines = winsize.ws_row;
}
#define BACKWARD_COMPATIBILITY
#ifdef BACKWARD_COMPATIBILITY
if (*argv) {
interval = (u_int)strtonum(*argv, 0, 1000, &errstr);
if (errstr)
errx(1, "interval %s: %s", *argv, errstr);
if (*++argv) {
reps = strtonum(*argv, 0, INT_MAX, &errstr);
if (errstr)
errx(1, "reps %s: %s", *argv, errstr);
}
}
#endif
if (interval) {
if (!reps)
reps = -1;
} else if (reps)
interval = 1;
if (todo & FORKSTAT)
doforkst();
if (todo & MEMSTAT) {
domem();
dopool();
}
if (todo & SUMSTAT)
dosum();
if (todo & TIMESTAT)
dotimes();
if (todo & INTRSTAT)
dointr();
if (todo & VMSTAT)
dovmstat(interval, reps);
exit(0);
}
char **
choosedrives(char **argv)
{
int i;
/*
* Choose drives to be displayed. Priority goes to (in order) drives
* supplied as arguments, default drives. If everything isn't filled
* in and there are drives not taken care of, display the first few
* that fit.
*/
#define BACKWARD_COMPATIBILITY
for (ndrives = 0; *argv; ++argv) {
#ifdef BACKWARD_COMPATIBILITY
if (isdigit((unsigned char)**argv))
break;
#endif
for (i = 0; i < dk_ndrive; i++) {
if (strcmp(dr_name[i], *argv))
continue;
dk_select[i] = 1;
++ndrives;
break;
}
if (i == dk_ndrive)
errx(1, "invalid interval or drive name: %s", *argv);
}
for (i = 0; i < dk_ndrive && ndrives < 2; i++) {
if (dk_select[i])
continue;
dk_select[i] = 1;
++ndrives;
}
return(argv);
}
time_t
getuptime(void)
{
struct timespec uptime;
time_t time_uptime, naptime;
if (nlistf == NULL && memf == NULL) {
if (clock_gettime(CLOCK_UPTIME, &uptime) == -1)
err(1, "clock_gettime");
return (uptime.tv_sec);
}
kread(X_NAPTIME, &naptime, sizeof(naptime));
kread(X_TIME_UPTIME, &time_uptime, sizeof(time_uptime));
return (time_uptime - naptime);
}
int hz;
volatile sig_atomic_t hdrcnt;
void
dovmstat(u_int interval, int reps)
{
time_t uptime, halfuptime;
struct clockinfo clkinfo;
struct vmtotal total;
size_t size;
int mib[2];
uptime = getuptime();
halfuptime = uptime / 2;
(void)signal(SIGCONT, needhdr);
mib[0] = CTL_KERN;
mib[1] = KERN_CLOCKRATE;
size = sizeof(clkinfo);
if (sysctl(mib, 2, &clkinfo, &size, NULL, 0) == -1) {
warn("could not read kern.clockrate");
return;
}
hz = clkinfo.stathz;
for (hdrcnt = 1;;) {
/* Read new disk statistics */
dkreadstats();
if (!--hdrcnt || last.dk_ndrive != cur.dk_ndrive)
printhdr();
if (nlistf == NULL && memf == NULL) {
size = sizeof(struct uvmexp);
mib[0] = CTL_VM;
mib[1] = VM_UVMEXP;
if (sysctl(mib, 2, &uvmexp, &size, NULL, 0) == -1) {
warn("could not get vm.uvmexp");
memset(&uvmexp, 0, sizeof(struct uvmexp));
}
} else {
kread(X_UVMEXP, &uvmexp, sizeof(struct uvmexp));
}
size = sizeof(total);
mib[0] = CTL_VM;
mib[1] = VM_METER;
if (sysctl(mib, 2, &total, &size, NULL, 0) == -1) {
warn("could not read vm.vmmeter");
memset(&total, 0, sizeof(total));
}
(void)printf("%2u %3u", total.t_rq - 1, total.t_sl);
#define rate(x) ((unsigned)((((unsigned)x) + halfuptime) / uptime)) /* round */
#define pgtok(a) ((a) * ((unsigned int)uvmexp.pagesize >> 10))
(void)printf("%5uM %6uM ",
pgtok(uvmexp.active + uvmexp.swpginuse) / 1024,
pgtok(uvmexp.free) / 1024);
(void)printf("%4u ", rate(uvmexp.faults - ouvmexp.faults));
(void)printf("%3u ", rate(uvmexp.pdreact - ouvmexp.pdreact));
(void)printf("%3u ", rate(uvmexp.pageins - ouvmexp.pageins));
(void)printf("%3u %3u ",
rate(uvmexp.pdpageouts - ouvmexp.pdpageouts), 0);
(void)printf("%3u ", rate(uvmexp.pdscans - ouvmexp.pdscans));
dkstats();
(void)printf("%4u %5u %4u ",
rate(uvmexp.intrs - ouvmexp.intrs),
rate(uvmexp.syscalls - ouvmexp.syscalls),
rate(uvmexp.swtch - ouvmexp.swtch));
cpustats();
(void)printf("\n");
(void)fflush(stdout);
if (reps >= 0 && --reps <= 0)
break;
ouvmexp = uvmexp;
uptime = interval;
/*
* We round upward to avoid losing low-frequency events
* (i.e., >= 1 per interval but < 1 per second).
*/
halfuptime = uptime == 1 ? 0 : (uptime + 1) / 2;
(void)sleep(interval);
}
}
void
printhdr(void)
{
int i;
static int printedhdr;
if (printedhdr && !isatty(STDOUT_FILENO))
return;
(void)printf(" procs memory page%*s", 20, "");
if (ndrives > 0)
(void)printf("%s %*straps cpu\n",
((ndrives > 1) ? "disks" : "disk"),
((ndrives > 1) ? ndrives * 4 - 5 : 0), "");
else
(void)printf("%*s traps cpu\n",
ndrives * 3, "");
(void)printf(" r s avm fre flt re pi po fr sr ");
for (i = 0; i < dk_ndrive; i++)
if (dk_select[i])
(void)printf("%c%c%c ", dr_name[i][0],
dr_name[i][1],
dr_name[i][strlen(dr_name[i]) - 1]);
(void)printf(" int sys cs us sy id\n");
hdrcnt = winlines - 2;
printedhdr = 1;
}
/*
* Force a header to be prepended to the next output.
*/
void
needhdr(__unused int signo)
{
hdrcnt = 1;
}
void
dotimes(void)
{
u_int pgintime, rectime;
size_t size;
int mib[2];
/* XXX Why are these set to 0 ? This doesn't look right. */
pgintime = 0;
rectime = 0;
if (nlistf == NULL && memf == NULL) {
size = sizeof(struct uvmexp);
mib[0] = CTL_VM;
mib[1] = VM_UVMEXP;
if (sysctl(mib, 2, &uvmexp, &size, NULL, 0) == -1) {
warn("could not read vm.uvmexp");
memset(&uvmexp, 0, sizeof(struct uvmexp));
}
} else {
kread(X_UVMEXP, &uvmexp, sizeof(struct uvmexp));
}
(void)printf("%u reactivates, %u total time (usec)\n",
uvmexp.pdreact, rectime);
if (uvmexp.pdreact != 0)
(void)printf("average: %u usec / reclaim\n",
rectime / uvmexp.pdreact);
(void)printf("\n");
(void)printf("%u page ins, %u total time (msec)\n",
uvmexp.pageins, pgintime / 10);
if (uvmexp.pageins != 0)
(void)printf("average: %8.1f msec / page in\n",
pgintime / (uvmexp.pageins * 10.0));
}
int
pct(int64_t top, int64_t bot)
{
int ans;
if (bot == 0)
return(0);
ans = top * 100 / bot;
return (ans);
}
void
dosum(void)
{
struct nchstats nchstats;
int mib[2], nselcoll;
long long nchtotal;
size_t size;
if (nlistf == NULL && memf == NULL) {
size = sizeof(struct uvmexp);
mib[0] = CTL_VM;
mib[1] = VM_UVMEXP;
if (sysctl(mib, 2, &uvmexp, &size, NULL, 0) == -1) {
warn("could not read vm.uvmexp");
memset(&uvmexp, 0, sizeof(struct uvmexp));
}
} else {
kread(X_UVMEXP, &uvmexp, sizeof(struct uvmexp));
}
/* vm_page constants */
(void)printf("%11u bytes per page\n", uvmexp.pagesize);
/* vm_page counters */
(void)printf("%11u pages managed\n", uvmexp.npages);
(void)printf("%11u pages free\n", uvmexp.free);
(void)printf("%11u pages active\n", uvmexp.active);
(void)printf("%11u pages inactive\n", uvmexp.inactive);
(void)printf("%11u pages being paged out\n", uvmexp.paging);
(void)printf("%11u pages wired\n", uvmexp.wired);
(void)printf("%11u pages zeroed\n", uvmexp.zeropages);
(void)printf("%11u pages reserved for pagedaemon\n",
uvmexp.reserve_pagedaemon);
(void)printf("%11u pages reserved for kernel\n",
uvmexp.reserve_kernel);
/* swap */
(void)printf("%11u swap pages\n", uvmexp.swpages);
(void)printf("%11u swap pages in use\n", uvmexp.swpginuse);
/* stat counters */
(void)printf("%11u page faults\n", uvmexp.faults);
(void)printf("%11u traps\n", uvmexp.traps);
(void)printf("%11u interrupts\n", uvmexp.intrs);
(void)printf("%11u cpu context switches\n", uvmexp.swtch);
(void)printf("%11u fpu context switches\n", uvmexp.fpswtch);
(void)printf("%11u software interrupts\n", uvmexp.softs);
(void)printf("%11u syscalls\n", uvmexp.syscalls);
(void)printf("%11u pagein operations\n", uvmexp.pageins);
(void)printf("%11u forks\n", uvmexp.forks);
(void)printf("%11u forks where vmspace is shared\n",
uvmexp.forks_sharevm);
(void)printf("%11u kernel map entries\n", uvmexp.kmapent);
(void)printf("%11u zeroed page hits\n", uvmexp.pga_zerohit);
(void)printf("%11u zeroed page misses\n", uvmexp.pga_zeromiss);
/* daemon counters */
(void)printf("%11u number of times the pagedaemon woke up\n",
uvmexp.pdwoke);
(void)printf("%11u revolutions of the clock hand\n", uvmexp.pdrevs);
(void)printf("%11u pages freed by pagedaemon\n", uvmexp.pdfreed);
(void)printf("%11u pages scanned by pagedaemon\n", uvmexp.pdscans);
(void)printf("%11u pages reactivated by pagedaemon\n", uvmexp.pdreact);
(void)printf("%11u busy pages found by pagedaemon\n", uvmexp.pdbusy);
if (nlistf == NULL && memf == NULL) {
size = sizeof(nchstats);
mib[0] = CTL_KERN;
mib[1] = KERN_NCHSTATS;
if (sysctl(mib, 2, &nchstats, &size, NULL, 0) == -1) {
warn("could not read kern.nchstats");
memset(&nchstats, 0, sizeof(nchstats));
}
} else {
kread(X_NCHSTATS, &nchstats, sizeof(nchstats));
}
nchtotal = nchstats.ncs_goodhits + nchstats.ncs_neghits +
nchstats.ncs_badhits + nchstats.ncs_falsehits +
nchstats.ncs_miss + nchstats.ncs_long;
(void)printf("%11lld total name lookups\n", nchtotal);
(void)printf("%11s cache hits (%d%% pos + %d%% neg) system %d%% "
"per-directory\n",
"", pct(nchstats.ncs_goodhits, nchtotal),
pct(nchstats.ncs_neghits, nchtotal),
pct(nchstats.ncs_pass2, nchtotal));
(void)printf("%11s deletions %d%%, falsehits %d%%, toolong %d%%\n", "",
pct(nchstats.ncs_badhits, nchtotal),
pct(nchstats.ncs_falsehits, nchtotal),
pct(nchstats.ncs_long, nchtotal));
if (nlistf == NULL && memf == NULL) {
size = sizeof(nselcoll);
mib[0] = CTL_KERN;
mib[1] = KERN_NSELCOLL;
if (sysctl(mib, 2, &nselcoll, &size, NULL, 0) == -1) {
warn("could not read kern.nselcoll");
nselcoll = 0;
}
} else {
kread(X_NSELCOLL, &nselcoll, sizeof(nselcoll));
}
(void)printf("%11d select collisions\n", nselcoll);
}
void
doforkst(void)
{
struct forkstat fks;
size_t size;
int mib[2];
if (nlistf == NULL && memf == NULL) {
size = sizeof(struct forkstat);
mib[0] = CTL_KERN;
mib[1] = KERN_FORKSTAT;
if (sysctl(mib, 2, &fks, &size, NULL, 0) == -1) {
warn("could not read kern.forkstat");
memset(&fks, 0, sizeof(struct forkstat));
}
} else {
kread(X_FORKSTAT, &fks, sizeof(struct forkstat));
}
(void)printf("%u forks, %llu pages, average %.2f\n",
fks.cntfork, fks.sizfork, (double)fks.sizfork / fks.cntfork);
(void)printf("%u vforks, %llu pages, average %.2f\n",
fks.cntvfork, fks.sizvfork,
(double)fks.sizvfork / (fks.cntvfork ? fks.cntvfork : 1));
(void)printf("%u __tforks, %llu pages, average %.2f\n",
fks.cnttfork, fks.siztfork,
(double)fks.siztfork / (fks.cnttfork ? fks.cnttfork : 1));
(void)printf("%u kthread creations, %llu pages, average %.2f\n",
fks.cntkthread, fks.sizkthread,
(double)fks.sizkthread / (fks.cntkthread ? fks.cntkthread : 1));
}
void
dkstats(void)
{
int dn, state;
double etime;
/* Calculate disk stat deltas. */
dkswap();
etime = 0;
for (state = 0; state < CPUSTATES; ++state) {
etime += cur.cp_time[state];
}
if (etime == 0)
etime = 1;
etime /= hz;
for (dn = 0; dn < dk_ndrive; ++dn) {
if (!dk_select[dn])
continue;
(void)printf("%3.0f ",
(cur.dk_rxfer[dn] + cur.dk_rxfer[dn]) / etime);
}
}
void
cpustats(void)
{
double percent, total;
int state;
total = 0;
for (state = 0; state < CPUSTATES; ++state)
total += cur.cp_time[state];
if (total)
percent = 100 / total;
else
percent = 0;
(void)printf("%2.0f ", (cur.cp_time[CP_USER] + cur.cp_time[CP_NICE]) * percent);
(void)printf("%2.0f ", (cur.cp_time[CP_SYS] + cur.cp_time[CP_SPIN] + cur.cp_time[CP_INTR]) * percent);
(void)printf("%2.0f", cur.cp_time[CP_IDLE] * percent);
}
void
dointr(void)
{
int nintr, mib[4], i;
char intrname[128];
u_int64_t inttotal;
time_t uptime;
size_t siz;
if (nlistf != NULL || memf != NULL) {
errx(1,
"interrupt statistics are only available on live kernels");
}
uptime = getuptime();
mib[0] = CTL_KERN;
mib[1] = KERN_INTRCNT;
mib[2] = KERN_INTRCNT_NUM;
siz = sizeof(nintr);
if (sysctl(mib, 3, &nintr, &siz, NULL, 0) == -1) {
warnx("could not read kern.intrcnt.nintrcnt");
return;
}
(void)printf("%-16s %20s %8s\n", "interrupt", "total", "rate");
inttotal = 0;
for (i = 0; i < nintr; i++) {
char name[128];
uint64_t cnt;
int vector;
mib[0] = CTL_KERN;
mib[1] = KERN_INTRCNT;
mib[2] = KERN_INTRCNT_NAME;
mib[3] = i;
siz = sizeof(name);
if (sysctl(mib, 4, name, &siz, NULL, 0) == -1) {
warnx("could not read kern.intrcnt.name.%d", i);
return;
}
mib[0] = CTL_KERN;
mib[1] = KERN_INTRCNT;
mib[2] = KERN_INTRCNT_VECTOR;
mib[3] = i;
siz = sizeof(vector);
if (sysctl(mib, 4, &vector, &siz, NULL, 0) == -1) {
strlcpy(intrname, name, sizeof(intrname));
} else {
snprintf(intrname, sizeof(intrname), "irq%d/%s",
vector, name);
}
mib[0] = CTL_KERN;
mib[1] = KERN_INTRCNT;
mib[2] = KERN_INTRCNT_CNT;
mib[3] = i;
siz = sizeof(cnt);
if (sysctl(mib, 4, &cnt, &siz, NULL, 0) == -1) {
warnx("could not read kern.intrcnt.cnt.%d", i);
return;
}
if (cnt || zflag)
(void)printf("%-16.16s %20llu %8llu\n", intrname,
cnt, cnt / uptime);
inttotal += cnt;
}
(void)printf("%-16s %20llu %8llu\n", "Total", inttotal,
inttotal / uptime);
}
/*
* These names are defined in <sys/malloc.h>.
*/
const char *kmemnames[] = INITKMEMNAMES;
void
domem(void)
{
struct kmembuckets buckets[MINBUCKET + 16], *kp;
struct kmemstats kmemstats[M_LAST], *ks;
int i, j, len, size, first, mib[4];
u_long totuse = 0, totfree = 0;
char buf[BUFSIZ], *bufp, *ap;
unsigned long long totreq = 0;
const char *name;
size_t siz;
if (memf == NULL && nlistf == NULL) {
mib[0] = CTL_KERN;
mib[1] = KERN_MALLOCSTATS;
mib[2] = KERN_MALLOC_BUCKETS;
siz = sizeof(buf);
if (sysctl(mib, 3, buf, &siz, NULL, 0) == -1) {
warnx("could not read kern.malloc.buckets");
return;
}
bufp = buf;
mib[2] = KERN_MALLOC_BUCKET;
siz = sizeof(struct kmembuckets);
i = 0;
while ((ap = strsep(&bufp, ",")) != NULL) {
const char *errstr;
mib[3] = strtonum(ap, 0, INT_MAX, &errstr);
if (errstr) {
warnx("kernel lied about %d being a number", mib[3]);
return;
}
if (sysctl(mib, 4, &buckets[MINBUCKET + i], &siz,
NULL, 0) == -1) {
warn("could not read kern.malloc.bucket.%d", mib[3]);
return;
}
i++;
}
} else {
kread(X_KMEMBUCKETS, buckets, sizeof(buckets));
}
for (first = 1, i = MINBUCKET, kp = &buckets[i]; i < MINBUCKET + 16;
i++, kp++) {
if (kp->kb_calls == 0 && !verbose)
continue;
if (first) {
(void)printf("Memory statistics by bucket size\n");
(void)printf(
" Size In Use Free Requests HighWater Couldfree\n");
first = 0;
}
size = 1 << i;
(void)printf("%8d %8llu %6llu %18llu %7llu %10llu\n", size,
(unsigned long long)(kp->kb_total - kp->kb_totalfree),
(unsigned long long)kp->kb_totalfree,
(unsigned long long)kp->kb_calls,
(unsigned long long)kp->kb_highwat,
(unsigned long long)kp->kb_couldfree);
totfree += size * kp->kb_totalfree;
}
/*
* If kmem statistics are not being gathered by the kernel,
* first will still be 1.
*/
if (first) {
printf(
"Kmem statistics are not being gathered by the kernel.\n");
return;
}
if (memf == NULL && nlistf == NULL) {
memset(kmemstats, 0, sizeof(kmemstats));
for (i = 0; i < M_LAST; i++) {
mib[0] = CTL_KERN;
mib[1] = KERN_MALLOCSTATS;
mib[2] = KERN_MALLOC_KMEMSTATS;
mib[3] = i;
siz = sizeof(struct kmemstats);
/*
* Skip errors -- these are presumed to be unallocated
* entries.
*/
if (sysctl(mib, 4, &kmemstats[i], &siz, NULL, 0) == -1)
continue;
}
} else {
kread(X_KMEMSTAT, kmemstats, sizeof(kmemstats));
}
(void)printf("\nMemory usage type by bucket size\n");
(void)printf(" Size Type(s)\n");
kp = &buckets[MINBUCKET];
for (j = 1 << MINBUCKET; j < 1 << (MINBUCKET + 16); j <<= 1, kp++) {
if (kp->kb_calls == 0)
continue;
first = 1;
len = 8;
for (i = 0, ks = &kmemstats[0]; i < M_LAST; i++, ks++) {
if (ks->ks_calls == 0)
continue;
if ((ks->ks_size & j) == 0)
continue;
name = kmemnames[i] ? kmemnames[i] : "undefined";
len += 2 + strlen(name);
if (first)
printf("%8d %s", j, name);
else
printf(",");
if (len >= 80) {
printf("\n\t ");
len = 10 + strlen(name);
}
if (!first)
printf(" %s", name);
first = 0;
}
printf("\n");
}
(void)printf(
"\nMemory statistics by type Type Kern\n");
(void)printf(
" Type InUse MemUse HighUse Limit Requests Limit Size(s)\n");
for (i = 0, ks = &kmemstats[0]; i < M_LAST; i++, ks++) {
if (ks->ks_calls == 0)
continue;
(void)printf("%14s%6ld%6ldK%7ldK%6ldK%9ld%5u",
kmemnames[i] ? kmemnames[i] : "undefined",
ks->ks_inuse, (ks->ks_memuse + 1023) / 1024,
(ks->ks_maxused + 1023) / 1024,
(ks->ks_limit + 1023) / 1024, ks->ks_calls,
ks->ks_limblocks);
first = 1;
for (j = 1 << MINBUCKET; j < 1 << (MINBUCKET + 16); j <<= 1) {
if ((ks->ks_size & j) == 0)
continue;
if (first)
printf(" %d", j);
else
printf(",%d", j);
first = 0;
}
printf("\n");
totuse += ks->ks_memuse;
totreq += ks->ks_calls;
}
(void)printf("\nMemory Totals: In Use Free Requests\n");
(void)printf(" %7luK %6luK %8llu\n",
(totuse + 1023) / 1024, (totfree + 1023) / 1024, totreq);
}
static void
print_pool(struct kinfo_pool *pp, char *name)
{
static int first = 1;
char maxp[32];
int ovflw;
if (first) {
(void)printf("Memory resource pool statistics\n");
(void)printf(
"%-11s%5s%9s%5s%9s%6s%6s%6s%6s%6s%6s%5s\n",
"Name",
"Size",
"Requests",
"Fail",
"InUse",
"Pgreq",
"Pgrel",
"Npage",
"Hiwat",
"Minpg",
"Maxpg",
"Idle");
first = 0;
}
/* Skip unused pools unless verbose output. */
if (pp->pr_nget == 0 && !verbose)
return;
if (pp->pr_maxpages == UINT_MAX)
snprintf(maxp, sizeof maxp, "inf");
else
snprintf(maxp, sizeof maxp, "%u", pp->pr_maxpages);
/*
* Print single word. `ovflow' is number of characters didn't fit
* on the last word. `fmt' is a format string to print this word.
* It must contain asterisk for field width. `width' is a width
* occupied by this word. `fixed' is a number of constant chars in
* `fmt'. `val' is a value to be printed using format string `fmt'.
*/
#define PRWORD(ovflw, fmt, width, fixed, val) do { \
(ovflw) += printf((fmt), \
(width) - (fixed) - (ovflw) > 0 ? \
(width) - (fixed) - (ovflw) : 0, \
(val)) - (width); \
if ((ovflw) < 0) \
(ovflw) = 0; \
} while (/* CONSTCOND */0)
ovflw = 0;
PRWORD(ovflw, "%-*s", 11, 0, name);
PRWORD(ovflw, " %*u", 5, 1, pp->pr_size);
PRWORD(ovflw, " %*lu", 9, 1, pp->pr_nget);
PRWORD(ovflw, " %*lu", 5, 1, pp->pr_nfail);
PRWORD(ovflw, " %*lu", 9, 1, pp->pr_nget - pp->pr_nput);
PRWORD(ovflw, " %*lu", 6, 1, pp->pr_npagealloc);
PRWORD(ovflw, " %*lu", 6, 1, pp->pr_npagefree);
PRWORD(ovflw, " %*d", 6, 1, pp->pr_npages);
PRWORD(ovflw, " %*d", 6, 1, pp->pr_hiwat);
PRWORD(ovflw, " %*d", 6, 1, pp->pr_minpages);
PRWORD(ovflw, " %*s", 6, 1, maxp);
PRWORD(ovflw, " %*lu\n", 5, 1, pp->pr_nidle);
}
static void dopool_kvm(void);
static void dopool_sysctl(void);
void
dopool(void)
{
if (nlistf == NULL && memf == NULL)
dopool_sysctl();
else
dopool_kvm();
}
void
dopool_sysctl(void)
{
int mib[4], npools, i;
long total = 0, inuse = 0;
struct kinfo_pool pool;
size_t size;
mib[0] = CTL_KERN;
mib[1] = KERN_POOL;
mib[2] = KERN_POOL_NPOOLS;
size = sizeof(npools);
if (sysctl(mib, 3, &npools, &size, NULL, 0) == -1) {
warn("can't figure out number of pools in kernel");
return;
}
for (i = 1; npools; i++) {
char name[32];
mib[0] = CTL_KERN;
mib[1] = KERN_POOL;
mib[2] = KERN_POOL_POOL;
mib[3] = i;
size = sizeof(pool);
if (sysctl(mib, 4, &pool, &size, NULL, 0) == -1) {
if (errno == ENOENT)
continue;
warn("error getting pool");
return;
}
npools--;
mib[2] = KERN_POOL_NAME;
size = sizeof(name);
if (sysctl(mib, 4, &name, &size, NULL, 0) == -1) {
warn("error getting pool name");
return;
}
print_pool(&pool, name);
inuse += (pool.pr_nget - pool.pr_nput) * pool.pr_size;
total += pool.pr_npages * pool.pr_pgsize;
}
inuse /= 1024;
total /= 1024;
printf("\nIn use %ldK, total allocated %ldK; utilization %.1f%%\n",
inuse, total, (double)(100 * inuse) / total);
}
void
dopool_kvm(void)
{
SIMPLEQ_HEAD(,pool) pool_head;
struct pool pool, *pp = &pool;
struct kinfo_pool pi;
long total = 0, inuse = 0;
u_long addr;
kread(X_POOLHEAD, &pool_head, sizeof(pool_head));
addr = (u_long)SIMPLEQ_FIRST(&pool_head);
while (addr != 0) {
char name[32];
if (kvm_read(kd, addr, (void *)pp, sizeof *pp) != sizeof *pp) {
(void)fprintf(stderr,
"vmstat: pool chain trashed: %s\n",
kvm_geterr(kd));
exit(1);
}
if (kvm_read(kd, (u_long)pp->pr_wchan, name, sizeof name) < 0) {
(void)fprintf(stderr,
"vmstat: pool name trashed: %s\n",
kvm_geterr(kd));
exit(1);
}
name[31] = '\0';
memset(&pi, 0, sizeof(pi));
pi.pr_size = pp->pr_size;
pi.pr_pgsize = pp->pr_pgsize;
pi.pr_itemsperpage = pp->pr_itemsperpage;
pi.pr_npages = pp->pr_npages;
pi.pr_minpages = pp->pr_minpages;
pi.pr_maxpages = pp->pr_maxpages;
pi.pr_hardlimit = pp->pr_hardlimit;
pi.pr_nout = pp->pr_nout;
pi.pr_nitems = pp->pr_nitems;
pi.pr_nget = pp->pr_nget;
pi.pr_nput = pp->pr_nput;
pi.pr_nfail = pp->pr_nfail;
pi.pr_npagealloc = pp->pr_npagealloc;
pi.pr_npagefree = pp->pr_npagefree;
pi.pr_hiwat = pp->pr_hiwat;
pi.pr_nidle = pp->pr_nidle;
print_pool(&pi, name);
inuse += (pi.pr_nget - pi.pr_nput) * pi.pr_size;
total += pi.pr_npages * pi.pr_pgsize;
addr = (u_long)SIMPLEQ_NEXT(pp, pr_poollist);
}
inuse /= 1024;
total /= 1024;
printf("\nIn use %ldK, total allocated %ldK; utilization %.1f%%\n",
inuse, total, (double)(100 * inuse) / total);
}
/*
* kread reads something from the kernel, given its nlist index.
*/
void
kread(int nlx, void *addr, size_t size)
{
char *sym;
if (namelist[nlx].n_type == 0 || namelist[nlx].n_value == 0) {
sym = namelist[nlx].n_name;
if (*sym == '_')
++sym;
errx(1, "symbol %s not defined", sym);
}
if (kvm_read(kd, namelist[nlx].n_value, addr, size) != size) {
sym = namelist[nlx].n_name;
if (*sym == '_')
++sym;
errx(1, "%s: %s", sym, kvm_geterr(kd));
}
}
void
usage(void)
{
(void)fprintf(stderr, "usage: %s [-fimstvz] [-c count] [-M core] "
"[-N system] [-w wait] [disk ...]\n", __progname);
exit(1);
}
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