Current Path : /compat/linux/proc/self/root/usr/src/bin/ps/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //compat/linux/proc/self/root/usr/src/bin/ps/print.c |
/*- * Copyright (c) 1990, 1993, 1994 * 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. */ #if 0 #ifndef lint static char sccsid[] = "@(#)print.c 8.6 (Berkeley) 4/16/94"; #endif /* not lint */ #endif #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/bin/ps/print.c 235891 2012-05-24 10:20:23Z trasz $"); #include <sys/param.h> #include <sys/time.h> #include <sys/resource.h> #include <sys/proc.h> #include <sys/stat.h> #include <sys/mac.h> #include <sys/user.h> #include <sys/sysctl.h> #include <sys/vmmeter.h> #include <err.h> #include <grp.h> #include <langinfo.h> #include <locale.h> #include <math.h> #include <nlist.h> #include <pwd.h> #include <stddef.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <vis.h> #include "ps.h" #define COMMAND_WIDTH 16 #define ARGUMENTS_WIDTH 16 #define ps_pgtok(a) (((a) * getpagesize()) / 1024) void printheader(void) { VAR *v; struct varent *vent; STAILQ_FOREACH(vent, &varlist, next_ve) if (*vent->header != '\0') break; if (!vent) return; STAILQ_FOREACH(vent, &varlist, next_ve) { v = vent->var; if (v->flag & LJUST) { if (STAILQ_NEXT(vent, next_ve) == NULL) /* last one */ (void)printf("%s", vent->header); else (void)printf("%-*s", v->width, vent->header); } else (void)printf("%*s", v->width, vent->header); if (STAILQ_NEXT(vent, next_ve) != NULL) (void)putchar(' '); } (void)putchar('\n'); } char * arguments(KINFO *k, VARENT *ve) { VAR *v; char *vis_args; v = ve->var; if ((vis_args = malloc(strlen(k->ki_args) * 4 + 1)) == NULL) errx(1, "malloc failed"); strvis(vis_args, k->ki_args, VIS_TAB | VIS_NL | VIS_NOSLASH); if (STAILQ_NEXT(ve, next_ve) != NULL && strlen(vis_args) > ARGUMENTS_WIDTH) vis_args[ARGUMENTS_WIDTH] = '\0'; return (vis_args); } char * command(KINFO *k, VARENT *ve) { VAR *v; char *vis_args, *vis_env, *str; v = ve->var; if (cflag) { /* If it is the last field, then don't pad */ if (STAILQ_NEXT(ve, next_ve) == NULL) { asprintf(&str, "%s%s%s%s", k->ki_d.prefix ? k->ki_d.prefix : "", k->ki_p->ki_comm, (showthreads && k->ki_p->ki_numthreads > 1) ? "/" : "", (showthreads && k->ki_p->ki_numthreads > 1) ? k->ki_p->ki_tdname : ""); } else str = strdup(k->ki_p->ki_comm); return (str); } if ((vis_args = malloc(strlen(k->ki_args) * 4 + 1)) == NULL) errx(1, "malloc failed"); strvis(vis_args, k->ki_args, VIS_TAB | VIS_NL | VIS_NOSLASH); if (STAILQ_NEXT(ve, next_ve) == NULL) { /* last field */ if (k->ki_env) { if ((vis_env = malloc(strlen(k->ki_env) * 4 + 1)) == NULL) errx(1, "malloc failed"); strvis(vis_env, k->ki_env, VIS_TAB | VIS_NL | VIS_NOSLASH); } else vis_env = NULL; asprintf(&str, "%s%s%s%s", k->ki_d.prefix ? k->ki_d.prefix : "", vis_env ? vis_env : "", vis_env ? " " : "", vis_args); if (vis_env != NULL) free(vis_env); free(vis_args); } else { /* ki_d.prefix & ki_env aren't shown for interim fields */ str = vis_args; if (strlen(str) > COMMAND_WIDTH) str[COMMAND_WIDTH] = '\0'; } return (str); } char * ucomm(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; if (STAILQ_NEXT(ve, next_ve) == NULL) { /* last field, don't pad */ asprintf(&str, "%s%s%s%s", k->ki_d.prefix ? k->ki_d.prefix : "", k->ki_p->ki_comm, (showthreads && k->ki_p->ki_numthreads > 1) ? "/" : "", (showthreads && k->ki_p->ki_numthreads > 1) ? k->ki_p->ki_tdname : ""); } else { if (showthreads && k->ki_p->ki_numthreads > 1) asprintf(&str, "%s/%s", k->ki_p->ki_comm, k->ki_p->ki_tdname); else str = strdup(k->ki_p->ki_comm); } return (str); } char * tdnam(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; if (showthreads && k->ki_p->ki_numthreads > 1) str = strdup(k->ki_p->ki_tdname); else str = strdup(" "); return (str); } char * logname(KINFO *k, VARENT *ve) { VAR *v; v = ve->var; if (*k->ki_p->ki_login == '\0') return (NULL); return (strdup(k->ki_p->ki_login)); } char * state(KINFO *k, VARENT *ve) { int flag, tdflags; char *cp, *buf; VAR *v; buf = malloc(16); if (buf == NULL) errx(1, "malloc failed"); v = ve->var; flag = k->ki_p->ki_flag; tdflags = k->ki_p->ki_tdflags; /* XXXKSE */ cp = buf; switch (k->ki_p->ki_stat) { case SSTOP: *cp = 'T'; break; case SSLEEP: if (tdflags & TDF_SINTR) /* interruptable (long) */ *cp = k->ki_p->ki_slptime >= MAXSLP ? 'I' : 'S'; else *cp = 'D'; break; case SRUN: case SIDL: *cp = 'R'; break; case SWAIT: *cp = 'W'; break; case SLOCK: *cp = 'L'; break; case SZOMB: *cp = 'Z'; break; default: *cp = '?'; } cp++; if (!(flag & P_INMEM)) *cp++ = 'W'; if (k->ki_p->ki_nice < NZERO) *cp++ = '<'; else if (k->ki_p->ki_nice > NZERO) *cp++ = 'N'; if (flag & P_TRACED) *cp++ = 'X'; if (flag & P_WEXIT && k->ki_p->ki_stat != SZOMB) *cp++ = 'E'; if (flag & P_PPWAIT) *cp++ = 'V'; if ((flag & P_SYSTEM) || k->ki_p->ki_lock > 0) *cp++ = 'L'; if (k->ki_p->ki_kiflag & KI_SLEADER) *cp++ = 's'; if ((flag & P_CONTROLT) && k->ki_p->ki_pgid == k->ki_p->ki_tpgid) *cp++ = '+'; if (flag & P_JAILED) *cp++ = 'J'; *cp = '\0'; return (buf); } #define scalepri(x) ((x) - PZERO) char * pri(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; asprintf(&str, "%d", scalepri(k->ki_p->ki_pri.pri_level)); return (str); } char * upr(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; asprintf(&str, "%d", scalepri(k->ki_p->ki_pri.pri_user)); return (str); } #undef scalepri char * uname(KINFO *k, VARENT *ve) { VAR *v; v = ve->var; return (strdup(user_from_uid(k->ki_p->ki_uid, 0))); } char * egroupname(KINFO *k, VARENT *ve) { VAR *v; v = ve->var; return (strdup(group_from_gid(k->ki_p->ki_groups[0], 0))); } char * rgroupname(KINFO *k, VARENT *ve) { VAR *v; v = ve->var; return (strdup(group_from_gid(k->ki_p->ki_rgid, 0))); } char * runame(KINFO *k, VARENT *ve) { VAR *v; v = ve->var; return (strdup(user_from_uid(k->ki_p->ki_ruid, 0))); } char * tdev(KINFO *k, VARENT *ve) { VAR *v; dev_t dev; char *str; v = ve->var; dev = k->ki_p->ki_tdev; if (dev == NODEV) str = strdup("??"); else asprintf(&str, "%d/%d", major(dev), minor(dev)); return (str); } char * tname(KINFO *k, VARENT *ve) { VAR *v; dev_t dev; char *ttname, *str; v = ve->var; dev = k->ki_p->ki_tdev; if (dev == NODEV || (ttname = devname(dev, S_IFCHR)) == NULL) str = strdup("?? "); else { if (strncmp(ttname, "tty", 3) == 0 || strncmp(ttname, "cua", 3) == 0) ttname += 3; if (strncmp(ttname, "pts/", 4) == 0) ttname += 4; asprintf(&str, "%s%c", ttname, k->ki_p->ki_kiflag & KI_CTTY ? ' ' : '-'); } return (str); } char * longtname(KINFO *k, VARENT *ve) { VAR *v; dev_t dev; const char *ttname; v = ve->var; dev = k->ki_p->ki_tdev; if (dev == NODEV || (ttname = devname(dev, S_IFCHR)) == NULL) ttname = "??"; return (strdup(ttname)); } char * started(KINFO *k, VARENT *ve) { VAR *v; time_t then; struct tm *tp; static int use_ampm = -1; size_t buflen = 100; char *buf; buf = malloc(buflen); if (buf == NULL) errx(1, "malloc failed"); v = ve->var; if (!k->ki_valid) return (NULL); if (use_ampm < 0) use_ampm = (*nl_langinfo(T_FMT_AMPM) != '\0'); then = k->ki_p->ki_start.tv_sec; tp = localtime(&then); if (now - k->ki_p->ki_start.tv_sec < 24 * 3600) { (void)strftime(buf, buflen, use_ampm ? "%l:%M%p" : "%k:%M ", tp); } else if (now - k->ki_p->ki_start.tv_sec < 7 * 86400) { (void)strftime(buf, buflen, use_ampm ? "%a%I%p" : "%a%H ", tp); } else (void)strftime(buf, buflen, "%e%b%y", tp); return (buf); } char * lstarted(KINFO *k, VARENT *ve) { VAR *v; time_t then; char *buf; size_t buflen = 100; buf = malloc(buflen); if (buf == NULL) errx(1, "malloc failed"); v = ve->var; if (!k->ki_valid) return (NULL); then = k->ki_p->ki_start.tv_sec; (void)strftime(buf, buflen, "%c", localtime(&then)); return (buf); } char * lockname(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; if (k->ki_p->ki_kiflag & KI_LOCKBLOCK) { if (k->ki_p->ki_lockname[0] != 0) str = strdup(k->ki_p->ki_lockname); else str = strdup("???"); } else str = NULL; return (str); } char * wchan(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; if (k->ki_p->ki_wchan) { if (k->ki_p->ki_wmesg[0] != 0) str = strdup(k->ki_p->ki_wmesg); else asprintf(&str, "%lx", (long)k->ki_p->ki_wchan); } else str = NULL; return (str); } char * nwchan(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; if (k->ki_p->ki_wchan) asprintf(&str, "%0lx", (long)k->ki_p->ki_wchan); else str = NULL; return (str); } char * mwchan(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; if (k->ki_p->ki_wchan) { if (k->ki_p->ki_wmesg[0] != 0) str = strdup(k->ki_p->ki_wmesg); else asprintf(&str, "%lx", (long)k->ki_p->ki_wchan); } else if (k->ki_p->ki_kiflag & KI_LOCKBLOCK) { if (k->ki_p->ki_lockname[0]) { str = strdup(k->ki_p->ki_lockname); } else str = strdup("???"); } else str = NULL; return (str); } char * vsize(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; asprintf(&str, "%lu", (u_long)(k->ki_p->ki_size / 1024)); return (str); } static char * printtime(KINFO *k, VARENT *ve, long secs, long psecs) /* psecs is "parts" of a second. first micro, then centi */ { VAR *v; static char decimal_point; char *str; if (decimal_point == '\0') decimal_point = localeconv()->decimal_point[0]; v = ve->var; if (!k->ki_valid) { secs = 0; psecs = 0; } else { /* round and scale to 100's */ psecs = (psecs + 5000) / 10000; secs += psecs / 100; psecs = psecs % 100; } asprintf(&str, "%ld:%02ld%c%02ld", secs / 60, secs % 60, decimal_point, psecs); return (str); } char * cputime(KINFO *k, VARENT *ve) { long secs, psecs; /* * This counts time spent handling interrupts. We could * fix this, but it is not 100% trivial (and interrupt * time fractions only work on the sparc anyway). XXX */ secs = k->ki_p->ki_runtime / 1000000; psecs = k->ki_p->ki_runtime % 1000000; if (sumrusage) { secs += k->ki_p->ki_childtime.tv_sec; psecs += k->ki_p->ki_childtime.tv_usec; } return (printtime(k, ve, secs, psecs)); } char * systime(KINFO *k, VARENT *ve) { long secs, psecs; secs = k->ki_p->ki_rusage.ru_stime.tv_sec; psecs = k->ki_p->ki_rusage.ru_stime.tv_usec; if (sumrusage) { secs += k->ki_p->ki_childstime.tv_sec; psecs += k->ki_p->ki_childstime.tv_usec; } return (printtime(k, ve, secs, psecs)); } char * usertime(KINFO *k, VARENT *ve) { long secs, psecs; secs = k->ki_p->ki_rusage.ru_utime.tv_sec; psecs = k->ki_p->ki_rusage.ru_utime.tv_usec; if (sumrusage) { secs += k->ki_p->ki_childutime.tv_sec; psecs += k->ki_p->ki_childutime.tv_usec; } return (printtime(k, ve, secs, psecs)); } char * elapsed(KINFO *k, VARENT *ve) { VAR *v; time_t val; int days, hours, mins, secs; char *str; v = ve->var; if (!k->ki_valid) return (NULL); val = now - k->ki_p->ki_start.tv_sec; days = val / (24 * 60 * 60); val %= 24 * 60 * 60; hours = val / (60 * 60); val %= 60 * 60; mins = val / 60; secs = val % 60; if (days != 0) asprintf(&str, "%3d-%02d:%02d:%02d", days, hours, mins, secs); else if (hours != 0) asprintf(&str, "%02d:%02d:%02d", hours, mins, secs); else asprintf(&str, "%02d:%02d", mins, secs); return (str); } char * elapseds(KINFO *k, VARENT *ve) { VAR *v; time_t val; char *str; v = ve->var; if (!k->ki_valid) return (NULL); val = now - k->ki_p->ki_start.tv_sec; asprintf(&str, "%jd", (intmax_t)val); return (str); } double getpcpu(const KINFO *k) { static int failure; if (!nlistread) failure = donlist(); if (failure) return (0.0); #define fxtofl(fixpt) ((double)(fixpt) / fscale) /* XXX - I don't like this */ if (k->ki_p->ki_swtime == 0 || (k->ki_p->ki_flag & P_INMEM) == 0) return (0.0); if (rawcpu) return (100.0 * fxtofl(k->ki_p->ki_pctcpu)); return (100.0 * fxtofl(k->ki_p->ki_pctcpu) / (1.0 - exp(k->ki_p->ki_swtime * log(fxtofl(ccpu))))); } char * pcpu(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; asprintf(&str, "%.1f", getpcpu(k)); return (str); } static double getpmem(KINFO *k) { static int failure; double fracmem; if (!nlistread) failure = donlist(); if (failure) return (0.0); if ((k->ki_p->ki_flag & P_INMEM) == 0) return (0.0); /* XXX want pmap ptpages, segtab, etc. (per architecture) */ /* XXX don't have info about shared */ fracmem = ((float)k->ki_p->ki_rssize) / mempages; return (100.0 * fracmem); } char * pmem(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; asprintf(&str, "%.1f", getpmem(k)); return (str); } char * pagein(KINFO *k, VARENT *ve) { VAR *v; char *str; v = ve->var; asprintf(&str, "%ld", k->ki_valid ? k->ki_p->ki_rusage.ru_majflt : 0); return (str); } /* ARGSUSED */ char * maxrss(KINFO *k __unused, VARENT *ve) { VAR *v; v = ve->var; /* XXX not yet */ return (NULL); } char * priorityr(KINFO *k, VARENT *ve) { VAR *v; struct priority *lpri; char *str; unsigned class, level; v = ve->var; lpri = &k->ki_p->ki_pri; class = lpri->pri_class; level = lpri->pri_level; switch (class) { case PRI_ITHD: asprintf(&str, "intr:%u", level); break; case PRI_REALTIME: asprintf(&str, "real:%u", level); break; case PRI_TIMESHARE: asprintf(&str, "normal"); break; case PRI_IDLE: asprintf(&str, "idle:%u", level); break; default: asprintf(&str, "%u:%u", class, level); break; } return (str); } /* * Generic output routines. Print fields from various prototype * structures. */ static char * printval(void *bp, VAR *v) { static char ofmt[32] = "%"; const char *fcp; char *cp, *str; cp = ofmt + 1; fcp = v->fmt; while ((*cp++ = *fcp++)); #define CHKINF127(n) (((n) > 127) && (v->flag & INF127) ? 127 : (n)) switch (v->type) { case CHAR: (void)asprintf(&str, ofmt, *(char *)bp); break; case UCHAR: (void)asprintf(&str, ofmt, *(u_char *)bp); break; case SHORT: (void)asprintf(&str, ofmt, *(short *)bp); break; case USHORT: (void)asprintf(&str, ofmt, *(u_short *)bp); break; case INT: (void)asprintf(&str, ofmt, *(int *)bp); break; case UINT: (void)asprintf(&str, ofmt, CHKINF127(*(u_int *)bp)); break; case LONG: (void)asprintf(&str, ofmt, *(long *)bp); break; case ULONG: (void)asprintf(&str, ofmt, *(u_long *)bp); break; case KPTR: (void)asprintf(&str, ofmt, *(u_long *)bp); break; case PGTOK: (void)asprintf(&str, ofmt, ps_pgtok(*(u_long *)bp)); break; default: errx(1, "unknown type %d", v->type); } return (str); } char * kvar(KINFO *k, VARENT *ve) { VAR *v; v = ve->var; return (printval((char *)((char *)k->ki_p + v->off), v)); } char * rvar(KINFO *k, VARENT *ve) { VAR *v; v = ve->var; if (!k->ki_valid) return (NULL); return (printval((char *)((char *)(&k->ki_p->ki_rusage) + v->off), v)); } char * emulname(KINFO *k, VARENT *ve) { VAR *v; v = ve->var; if (k->ki_p->ki_emul == NULL) return (NULL); return (strdup(k->ki_p->ki_emul)); } char * label(KINFO *k, VARENT *ve) { char *string; VAR *v; mac_t proclabel; int error; v = ve->var; string = NULL; if (mac_prepare_process_label(&proclabel) == -1) { warn("mac_prepare_process_label"); goto out; } error = mac_get_pid(k->ki_p->ki_pid, proclabel); if (error == 0) { if (mac_to_text(proclabel, &string) == -1) string = NULL; } mac_free(proclabel); out: return (string); } char * loginclass(KINFO *k, VARENT *ve) { VAR *v; char *s; v = ve->var; /* * Don't display login class for system processes; * login classes are used for resource limits, * and limits don't apply to system processes. */ if (k->ki_p->ki_flag & P_SYSTEM) { return (strdup("-")); } s = k->ki_p->ki_loginclass; if (s == NULL) return (NULL); return (strdup(s)); }