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|
/* $OpenBSD: machine.c,v 1.60 2007/04/16 11:49:51 otto Exp $ */
/*-
* Copyright (c) 1994 Thorsten Lockert <tholo@sigmasoft.com>
* 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. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED ``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 AUTHOR 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.
*
* AUTHOR: Thorsten Lockert <tholo@sigmasoft.com>
* Adapted from BSD4.4 by Christos Zoulas <christos@ee.cornell.edu>
* Patch for process wait display by Jarl F. Greipsland <jarle@idt.unit.no>
* Patch for -DORDER by Kenneth Stailey <kstailey@disclosure.com>
* Patch for new swapctl(2) by Tobias Weingartner <weingart@openbsd.org>
*/
#include <sys/types.h>
#include <sys/param.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/sysctl.h>
#include <sys/dkstat.h>
#include <sys/swap.h>
#include <err.h>
#include <errno.h>
#include "top.h"
#include "display.h"
#include "machine.h"
#include "utils.h"
#include "loadavg.h"
static int swapmode(int *, int *);
static char *state_abbr(struct kinfo_proc2 *);
static char *format_comm(struct kinfo_proc2 *);
/* get_process_info passes back a handle. This is what it looks like: */
struct handle {
struct kinfo_proc2 **next_proc; /* points to next valid proc pointer */
int remaining; /* number of pointers remaining */
};
/* what we consider to be process size: */
#define PROCSIZE(pp) ((pp)->p_vm_tsize + (pp)->p_vm_dsize + (pp)->p_vm_ssize)
/*
* These definitions control the format of the per-process area
*/
static char header[] =
" PID X PRI NICE SIZE RES STATE WAIT TIME CPU COMMAND";
/* 0123456 -- field to fill in starts at header+6 */
#define UNAME_START 6
#define Proc_format \
"%5d %-8.8s %3d %4d %5s %5s %-8s %-7.7s %6s %5.2f%% %.50s"
/* process state names for the "STATE" column of the display */
/*
* the extra nulls in the string "run" are for adding a slash and the
* processor number when needed
*/
char *state_abbrev[] = {
"", "start", "run", "sleep", "stop", "zomb", "dead", "onproc"
};
static int stathz;
/* these are for calculating cpu state percentages */
static int64_t **cp_time;
static int64_t **cp_old;
static int64_t **cp_diff;
/* these are for detailing the process states */
int process_states[8];
char *procstatenames[] = {
"", " starting, ", " running, ", " idle, ",
" stopped, ", " zombie, ", " dead, ", " on processor, ",
NULL
};
/* these are for detailing the cpu states */
int64_t *cpu_states;
char *cpustatenames[] = {
"user", "nice", "system", "interrupt", "idle", NULL
};
/* these are for detailing the memory statistics */
int memory_stats[8];
char *memorynames[] = {
"Real: ", "K/", "K act/tot ", "Free: ", "K ",
"Swap: ", "K/", "K used/tot",
NULL
};
/* these are names given to allowed sorting orders -- first is default */
char *ordernames[] = {
"cpu", "size", "res", "time", "pri", NULL
};
/* these are for keeping track of the proc array */
static int nproc;
static int onproc = -1;
static int pref_len;
static struct kinfo_proc2 *pbase;
static struct kinfo_proc2 **pref;
/* these are for getting the memory statistics */
static int pageshift; /* log base 2 of the pagesize */
/* define pagetok in terms of pageshift */
#define pagetok(size) ((size) << pageshift)
int ncpu;
unsigned int maxslp;
static int
getstathz(void)
{
struct clockinfo cinf;
size_t size = sizeof(cinf);
int mib[2];
mib[0] = CTL_KERN;
mib[1] = KERN_CLOCKRATE;
if (sysctl(mib, 2, &cinf, &size, NULL, 0) == -1)
return (-1);
return (cinf.stathz);
}
int
machine_init(struct statics *statics)
{
size_t size = sizeof(ncpu);
int mib[2], pagesize, cpu;
mib[0] = CTL_HW;
mib[1] = HW_NCPU;
if (sysctl(mib, 2, &ncpu, &size, NULL, 0) == -1)
return (-1);
cpu_states = malloc(ncpu * CPUSTATES * sizeof(int64_t));
if (cpu_states == NULL)
err(1, NULL);
cp_time = malloc(ncpu * sizeof(int64_t *));
cp_old = malloc(ncpu * sizeof(int64_t *));
cp_diff = malloc(ncpu * sizeof(int64_t *));
if (cp_time == NULL || cp_old == NULL || cp_diff == NULL)
err(1, NULL);
for (cpu = 0; cpu < ncpu; cpu++) {
cp_time[cpu] = calloc(CPUSTATES, sizeof(int64_t));
cp_old[cpu] = calloc(CPUSTATES, sizeof(int64_t));
cp_diff[cpu] = calloc(CPUSTATES, sizeof(int64_t));
if (cp_time[cpu] == NULL || cp_old[cpu] == NULL ||
cp_diff[cpu] == NULL)
err(1, NULL);
}
stathz = getstathz();
if (stathz == -1)
return (-1);
pbase = NULL;
pref = NULL;
onproc = -1;
nproc = 0;
/*
* get the page size with "getpagesize" and calculate pageshift from
* it
*/
pagesize = getpagesize();
pageshift = 0;
while (pagesize > 1) {
pageshift++;
pagesize >>= 1;
}
/* we only need the amount of log(2)1024 for our conversion */
pageshift -= LOG1024;
/* fill in the statics information */
statics->procstate_names = procstatenames;
statics->cpustate_names = cpustatenames;
statics->memory_names = memorynames;
statics->order_names = ordernames;
return (0);
}
char *
format_header(char *uname_field)
{
char *ptr;
ptr = header + UNAME_START;
while (*uname_field != '\0')
*ptr++ = *uname_field++;
return (header);
}
void
get_system_info(struct system_info *si)
{
static int sysload_mib[] = {CTL_VM, VM_LOADAVG};
static int vmtotal_mib[] = {CTL_VM, VM_METER};
struct loadavg sysload;
struct vmtotal vmtotal;
double *infoloadp;
size_t size;
int i;
int64_t *tmpstate;
if (ncpu > 1) {
size = CPUSTATES * sizeof(int64_t);
for (i = 0; i < ncpu; i++) {
int cp_time_mib[] = {CTL_KERN, KERN_CPTIME2, i};
tmpstate = cpu_states + (CPUSTATES * i);
if (sysctl(cp_time_mib, 3, cp_time[i], &size, NULL, 0) < 0)
warn("sysctl kern.cp_time2 failed");
/* convert cp_time2 counts to percentages */
(void) percentages(CPUSTATES, tmpstate, cp_time[i],
cp_old[i], cp_diff[i]);
}
} else {
int cp_time_mib[] = {CTL_KERN, KERN_CPTIME};
long cp_time_tmp[CPUSTATES];
size = sizeof(cp_time_tmp);
if (sysctl(cp_time_mib, 2, cp_time_tmp, &size, NULL, 0) < 0)
warn("sysctl kern.cp_time failed");
for (i = 0; i < CPUSTATES; i++)
cp_time[0][i] = cp_time_tmp[i];
/* convert cp_time counts to percentages */
(void) percentages(CPUSTATES, cpu_states, cp_time[0],
cp_old[0], cp_diff[0]);
}
size = sizeof(sysload);
if (sysctl(sysload_mib, 2, &sysload, &size, NULL, 0) < 0)
warn("sysctl failed");
infoloadp = si->load_avg;
for (i = 0; i < 3; i++)
*infoloadp++ = ((double) sysload.ldavg[i]) / sysload.fscale;
/* get total -- systemwide main memory usage structure */
size = sizeof(vmtotal);
if (sysctl(vmtotal_mib, 2, &vmtotal, &size, NULL, 0) < 0) {
warn("sysctl failed");
bzero(&vmtotal, sizeof(vmtotal));
}
/* convert memory stats to Kbytes */
memory_stats[0] = -1;
memory_stats[1] = pagetok(vmtotal.t_arm);
memory_stats[2] = pagetok(vmtotal.t_rm);
memory_stats[3] = -1;
memory_stats[4] = pagetok(vmtotal.t_free);
memory_stats[5] = -1;
if (!swapmode(&memory_stats[6], &memory_stats[7])) {
memory_stats[6] = 0;
memory_stats[7] = 0;
}
/* set arrays and strings */
si->cpustates = cpu_states;
si->memory = memory_stats;
si->last_pid = -1;
}
static struct handle handle;
struct kinfo_proc2 *
getprocs(int op, int arg, int *cnt)
{
size_t size;
int mib[6] = {CTL_KERN, KERN_PROC2, 0, 0, sizeof(struct kinfo_proc2), 0};
static int maxslp_mib[] = {CTL_VM, VM_MAXSLP};
static struct kinfo_proc2 *procbase;
int st;
mib[2] = op;
mib[3] = arg;
size = sizeof(maxslp);
if (sysctl(maxslp_mib, 2, &maxslp, &size, NULL, 0) < 0) {
warn("sysctl vm.maxslp failed");
return (0);
}
retry:
free(procbase);
st = sysctl(mib, 6, NULL, &size, NULL, 0);
if (st == -1) {
/* _kvm_syserr(kd, kd->program, "kvm_getproc2"); */
return (0);
}
size = 5 * size / 4; /* extra slop */
if ((procbase = malloc(size)) == NULL)
return (0);
mib[5] = (int)(size / sizeof(struct kinfo_proc2));
st = sysctl(mib, 6, procbase, &size, NULL, 0);
if (st == -1) {
if (errno == ENOMEM)
goto retry;
/* _kvm_syserr(kd, kd->program, "kvm_getproc2"); */
return (0);
}
*cnt = (int)(size / sizeof(struct kinfo_proc2));
return (procbase);
}
caddr_t
get_process_info(struct system_info *si, struct process_select *sel,
int (*compare) (const void *, const void *))
{
int show_idle, show_system, show_threads, show_uid, show_pid, show_cmd;
int total_procs, active_procs;
struct kinfo_proc2 **prefp, *pp;
if ((pbase = getprocs(KERN_PROC_KTHREAD, 0, &nproc)) == NULL) {
/* warnx("%s", kvm_geterr(kd)); */
quit(23);
}
if (nproc > onproc)
pref = (struct kinfo_proc2 **)realloc(pref,
sizeof(struct kinfo_proc2 *) * (onproc = nproc));
if (pref == NULL) {
warnx("Out of memory.");
quit(23);
}
/* get a pointer to the states summary array */
si->procstates = process_states;
/* set up flags which define what we are going to select */
show_idle = sel->idle;
show_system = sel->system;
show_threads = sel->threads;
show_uid = sel->uid != (uid_t)-1;
show_pid = sel->pid != (pid_t)-1;
show_cmd = sel->command != NULL;
/* count up process states and get pointers to interesting procs */
total_procs = 0;
active_procs = 0;
memset((char *) process_states, 0, sizeof(process_states));
prefp = pref;
for (pp = pbase; pp < &pbase[nproc]; pp++) {
/*
* Place pointers to each valid proc structure in pref[].
* Process slots that are actually in use have a non-zero
* status field. Processes with P_SYSTEM set are system
* processes---these get ignored unless show_system is set.
*/
if (pp->p_stat != 0 &&
(show_system || (pp->p_flag & P_SYSTEM) == 0) &&
(show_threads || (pp->p_flag & P_THREAD) == 0)) {
total_procs++;
process_states[(unsigned char) pp->p_stat]++;
if (pp->p_stat != SZOMB &&
(show_idle || pp->p_pctcpu != 0 ||
pp->p_stat == SRUN) &&
(!show_uid || pp->p_ruid == sel->uid) &&
(!show_pid || pp->p_pid == sel->pid) &&
(!show_cmd || strstr(pp->p_comm,
sel->command))) {
*prefp++ = pp;
active_procs++;
}
}
}
/* if requested, sort the "interesting" processes */
if (compare != NULL)
qsort((char *) pref, active_procs,
sizeof(struct kinfo_proc2 *), compare);
/* remember active and total counts */
si->p_total = total_procs;
si->p_active = pref_len = active_procs;
/* pass back a handle */
handle.next_proc = pref;
handle.remaining = active_procs;
return ((caddr_t) & handle);
}
char fmt[MAX_COLS]; /* static area where result is built */
static char *
state_abbr(struct kinfo_proc2 *pp)
{
static char buf[10];
if (ncpu > 1 && pp->p_cpuid != KI_NOCPU)
snprintf(buf, sizeof buf, "%s/%llu",
state_abbrev[(unsigned char)pp->p_stat], pp->p_cpuid);
else
snprintf(buf, sizeof buf, "%s",
state_abbrev[(unsigned char)pp->p_stat]);
return buf;
}
static char *
format_comm(struct kinfo_proc2 *kp)
{
#define ARG_SIZE 60
static char **s, buf[ARG_SIZE];
size_t siz = 100;
char **p;
int mib[4];
extern int show_args;
if (!show_args)
return (kp->p_comm);
for (;; siz *= 2) {
if ((s = realloc(s, siz)) == NULL)
err(1, NULL);
mib[0] = CTL_KERN;
mib[1] = KERN_PROC_ARGS;
mib[2] = kp->p_pid;
mib[3] = KERN_PROC_ARGV;
if (sysctl(mib, 4, s, &siz, NULL, 0) == 0)
break;
if (errno != ENOMEM)
return (kp->p_comm);
}
buf[0] = '\0';
for (p = s; *p != NULL; p++) {
if (p != s)
strlcat(buf, " ", sizeof(buf));
strlcat(buf, *p, sizeof(buf));
}
if (buf[0] == '\0')
return (kp->p_comm);
return (buf);
}
char *
format_next_process(caddr_t handle, char *(*get_userid)(uid_t))
{
char *p_wait, waddr[sizeof(void *) * 2 + 3]; /* Hexify void pointer */
struct kinfo_proc2 *pp;
struct handle *hp;
int cputime;
double pct;
/* find and remember the next proc structure */
hp = (struct handle *) handle;
pp = *(hp->next_proc++);
hp->remaining--;
cputime = (pp->p_uticks + pp->p_sticks + pp->p_iticks) / stathz;
/* calculate the base for cpu percentages */
pct = pctdouble(pp->p_pctcpu);
if (pp->p_wchan) {
if (pp->p_wmesg)
p_wait = pp->p_wmesg;
else {
snprintf(waddr, sizeof(waddr), "%llx",
(unsigned long long)(pp->p_wchan & ~KERNBASE));
p_wait = waddr;
}
} else
p_wait = "-";
/* format this entry */
snprintf(fmt, sizeof fmt, Proc_format,
pp->p_pid, (*get_userid)(pp->p_ruid),
pp->p_priority - PZERO, pp->p_nice - NZERO,
format_k(pagetok(PROCSIZE(pp))),
format_k(pagetok(pp->p_vm_rssize)),
(pp->p_stat == SSLEEP && pp->p_slptime > maxslp) ?
"idle" : state_abbr(pp),
p_wait, format_time(cputime), 100.0 * pct,
printable(format_comm(pp)));
/* return the result */
return (fmt);
}
/* comparison routine for qsort */
static unsigned char sorted_state[] =
{
0, /* not used */
4, /* start */
5, /* run */
2, /* sleep */
3, /* stop */
1 /* zombie */
};
/*
* proc_compares - comparison functions for "qsort"
*/
/*
* First, the possible comparison keys. These are defined in such a way
* that they can be merely listed in the source code to define the actual
* desired ordering.
*/
#define ORDERKEY_PCTCPU \
if (lresult = (pctcpu)p2->p_pctcpu - (pctcpu)p1->p_pctcpu, \
(result = lresult > 0 ? 1 : lresult < 0 ? -1 : 0) == 0)
#define ORDERKEY_CPUTIME \
if ((result = p2->p_rtime_sec - p1->p_rtime_sec) == 0) \
if ((result = p2->p_rtime_usec - p1->p_rtime_usec) == 0)
#define ORDERKEY_STATE \
if ((result = sorted_state[(unsigned char)p2->p_stat] - \
sorted_state[(unsigned char)p1->p_stat]) == 0)
#define ORDERKEY_PRIO \
if ((result = p2->p_priority - p1->p_priority) == 0)
#define ORDERKEY_RSSIZE \
if ((result = p2->p_vm_rssize - p1->p_vm_rssize) == 0)
#define ORDERKEY_MEM \
if ((result = PROCSIZE(p2) - PROCSIZE(p1)) == 0)
/* compare_cpu - the comparison function for sorting by cpu percentage */
static int
compare_cpu(const void *v1, const void *v2)
{
struct proc **pp1 = (struct proc **) v1;
struct proc **pp2 = (struct proc **) v2;
struct kinfo_proc2 *p1, *p2;
pctcpu lresult;
int result;
/* remove one level of indirection */
p1 = *(struct kinfo_proc2 **) pp1;
p2 = *(struct kinfo_proc2 **) pp2;
ORDERKEY_PCTCPU
ORDERKEY_CPUTIME
ORDERKEY_STATE
ORDERKEY_PRIO
ORDERKEY_RSSIZE
ORDERKEY_MEM
;
return (result);
}
/* compare_size - the comparison function for sorting by total memory usage */
static int
compare_size(const void *v1, const void *v2)
{
struct proc **pp1 = (struct proc **) v1;
struct proc **pp2 = (struct proc **) v2;
struct kinfo_proc2 *p1, *p2;
pctcpu lresult;
int result;
/* remove one level of indirection */
p1 = *(struct kinfo_proc2 **) pp1;
p2 = *(struct kinfo_proc2 **) pp2;
ORDERKEY_MEM
ORDERKEY_RSSIZE
ORDERKEY_PCTCPU
ORDERKEY_CPUTIME
ORDERKEY_STATE
ORDERKEY_PRIO
;
return (result);
}
/* compare_res - the comparison function for sorting by resident set size */
static int
compare_res(const void *v1, const void *v2)
{
struct proc **pp1 = (struct proc **) v1;
struct proc **pp2 = (struct proc **) v2;
struct kinfo_proc2 *p1, *p2;
pctcpu lresult;
int result;
/* remove one level of indirection */
p1 = *(struct kinfo_proc2 **) pp1;
p2 = *(struct kinfo_proc2 **) pp2;
ORDERKEY_RSSIZE
ORDERKEY_MEM
ORDERKEY_PCTCPU
ORDERKEY_CPUTIME
ORDERKEY_STATE
ORDERKEY_PRIO
;
return (result);
}
/* compare_time - the comparison function for sorting by CPU time */
static int
compare_time(const void *v1, const void *v2)
{
struct proc **pp1 = (struct proc **) v1;
struct proc **pp2 = (struct proc **) v2;
struct kinfo_proc2 *p1, *p2;
pctcpu lresult;
int result;
/* remove one level of indirection */
p1 = *(struct kinfo_proc2 **) pp1;
p2 = *(struct kinfo_proc2 **) pp2;
ORDERKEY_CPUTIME
ORDERKEY_PCTCPU
ORDERKEY_STATE
ORDERKEY_PRIO
ORDERKEY_MEM
ORDERKEY_RSSIZE
;
return (result);
}
/* compare_prio - the comparison function for sorting by CPU time */
static int
compare_prio(const void *v1, const void *v2)
{
struct proc **pp1 = (struct proc **) v1;
struct proc **pp2 = (struct proc **) v2;
struct kinfo_proc2 *p1, *p2;
pctcpu lresult;
int result;
/* remove one level of indirection */
p1 = *(struct kinfo_proc2 **) pp1;
p2 = *(struct kinfo_proc2 **) pp2;
ORDERKEY_PRIO
ORDERKEY_PCTCPU
ORDERKEY_CPUTIME
ORDERKEY_STATE
ORDERKEY_RSSIZE
ORDERKEY_MEM
;
return (result);
}
int (*proc_compares[])(const void *, const void *) = {
compare_cpu,
compare_size,
compare_res,
compare_time,
compare_prio,
NULL
};
/*
* proc_owner(pid) - returns the uid that owns process "pid", or -1 if
* the process does not exist.
* It is EXTREMELY IMPORTANT that this function work correctly.
* If top runs setuid root (as in SVR4), then this function
* is the only thing that stands in the way of a serious
* security problem. It validates requests for the "kill"
* and "renice" commands.
*/
uid_t
proc_owner(pid_t pid)
{
struct kinfo_proc2 **prefp, *pp;
int cnt;
prefp = pref;
cnt = pref_len;
while (--cnt >= 0) {
pp = *prefp++;
if (pp->p_pid == pid)
return ((uid_t)pp->p_ruid);
}
return (uid_t)(-1);
}
/*
* swapmode is rewritten by Tobias Weingartner <weingart@openbsd.org>
* to be based on the new swapctl(2) system call.
*/
static int
swapmode(int *used, int *total)
{
struct swapent *swdev;
int nswap, rnswap, i;
nswap = swapctl(SWAP_NSWAP, 0, 0);
if (nswap == 0)
return 0;
swdev = malloc(nswap * sizeof(*swdev));
if (swdev == NULL)
return 0;
rnswap = swapctl(SWAP_STATS, swdev, nswap);
if (rnswap == -1) {
free(swdev);
return 0;
}
/* if rnswap != nswap, then what? */
/* Total things up */
*total = *used = 0;
for (i = 0; i < nswap; i++) {
if (swdev[i].se_flags & SWF_ENABLE) {
*used += (swdev[i].se_inuse / (1024 / DEV_BSIZE));
*total += (swdev[i].se_nblks / (1024 / DEV_BSIZE));
}
}
free(swdev);
return 1;
}
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