/* $NetBSD: print.c,v 1.106 2008/10/19 02:39:08 christos Exp $ */ /* * Copyright (c) 2000, 2007 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Simon Burge. * * 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. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. 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 FOUNDATION 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. */ /* * 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. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include #ifndef lint #if 0 static char sccsid[] = "@(#)print.c 8.6 (Berkeley) 4/16/94"; #else __RCSID("$NetBSD: print.c,v 1.106 2008/10/19 02:39:08 christos Exp $"); #endif #endif /* not lint */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ps.h" static char *cmdpart(char *); static void printval(void *, VAR *, int); static int titlecmp(char *, char **); static void doubleprintorsetwidth(VAR *, double, int, int); static void intprintorsetwidth(VAR *, int, int); static void strprintorsetwidth(VAR *, const char *, int); static time_t now; static int ncpu; static u_int64_t *cp_id; #define min(a,b) ((a) <= (b) ? (a) : (b)) static int iwidth(u_int64_t v) { u_int64_t nlim, lim; int w = 1; for (lim = 10; v >= lim; lim = nlim) { nlim = lim * 10; w++; if (nlim < lim) break; } return w; } static char * cmdpart(char *arg0) { char *cp; return ((cp = strrchr(arg0, '/')) != NULL ? cp + 1 : arg0); } void printheader(void) { int len; VAR *v; struct varent *vent; static int firsttime = 1; static int noheader = 0; /* * If all the columns have user-specified null headers, * don't print the blank header line at all. */ if (firsttime) { SIMPLEQ_FOREACH(vent, &displaylist, next) { if (vent->var->header[0]) break; } if (vent == NULL) { noheader = 1; firsttime = 0; } } if (noheader) return; SIMPLEQ_FOREACH(vent, &displaylist, next) { v = vent->var; if (firsttime) { len = strlen(v->header); if (len > v->width) v->width = len; totwidth += v->width + 1; /* +1 for space */ } if (v->flag & LJUST) { if (SIMPLEQ_NEXT(vent, next) == NULL) /* last one */ (void)printf("%s", v->header); else (void)printf("%-*s", v->width, v->header); } else (void)printf("%*s", v->width, v->header); if (SIMPLEQ_NEXT(vent, next) != NULL) (void)putchar(' '); } (void)putchar('\n'); if (firsttime) { firsttime = 0; totwidth--; /* take off last space */ } } /* * Return 1 if the command name in the argument vector (u-area) does * not match the command name (p_comm) */ static int titlecmp(char *name, char **argv) { char *title; int namelen; /* no argument vector == no match; system processes/threads do that */ if (argv == 0 || argv[0] == 0) return (1); title = cmdpart(argv[0]); /* the basename matches */ if (!strcmp(name, title)) return (0); /* handle login shells, by skipping the leading - */ if (title[0] == '-' && !strcmp(name, title + 1)) return (0); namelen = strlen(name); /* handle daemons that report activity as daemonname: activity */ if (argv[1] == 0 && !strncmp(name, title, namelen) && title[namelen + 0] == ':' && title[namelen + 1] == ' ') return (0); return (1); } static void doubleprintorsetwidth(VAR *v, double val, int prec, int mode) { int fmtlen; if (mode == WIDTHMODE) { if (val < 0.0 && val < v->longestnd) { fmtlen = (int)log10(-val) + prec + 2; v->longestnd = val; if (fmtlen > v->width) v->width = fmtlen; } else if (val > 0.0 && val > v->longestpd) { fmtlen = (int)log10(val) + prec + 1; v->longestpd = val; if (fmtlen > v->width) v->width = fmtlen; } } else { (void)printf("%*.*f", v->width, prec, val); } } static void intprintorsetwidth(VAR *v, int val, int mode) { int fmtlen; if (mode == WIDTHMODE) { if (val < 0 && val < v->longestn) { v->longestn = val; fmtlen = iwidth(-val) + 1; if (fmtlen > v->width) v->width = fmtlen; } else if (val > 0 && val > v->longestp) { v->longestp = val; fmtlen = iwidth(val); if (fmtlen > v->width) v->width = fmtlen; } } else (void)printf("%*d", v->width, val); } static void strprintorsetwidth(VAR *v, const char *str, int mode) { int len; if (mode == WIDTHMODE) { len = strlen(str); if (len > v->width) v->width = len; } else { if (v->flag & LJUST) (void)printf("%-*.*s", v->width, v->width, str); else (void)printf("%*.*s", v->width, v->width, str); } } void command(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *ki; VAR *v; int left; char **argv, **p, *name; if (mode == WIDTHMODE) return; ki = arg; v = ve->var; if (SIMPLEQ_NEXT(ve, next) != NULL || termwidth != UNLIMITED) { if (SIMPLEQ_NEXT(ve, next) == NULL) { left = termwidth - (totwidth - v->width); if (left < 1) /* already wrapped, just use std width */ left = v->width; } else left = v->width; } else left = -1; if (needenv && kd) { argv = kvm_getenvv2(kd, ki, termwidth); if ((p = argv) != NULL) { while (*p) { fmt_puts(*p, &left); p++; fmt_putc(' ', &left); } } } if (needcomm) { name = ki->p_comm; if (!commandonly) { argv = kvm_getargv2(kd, ki, termwidth); if ((p = argv) != NULL) { while (*p) { fmt_puts(*p, &left); p++; fmt_putc(' ', &left); if (v->flag & ARGV0) break; } if (!(v->flag & ARGV0) && titlecmp(name, argv)) { /* * append the real command name within * parentheses, if the command name * does not match the one in the * argument vector */ fmt_putc('(', &left); fmt_puts(name, &left); fmt_putc(')', &left); } } else { /* * Commands that don't set an argv vector * are printed with square brackets if they * are system commands. Otherwise they are * printed within parentheses. */ if (ki->p_flag & P_SYSTEM) { fmt_putc('[', &left); fmt_puts(name, &left); fmt_putc(']', &left); } else { fmt_putc('(', &left); fmt_puts(name, &left); fmt_putc(')', &left); } } } else { fmt_puts(name, &left); } } if (SIMPLEQ_NEXT(ve, next) != NULL && left > 0) (void)printf("%*s", left, ""); } void groups(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *ki; VAR *v; int left, i; char buf[16], *p; if (mode == WIDTHMODE) return; ki = arg; v = ve->var; if (SIMPLEQ_NEXT(ve, next) != NULL || termwidth != UNLIMITED) { if (SIMPLEQ_NEXT(ve, next) == NULL) { left = termwidth - (totwidth - v->width); if (left < 1) /* already wrapped, just use std width */ left = v->width; } else left = v->width; } else left = -1; if (ki->p_ngroups == 0) { fmt_putc('-', &left); return; } for (i = 0; i < ki->p_ngroups; i++) { (void)snprintf(buf, sizeof(buf), "%d", ki->p_groups[i]); if (i) fmt_putc(' ', &left); for (p = &buf[0]; *p; p++) fmt_putc(*p, &left); } if (SIMPLEQ_NEXT(ve, next) != NULL && left > 0) (void)printf("%*s", left, ""); } void groupnames(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *ki; VAR *v; int left, i; const char *p; if (mode == WIDTHMODE) return; ki = arg; v = ve->var; if (SIMPLEQ_NEXT(ve, next) != NULL || termwidth != UNLIMITED) { if (SIMPLEQ_NEXT(ve, next) == NULL) { left = termwidth - (totwidth - v->width); if (left < 1) /* already wrapped, just use std width */ left = v->width; } else left = v->width; } else left = -1; if (ki->p_ngroups == 0) { fmt_putc('-', &left); return; } for (i = 0; i < ki->p_ngroups; i++) { if (i) fmt_putc(' ', &left); for (p = group_from_gid(ki->p_groups[i], 0); *p; p++) fmt_putc(*p, &left); } if (SIMPLEQ_NEXT(ve, next) != NULL && left > 0) (void)printf("%*s", left, ""); } void ucomm(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; strprintorsetwidth(v, k->p_comm, mode); } void emul(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; strprintorsetwidth(v, k->p_ename, mode); } void logname(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; strprintorsetwidth(v, k->p_login, mode); } void state(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; int flag, is_zombie; char *cp; VAR *v; char buf[16]; k = arg; is_zombie = 0; v = ve->var; flag = k->p_flag; cp = buf; switch (k->p_stat) { case LSSTOP: *cp = 'T'; break; case LSSLEEP: if (flag & L_SINTR) /* interruptable (long) */ *cp = k->p_slptime >= maxslp ? 'I' : 'S'; else *cp = 'D'; break; case LSRUN: case LSIDL: *cp = 'R'; break; case LSONPROC: *cp = 'O'; break; case LSZOMB: *cp = 'Z'; is_zombie = 1; break; case LSSUSPENDED: *cp = 'U'; break; default: *cp = '?'; } cp++; if (flag & L_INMEM) { } else *cp++ = 'W'; if (k->p_nice < NZERO) *cp++ = '<'; else if (k->p_nice > NZERO) *cp++ = 'N'; if (flag & P_TRACED) *cp++ = 'X'; if (flag & P_WEXIT && !is_zombie) *cp++ = 'E'; if (flag & P_PPWAIT) *cp++ = 'V'; if (flag & P_SYSTEM) *cp++ = 'K'; /* system process might have this too, don't need to double up */ else if (k->p_holdcnt) *cp++ = 'L'; if (k->p_eflag & EPROC_SLEADER) *cp++ = 's'; if (flag & P_SA) *cp++ = 'a'; else if (k->p_nlwps > 1) *cp++ = 'l'; if ((flag & P_CONTROLT) && k->p__pgid == k->p_tpgid) *cp++ = '+'; *cp = '\0'; strprintorsetwidth(v, buf, mode); } void lstate(void *arg, VARENT *ve, int mode) { struct kinfo_lwp *k; int flag, is_zombie; char *cp; VAR *v; char buf[16]; k = arg; is_zombie = 0; v = ve->var; flag = k->l_flag; cp = buf; switch (k->l_stat) { case LSSTOP: *cp = 'T'; break; case LSSLEEP: if (flag & L_SINTR) /* interruptible (long) */ *cp = k->l_slptime >= maxslp ? 'I' : 'S'; else *cp = 'D'; break; case LSRUN: case LSIDL: case LSONPROC: *cp = 'R'; break; case LSZOMB: case LSDEAD: *cp = 'Z'; is_zombie = 1; break; case LSSUSPENDED: *cp = 'U'; break; default: *cp = '?'; } cp++; if (flag & L_INMEM) { } else *cp++ = 'W'; if (k->l_holdcnt) *cp++ = 'L'; if (flag & L_DETACHED) *cp++ = '-'; *cp = '\0'; strprintorsetwidth(v, buf, mode); } void pnice(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; intprintorsetwidth(v, k->p_nice - NZERO, mode); } void pri(void *arg, VARENT *ve, int mode) { struct kinfo_lwp *l; VAR *v; l = arg; v = ve->var; intprintorsetwidth(v, l->l_priority, mode); } void uname(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; strprintorsetwidth(v, user_from_uid(k->p_uid, 0), mode); } void runame(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; strprintorsetwidth(v, user_from_uid(k->p_ruid, 0), mode); } void svuname(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; strprintorsetwidth(v, user_from_uid(k->p_svuid, 0), mode); } void gname(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; strprintorsetwidth(v, group_from_gid(k->p_gid, 0), mode); } void rgname(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; strprintorsetwidth(v, group_from_gid(k->p_rgid, 0), mode); } void svgname(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; strprintorsetwidth(v, group_from_gid(k->p_svgid, 0), mode); } void tdev(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; dev_t dev; char buff[16]; k = arg; v = ve->var; dev = k->p_tdev; if (dev == NODEV) { if (mode == PRINTMODE) (void)printf("%*s", v->width, "?"); else if (v->width < 2) v->width = 2; } else { (void)snprintf(buff, sizeof(buff), "%d/%d", major(dev), minor(dev)); strprintorsetwidth(v, buff, mode); } } void tname(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; dev_t dev; const char *ttname; int noctty; k = arg; v = ve->var; dev = k->p_tdev; if (dev == NODEV || (ttname = devname(dev, S_IFCHR)) == NULL) { if (mode == PRINTMODE) (void)printf("%-*s", v->width, "?"); else if (v->width < 2) v->width = 2; } else { noctty = !(k->p_eflag & EPROC_CTTY) ? 1 : 0; if (mode == WIDTHMODE) { int fmtlen; fmtlen = strlen(ttname) + noctty; if (v->width < fmtlen) v->width = fmtlen; } else { if (noctty) (void)printf("%-*s-", v->width - 1, ttname); else (void)printf("%-*s", v->width, ttname); } } } void longtname(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; dev_t dev; const char *ttname; k = arg; v = ve->var; dev = k->p_tdev; if (dev == NODEV || (ttname = devname(dev, S_IFCHR)) == NULL) { if (mode == PRINTMODE) (void)printf("%-*s", v->width, "?"); else if (v->width < 2) v->width = 2; } else { strprintorsetwidth(v, ttname, mode); } } void started(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; time_t startt; struct tm *tp; char buf[100], *cp; k = arg; v = ve->var; if (!k->p_uvalid) { if (mode == PRINTMODE) (void)printf("%*s", v->width, "-"); return; } startt = k->p_ustart_sec; tp = localtime(&startt); if (now == 0) (void)time(&now); if (now - k->p_ustart_sec < SECSPERDAY) /* I *hate* SCCS... */ (void)strftime(buf, sizeof(buf) - 1, "%l:%" "M%p", tp); else if (now - k->p_ustart_sec < DAYSPERWEEK * SECSPERDAY) /* I *hate* SCCS... */ (void)strftime(buf, sizeof(buf) - 1, "%a%" "I%p", tp); else (void)strftime(buf, sizeof(buf) - 1, "%e%b%y", tp); /* %e and %l can start with a space. */ cp = buf; if (*cp == ' ') cp++; strprintorsetwidth(v, cp, mode); } void lstarted(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; time_t startt; char buf[100]; k = arg; v = ve->var; if (!k->p_uvalid) { /* * Minimum width is less than header - we don't * need to check it every time. */ if (mode == PRINTMODE) (void)printf("%*s", v->width, "-"); return; } startt = k->p_ustart_sec; /* assume all times are the same length */ if (mode != WIDTHMODE || v->width == 0) { (void)strftime(buf, sizeof(buf) -1, "%c", localtime(&startt)); strprintorsetwidth(v, buf, mode); } } void elapsed(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; int32_t origseconds, secs, mins, hours, days; int fmtlen, printed_something; k = arg; v = ve->var; if (k->p_uvalid == 0) { origseconds = 0; } else { if (now == 0) (void)time(&now); origseconds = now - k->p_ustart_sec; if (origseconds < 0) { /* * Don't try to be fancy if the machine's * clock has been rewound to before the * process "started". */ origseconds = 0; } } secs = origseconds; mins = secs / SECSPERMIN; secs %= SECSPERMIN; hours = mins / MINSPERHOUR; mins %= MINSPERHOUR; days = hours / HOURSPERDAY; hours %= HOURSPERDAY; if (mode == WIDTHMODE) { if (origseconds == 0) /* non-zero so fmtlen is calculated at least once */ origseconds = 1; if (origseconds > v->longestp) { v->longestp = origseconds; if (days > 0) { /* +9 for "-hh:mm:ss" */ fmtlen = iwidth(days) + 9; } else if (hours > 0) { /* +6 for "mm:ss" */ fmtlen = iwidth(hours) + 6; } else { /* +3 for ":ss" */ fmtlen = iwidth(mins) + 3; } if (fmtlen > v->width) v->width = fmtlen; } } else { printed_something = 0; fmtlen = v->width; if (days > 0) { (void)printf("%*d", fmtlen - 9, days); printed_something = 1; } else if (fmtlen > 9) { (void)printf("%*s", fmtlen - 9, ""); } if (fmtlen > 9) fmtlen = 9; if (printed_something) { (void)printf("-%.*d", fmtlen - 7, hours); printed_something = 1; } else if (hours > 0) { (void)printf("%*d", fmtlen - 6, hours); printed_something = 1; } else if (fmtlen > 6) { (void)printf("%*s", fmtlen - 6, ""); } if (fmtlen > 6) fmtlen = 6; /* Don't need to set fmtlen or printed_something any more... */ if (printed_something) { (void)printf(":%.*d", fmtlen - 4, mins); } else if (mins > 0) { (void)printf("%*d", fmtlen - 3, mins); } else if (fmtlen > 3) { (void)printf("%*s", fmtlen - 3, "0"); } (void)printf(":%.2d", secs); } } void wchan(void *arg, VARENT *ve, int mode) { struct kinfo_lwp *l; VAR *v; char *buf; l = arg; v = ve->var; if (l->l_wchan) { if (l->l_wmesg) { strprintorsetwidth(v, l->l_wmesg, mode); v->width = min(v->width, KI_WMESGLEN); } else { (void)asprintf(&buf, "%-*" PRIx64, v->width, l->l_wchan); if (buf == NULL) err(1, "%s", ""); strprintorsetwidth(v, buf, mode); v->width = min(v->width, KI_WMESGLEN); free(buf); } } else { if (mode == PRINTMODE) (void)printf("%-*s", v->width, "-"); } } #define pgtok(a) (((a)*getpagesize())/1024) void vsize(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; intprintorsetwidth(v, pgtok(k->p_vm_dsize + k->p_vm_ssize + k->p_vm_tsize), mode); } void rssize(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; /* XXX don't have info about shared */ intprintorsetwidth(v, pgtok(k->p_vm_rssize), mode); } void p_rssize(void *arg, VARENT *ve, int mode) /* doesn't account for text */ { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; intprintorsetwidth(v, pgtok(k->p_vm_rssize), mode); } void setncpu(void) { int mib[2]; size_t size; mib[0] = CTL_HW; mib[1] = HW_NCPU; size = sizeof(ncpu); if (sysctl(mib, 2, &ncpu, &size, NULL, 0) == -1) { ncpu = 0; return; } cp_id = malloc(sizeof(cp_id[0]) * ncpu); if (cp_id == NULL) err(1, NULL); mib[0] = CTL_KERN; mib[1] = KERN_CP_ID; size = sizeof(cp_id[0]) * ncpu; if (sysctl(mib, 2, cp_id, &size, NULL, 0) == -1) ncpu = 0; } static int get_cpunum(u_int64_t id) { int i = 0; for (i = 0; i < ncpu; i++) if (id == cp_id[i]) return i; return -1; } void cpuid(void *arg, VARENT *ve, int mode) { struct kinfo_lwp *l; VAR *v; l = arg; v = ve->var; intprintorsetwidth(v, get_cpunum(l->l_cpuid), mode); } void cputime(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; int32_t secs; int32_t psecs; /* "parts" of a second. first micro, then centi */ int fmtlen; k = arg; v = ve->var; /* * 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->p_rtime_sec; psecs = k->p_rtime_usec; if (sumrusage) { secs += k->p_uctime_sec; psecs += k->p_uctime_usec; } /* * round and scale to 100's */ psecs = (psecs + 5000) / 10000; secs += psecs / 100; psecs = psecs % 100; if (mode == WIDTHMODE) { /* * Ugg, this is the only field where a value of 0 is longer * than the column title. * Use SECSPERMIN, because secs is divided by that when * passed to iwidth(). */ if (secs == 0) secs = SECSPERMIN; if (secs > v->longestp) { v->longestp = secs; /* "+6" for the ":%02ld.%02ld" in the printf() below */ fmtlen = iwidth(secs / SECSPERMIN) + 6; if (fmtlen > v->width) v->width = fmtlen; } } else { (void)printf("%*ld:%02ld.%02ld", v->width - 6, (long)(secs / SECSPERMIN), (long)(secs % SECSPERMIN), (long)psecs); } } double getpcpu(k) const struct kinfo_proc2 *k; { static int failure; if (!nlistread) failure = (kd) ? donlist() : 1; if (failure) return (0.0); #define fxtofl(fixpt) ((double)(fixpt) / fscale) /* XXX - I don't like this */ if (k->p_swtime == 0 || (k->p_flag & L_INMEM) == 0 || k->p_realstat == SZOMB) return (0.0); if (rawcpu) return (100.0 * fxtofl(k->p_pctcpu)); return (100.0 * fxtofl(k->p_pctcpu) / (1.0 - exp(k->p_swtime * log(ccpu)))); } void pcpu(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; doubleprintorsetwidth(v, getpcpu(k), 1, mode); } double getpmem(k) const struct kinfo_proc2 *k; { static int failure; double fracmem; int szptudot; if (!nlistread) failure = (kd) ? donlist() : 1; if (failure) return (0.0); if ((k->p_flag & L_INMEM) == 0) return (0.0); /* XXX want pmap ptpages, segtab, etc. (per architecture) */ szptudot = uspace/getpagesize(); /* XXX don't have info about shared */ fracmem = ((float)k->p_vm_rssize + szptudot)/mempages; return (100.0 * fracmem); } void pmem(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; doubleprintorsetwidth(v, getpmem(k), 1, mode); } void pagein(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; intprintorsetwidth(v, k->p_uvalid ? k->p_uru_majflt : 0, mode); } void maxrss(void *arg, VARENT *ve, int mode) { VAR *v; v = ve->var; /* No need to check width! */ if (mode == PRINTMODE) (void)printf("%*s", v->width, "-"); } void tsize(void *arg, VARENT *ve, int mode) { struct kinfo_proc2 *k; VAR *v; k = arg; v = ve->var; intprintorsetwidth(v, pgtok(k->p_vm_tsize), mode); } /* * Generic output routines. Print fields from various prototype * structures. */ static void printval(bp, v, mode) void *bp; VAR *v; int mode; { static char ofmt[32] = "%"; int width, vok, fmtlen; const char *fcp; char *cp; int64_t val; u_int64_t uval; val = 0; /* XXXGCC -Wuninitialized [hpcarm] */ uval = 0; /* XXXGCC -Wuninitialized [hpcarm] */ /* * Note that the "INF127" check is nonsensical for types * that are or can be signed. */ #define GET(type) (*(type *)bp) #define CHK_INF127(n) (((n) > 127) && (v->flag & INF127) ? 127 : (n)) #define VSIGN 1 #define VUNSIGN 2 #define VPTR 3 if (mode == WIDTHMODE) { vok = 0; switch (v->type) { case CHAR: val = GET(char); vok = VSIGN; break; case UCHAR: uval = CHK_INF127(GET(u_char)); vok = VUNSIGN; break; case SHORT: val = GET(short); vok = VSIGN; break; case USHORT: uval = CHK_INF127(GET(u_short)); vok = VUNSIGN; break; case INT32: val = GET(int32_t); vok = VSIGN; break; case INT: val = GET(int); vok = VSIGN; break; case UINT: case UINT32: uval = CHK_INF127(GET(u_int)); vok = VUNSIGN; break; case LONG: val = GET(long); vok = VSIGN; break; case ULONG: uval = CHK_INF127(GET(u_long)); vok = VUNSIGN; break; case KPTR: uval = GET(u_int64_t); vok = VPTR; break; case KPTR24: uval = GET(u_int64_t); uval &= 0xffffff; vok = VPTR; break; case INT64: val = GET(int64_t); vok = VSIGN; break; case UINT64: uval = CHK_INF127(GET(u_int64_t)); vok = VUNSIGN; break; case SIGLIST: default: /* nothing... */; } switch (vok) { case VSIGN: if (val < 0 && val < v->longestn) { v->longestn = val; fmtlen = iwidth(-val) + 1; if (fmtlen > v->width) v->width = fmtlen; } else if (val > 0 && val > v->longestp) { v->longestp = val; fmtlen = iwidth(val); if (fmtlen > v->width) v->width = fmtlen; } return; case VUNSIGN: if (uval > v->longestu) { v->longestu = uval; v->width = iwidth(uval); } return; case VPTR: fmtlen = 0; while (uval > 0) { uval >>= 4; fmtlen++; } if (fmtlen > v->width) v->width = fmtlen; return; } } width = v->width; cp = ofmt + 1; fcp = v->fmt; if (v->flag & LJUST) *cp++ = '-'; *cp++ = '*'; while ((*cp++ = *fcp++) != '\0') continue; switch (v->type) { case CHAR: (void)printf(ofmt, width, GET(char)); return; case UCHAR: (void)printf(ofmt, width, CHK_INF127(GET(u_char))); return; case SHORT: (void)printf(ofmt, width, GET(short)); return; case USHORT: (void)printf(ofmt, width, CHK_INF127(GET(u_short))); return; case INT: (void)printf(ofmt, width, GET(int)); return; case UINT: (void)printf(ofmt, width, CHK_INF127(GET(u_int))); return; case LONG: (void)printf(ofmt, width, GET(long)); return; case ULONG: (void)printf(ofmt, width, CHK_INF127(GET(u_long))); return; case KPTR: (void)printf(ofmt, width, GET(u_int64_t)); return; case KPTR24: (void)printf(ofmt, width, GET(u_int64_t) & 0xffffff); return; case INT32: (void)printf(ofmt, width, GET(int32_t)); return; case UINT32: (void)printf(ofmt, width, CHK_INF127(GET(u_int32_t))); return; case SIGLIST: { sigset_t *s = (sigset_t *)(void *)bp; size_t i; #define SIGSETSIZE (sizeof(s->__bits) / sizeof(s->__bits[0])) char buf[SIGSETSIZE * 8 + 1]; for (i = 0; i < SIGSETSIZE; i++) (void)snprintf(&buf[i * 8], 9, "%.8x", s->__bits[(SIGSETSIZE - 1) - i]); /* Skip leading zeroes */ for (i = 0; buf[i] == '0'; i++) continue; if (buf[i] == '\0') i--; strprintorsetwidth(v, buf + i, mode); #undef SIGSETSIZE } return; case INT64: (void)printf(ofmt, width, GET(int64_t)); return; case UINT64: (void)printf(ofmt, width, CHK_INF127(GET(u_int64_t))); return; default: errx(1, "unknown type %d", v->type); } #undef GET #undef CHK_INF127 } void pvar(void *arg, VARENT *ve, int mode) { VAR *v; v = ve->var; if (v->flag & UAREA && !((struct kinfo_proc2 *)arg)->p_uvalid) { if (mode == PRINTMODE) (void)printf("%*s", v->width, "-"); return; } (void)printval((char *)arg + v->off, v, mode); } void putimeval(void *arg, VARENT *ve, int mode) { VAR *v = ve->var; struct kinfo_proc2 *k = arg; ulong secs = *(uint32_t *)((char *)arg + v->off); ulong usec = *(uint32_t *)((char *)arg + v->off + sizeof (uint32_t)); int fmtlen; if (!k->p_uvalid) { if (mode == PRINTMODE) (void)printf("%*s", v->width, "-"); return; } if (mode == WIDTHMODE) { if (secs == 0) /* non-zero so fmtlen is calculated at least once */ secs = 1; if (secs > v->longestu) { v->longestu = secs; if (secs <= 999) /* sss.ssssss */ fmtlen = iwidth(secs) + 6 + 1; else /* hh:mm:ss.ss */ fmtlen = iwidth((secs + 1) / SECSPERHOUR) + 2 + 1 + 2 + 1 + 2 + 1; if (fmtlen > v->width) v->width = fmtlen; } return; } if (secs < 999) (void)printf( "%*lu.%.6lu", v->width - 6 - 1, secs, usec); else { uint h, m; usec += 5000; if (usec >= 1000000) { usec -= 1000000; secs++; } m = secs / SECSPERMIN; secs -= m * SECSPERMIN; h = m / MINSPERHOUR; m -= h * MINSPERHOUR; (void)printf( "%*u:%.2u:%.2lu.%.2lu", v->width - 9, h, m, secs, usec / 10000u ); } } void lname(void *arg, VARENT *ve, int mode) { struct kinfo_lwp *l; VAR *v; l = arg; v = ve->var; if (l->l_name && l->l_name[0] != '\0') { strprintorsetwidth(v, l->l_name, mode); v->width = min(v->width, KI_LNAMELEN); } else { if (mode == PRINTMODE) (void)printf("%-*s", v->width, "-"); } }