freebsd-nq/usr.bin/vmstat/vmstat.c

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/*
* 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.
* 4. 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.
*/
#ifndef lint
static const char copyright[] =
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"@(#) Copyright (c) 1980, 1986, 1991, 1993\n\
The Regents of the University of California. All rights reserved.\n";
#endif /* not lint */
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#if 0
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#ifndef lint
static char sccsid[] = "@(#)vmstat.c 8.1 (Berkeley) 6/6/93";
#endif /* not lint */
#endif
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#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
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#include <sys/param.h>
#include <sys/proc.h>
#include <sys/uio.h>
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#include <sys/namei.h>
#include <sys/malloc.h>
#include <sys/signal.h>
#include <sys/fcntl.h>
#include <sys/ioctl.h>
#include <sys/resource.h>
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#include <sys/sysctl.h>
#include <sys/time.h>
#include <sys/user.h>
#include <sys/vmmeter.h>
#include <sys/pcpu.h>
#include <vm/vm_param.h>
#include <ctype.h>
#include <devstat.h>
#include <err.h>
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#include <errno.h>
#include <inttypes.h>
#include <kvm.h>
#include <limits.h>
#include <memstat.h>
#include <nlist.h>
#include <paths.h>
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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sysexits.h>
#include <time.h>
#include <unistd.h>
#include <libutil.h>
#include <libxo/xo.h>
#define VMSTAT_XO_VERSION "1"
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static char da[] = "da";
static struct nlist namelist[] = {
#define X_SUM 0
{ "_vm_cnt" },
#define X_HZ 1
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{ "_hz" },
#define X_STATHZ 2
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{ "_stathz" },
#define X_NCHSTATS 3
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{ "_nchstats" },
#define X_INTRNAMES 4
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{ "_intrnames" },
#define X_SINTRNAMES 5
{ "_sintrnames" },
#define X_INTRCNT 6
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{ "_intrcnt" },
#define X_SINTRCNT 7
{ "_sintrcnt" },
#ifdef notyet
#define X_DEFICIT XXX
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{ "_deficit" },
#define X_REC XXX
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{ "_rectime" },
#define X_PGIN XXX
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{ "_pgintime" },
#define X_XSTATS XXX
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{ "_xstats" },
#define X_END XXX
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#else
#define X_END 8
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#endif
{ "" },
};
static struct statinfo cur, last;
static int num_devices, maxshowdevs;
static long generation;
static struct device_selection *dev_select;
static int num_selected;
static struct devstat_match *matches;
static int num_matches = 0;
static int num_devices_specified, num_selections;
static long select_generation;
static char **specified_devices;
static devstat_select_mode select_mode;
static struct vmmeter sum, osum;
#define VMSTAT_DEFAULT_LINES 20 /* Default number of `winlines'. */
volatile sig_atomic_t wresized; /* Tty resized, when non-zero. */
static int winlines = VMSTAT_DEFAULT_LINES; /* Current number of tty rows. */
static int aflag;
static int nflag;
static int Pflag;
static int hflag;
static kvm_t *kd;
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#define FORKSTAT 0x01
#define INTRSTAT 0x02
#define MEMSTAT 0x04
#define SUMSTAT 0x08
#define TIMESTAT 0x10
#define VMSTAT 0x20
#define ZMEMSTAT 0x40
#define OBJSTAT 0x80
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static void cpustats(void);
static void pcpustats(int, u_long, int);
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static void devstats(void);
static void doforkst(void);
static void dointr(unsigned int, int);
static void doobjstat(void);
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static void dosum(void);
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static void dovmstat(unsigned int, int);
static void domemstat_malloc(void);
static void domemstat_zone(void);
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static void kread(int, void *, size_t);
static void kreado(int, void *, size_t, size_t);
static char *kgetstr(const char *);
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static void needhdr(int);
static void needresize(int);
static void doresize(void);
static void printhdr(int, u_long);
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static void usage(void);
static long pct(long, long);
static long long getuptime(void);
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static char **getdrivedata(char **);
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int
main(int argc, char *argv[])
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{
int c, todo;
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unsigned int interval;
float f;
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int reps;
char *memf, *nlistf;
char errbuf[_POSIX2_LINE_MAX];
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memf = nlistf = NULL;
interval = reps = todo = 0;
maxshowdevs = 2;
hflag = isatty(1);
argc = xo_parse_args(argc, argv);
if (argc < 0)
return argc;
while ((c = getopt(argc, argv, "ac:fhHiM:mN:n:oPp:stw:z")) != -1) {
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switch (c) {
case 'a':
aflag++;
break;
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case 'c':
reps = atoi(optarg);
break;
case 'P':
Pflag++;
break;
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case 'f':
todo |= FORKSTAT;
break;
case 'h':
hflag = 1;
break;
case 'H':
hflag = 0;
break;
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case 'i':
todo |= INTRSTAT;
break;
case 'M':
memf = optarg;
break;
case 'm':
todo |= MEMSTAT;
break;
case 'N':
nlistf = optarg;
break;
case 'n':
nflag = 1;
maxshowdevs = atoi(optarg);
if (maxshowdevs < 0)
xo_errx(1, "number of devices %d is < 0",
maxshowdevs);
break;
case 'o':
todo |= OBJSTAT;
break;
case 'p':
if (devstat_buildmatch(optarg, &matches, &num_matches) != 0)
xo_errx(1, "%s", devstat_errbuf);
break;
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case 's':
todo |= SUMSTAT;
break;
case 't':
#ifdef notyet
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todo |= TIMESTAT;
#else
xo_errx(EX_USAGE, "sorry, -t is not (re)implemented yet");
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#endif
break;
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case 'w':
/* Convert to milliseconds. */
f = atof(optarg);
interval = f * 1000;
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break;
case 'z':
todo |= ZMEMSTAT;
break;
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case '?':
default:
usage();
}
}
argc -= optind;
argv += optind;
xo_set_version(VMSTAT_XO_VERSION);
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if (todo == 0)
todo = VMSTAT;
if (memf != NULL) {
kd = kvm_openfiles(nlistf, memf, NULL, O_RDONLY, errbuf);
if (kd == NULL)
xo_errx(1, "kvm_openfiles: %s", errbuf);
}
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retry_nlist:
if (kd != NULL && (c = kvm_nlist(kd, namelist)) != 0) {
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if (c > 0) {
int bufsize = 0, len = 0;
char *buf, *bp;
/*
* 'cnt' was renamed to 'vm_cnt'. If 'vm_cnt' is not
* found try looking up older 'cnt' symbol.
* */
if (namelist[X_SUM].n_type == 0 &&
strcmp(namelist[X_SUM].n_name, "_vm_cnt") == 0) {
namelist[X_SUM].n_name = "_cnt";
goto retry_nlist;
}
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for (c = 0;
c < (int)(sizeof(namelist)/sizeof(namelist[0]));
c++)
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if (namelist[c].n_type == 0)
bufsize += strlen(namelist[c].n_name) + 1;
bufsize += len + 1;
buf = bp = alloca(bufsize);
for (c = 0;
c < (int)(sizeof(namelist)/sizeof(namelist[0]));
c++)
if (namelist[c].n_type == 0) {
xo_error(" %s",
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namelist[c].n_name);
len = strlen(namelist[c].n_name);
*bp++ = ' ';
memcpy(bp, namelist[c].n_name, len);
bp += len;
}
*bp = '\0';
xo_error("undefined symbols:\n", buf);
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} else
xo_warnx("kvm_nlist: %s", kvm_geterr(kd));
xo_finish();
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exit(1);
}
if (kd && Pflag)
xo_errx(1, "Cannot use -P with crash dumps");
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if (todo & VMSTAT) {
/*
* Make sure that the userland devstat version matches the
* kernel devstat version. If not, exit and print a
* message informing the user of his mistake.
*/
if (devstat_checkversion(NULL) < 0)
xo_errx(1, "%s", devstat_errbuf);
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argv = getdrivedata(argv);
}
if (*argv) {
f = atof(*argv);
interval = f * 1000;
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if (*++argv)
reps = atoi(*argv);
}
if (interval) {
if (!reps)
reps = -1;
} else if (reps)
interval = 1 * 1000;
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if (todo & FORKSTAT)
doforkst();
if (todo & MEMSTAT)
domemstat_malloc();
if (todo & ZMEMSTAT)
domemstat_zone();
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if (todo & SUMSTAT)
dosum();
if (todo & OBJSTAT)
doobjstat();
#ifdef notyet
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if (todo & TIMESTAT)
dotimes();
#endif
if (todo & INTRSTAT)
dointr(interval, reps);
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if (todo & VMSTAT)
dovmstat(interval, reps);
xo_finish();
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exit(0);
}
static int
mysysctl(const char *name, void *oldp, size_t *oldlenp,
void *newp, size_t newlen)
{
int error;
error = sysctlbyname(name, oldp, oldlenp, newp, newlen);
if (error != 0 && errno != ENOMEM)
xo_err(1, "sysctl(%s)", name);
return (error);
}
static char **
getdrivedata(char **argv)
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{
if ((num_devices = devstat_getnumdevs(NULL)) < 0)
xo_errx(1, "%s", devstat_errbuf);
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cur.dinfo = (struct devinfo *)calloc(1, sizeof(struct devinfo));
last.dinfo = (struct devinfo *)calloc(1, sizeof(struct devinfo));
if (devstat_getdevs(NULL, &cur) == -1)
xo_errx(1, "%s", devstat_errbuf);
num_devices = cur.dinfo->numdevs;
generation = cur.dinfo->generation;
specified_devices = (char **)malloc(sizeof(char *));
for (num_devices_specified = 0; *argv; ++argv) {
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if (isdigit(**argv))
break;
num_devices_specified++;
specified_devices = (char **)realloc(specified_devices,
sizeof(char *) *
num_devices_specified);
specified_devices[num_devices_specified - 1] = *argv;
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}
dev_select = NULL;
if (nflag == 0 && maxshowdevs < num_devices_specified)
maxshowdevs = num_devices_specified;
/*
* People are generally only interested in disk statistics when
* they're running vmstat. So, that's what we're going to give
* them if they don't specify anything by default. We'll also give
* them any other random devices in the system so that we get to
* maxshowdevs devices, if that many devices exist. If the user
* specifies devices on the command line, either through a pattern
* match or by naming them explicitly, we will give the user only
* those devices.
*/
if ((num_devices_specified == 0) && (num_matches == 0)) {
if (devstat_buildmatch(da, &matches, &num_matches) != 0)
xo_errx(1, "%s", devstat_errbuf);
select_mode = DS_SELECT_ADD;
} else
select_mode = DS_SELECT_ONLY;
/*
* At this point, selectdevs will almost surely indicate that the
* device list has changed, so we don't look for return values of 0
* or 1. If we get back -1, though, there is an error.
*/
if (devstat_selectdevs(&dev_select, &num_selected, &num_selections,
&select_generation, generation, cur.dinfo->devices,
num_devices, matches, num_matches, specified_devices,
num_devices_specified, select_mode,
maxshowdevs, 0) == -1)
xo_errx(1, "%s", devstat_errbuf);
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return(argv);
}
/* Return system uptime in nanoseconds */
static long long
getuptime(void)
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{
struct timespec sp;
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(void)clock_gettime(CLOCK_UPTIME, &sp);
return((long long)sp.tv_sec * 1000000000LL + sp.tv_nsec);
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}
static void
fill_pcpu(struct pcpu ***pcpup, int* maxcpup)
{
struct pcpu **pcpu;
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int maxcpu, i;
*pcpup = NULL;
if (kd == NULL)
return;
maxcpu = kvm_getmaxcpu(kd);
if (maxcpu < 0)
xo_errx(1, "kvm_getmaxcpu: %s", kvm_geterr(kd));
pcpu = calloc(maxcpu, sizeof(struct pcpu *));
if (pcpu == NULL)
xo_err(1, "calloc");
for (i = 0; i < maxcpu; i++) {
pcpu[i] = kvm_getpcpu(kd, i);
if (pcpu[i] == (struct pcpu *)-1)
xo_errx(1, "kvm_getpcpu: %s", kvm_geterr(kd));
}
*maxcpup = maxcpu;
*pcpup = pcpu;
}
static void
free_pcpu(struct pcpu **pcpu, int maxcpu)
{
int i;
for (i = 0; i < maxcpu; i++)
free(pcpu[i]);
free(pcpu);
}
static void
fill_vmmeter(struct vmmeter *vmmp)
{
struct pcpu **pcpu;
int maxcpu, i;
if (kd != NULL) {
kread(X_SUM, vmmp, sizeof(*vmmp));
fill_pcpu(&pcpu, &maxcpu);
for (i = 0; i < maxcpu; i++) {
if (pcpu[i] == NULL)
continue;
#define ADD_FROM_PCPU(i, name) \
vmmp->name += pcpu[i]->pc_cnt.name
ADD_FROM_PCPU(i, v_swtch);
ADD_FROM_PCPU(i, v_trap);
ADD_FROM_PCPU(i, v_syscall);
ADD_FROM_PCPU(i, v_intr);
ADD_FROM_PCPU(i, v_soft);
ADD_FROM_PCPU(i, v_vm_faults);
ADD_FROM_PCPU(i, v_io_faults);
ADD_FROM_PCPU(i, v_cow_faults);
ADD_FROM_PCPU(i, v_cow_optim);
ADD_FROM_PCPU(i, v_zfod);
ADD_FROM_PCPU(i, v_ozfod);
ADD_FROM_PCPU(i, v_swapin);
ADD_FROM_PCPU(i, v_swapout);
ADD_FROM_PCPU(i, v_swappgsin);
ADD_FROM_PCPU(i, v_swappgsout);
ADD_FROM_PCPU(i, v_vnodein);
ADD_FROM_PCPU(i, v_vnodeout);
ADD_FROM_PCPU(i, v_vnodepgsin);
ADD_FROM_PCPU(i, v_vnodepgsout);
ADD_FROM_PCPU(i, v_intrans);
ADD_FROM_PCPU(i, v_tfree);
ADD_FROM_PCPU(i, v_forks);
ADD_FROM_PCPU(i, v_vforks);
ADD_FROM_PCPU(i, v_rforks);
ADD_FROM_PCPU(i, v_kthreads);
ADD_FROM_PCPU(i, v_forkpages);
ADD_FROM_PCPU(i, v_vforkpages);
ADD_FROM_PCPU(i, v_rforkpages);
ADD_FROM_PCPU(i, v_kthreadpages);
#undef ADD_FROM_PCPU
}
free_pcpu(pcpu, maxcpu);
} else {
size_t size = sizeof(unsigned int);
#define GET_VM_STATS(cat, name) \
mysysctl("vm.stats." #cat "." #name, &vmmp->name, &size, NULL, 0)
/* sys */
GET_VM_STATS(sys, v_swtch);
GET_VM_STATS(sys, v_trap);
GET_VM_STATS(sys, v_syscall);
GET_VM_STATS(sys, v_intr);
GET_VM_STATS(sys, v_soft);
/* vm */
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GET_VM_STATS(vm, v_vm_faults);
GET_VM_STATS(vm, v_io_faults);
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GET_VM_STATS(vm, v_cow_faults);
GET_VM_STATS(vm, v_cow_optim);
GET_VM_STATS(vm, v_zfod);
GET_VM_STATS(vm, v_ozfod);
GET_VM_STATS(vm, v_swapin);
GET_VM_STATS(vm, v_swapout);
GET_VM_STATS(vm, v_swappgsin);
GET_VM_STATS(vm, v_swappgsout);
GET_VM_STATS(vm, v_vnodein);
GET_VM_STATS(vm, v_vnodeout);
GET_VM_STATS(vm, v_vnodepgsin);
GET_VM_STATS(vm, v_vnodepgsout);
GET_VM_STATS(vm, v_intrans);
GET_VM_STATS(vm, v_reactivated);
GET_VM_STATS(vm, v_pdwakeups);
GET_VM_STATS(vm, v_pdpages);
GET_VM_STATS(vm, v_tcached);
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GET_VM_STATS(vm, v_dfree);
GET_VM_STATS(vm, v_pfree);
GET_VM_STATS(vm, v_tfree);
GET_VM_STATS(vm, v_page_size);
GET_VM_STATS(vm, v_page_count);
GET_VM_STATS(vm, v_free_reserved);
GET_VM_STATS(vm, v_free_target);
GET_VM_STATS(vm, v_free_min);
GET_VM_STATS(vm, v_free_count);
GET_VM_STATS(vm, v_wire_count);
GET_VM_STATS(vm, v_active_count);
GET_VM_STATS(vm, v_inactive_target);
GET_VM_STATS(vm, v_inactive_count);
GET_VM_STATS(vm, v_cache_count);
GET_VM_STATS(vm, v_pageout_free_min);
GET_VM_STATS(vm, v_interrupt_free_min);
/*GET_VM_STATS(vm, v_free_severe);*/
GET_VM_STATS(vm, v_forks);
GET_VM_STATS(vm, v_vforks);
GET_VM_STATS(vm, v_rforks);
GET_VM_STATS(vm, v_kthreads);
GET_VM_STATS(vm, v_forkpages);
GET_VM_STATS(vm, v_vforkpages);
GET_VM_STATS(vm, v_rforkpages);
GET_VM_STATS(vm, v_kthreadpages);
#undef GET_VM_STATS
}
}
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static void
fill_vmtotal(struct vmtotal *vmtp)
{
if (kd != NULL) {
/* XXX fill vmtp */
xo_errx(1, "not implemented");
} else {
size_t size = sizeof(*vmtp);
mysysctl("vm.vmtotal", vmtp, &size, NULL, 0);
if (size != sizeof(*vmtp))
xo_errx(1, "vm.total size mismatch");
}
}
/* Determine how many cpu columns, and what index they are in kern.cp_times */
static int
getcpuinfo(u_long *maskp, int *maxidp)
{
int maxcpu;
int maxid;
int ncpus;
int i, j;
int empty;
size_t size;
long *times;
u_long mask;
if (kd != NULL)
xo_errx(1, "not implemented");
mask = 0;
ncpus = 0;
size = sizeof(maxcpu);
mysysctl("kern.smp.maxcpus", &maxcpu, &size, NULL, 0);
if (size != sizeof(maxcpu))
xo_errx(1, "sysctl kern.smp.maxcpus");
size = sizeof(long) * maxcpu * CPUSTATES;
times = malloc(size);
if (times == NULL)
xo_err(1, "malloc %zd bytes", size);
mysysctl("kern.cp_times", times, &size, NULL, 0);
maxid = (size / CPUSTATES / sizeof(long)) - 1;
for (i = 0; i <= maxid; i++) {
empty = 1;
for (j = 0; empty && j < CPUSTATES; j++) {
if (times[i * CPUSTATES + j] != 0)
empty = 0;
}
if (!empty) {
mask |= (1ul << i);
ncpus++;
}
}
if (maskp)
*maskp = mask;
if (maxidp)
*maxidp = maxid;
return (ncpus);
}
static void
prthuman(const char *name, u_int64_t val, int size)
{
char buf[10];
int flags;
char fmt[128];
snprintf(fmt, sizeof(fmt), "{:%s/%%*s}", name);
if (size < 5 || size > 9)
xo_errx(1, "doofus");
flags = HN_B | HN_NOSPACE | HN_DECIMAL;
humanize_number(buf, size, val, "", HN_AUTOSCALE, flags);
xo_attr("value", "%ju", (uintmax_t) val);
xo_emit(fmt, size, buf);
}
static int hz, hdrcnt;
static long *cur_cp_times;
static long *last_cp_times;
static size_t size_cp_times;
static void
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dovmstat(unsigned int interval, int reps)
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{
struct vmtotal total;
time_t uptime, halfuptime;
struct devinfo *tmp_dinfo;
size_t size;
int ncpus, maxid;
u_long cpumask;
int rate_adj;
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uptime = getuptime() / 1000000000LL;
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halfuptime = uptime / 2;
rate_adj = 1;
ncpus = 1;
maxid = 0;
/*
* If the user stops the program (control-Z) and then resumes it,
* print out the header again.
*/
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(void)signal(SIGCONT, needhdr);
/*
* If our standard output is a tty, then install a SIGWINCH handler
* and set wresized so that our first iteration through the main
* vmstat loop will peek at the terminal's current rows to find out
* how many lines can fit in a screenful of output.
*/
if (isatty(fileno(stdout)) != 0) {
wresized = 1;
(void)signal(SIGWINCH, needresize);
} else {
wresized = 0;
winlines = VMSTAT_DEFAULT_LINES;
}
if (kd != NULL) {
if (namelist[X_STATHZ].n_type != 0 &&
namelist[X_STATHZ].n_value != 0)
kread(X_STATHZ, &hz, sizeof(hz));
if (!hz)
kread(X_HZ, &hz, sizeof(hz));
} else {
struct clockinfo clockrate;
size = sizeof(clockrate);
mysysctl("kern.clockrate", &clockrate, &size, NULL, 0);
if (size != sizeof(clockrate))
xo_errx(1, "clockrate size mismatch");
hz = clockrate.hz;
}
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if (Pflag) {
ncpus = getcpuinfo(&cpumask, &maxid);
size_cp_times = sizeof(long) * (maxid + 1) * CPUSTATES;
cur_cp_times = calloc(1, size_cp_times);
last_cp_times = calloc(1, size_cp_times);
}
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for (hdrcnt = 1;;) {
if (!--hdrcnt)
printhdr(maxid, cpumask);
if (kd != NULL) {
if (kvm_getcptime(kd, cur.cp_time) < 0)
xo_errx(1, "kvm_getcptime: %s", kvm_geterr(kd));
} else {
size = sizeof(cur.cp_time);
mysysctl("kern.cp_time", &cur.cp_time, &size, NULL, 0);
if (size != sizeof(cur.cp_time))
xo_errx(1, "cp_time size mismatch");
}
if (Pflag) {
size = size_cp_times;
mysysctl("kern.cp_times", cur_cp_times, &size, NULL, 0);
if (size != size_cp_times)
xo_errx(1, "cp_times mismatch");
}
tmp_dinfo = last.dinfo;
last.dinfo = cur.dinfo;
cur.dinfo = tmp_dinfo;
Run a revision of the devstat interface: Kernel: Change statistics to use the *uptime() timescale (ie: relative to boottime) rather than the UTC aligned timescale. This makes the device statistics code oblivious to clock steps. Change timestamps to bintime format, they are cheaper. Remove the "busy_count", and replace it with two counter fields: "start_count" and "end_count", which are updated in the down and up paths respectively. This removes the locking constraint on devstat. Add a timestamp argument to devstat_start_transaction(), this will normally be a timestamp set by the *_bio() function in bp->bio_t0. Use this field to calculate duration of I/O operations. Add two timestamp arguments to devstat_end_transaction(), one is the current time, a NULL pointer means "take timestamp yourself", the other is the timestamp of when this transaction started (see above). Change calculation of busy_time to operate on "the salami principle": Only when we are idle, which we can determine by the start+end counts being identical, do we update the "busy_from" field in the down path. In the up path we accumulate the timeslice in busy_time and update busy_from. Change the byte_* and num_* fields into two arrays: bytes[] and operations[]. Userland: Change the misleading "busy_time" name to be called "snap_time" and make the time long double since that is what most users need anyway, fill it using clock_gettime(CLOCK_MONOTONIC) to put it on the same timescale as the kernel fields. Change devstat_compute_etime() to operate on struct bintime. Remove the version 2 legacy interface: the change to bintime makes compatibility far too expensive. Fix a bug in systat's "vm" page where boot relative busy times would be bogus. Bump __FreeBSD_version to 500107 Review & Collaboration by: ken
2003-03-15 21:59:06 +00:00
last.snap_time = cur.snap_time;
/*
* Here what we want to do is refresh our device stats.
* getdevs() returns 1 when the device list has changed.
* If the device list has changed, we want to go through
* the selection process again, in case a device that we
* were previously displaying has gone away.
*/
switch (devstat_getdevs(NULL, &cur)) {
case -1:
xo_errx(1, "%s", devstat_errbuf);
break;
case 1: {
int retval;
num_devices = cur.dinfo->numdevs;
generation = cur.dinfo->generation;
retval = devstat_selectdevs(&dev_select, &num_selected,
&num_selections, &select_generation,
generation, cur.dinfo->devices,
num_devices, matches, num_matches,
specified_devices,
num_devices_specified, select_mode,
maxshowdevs, 0);
switch (retval) {
case -1:
xo_errx(1, "%s", devstat_errbuf);
break;
case 1:
printhdr(maxid, cpumask);
break;
default:
break;
}
}
default:
break;
}
fill_vmmeter(&sum);
fill_vmtotal(&total);
xo_open_container("processes");
xo_emit("{:runnable/%1d} {:waiting/%ld} "
"{:swapped-out/%ld}",
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total.t_rq - 1, total.t_dw + total.t_pw, total.t_sw);
xo_close_container("processes");
xo_open_container("memory");
#define vmstat_pgtok(a) ((a) * (sum.v_page_size >> 10))
#define rate(x) (((x) * rate_adj + halfuptime) / uptime) /* round */
if (hflag) {
xo_emit("");
prthuman("available-memory",
total.t_avm * (u_int64_t)sum.v_page_size, 5);
xo_emit(" ");
prthuman("free-memory",
total.t_free * (u_int64_t)sum.v_page_size, 5);
xo_emit(" ");
} else {
xo_emit(" ");
xo_emit("{:available-memory/%7d}",
vmstat_pgtok(total.t_avm));
xo_emit(" ");
xo_emit("{:free-memory/%7d}",
vmstat_pgtok(total.t_free));
}
xo_emit("{:total-page-faults/%5lu} ",
(unsigned long)rate(sum.v_vm_faults -
osum.v_vm_faults));
xo_close_container("memory");
xo_open_container("paging-rates");
xo_emit("{:page-reactivated/%3lu} ",
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(unsigned long)rate(sum.v_reactivated - osum.v_reactivated));
xo_emit("{:paged-in/%3lu} ",
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(unsigned long)rate(sum.v_swapin + sum.v_vnodein -
(osum.v_swapin + osum.v_vnodein)));
xo_emit("{:paged-out/%3lu} ",
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(unsigned long)rate(sum.v_swapout + sum.v_vnodeout -
(osum.v_swapout + osum.v_vnodeout)));
xo_emit("{:freed/%5lu} ",
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(unsigned long)rate(sum.v_tfree - osum.v_tfree));
xo_emit("{:scanned/%4lu} ",
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(unsigned long)rate(sum.v_pdpages - osum.v_pdpages));
xo_close_container("paging-rates");
devstats();
xo_open_container("fault-rates");
xo_emit("{:interrupts/%4lu} {:system-calls/%5lu} "
"{:context-switches/%5u}",
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(unsigned long)rate(sum.v_intr - osum.v_intr),
(unsigned long)rate(sum.v_syscall - osum.v_syscall),
(unsigned long)rate(sum.v_swtch - osum.v_swtch));
xo_close_container("fault-rates");
if (Pflag)
pcpustats(ncpus, cpumask, maxid);
else
cpustats();
xo_emit("\n");
xo_flush();
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if (reps >= 0 && --reps <= 0)
break;
osum = sum;
uptime = interval;
rate_adj = 1000;
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/*
* We round upward to avoid losing low-frequency events
* (i.e., >= 1 per interval but < 1 per millisecond).
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*/
if (interval != 1)
halfuptime = (uptime + 1) / 2;
else
halfuptime = 0;
(void)usleep(interval * 1000);
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}
}
static void
printhdr(int maxid, u_long cpumask)
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{
int i, num_shown;
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num_shown = (num_selected < maxshowdevs) ? num_selected : maxshowdevs;
if (hflag) {
xo_emit("{T:procs} {T:memory} {T:/page%*s}", 19, "");
} else {
xo_emit("{T:procs} {T:memory} {T:/page%*s}", 19, "");
}
if (num_shown > 1)
xo_emit(" {T:/disks %*s}", num_shown * 4 - 7, "");
else if (num_shown == 1)
xo_emit(" {T:disks}");
xo_emit(" {T:faults} ");
if (Pflag) {
for (i = 0; i <= maxid; i++) {
if (cpumask & (1ul << i))
xo_emit(" {T:/cpu%d} ", i);
}
xo_emit("\n");
} else
xo_emit(" {T:cpu}\n");
if (hflag) {
xo_emit("{T:r} {T:b} {T:w} {T:avm} {T:fre} {T:flt} {T:re} {T:pi} {T:po} {T:fr} {T:sr} ");
} else {
xo_emit("{T:r} {T:b} {T:w} {T:avm} {T:fre} {T:flt} {T:re} {T:pi} {T:po} {T:fr} {T:sr} ");
}
for (i = 0; i < num_devices; i++)
if ((dev_select[i].selected)
&& (dev_select[i].selected <= maxshowdevs))
xo_emit("{T:/%c%c%d} ", dev_select[i].device_name[0],
dev_select[i].device_name[1],
dev_select[i].unit_number);
xo_emit(" {T:in} {T:sy} {T:cs}");
if (Pflag) {
for (i = 0; i <= maxid; i++) {
if (cpumask & (1ul << i))
xo_emit(" {T:us} {T:sy} {T:id}");
}
xo_emit("\n");
} else
xo_emit(" {T:us} {T:sy} {T:id}\n");
if (wresized != 0)
doresize();
hdrcnt = winlines;
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}
/*
* Force a header to be prepended to the next output.
*/
static void
needhdr(int dummy __unused)
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{
hdrcnt = 1;
}
/*
* When the terminal is resized, force an update of the maximum number of rows
* printed between each header repetition. Then force a new header to be
* prepended to the next output.
*/
void
needresize(int signo)
{
wresized = 1;
hdrcnt = 1;
}
/*
* Update the global `winlines' count of terminal rows.
*/
void
doresize(void)
{
int status;
struct winsize w;
for (;;) {
status = ioctl(fileno(stdout), TIOCGWINSZ, &w);
if (status == -1 && errno == EINTR)
continue;
else if (status == -1)
xo_err(1, "ioctl");
if (w.ws_row > 3)
winlines = w.ws_row - 3;
else
winlines = VMSTAT_DEFAULT_LINES;
break;
}
/*
* Inhibit doresize() calls until we are rescheduled by SIGWINCH.
*/
wresized = 0;
}
#ifdef notyet
static void
dotimes(void)
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{
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unsigned int pgintime, rectime;
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kread(X_REC, &rectime, sizeof(rectime));
kread(X_PGIN, &pgintime, sizeof(pgintime));
kread(X_SUM, &sum, sizeof(sum));
xo_emit("{:page-reclaims/%u} {N:reclaims}, "
"{:reclaim-time/%u} {N:total time (usec)}\n",
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sum.v_pgrec, rectime);
xo_emit("{L:average}: {:reclaim-average/%u} {N:usec \\/ reclaim}\n",
rectime / sum.v_pgrec);
xo_emit("\n");
xo_emit("{:page-ins/%u} {N:page ins}, "
"{:page-in-time/%u} {N:total time (msec)}\n",
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sum.v_pgin, pgintime / 10);
xo_emit("{L:average}: {:average/%8.1f} {N:msec \\/ page in}\n",
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pgintime / (sum.v_pgin * 10.0));
}
#endif
static long
pct(long top, long bot)
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{
long ans;
if (bot == 0)
return(0);
ans = (quad_t)top * 100 / bot;
return (ans);
}
#define PCT(top, bot) pct((long)(top), (long)(bot))
static void
dosum(void)
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{
struct nchstats lnchstats;
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long nchtotal;
fill_vmmeter(&sum);
xo_open_container("summary-statistics");
xo_emit("{:context-switches/%9u} {N:cpu context switches}\n",
sum.v_swtch);
xo_emit("{:interrupts/%9u} {N:device interrupts}\n",
sum.v_intr);
xo_emit("{:software-interrupts/%9u} {N:software interrupts}\n",
sum.v_soft);
xo_emit("{:traps/%9u} {N:traps}\n", sum.v_trap);
xo_emit("{:system-calls/%9u} {N:system calls}\n",
sum.v_syscall);
xo_emit("{:kernel-threads/%9u} {N:kernel threads created}\n",
sum.v_kthreads);
xo_emit("{:forks/%9u} {N: fork() calls}\n", sum.v_forks);
xo_emit("{:vforks/%9u} {N:vfork() calls}\n",
sum.v_vforks);
xo_emit("{:rforks/%9u} {N:rfork() calls}\n",
sum.v_rforks);
xo_emit("{:swap-ins/%9u} {N:swap pager pageins}\n",
sum.v_swapin);
xo_emit("{:swap-in-pages/%9u} {N:swap pager pages paged in}\n",
sum.v_swappgsin);
xo_emit("{:swap-outs/%9u} {N:swap pager pageouts}\n",
sum.v_swapout);
xo_emit("{:swap-out-pages/%9u} {N:swap pager pages paged out}\n",
sum.v_swappgsout);
xo_emit("{:vnode-page-ins/%9u} {N:vnode pager pageins}\n",
sum.v_vnodein);
xo_emit("{:vnode-page-in-pages/%9u} {N:vnode pager pages paged in}\n",
sum.v_vnodepgsin);
xo_emit("{:vnode-page-outs/%9u} {N:vnode pager pageouts}\n",
sum.v_vnodeout);
xo_emit("{:vnode-page-outs/%9u} {N:vnode pager pages paged out}\n",
sum.v_vnodepgsout);
xo_emit("{:page-daemon-wakeups/%9u} {N:page daemon wakeups}\n",
sum.v_pdwakeups);
xo_emit("{:page-daemon-pages/%9u} {N:pages examined by the page daemon}\n",
sum.v_pdpages);
xo_emit("{:reactivated/%9u} {N:pages reactivated}\n",
sum.v_reactivated);
xo_emit("{:copy-on-write-faults/%9u} {N:copy-on-write faults}\n",
sum.v_cow_faults);
xo_emit("{:copy-on-write-optimized-faults/%9u} {N:copy-on-write optimized faults}\n",
sum.v_cow_optim);
xo_emit("{:zero-fill-pages/%9u} {N:zero fill pages zeroed}\n",
sum.v_zfod);
xo_emit("{:zero-fill-prezeroed/%9u} {N:zero fill pages prezeroed}\n",
sum.v_ozfod);
xo_emit("{:intransit-blocking/%9u} {N:intransit blocking page faults}\n",
sum.v_intrans);
xo_emit("{:total-faults/%9u} {N:total VM faults taken}\n",
sum.v_vm_faults);
xo_emit("{:faults-requiring-io/%9u} {N:page faults requiring I\\/O}\n",
sum.v_io_faults);
xo_emit("{:faults-from-thread-creation/%9u} {N:pages affected by kernel thread creation}\n",
sum.v_kthreadpages);
xo_emit("{:faults-from-fork/%9u} {N:pages affected by fork}()\n",
sum.v_forkpages);
xo_emit("{:faults-from-vfork/%9u} {N:pages affected by vfork}()\n",
sum.v_vforkpages);
xo_emit("{:pages-rfork/%9u} {N:pages affected by rfork}()\n",
sum.v_rforkpages);
xo_emit("{:pages-total-cached/%9u} {N:pages cached}\n",
sum.v_tcached);
xo_emit("{:pages-freed/%9u} {N:pages freed}\n",
sum.v_tfree);
xo_emit("{:pages-freed-by-daemon/%9u} {N:pages freed by daemon}\n",
sum.v_dfree);
xo_emit("{:pages-freed-on-exit/%9u} {N:pages freed by exiting processes}\n",
sum.v_pfree);
xo_emit("{:active-pages/%9u} {N:pages active}\n",
sum.v_active_count);
xo_emit("{:inactive-pages/%9u} {N:pages inactive}\n",
sum.v_inactive_count);
xo_emit("{:vm-cache/%9u} {N:pages in VM cache}\n",
sum.v_cache_count);
xo_emit("{:wired-pages/%9u} {N:pages wired down}\n",
sum.v_wire_count);
xo_emit("{:free-pages/%9u} {N:pages free}\n",
sum.v_free_count);
xo_emit("{:bytes-per-page/%9u} {N:bytes per page}\n", sum.v_page_size);
if (kd != NULL) {
kread(X_NCHSTATS, &lnchstats, sizeof(lnchstats));
} else {
size_t size = sizeof(lnchstats);
mysysctl("vfs.cache.nchstats", &lnchstats, &size, NULL, 0);
if (size != sizeof(lnchstats))
xo_errx(1, "vfs.cache.nchstats size mismatch");
}
nchtotal = lnchstats.ncs_goodhits + lnchstats.ncs_neghits +
lnchstats.ncs_badhits + lnchstats.ncs_falsehits +
lnchstats.ncs_miss + lnchstats.ncs_long;
xo_emit("{:total-name-lookups/%9ld} {N:total name lookups}\n",
nchtotal);
xo_emit("{P:/%9s} {N:cache hits} "
"({:positive-cache-hits/%ld}% pos + "
"{:negative-cache-hits/%ld}% {N:neg}) "
"system {:cache-hit-percent/%ld}% per-directory\n",
"", PCT(lnchstats.ncs_goodhits, nchtotal),
PCT(lnchstats.ncs_neghits, nchtotal),
PCT(lnchstats.ncs_pass2, nchtotal));
xo_emit("{P:/%9s} {L:deletions} {:deletions/%ld}%, "
"{L:falsehits} {:false-hits/%ld}%, "
"{L:toolong} {:too-long/%ld}%\n", "",
PCT(lnchstats.ncs_badhits, nchtotal),
PCT(lnchstats.ncs_falsehits, nchtotal),
PCT(lnchstats.ncs_long, nchtotal));
xo_close_container("summary-statistics");
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}
static void
doforkst(void)
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{
fill_vmmeter(&sum);
xo_open_container("fork-statistics");
xo_emit("{:fork/%u} {N:forks}, {:fork-pages/%u} {N:pages}, "
"{L:average} {:fork-average/%.2f}\n",
sum.v_forks, sum.v_forkpages,
sum.v_forks == 0 ? 0.0 :
(double)sum.v_forkpages / sum.v_forks);
xo_emit("{:vfork/%u} {N:vforks}, {:vfork-pages/%u} {N:pages}, "
"{L:average} {:vfork-average/%.2f}\n",
sum.v_vforks, sum.v_vforkpages,
sum.v_vforks == 0 ? 0.0 :
(double)sum.v_vforkpages / sum.v_vforks);
xo_emit("{:rfork/%u} {N:rforks}, {:rfork-pages/%u} {N:pages}, "
"{L:average} {:rfork-average/%.2f}\n",
sum.v_rforks, sum.v_rforkpages,
sum.v_rforks == 0 ? 0.0 :
(double)sum.v_rforkpages / sum.v_rforks);
xo_close_container("fork-statistics");
1994-05-27 12:33:43 +00:00
}
static void
devstats(void)
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{
int dn, state;
long double transfers_per_second;
long double busy_seconds;
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long tmp;
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for (state = 0; state < CPUSTATES; ++state) {
tmp = cur.cp_time[state];
cur.cp_time[state] -= last.cp_time[state];
last.cp_time[state] = tmp;
1994-05-27 12:33:43 +00:00
}
Run a revision of the devstat interface: Kernel: Change statistics to use the *uptime() timescale (ie: relative to boottime) rather than the UTC aligned timescale. This makes the device statistics code oblivious to clock steps. Change timestamps to bintime format, they are cheaper. Remove the "busy_count", and replace it with two counter fields: "start_count" and "end_count", which are updated in the down and up paths respectively. This removes the locking constraint on devstat. Add a timestamp argument to devstat_start_transaction(), this will normally be a timestamp set by the *_bio() function in bp->bio_t0. Use this field to calculate duration of I/O operations. Add two timestamp arguments to devstat_end_transaction(), one is the current time, a NULL pointer means "take timestamp yourself", the other is the timestamp of when this transaction started (see above). Change calculation of busy_time to operate on "the salami principle": Only when we are idle, which we can determine by the start+end counts being identical, do we update the "busy_from" field in the down path. In the up path we accumulate the timeslice in busy_time and update busy_from. Change the byte_* and num_* fields into two arrays: bytes[] and operations[]. Userland: Change the misleading "busy_time" name to be called "snap_time" and make the time long double since that is what most users need anyway, fill it using clock_gettime(CLOCK_MONOTONIC) to put it on the same timescale as the kernel fields. Change devstat_compute_etime() to operate on struct bintime. Remove the version 2 legacy interface: the change to bintime makes compatibility far too expensive. Fix a bug in systat's "vm" page where boot relative busy times would be bogus. Bump __FreeBSD_version to 500107 Review & Collaboration by: ken
2003-03-15 21:59:06 +00:00
busy_seconds = cur.snap_time - last.snap_time;
xo_open_list("device");
for (dn = 0; dn < num_devices; dn++) {
int di;
if ((dev_select[dn].selected == 0)
|| (dev_select[dn].selected > maxshowdevs))
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continue;
di = dev_select[dn].position;
if (devstat_compute_statistics(&cur.dinfo->devices[di],
&last.dinfo->devices[di], busy_seconds,
DSM_TRANSFERS_PER_SECOND, &transfers_per_second,
DSM_NONE) != 0)
xo_errx(1, "%s", devstat_errbuf);
xo_open_instance("device");
xo_emit("{ekq:name/%c%c%d}{:transfers/%3.0Lf} ",
dev_select[dn].device_name[0],
dev_select[dn].device_name[1],
dev_select[dn].unit_number,
transfers_per_second);
xo_close_instance("device");
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}
xo_close_list("device");
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}
static void
percent(const char *name, double pct, int *over)
{
char buf[10];
char fmt[128];
int l;
snprintf(fmt, sizeof(fmt), " {:%s/%%*s}", name);
l = snprintf(buf, sizeof(buf), "%.0f", pct);
if (l == 1 && *over) {
xo_emit(fmt, 1, buf);
(*over)--;
} else
xo_emit(fmt, 2, buf);
if (l > 2)
(*over)++;
}
static void
cpustats(void)
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{
int state, over;
double lpct, total;
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total = 0;
for (state = 0; state < CPUSTATES; ++state)
total += cur.cp_time[state];
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if (total)
lpct = 100.0 / total;
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else
lpct = 0.0;
over = 0;
xo_open_container("cpu-statistics");
percent("user", (cur.cp_time[CP_USER] + cur.cp_time[CP_NICE]) * lpct, &over);
percent("system", (cur.cp_time[CP_SYS] + cur.cp_time[CP_INTR]) * lpct, &over);
percent("idle", cur.cp_time[CP_IDLE] * lpct, &over);
xo_close_container("cpu-statistics");
}
static void
pcpustats(int ncpus, u_long cpumask, int maxid)
{
int state, i;
double lpct, total;
long tmp;
int over;
/* devstats does this for cp_time */
for (i = 0; i <= maxid; i++) {
if ((cpumask & (1ul << i)) == 0)
continue;
for (state = 0; state < CPUSTATES; ++state) {
tmp = cur_cp_times[i * CPUSTATES + state];
cur_cp_times[i * CPUSTATES + state] -= last_cp_times[i *
CPUSTATES + state];
last_cp_times[i * CPUSTATES + state] = tmp;
}
}
over = 0;
xo_open_list("cpu");
for (i = 0; i <= maxid; i++) {
if ((cpumask & (1ul << i)) == 0)
continue;
xo_open_instance("cpu");
xo_emit("{ke:name/%d}", i);
total = 0;
for (state = 0; state < CPUSTATES; ++state)
total += cur_cp_times[i * CPUSTATES + state];
if (total)
lpct = 100.0 / total;
else
lpct = 0.0;
percent("user", (cur_cp_times[i * CPUSTATES + CP_USER] +
cur_cp_times[i * CPUSTATES + CP_NICE]) * lpct, &over);
percent("system", (cur_cp_times[i * CPUSTATES + CP_SYS] +
cur_cp_times[i * CPUSTATES + CP_INTR]) * lpct, &over);
percent("idle", cur_cp_times[i * CPUSTATES + CP_IDLE] * lpct,
&over);
xo_close_instance("cpu");
}
xo_close_list("cpu");
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}
static unsigned int
read_intrcnts(unsigned long **intrcnts)
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{
size_t intrcntlen;
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if (kd != NULL) {
kread(X_SINTRCNT, &intrcntlen, sizeof(intrcntlen));
if ((*intrcnts = malloc(intrcntlen)) == NULL)
err(1, "malloc()");
kread(X_INTRCNT, *intrcnts, intrcntlen);
} else {
for (*intrcnts = NULL, intrcntlen = 1024; ; intrcntlen *= 2) {
*intrcnts = reallocf(*intrcnts, intrcntlen);
if (*intrcnts == NULL)
err(1, "reallocf()");
if (mysysctl("hw.intrcnt",
*intrcnts, &intrcntlen, NULL, 0) == 0)
break;
}
}
return (intrcntlen / sizeof(unsigned long));
}
static void
print_intrcnts(unsigned long *intrcnts, unsigned long *old_intrcnts,
char *intrnames, unsigned int nintr,
size_t istrnamlen, long long period_ms)
{
unsigned long *intrcnt, *old_intrcnt;
uint64_t inttotal, old_inttotal, total_count, total_rate;
char* intrname;
unsigned int i;
inttotal = 0;
old_inttotal = 0;
intrname = intrnames;
xo_open_list("interrupt");
for (i = 0, intrcnt=intrcnts, old_intrcnt=old_intrcnts; i < nintr; i++) {
if (intrname[0] != '\0' && (*intrcnt != 0 || aflag)) {
unsigned long count, rate;
count = *intrcnt - *old_intrcnt;
rate = (count * 1000 + period_ms / 2) / period_ms;
xo_open_instance("interrupt");
xo_emit("{d:name/%-*s}{ket:name/%s} "
"{:total/%20lu} {:rate/%10lu}\n",
(int)istrnamlen, intrname,
intrname, count, rate);
xo_close_instance("interrupt");
}
intrname += strlen(intrname) + 1;
inttotal += *intrcnt++;
old_inttotal += *old_intrcnt++;
}
total_count = inttotal - old_inttotal;
total_rate = (total_count * 1000 + period_ms / 2) / period_ms;
xo_close_list("interrupt");
xo_emit("{L:/%-*s} {:total-interrupts/%20" PRIu64 "} "
"{:total-rate/%10" PRIu64 "}\n", (int)istrnamlen,
"Total", total_count, total_rate);
}
static void
dointr(unsigned int interval, int reps)
{
unsigned long *intrcnts;
long long uptime, period_ms;
unsigned long *old_intrcnts = NULL;
size_t clen, inamlen, istrnamlen;
char *intrnames, *intrname;
uptime = getuptime();
/* Get the names of each interrupt source */
if (kd != NULL) {
kread(X_SINTRNAMES, &inamlen, sizeof(inamlen));
if ((intrnames = malloc(inamlen)) == NULL)
xo_err(1, "malloc()");
kread(X_INTRNAMES, intrnames, inamlen);
} else {
for (intrnames = NULL, inamlen = 1024; ; inamlen *= 2) {
if ((intrnames = reallocf(intrnames, inamlen)) == NULL)
xo_err(1, "reallocf()");
if (mysysctl("hw.intrnames",
intrnames, &inamlen, NULL, 0) == 0)
break;
}
}
/* Determine the length of the longest interrupt name */
intrname = intrnames;
istrnamlen = strlen("interrupt");
while(*intrname != '\0') {
clen = strlen(intrname);
if (clen > istrnamlen)
istrnamlen = clen;
intrname += strlen(intrname) + 1;
}
xo_emit("{T:/%-*s} {T:/%20s} {T:/%10s}\n",
(int)istrnamlen, "interrupt", "total", "rate");
/*
* Loop reps times printing differential interrupt counts. If reps is
* zero, then run just once, printing total counts
*/
xo_open_container("interrupt-statistics");
period_ms = uptime / 1000000;
while(1) {
unsigned int nintr;
long long old_uptime;
nintr = read_intrcnts(&intrcnts);
/*
* Initialize old_intrcnts to 0 for the first pass, so
* print_intrcnts will print total interrupts since boot
*/
if (old_intrcnts == NULL) {
old_intrcnts = calloc(nintr, sizeof(unsigned long));
if (old_intrcnts == NULL)
xo_err(1, "calloc()");
}
print_intrcnts(intrcnts, old_intrcnts, intrnames, nintr,
istrnamlen, period_ms);
xo_flush();
free(old_intrcnts);
old_intrcnts = intrcnts;
if (reps >= 0 && --reps <= 0)
break;
usleep(interval * 1000);
old_uptime = uptime;
uptime = getuptime();
period_ms = (uptime - old_uptime) / 1000000;
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}
xo_close_container("interrupt-statistics");
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}
static void
domemstat_malloc(void)
{
struct memory_type_list *mtlp;
struct memory_type *mtp;
int error, first, i;
mtlp = memstat_mtl_alloc();
if (mtlp == NULL) {
xo_warn("memstat_mtl_alloc");
return;
}
if (kd == NULL) {
if (memstat_sysctl_malloc(mtlp, 0) < 0) {
xo_warnx("memstat_sysctl_malloc: %s",
memstat_strerror(memstat_mtl_geterror(mtlp)));
return;
}
} else {
if (memstat_kvm_malloc(mtlp, kd) < 0) {
error = memstat_mtl_geterror(mtlp);
if (error == MEMSTAT_ERROR_KVM)
xo_warnx("memstat_kvm_malloc: %s",
kvm_geterr(kd));
else
xo_warnx("memstat_kvm_malloc: %s",
memstat_strerror(error));
}
}
xo_open_container("malloc-statistics");
xo_emit("{T:/%13s} {T:/%5s} {T:/%6s} {T:/%7s} {T:/%8s} {T:Size(s)}\n",
"Type", "InUse", "MemUse", "HighUse", "Requests");
xo_open_list("memory");
for (mtp = memstat_mtl_first(mtlp); mtp != NULL;
mtp = memstat_mtl_next(mtp)) {
if (memstat_get_numallocs(mtp) == 0 &&
memstat_get_count(mtp) == 0)
continue;
xo_open_instance("memory");
xo_emit("{k:type/%13s/%s} {:in-use/%5" PRIu64 "} "
"{:memory-use/%5" PRIu64 "}{U:K} {:high-use/%7s} "
"{:requests/%8" PRIu64 "} ",
memstat_get_name(mtp), memstat_get_count(mtp),
(memstat_get_bytes(mtp) + 1023) / 1024, "-",
memstat_get_numallocs(mtp));
first = 1;
xo_open_list("size");
for (i = 0; i < 32; i++) {
if (memstat_get_sizemask(mtp) & (1 << i)) {
if (!first)
xo_emit(",");
xo_emit("{l:size/%d}", 1 << (i + 4));
first = 0;
}
}
xo_close_list("size");
xo_close_instance("memory");
xo_emit("\n");
}
xo_close_list("memory");
xo_close_container("malloc-statistics");
memstat_mtl_free(mtlp);
}
static void
domemstat_zone(void)
{
struct memory_type_list *mtlp;
struct memory_type *mtp;
char name[MEMTYPE_MAXNAME + 1];
int error;
mtlp = memstat_mtl_alloc();
if (mtlp == NULL) {
xo_warn("memstat_mtl_alloc");
return;
}
if (kd == NULL) {
if (memstat_sysctl_uma(mtlp, 0) < 0) {
xo_warnx("memstat_sysctl_uma: %s",
memstat_strerror(memstat_mtl_geterror(mtlp)));
return;
}
} else {
if (memstat_kvm_uma(mtlp, kd) < 0) {
error = memstat_mtl_geterror(mtlp);
if (error == MEMSTAT_ERROR_KVM)
xo_warnx("memstat_kvm_uma: %s",
kvm_geterr(kd));
else
xo_warnx("memstat_kvm_uma: %s",
memstat_strerror(error));
}
}
xo_open_container("memory-zone-statistics");
xo_emit("{T:/%-20s} {T:/%6s} {T:/%6s} {T:/%8s} {T:/%8s} {T:/%8s} "
"{T:/%4s} {T:/%4s}\n\n", "ITEM", "SIZE",
"LIMIT", "USED", "FREE", "REQ", "FAIL", "SLEEP");
xo_open_list("zone");
for (mtp = memstat_mtl_first(mtlp); mtp != NULL;
mtp = memstat_mtl_next(mtp)) {
strlcpy(name, memstat_get_name(mtp), MEMTYPE_MAXNAME);
strcat(name, ":");
xo_open_instance("zone");
xo_emit("{d:name/%-20s}{ke:name/%s} {:size/%6" PRIu64 "}, "
"{:limit/%6" PRIu64 "},{:used/%8" PRIu64 "},"
"{:free/%8" PRIu64 "},{:requests/%8" PRIu64 "},"
"{:fail/%4" PRIu64 "},{:sleep/%4" PRIu64 "}\n", name,
memstat_get_name(mtp),
memstat_get_size(mtp), memstat_get_countlimit(mtp),
memstat_get_count(mtp), memstat_get_free(mtp),
memstat_get_numallocs(mtp), memstat_get_failures(mtp),
memstat_get_sleeps(mtp));
xo_close_instance("zone");
}
memstat_mtl_free(mtlp);
xo_close_list("zone");
xo_close_container("memory-zone-statistics");
xo_emit("\n");
}
static void
display_object(struct kinfo_vmobject *kvo)
{
const char *str;
xo_open_instance("object");
xo_emit("{:resident/%5jd} ", (uintmax_t)kvo->kvo_resident);
xo_emit("{:active/%5jd} ", (uintmax_t)kvo->kvo_active);
xo_emit("{:inactive/%5jd} ", (uintmax_t)kvo->kvo_inactive);
xo_emit("{:refcount/%3d} ", kvo->kvo_ref_count);
xo_emit("{:shadowcount/%3d} ", kvo->kvo_shadow_count);
switch (kvo->kvo_memattr) {
#ifdef VM_MEMATTR_UNCACHEABLE
case VM_MEMATTR_UNCACHEABLE:
str = "UC";
break;
#endif
#ifdef VM_MEMATTR_WRITE_COMBINING
case VM_MEMATTR_WRITE_COMBINING:
str = "WC";
break;
#endif
#ifdef VM_MEMATTR_WRITE_THROUGH
case VM_MEMATTR_WRITE_THROUGH:
str = "WT";
break;
#endif
#ifdef VM_MEMATTR_WRITE_PROTECTED
case VM_MEMATTR_WRITE_PROTECTED:
str = "WP";
break;
#endif
#ifdef VM_MEMATTR_WRITE_BACK
case VM_MEMATTR_WRITE_BACK:
str = "WB";
break;
#endif
#ifdef VM_MEMATTR_WEAK_UNCACHEABLE
case VM_MEMATTR_WEAK_UNCACHEABLE:
str = "UC-";
break;
#endif
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#ifdef VM_MEMATTR_WB_WA
case VM_MEMATTR_WB_WA:
str = "WB";
break;
#endif
#ifdef VM_MEMATTR_NOCACHE
case VM_MEMATTR_NOCACHE:
str = "NC";
break;
#endif
#ifdef VM_MEMATTR_DEVICE
case VM_MEMATTR_DEVICE:
str = "DEV";
break;
#endif
#ifdef VM_MEMATTR_CACHEABLE
case VM_MEMATTR_CACHEABLE:
str = "C";
break;
#endif
#ifdef VM_MEMATTR_PREFETCHABLE
case VM_MEMATTR_PREFETCHABLE:
str = "PRE";
break;
#endif
default:
str = "??";
break;
}
xo_emit("{:attribute/%-3s} ", str);
switch (kvo->kvo_type) {
case KVME_TYPE_NONE:
str = "--";
break;
case KVME_TYPE_DEFAULT:
str = "df";
break;
case KVME_TYPE_VNODE:
str = "vn";
break;
case KVME_TYPE_SWAP:
str = "sw";
break;
case KVME_TYPE_DEVICE:
str = "dv";
break;
case KVME_TYPE_PHYS:
str = "ph";
break;
case KVME_TYPE_DEAD:
str = "dd";
break;
case KVME_TYPE_SG:
str = "sg";
break;
case KVME_TYPE_UNKNOWN:
default:
str = "??";
break;
}
xo_emit("{:type/%-2s} ", str);
xo_emit("{:path/%-s}\n", kvo->kvo_path);
xo_close_instance("object");
}
static void
doobjstat(void)
{
struct kinfo_vmobject *kvo;
int cnt, i;
kvo = kinfo_getvmobject(&cnt);
if (kvo == NULL) {
xo_warn("Failed to fetch VM object list");
return;
}
xo_emit("{T:RES/%5s} {T:ACT/%5s} {T:INACT/%5s} {T:REF/%3s} {T:SHD/%3s} "
"{T:CM/%3s} {T:TP/%2s} {T:PATH/%s}\n");
xo_open_list("object");
for (i = 0; i < cnt; i++)
display_object(&kvo[i]);
free(kvo);
xo_close_list("object");
}
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/*
* kread reads something from the kernel, given its nlist index.
*/
static void
kreado(int nlx, void *addr, size_t size, size_t offset)
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{
const char *sym;
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if (namelist[nlx].n_type == 0 || namelist[nlx].n_value == 0) {
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sym = namelist[nlx].n_name;
if (*sym == '_')
++sym;
xo_errx(1, "symbol %s not defined", sym);
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}
if ((size_t)kvm_read(kd, namelist[nlx].n_value + offset, addr,
size) != size) {
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sym = namelist[nlx].n_name;
if (*sym == '_')
++sym;
xo_errx(1, "%s: %s", sym, kvm_geterr(kd));
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}
}
static void
kread(int nlx, void *addr, size_t size)
{
kreado(nlx, addr, size, 0);
}
static char *
kgetstr(const char *strp)
{
int n = 0, size = 1;
char *ret = NULL;
do {
if (size == n + 1) {
ret = realloc(ret, size);
if (ret == NULL)
xo_err(1, "%s: realloc", __func__);
size *= 2;
}
if (kvm_read(kd, (u_long)strp + n, &ret[n], 1) != 1)
xo_errx(1, "%s: %s", __func__, kvm_geterr(kd));
} while (ret[n++] != '\0');
return (ret);
}
static void
usage(void)
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{
xo_error("%s%s",
"usage: vmstat [-afHhimoPsz] [-M core [-N system]] [-c count] [-n devs]\n",
" [-p type,if,pass] [-w wait] [disks] [wait [count]]\n");
xo_finish();
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exit(1);
}