4BSD/usr/src/cmd/pstat.c
static char *sccsid = "@(#)pstat.c 4.3 (Berkeley) 11/15/80";
/*
* Print system stuff
*/
#define mask(x) (x&0377)
#define clear(x) ((int)x&0x7fffffff)
#include <sys/param.h>
#include <sys/dir.h>
#include <sys/file.h>
#include <sys/user.h>
#include <sys/proc.h>
#include <sys/text.h>
#include <sys/inode.h>
#include <sys/map.h>
#include <sys/tty.h>
#include <sys/conf.h>
#include <sys/vm.h>
#include <nlist.h>
#include <sys/pte.h>
char *fcore = "/dev/kmem";
char *fnlist = "/vmunix";
int fc;
struct nlist nl[] = {
#define SINODE 0
{ "_inode" },
#define STEXT 1
{ "_text" },
#define SPROC 2
{ "_proc" },
#define SDZ 3
{ "_dz_tty" },
#define SNDZ 4
{ "_dz_cnt" },
#define SKL 5
{ "_cons" },
#define SFIL 6
{ "_file" },
#define USRPTMA 7
{ "_Usrptmap" },
#define USRPT 8
{ "_usrpt" },
#define SNSWAP 9
{ "_nswap" },
#define SWAPMAP 10
{ "_swapmap" },
#define SDH 11
{ "_dh11" },
#define SNDH 12
{ "_ndh11" },
0,
};
int inof;
int txtf;
int prcf;
int ttyf;
int usrf;
long ubase;
int filf;
int swpf;
int totflg;
char partab[1];
struct cdevsw cdevsw[1];
struct bdevsw bdevsw[1];
int allflg;
int kflg;
struct pte *Usrptma;
struct pte *usrpt;
main(argc, argv)
char **argv;
{
register char *argp;
argc--, argv++;
while (argc > 0 && **argv == '-') {
argp = *argv++;
argp++;
argc--;
while (*argp++)
switch (argp[-1]) {
case 'T':
totflg++;
break;
case 'a':
allflg++;
break;
case 'i':
inof++;
break;
case 'k':
kflg++;
fcore = "/vmcore";
break;
case 'x':
txtf++;
break;
case 'p':
prcf++;
break;
case 't':
ttyf++;
break;
case 'u':
if (argc == 0)
break;
argc--;
usrf++;
sscanf( *argv++, "%x", &ubase);
break;
case 'f':
filf++;
break;
case 's':
swpf++;
break;
}
}
if (argc>0)
fcore = argv[0];
if ((fc = open(fcore, 0)) < 0) {
printf("Can't find %s\n", fcore);
exit(1);
}
if (argc>1)
fnlist = argv[1];
nlist(fnlist, nl);
if (kflg) {
register struct nlist *nlp;
for (nlp=nl; nlp < &nl[sizeof (nl)/sizeof(nl[0])]; nlp++)
nlp->n_value = clear(nlp->n_value);
}
usrpt = (struct pte *)nl[USRPT].n_value;
Usrptma = (struct pte *)nl[USRPTMA].n_value;
if (nl[0].n_type == 0) {
printf("no namelist\n");
exit(1);
}
if (filf||totflg)
dofil();
if (inof||totflg)
doinode();
if (prcf||totflg)
doproc();
if (txtf||totflg)
dotext();
if (ttyf)
dotty();
if (usrf)
dousr();
if (swpf||totflg)
doswap();
}
doinode()
{
register struct inode *ip;
struct inode xinode[NINODE];
register int nin, loc;
nin = 0;
lseek(fc, (long)nl[SINODE].n_value, 0);
read(fc, xinode, sizeof(xinode));
for (ip = xinode; ip < &xinode[NINODE]; ip++)
if (ip->i_count)
nin++;
if (totflg) {
printf("%3d/%3d inodes\n", nin, NINODE);
return;
}
printf("%d/%d active xinodes\n", nin, NINODE);
printf(" LOC FLAGS CNT DEVICE INO MODE NLK UID SIZE/DEV\n");
loc = nl[SINODE].n_value;
for (ip = xinode; ip < &xinode[NINODE]; ip++, loc += sizeof(xinode[0])) {
if (ip->i_count == 0)
continue;
printf("%8.1x ", loc);
putf(ip->i_flag&ILOCK, 'L');
putf(ip->i_flag&IUPD, 'U');
putf(ip->i_flag&IACC, 'A');
putf(ip->i_flag&IMOUNT, 'M');
putf(ip->i_flag&IWANT, 'W');
putf(ip->i_flag&ITEXT, 'T');
printf("%4d", ip->i_count&0377);
printf("%4d,%3d", major(ip->i_dev), minor(ip->i_dev));
printf("%6d", ip->i_number);
printf("%6x", ip->i_mode & 0xffff);
printf("%4d", ip->i_nlink);
printf("%4d", ip->i_uid);
if ((ip->i_mode&IFMT)==IFBLK || (ip->i_mode&IFMT)==IFCHR)
printf("%6d,%3d", major(ip->i_un.i_rdev), minor(ip->i_un.i_rdev));
else
printf("%10ld", ip->i_size);
printf("\n");
}
}
putf(v, n)
{
if (v)
printf("%c", n);
else
printf(" ");
}
dotext()
{
register struct text *xp;
struct text xtext[NTEXT];
register loc;
int ntx;
ntx = 0;
lseek(fc, (long)nl[STEXT].n_value, 0);
read(fc, xtext, sizeof(xtext));
for (xp = xtext; xp < &xtext[NTEXT]; xp++)
if (xp->x_iptr!=NULL)
ntx++;
if (totflg) {
printf("%3d/%3d texts\n", ntx, NTEXT);
return;
}
printf(" LOC FLAGS DADDR CADDR RSS SIZE IPTR CNT CCNT\n");
loc = nl[STEXT].n_value;
for (xp = xtext; xp < &xtext[NTEXT]; xp++, loc+=sizeof(xtext[0])) {
if (xp->x_iptr == NULL)
continue;
printf("%8.1x", loc);
printf(" ");
putf(xp->x_flag&XPAGI, 'P');
putf(xp->x_flag&XTRC, 'T');
putf(xp->x_flag&XWRIT, 'W');
putf(xp->x_flag&XLOAD, 'L');
putf(xp->x_flag&XLOCK, 'K');
putf(xp->x_flag&XWANT, 'w');
printf("%5x", xp->x_daddr[0]);
printf("%11x", xp->x_caddr);
printf("%5d", xp->x_rssize);
printf("%5d", xp->x_size);
printf("%10.1x", xp->x_iptr);
printf("%5d", xp->x_count&0377);
printf("%5d", xp->x_ccount);
printf("\n");
}
}
doproc()
{
struct proc xproc[NPROC];
register struct proc *pp;
register loc, np;
struct pte apte;
lseek(fc, (long)nl[SPROC].n_value, 0);
read(fc, xproc, sizeof(xproc));
np = 0;
for (pp=xproc; pp < &xproc[NPROC]; pp++)
if (pp->p_stat)
np++;
if (totflg) {
printf("%3d/%3d processes\n", np, NPROC);
return;
}
printf("%d/%d processes\n", np, NPROC);
printf(" LOC S F POIP PRI SIG UID SLP TIM CPU NI PGRP PID PPID ADDR RSS SRSS SIZE WCHAN LINK TEXTP CLKT\n");
for (loc=nl[SPROC].n_value,pp=xproc; pp<&xproc[NPROC]; pp++,loc+=sizeof(xproc[0])) {
if (pp->p_stat==0 && allflg==0)
continue;
printf("%8x", loc);
printf(" %2d", pp->p_stat);
printf(" %4x", pp->p_flag & 0xffff);
printf(" %4d", pp->p_poip);
printf(" %3d", pp->p_pri);
printf(" %8x", pp->p_sig);
printf(" %4d", pp->p_uid);
printf(" %3d", pp->p_slptime);
printf(" %3d", pp->p_time);
printf(" %4d", pp->p_cpu&0377);
printf(" %3d", pp->p_nice);
printf(" %6d", pp->p_pgrp);
printf(" %6d", pp->p_pid);
printf(" %6d", pp->p_ppid);
if (kflg)
pp->p_addr = (struct pte *)clear((int)pp->p_addr);
lseek(fc, (long)(Usrptma+btokmx(pp->p_addr)), 0);
read(fc, &apte, sizeof(apte));
printf(" %8x", ctob(apte.pg_pfnum+1) - sizeof(struct pte) * UPAGES);
printf(" %4x", pp->p_rssize);
printf(" %4x", pp->p_swrss);
printf(" %5x", pp->p_dsize+pp->p_ssize);
printf(" %7x", clear(pp->p_wchan));
printf(" %7x", clear(pp->p_link));
printf(" %7x", clear(pp->p_textp));
printf(" %u", pp->p_clktim);
printf("\n");
}
}
dotty()
{
struct tty dz_tty[64];
int ndz;
register struct tty *tp;
register char *mesg;
printf("1 cons\n");
lseek(fc, (long)nl[SKL].n_value, 0);
read(fc, dz_tty, sizeof(dz_tty[0]));
mesg = " # RAW CAN OUT MODE ADDR DEL COL STATE PGRP DISC\n";
printf(mesg);
ttyprt(&dz_tty[0], 0);
if (nl[SNDZ].n_type == 0)
goto dh;
lseek(fc, (long)nl[SNDZ].n_value, 0);
read(fc, &ndz, sizeof(ndz));
printf("%d dz lines\n", ndz);
lseek(fc, (long)nl[SDZ].n_value, 0);
read(fc, dz_tty, sizeof(dz_tty));
for (tp = dz_tty; tp < &dz_tty[ndz]; tp++)
ttyprt(tp, tp - dz_tty);
dh:
if (nl[SNDH].n_type == 0)
return;
lseek(fc, (long)nl[SNDH].n_value, 0);
read(fc, &ndz, sizeof(ndz));
printf("%d dh lines\n", ndz);
lseek(fc, (long)nl[SDH].n_value, 0);
read(fc, dz_tty, sizeof(dz_tty));
for (tp = dz_tty; tp < &dz_tty[ndz]; tp++)
ttyprt(tp, tp - dz_tty);
}
ttyprt(atp, line)
struct tty *atp;
{
register struct tty *tp;
printf("%2d", line);
tp = atp;
switch (tp->t_line) {
case NETLDISC:
if (tp->t_rec)
printf("%4d%4d", 0, tp->t_inbuf);
else
printf("%4d%4d", tp->t_inbuf, 0);
break;
default:
printf("%4d", tp->t_rawq.c_cc);
printf("%4d", tp->t_canq.c_cc);
}
printf("%4d", tp->t_outq.c_cc);
printf("%8.1o", tp->t_flags);
printf(" %8.1x", tp->t_addr);
printf("%3d", tp->t_delct);
printf("%4d ", tp->t_col);
putf(tp->t_state&TIMEOUT, 'T');
putf(tp->t_state&WOPEN, 'W');
putf(tp->t_state&ISOPEN, 'O');
putf(tp->t_state&CARR_ON, 'C');
putf(tp->t_state&BUSY, 'B');
putf(tp->t_state&ASLEEP, 'A');
putf(tp->t_state&XCLUDE, 'X');
/*
putf(tp->t_state&HUPCLS, 'H');
*/
printf("%6d", tp->t_pgrp);
switch (tp->t_line) {
case NTTYDISC:
printf(" ntty");
break;
case NETLDISC:
printf(" net");
break;
}
printf("\n");
}
dousr()
{
struct user U;
register i, j, *ip;
/* This wins only if PAGSIZ > sizeof (struct user) */
lseek(fc, ubase * NBPG, 0);
read(fc, &U, sizeof(U));
printf("pcb");
ip = (int *)&U.u_pcb;
while (ip < &U.u_arg[0]) {
if ((ip - (int *)&U.u_pcb) % 4 == 0)
printf("\t");
printf("%x ", *ip++);
if ((ip - (int *)&U.u_pcb) % 4 == 0)
printf("\n");
}
if ((ip - (int *)&U.u_pcb) % 4 != 0)
printf("\n");
printf("arg\t");
for (i=0; i<5; i++)
printf(" %.1x", U.u_arg[i]);
printf("\n");
for (i=0; i<sizeof(label_t)/sizeof(int); i++) {
if (i%5==0)
printf("\t");
printf("%9.1x", U.u_ssav[i]);
if (i%5==4)
printf("\n");
}
if (i%5)
printf("\n");
printf("segflg\t%d\nerror %d\n", U.u_segflg, U.u_error);
printf("uids\t%d,%d,%d,%d\n", U.u_uid,U.u_gid,U.u_ruid,U.u_rgid);
printf("procp\t%.1x\n", U.u_procp);
printf("ap\t%.1x\n", U.u_ap);
printf("r_val?\t%.1x %.1x\n", U.u_r.r_val1, U.u_r.r_val2);
printf("base, count, offset %.1x %.1x %ld\n", U.u_base,
U.u_count, U.u_offset);
printf("cdir rdir %.1x %.1x\n", U.u_cdir, U.u_rdir);
printf("dbuf %.14s\n", U.u_dbuf);
printf("dirp %.1x\n", U.u_dirp);
printf("dent %d %.14s\n", U.u_dent.d_ino, U.u_dent.d_name);
printf("pdir %.1o\n", U.u_pdir);
printf("file\t");
for (i=0; i<10; i++)
printf("%9.1x", U.u_ofile[i]);
printf("\n\t");
for (i=10; i<NOFILE; i++)
printf("%9.1x", U.u_ofile[i]);
printf("\n");
printf("pofile\t");
for (i=0; i<10; i++)
printf("%9.1x", U.u_pofile[i]);
printf("\n\t");
for (i=10; i<NOFILE; i++)
printf("%9.1x", U.u_pofile[i]);
printf("\n");
printf("ssav");
for (i=0; i<sizeof(label_t)/sizeof(int); i++) {
if (i%5==0)
printf("\t");
printf("%9.1x", U.u_ssav[i]);
if (i%5==4)
printf("\n");
}
if (i%5)
printf("\n");
printf("sigs\t");
for (i=0; i<NSIG; i++)
printf("%.1x ", U.u_signal[i]);
printf("\n");
printf("cfcode\t%.1x\n", U.u_cfcode);
printf("ar0\t%.1x\n", U.u_ar0);
printf("prof\t%X %X %X %X\n", U.u_prof.pr_base, U.u_prof.pr_size,
U.u_prof.pr_off, U.u_prof.pr_scale);
printf("\neosys\t%d\n", U.u_eosys);
printf("sep\t%d\n", U.u_sep);
printf("ttyp\t%.1x\n", U.u_ttyp);
printf("ttyd\t%d,%d\n", major(U.u_ttyd), minor(U.u_ttyd));
printf("exdata\t");
ip = (int *)&U.u_exdata;
for (i = 0; i < 8; i++)
printf("%.1D ", *ip++);
printf("\n");
printf("comm %.14s\n", U.u_comm);
printf("start\t%D\n", U.u_start);
printf("acflag\t%D\n", U.u_acflag);
printf("fpflag\t%D\n", U.u_fpflag);
printf("cmask\t%D\n", U.u_cmask);
printf("sizes\t%.1x %.1x %.1x\n", U.u_tsize, U.u_dsize, U.u_ssize);
printf("vm\t");
ip = (int *)&U.u_vm;
for (i = 0; i < sizeof(U.u_vm)/sizeof(int); i++)
printf("%D ", ip[i]);
printf("\n");
ip = (int *)&U.u_cvm;
printf("cvm\t");
for (i = 0; i < sizeof(U.u_vm)/sizeof(int); i++)
printf("%D ", ip[i]);
printf("\n");
/*
i = U.u_stack - &U;
while (U[++i] == 0);
i &= ~07;
while (i < 512) {
printf("%x ", 0140000+2*i);
for (j=0; j<8; j++)
printf("%9x", U[i++]);
printf("\n");
}
*/
}
oatoi(s)
char *s;
{
register v;
v = 0;
while (*s)
v = (v<<3) + *s++ - '0';
return(v);
}
dofil()
{
struct file xfile[NFILE];
register struct file *fp;
register nf;
int loc;
nf = 0;
lseek(fc, (long)nl[SFIL].n_value, 0);
read(fc, xfile, sizeof(xfile));
for (fp=xfile; fp < &xfile[NFILE]; fp++)
if (fp->f_count)
nf++;
if (totflg) {
printf("%3d/%3d files\n", nf, NFILE);
return;
}
printf("%d/%d open files\n", nf, NFILE);
printf(" LOC FLG CNT INO OFFS\n");
for (fp=xfile,loc=nl[SFIL].n_value; fp < &xfile[NFILE]; fp++,loc+=sizeof(xfile[0])) {
if (fp->f_count==0)
continue;
printf("%8x ", loc);
putf(fp->f_flag&FREAD, 'R');
putf(fp->f_flag&FWRITE, 'W');
putf(fp->f_flag&FPIPE, 'P');
printf("%4d", mask(fp->f_count));
printf("%9.1x", fp->f_inode);
printf(" %ld\n", fp->f_un.f_offset);
}
}
doswap()
{
struct proc proc[NPROC];
struct text xtext[NTEXT];
struct map swapmap[SMAPSIZ];
register struct proc *pp;
int nswap, used, tused, free;
register struct map *mp;
register struct text *xp;
lseek(fc, (long)nl[SPROC].n_value, 0);
read(fc, proc, sizeof(proc));
lseek(fc, (long)nl[SWAPMAP].n_value, 0);
read(fc, swapmap, sizeof(swapmap));
lseek(fc, (long)nl[SNSWAP].n_value, 0);
read(fc, &nswap, sizeof(nswap));
free = 0;
for (mp = swapmap; mp < &swapmap[SMAPSIZ]; mp++)
free += mp->m_size;
lseek(fc, (long)nl[STEXT].n_value, 0);
read(fc, xtext, sizeof(xtext));
tused = 0;
for (xp = xtext; xp < &xtext[NTEXT]; xp++)
if (xp->x_iptr!=NULL)
tused += xdsize(xp);
used = tused;
for (pp = proc; pp < &proc[NPROC]; pp++) {
if (pp->p_stat == 0 || pp->p_stat == SZOMB)
continue;
if (pp->p_flag & SSYS)
continue;
used += up(pp->p_dsize) + up(pp->p_ssize);
if ((pp->p_flag&SLOAD) == 0)
used += vusize(pp);
}
/* a DMMAX block goes to argmap */
if (totflg) {
printf("%3d/%3d 00k swap\n", used/2/100, (used+free)/2/100);
return;
}
printf("%d used (%d text), %d free, %d missing\n",
used/2, tused/2, free/2, (nswap - DMMAX - (used + free))/2);
}
up(size)
register int size;
{
register int i, block;
i = 0;
block = DMMIN;
while (i < size) {
i += block;
if (block < DMMAX)
block *= 2;
}
return (i);
}
vusize(p)
struct proc *p;
{
register int tsz = p->p_tsize / NPTEPG;
return (clrnd(UPAGES + clrnd(ctopt(p->p_tsize+p->p_dsize+p->p_ssize+UPAGES)) - tsz));
}
xdsize(xp)
struct text *xp;
{
if (xp->x_flag & XPAGI)
return (clrnd(xp->x_size + ctopt(xp->x_size)));
return (xp->x_size);
}