/*- * 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. * ------+---------+---------+-------- + --------+---------+---------+---------* * Copyright (c) 2004 - Garance Alistair Drosehn . * All rights reserved. * * Significant modifications made to bring `ps' options somewhat closer * to the standard for `ps' as described in SingleUnixSpec-v3. * ------+---------+---------+-------- + --------+---------+---------+---------* */ #ifndef lint static const char copyright[] = "@(#) Copyright (c) 1990, 1993, 1994\n\ The Regents of the University of California. All rights reserved.\n"; #endif /* not lint */ #if 0 #ifndef lint static char sccsid[] = "@(#)ps.c 8.4 (Berkeley) 4/2/94"; #endif /* not lint */ #endif #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ps.h" #define _PATH_PTS "/dev/pts/" #define W_SEP " \t" /* "Whitespace" list separators */ #define T_SEP "," /* "Terminate-element" list separators */ #ifdef LAZY_PS #define DEF_UREAD 0 #define OPT_LAZY_f "f" #else #define DEF_UREAD 1 /* Always do the more-expensive read. */ #define OPT_LAZY_f /* I.e., the `-f' option is not added. */ #endif /* * isdigit takes an `int', but expects values in the range of unsigned char. * This wrapper ensures that values from a 'char' end up in the correct range. */ #define isdigitch(Anychar) isdigit((u_char)(Anychar)) int cflag; /* -c */ int eval; /* Exit value */ time_t now; /* Current time(3) value */ int rawcpu; /* -C */ int sumrusage; /* -S */ int termwidth; /* Width of the screen (0 == infinity). */ int totwidth; /* Calculated-width of requested variables. */ int showthreads; /* will threads be shown? */ struct velisthead varlist = STAILQ_HEAD_INITIALIZER(varlist); static int forceuread = DEF_UREAD; /* Do extra work to get u-area. */ static kvm_t *kd; static KINFO *kinfo; static int needcomm; /* -o "command" */ static int needenv; /* -e */ static int needuser; /* -o "user" */ static int optfatal; /* Fatal error parsing some list-option. */ static enum sort { DEFAULT, SORTMEM, SORTCPU } sortby = DEFAULT; struct listinfo; typedef int addelem_rtn(struct listinfo *_inf, const char *_elem); struct listinfo { int count; int maxcount; int elemsize; addelem_rtn *addelem; const char *lname; union { gid_t *gids; pid_t *pids; dev_t *ttys; uid_t *uids; void *ptr; } l; }; static int check_procfs(void); static int addelem_gid(struct listinfo *, const char *); static int addelem_pid(struct listinfo *, const char *); static int addelem_tty(struct listinfo *, const char *); static int addelem_uid(struct listinfo *, const char *); static void add_list(struct listinfo *, const char *); static void descendant_sort(KINFO *, int); static void dynsizevars(KINFO *); static void *expand_list(struct listinfo *); static const char * fmt(char **(*)(kvm_t *, const struct kinfo_proc *, int), KINFO *, char *, int); static void free_list(struct listinfo *); static void init_list(struct listinfo *, addelem_rtn, int, const char *); static char *kludge_oldps_options(const char *, char *, const char *); static int pscomp(const void *, const void *); static void saveuser(KINFO *); static void scanvars(void); static void sizevars(void); static void usage(void); static char dfmt[] = "pid,tt,state,time,command"; static char jfmt[] = "user,pid,ppid,pgid,sid,jobc,state,tt,time,command"; static char lfmt[] = "uid,pid,ppid,cpu,pri,nice,vsz,rss,mwchan,state," "tt,time,command"; static char o1[] = "pid"; static char o2[] = "tt,state,time,command"; static char ufmt[] = "user,pid,%cpu,%mem,vsz,rss,tt,state,start,time,command"; static char vfmt[] = "pid,state,time,sl,re,pagein,vsz,rss,lim,tsiz," "%cpu,%mem,command"; static char Zfmt[] = "label"; #define PS_ARGS "AaCcde" OPT_LAZY_f "G:gHhjLlM:mN:O:o:p:rSTt:U:uvwXxZ" int main(int argc, char *argv[]) { struct listinfo gidlist, pgrplist, pidlist; struct listinfo ruidlist, sesslist, ttylist, uidlist; struct kinfo_proc *kp; KINFO *next_KINFO; struct varent *vent; struct winsize ws; const char *nlistf, *memf; char *cols; int all, ch, elem, flag, _fmt, i, lineno; int descendancy, nentries, nkept, nselectors; int prtheader, wflag, what, xkeep, xkeep_implied; char errbuf[_POSIX2_LINE_MAX]; (void) setlocale(LC_ALL, ""); time(&now); /* Used by routines in print.c. */ if ((cols = getenv("COLUMNS")) != NULL && *cols != '\0') termwidth = atoi(cols); else if ((ioctl(STDOUT_FILENO, TIOCGWINSZ, (char *)&ws) == -1 && ioctl(STDERR_FILENO, TIOCGWINSZ, (char *)&ws) == -1 && ioctl(STDIN_FILENO, TIOCGWINSZ, (char *)&ws) == -1) || ws.ws_col == 0) termwidth = 79; else termwidth = ws.ws_col - 1; /* * Hide a number of option-processing kludges in a separate routine, * to support some historical BSD behaviors, such as `ps axu'. */ if (argc > 1) argv[1] = kludge_oldps_options(PS_ARGS, argv[1], argv[2]); all = descendancy = _fmt = nselectors = optfatal = 0; prtheader = showthreads = wflag = xkeep_implied = 0; xkeep = -1; /* Neither -x nor -X. */ init_list(&gidlist, addelem_gid, sizeof(gid_t), "group"); init_list(&pgrplist, addelem_pid, sizeof(pid_t), "process group"); init_list(&pidlist, addelem_pid, sizeof(pid_t), "process id"); init_list(&ruidlist, addelem_uid, sizeof(uid_t), "ruser"); init_list(&sesslist, addelem_pid, sizeof(pid_t), "session id"); init_list(&ttylist, addelem_tty, sizeof(dev_t), "tty"); init_list(&uidlist, addelem_uid, sizeof(uid_t), "user"); memf = _PATH_DEVNULL; nlistf = NULL; while ((ch = getopt(argc, argv, PS_ARGS)) != -1) switch (ch) { case 'A': /* * Exactly the same as `-ax'. This has been * added for compatability with SUSv3, but for * now it will not be described in the man page. */ nselectors++; all = xkeep = 1; break; case 'a': nselectors++; all = 1; break; case 'C': rawcpu = 1; break; case 'c': cflag = 1; break; case 'd': descendancy = 1; break; case 'e': /* XXX set ufmt */ needenv = 1; break; #ifdef LAZY_PS case 'f': if (getuid() == 0 || getgid() == 0) forceuread = 1; break; #endif case 'G': add_list(&gidlist, optarg); xkeep_implied = 1; nselectors++; break; case 'g': #if 0 /*- * XXX - This SUSv3 behavior is still under debate * since it conflicts with the (undocumented) * `-g' option. So we skip it for now. */ add_list(&pgrplist, optarg); xkeep_implied = 1; nselectors++; break; #else /* The historical BSD-ish (from SunOS) behavior. */ break; /* no-op */ #endif case 'H': showthreads = KERN_PROC_INC_THREAD; break; case 'h': prtheader = ws.ws_row > 5 ? ws.ws_row : 22; break; case 'j': parsefmt(jfmt, 0); _fmt = 1; jfmt[0] = '\0'; break; case 'L': showkey(); exit(0); case 'l': parsefmt(lfmt, 0); _fmt = 1; lfmt[0] = '\0'; break; case 'M': memf = optarg; break; case 'm': sortby = SORTMEM; break; case 'N': nlistf = optarg; break; case 'O': parsefmt(o1, 1); parsefmt(optarg, 1); parsefmt(o2, 1); o1[0] = o2[0] = '\0'; _fmt = 1; break; case 'o': parsefmt(optarg, 1); _fmt = 1; break; case 'p': add_list(&pidlist, optarg); /* * Note: `-p' does not *set* xkeep, but any values * from pidlist are checked before xkeep is. That * way they are always matched, even if the user * specifies `-X'. */ nselectors++; break; #if 0 case 'R': /*- * XXX - This un-standard option is still under * debate. This is what SUSv3 defines as * the `-U' option, and while it would be * nice to have, it could cause even more * confusion to implement it as `-R'. */ add_list(&ruidlist, optarg); xkeep_implied = 1; nselectors++; break; #endif case 'r': sortby = SORTCPU; break; case 'S': sumrusage = 1; break; #if 0 case 's': /*- * XXX - This non-standard option is still under * debate. This *is* supported on Solaris, * Linux, and IRIX, but conflicts with `-s' * on NetBSD and maybe some older BSD's. */ add_list(&sesslist, optarg); xkeep_implied = 1; nselectors++; break; #endif case 'T': if ((optarg = ttyname(STDIN_FILENO)) == NULL) errx(1, "stdin: not a terminal"); /* FALLTHROUGH */ case 't': add_list(&ttylist, optarg); xkeep_implied = 1; nselectors++; break; case 'U': /* This is what SUSv3 defines as the `-u' option. */ add_list(&uidlist, optarg); xkeep_implied = 1; nselectors++; break; case 'u': parsefmt(ufmt, 0); sortby = SORTCPU; _fmt = 1; ufmt[0] = '\0'; break; case 'v': parsefmt(vfmt, 0); sortby = SORTMEM; _fmt = 1; vfmt[0] = '\0'; break; case 'w': if (wflag) termwidth = UNLIMITED; else if (termwidth < 131) termwidth = 131; wflag++; break; case 'X': /* * Note that `-X' and `-x' are not standard "selector" * options. For most selector-options, we check *all* * processes to see if any are matched by the given * value(s). After we have a set of all the matched * processes, then `-X' and `-x' govern whether we * modify that *matched* set for processes which do * not have a controlling terminal. `-X' causes * those processes to be deleted from the matched * set, while `-x' causes them to be kept. */ xkeep = 0; break; case 'x': xkeep = 1; break; case 'Z': parsefmt(Zfmt, 0); Zfmt[0] = '\0'; break; case '?': default: usage(); } argc -= optind; argv += optind; /* * If the user specified ps -e then they want a copy of the process * environment kvm_getenvv(3) attempts to open /proc//mem. * Check to make sure that procfs is mounted on /proc, otherwise * print a warning informing the user that output will be incomplete. */ if (needenv == 1 && check_procfs() == 0) warnx("Process environment requires procfs(5)"); /* * If there arguments after processing all the options, attempt * to treat them as a list of process ids. */ while (*argv) { if (!isdigitch(**argv)) break; add_list(&pidlist, *argv); argv++; } if (*argv) { fprintf(stderr, "%s: illegal argument: %s\n", getprogname(), *argv); usage(); } if (optfatal) exit(1); /* Error messages already printed. */ if (xkeep < 0) /* Neither -X nor -x was specified. */ xkeep = xkeep_implied; kd = kvm_openfiles(nlistf, memf, NULL, O_RDONLY, errbuf); if (kd == 0) errx(1, "%s", errbuf); if (!_fmt) parsefmt(dfmt, 0); if (nselectors == 0) { uidlist.l.ptr = malloc(sizeof(uid_t)); if (uidlist.l.ptr == NULL) errx(1, "malloc failed"); nselectors = 1; uidlist.count = uidlist.maxcount = 1; *uidlist.l.uids = getuid(); } /* * scan requested variables, noting what structures are needed, * and adjusting header widths as appropriate. */ scanvars(); /* * Get process list. If the user requested just one selector- * option, then kvm_getprocs can be asked to return just those * processes. Otherwise, have it return all processes, and * then this routine will search that full list and select the * processes which match any of the user's selector-options. */ what = showthreads != 0 ? KERN_PROC_ALL : KERN_PROC_PROC; flag = 0; if (nselectors == 1) { if (gidlist.count == 1) { what = KERN_PROC_RGID | showthreads; flag = *gidlist.l.gids; nselectors = 0; } else if (pgrplist.count == 1) { what = KERN_PROC_PGRP | showthreads; flag = *pgrplist.l.pids; nselectors = 0; } else if (pidlist.count == 1) { what = KERN_PROC_PID | showthreads; flag = *pidlist.l.pids; nselectors = 0; } else if (ruidlist.count == 1) { what = KERN_PROC_RUID | showthreads; flag = *ruidlist.l.uids; nselectors = 0; } else if (sesslist.count == 1) { what = KERN_PROC_SESSION | showthreads; flag = *sesslist.l.pids; nselectors = 0; } else if (ttylist.count == 1) { what = KERN_PROC_TTY | showthreads; flag = *ttylist.l.ttys; nselectors = 0; } else if (uidlist.count == 1) { what = KERN_PROC_UID | showthreads; flag = *uidlist.l.uids; nselectors = 0; } else if (all) { /* No need for this routine to select processes. */ nselectors = 0; } } /* * select procs */ nentries = -1; kp = kvm_getprocs(kd, what, flag, &nentries); if ((kp == NULL && nentries > 0) || (kp != NULL && nentries < 0)) errx(1, "%s", kvm_geterr(kd)); nkept = 0; if (nentries > 0) { if ((kinfo = malloc(nentries * sizeof(*kinfo))) == NULL) errx(1, "malloc failed"); for (i = nentries; --i >= 0; ++kp) { /* * If the user specified multiple selection-criteria, * then keep any process matched by the inclusive OR * of all the selection-criteria given. */ if (pidlist.count > 0) { for (elem = 0; elem < pidlist.count; elem++) if (kp->ki_pid == pidlist.l.pids[elem]) goto keepit; } /* * Note that we had to process pidlist before * filtering out processes which do not have * a controlling terminal. */ if (xkeep == 0) { if ((kp->ki_tdev == NODEV || (kp->ki_flag & P_CONTROLT) == 0)) continue; } if (nselectors == 0) goto keepit; if (gidlist.count > 0) { for (elem = 0; elem < gidlist.count; elem++) if (kp->ki_rgid == gidlist.l.gids[elem]) goto keepit; } if (pgrplist.count > 0) { for (elem = 0; elem < pgrplist.count; elem++) if (kp->ki_pgid == pgrplist.l.pids[elem]) goto keepit; } if (ruidlist.count > 0) { for (elem = 0; elem < ruidlist.count; elem++) if (kp->ki_ruid == ruidlist.l.uids[elem]) goto keepit; } if (sesslist.count > 0) { for (elem = 0; elem < sesslist.count; elem++) if (kp->ki_sid == sesslist.l.pids[elem]) goto keepit; } if (ttylist.count > 0) { for (elem = 0; elem < ttylist.count; elem++) if (kp->ki_tdev == ttylist.l.ttys[elem]) goto keepit; } if (uidlist.count > 0) { for (elem = 0; elem < uidlist.count; elem++) if (kp->ki_uid == uidlist.l.uids[elem]) goto keepit; } /* * This process did not match any of the user's * selector-options, so skip the process. */ continue; keepit: next_KINFO = &kinfo[nkept]; next_KINFO->ki_p = kp; next_KINFO->ki_d.level = 0; next_KINFO->ki_d.prefix = NULL; next_KINFO->ki_pcpu = getpcpu(next_KINFO); if (sortby == SORTMEM) next_KINFO->ki_memsize = kp->ki_tsize + kp->ki_dsize + kp->ki_ssize; if (needuser) saveuser(next_KINFO); dynsizevars(next_KINFO); nkept++; } } sizevars(); /* * print header */ printheader(); if (nkept == 0) exit(1); /* * sort proc list */ qsort(kinfo, nkept, sizeof(KINFO), pscomp); /* * We want things in descendant order */ if (descendancy) descendant_sort(kinfo, nkept); /* * For each process, call each variable output function. */ for (i = lineno = 0; i < nkept; i++) { STAILQ_FOREACH(vent, &varlist, next_ve) { (vent->var->oproc)(&kinfo[i], vent); if (STAILQ_NEXT(vent, next_ve) != NULL) (void)putchar(' '); } (void)putchar('\n'); if (prtheader && lineno++ == prtheader - 4) { (void)putchar('\n'); printheader(); lineno = 0; } } free_list(&gidlist); free_list(&pidlist); free_list(&pgrplist); free_list(&ruidlist); free_list(&sesslist); free_list(&ttylist); free_list(&uidlist); for (i = 0; i < nkept; i++) free(kinfo[i].ki_d.prefix); free(kinfo); exit(eval); } static int addelem_gid(struct listinfo *inf, const char *elem) { struct group *grp; const char *nameorID; char *endp; u_long bigtemp; if (*elem == '\0' || strlen(elem) >= MAXLOGNAME) { if (*elem == '\0') warnx("Invalid (zero-length) %s name", inf->lname); else warnx("%s name too long: %s", inf->lname, elem); optfatal = 1; return (0); /* Do not add this value. */ } /* * SUSv3 states that `ps -G grouplist' should match "real-group * ID numbers", and does not mention group-names. I do want to * also support group-names, so this tries for a group-id first, * and only tries for a name if that doesn't work. This is the * opposite order of what is done in addelem_uid(), but in * practice the order would only matter for group-names which * are all-numeric. */ grp = NULL; nameorID = "named"; errno = 0; bigtemp = strtoul(elem, &endp, 10); if (errno == 0 && *endp == '\0' && bigtemp <= GID_MAX) { nameorID = "name or ID matches"; grp = getgrgid((gid_t)bigtemp); } if (grp == NULL) grp = getgrnam(elem); if (grp == NULL) { warnx("No %s %s '%s'", inf->lname, nameorID, elem); optfatal = 1; return (0); } if (inf->count >= inf->maxcount) expand_list(inf); inf->l.gids[(inf->count)++] = grp->gr_gid; return (1); } #define BSD_PID_MAX 99999 /* Copy of PID_MAX from sys/proc.h. */ static int addelem_pid(struct listinfo *inf, const char *elem) { char *endp; long tempid; if (*elem == '\0') { warnx("Invalid (zero-length) process id"); optfatal = 1; return (0); /* Do not add this value. */ } errno = 0; tempid = strtol(elem, &endp, 10); if (*endp != '\0' || tempid < 0 || elem == endp) { warnx("Invalid %s: %s", inf->lname, elem); errno = ERANGE; } else if (errno != 0 || tempid > BSD_PID_MAX) { warnx("%s too large: %s", inf->lname, elem); errno = ERANGE; } if (errno == ERANGE) { optfatal = 1; return (0); } if (inf->count >= inf->maxcount) expand_list(inf); inf->l.pids[(inf->count)++] = tempid; return (1); } #undef BSD_PID_MAX /*- * The user can specify a device via one of three formats: * 1) fully qualified, e.g.: /dev/ttyp0 /dev/console /dev/pts/0 * 2) missing "/dev", e.g.: ttyp0 console pts/0 * 3) two-letters, e.g.: p0 co 0 * (matching letters that would be seen in the "TT" column) */ static int addelem_tty(struct listinfo *inf, const char *elem) { const char *ttypath; struct stat sb; char pathbuf[PATH_MAX], pathbuf2[PATH_MAX], pathbuf3[PATH_MAX]; ttypath = NULL; pathbuf2[0] = '\0'; pathbuf3[0] = '\0'; switch (*elem) { case '/': ttypath = elem; break; case 'c': if (strcmp(elem, "co") == 0) { ttypath = _PATH_CONSOLE; break; } /* FALLTHROUGH */ default: strlcpy(pathbuf, _PATH_DEV, sizeof(pathbuf)); strlcat(pathbuf, elem, sizeof(pathbuf)); ttypath = pathbuf; if (strncmp(pathbuf, _PATH_TTY, strlen(_PATH_TTY)) == 0) break; if (strncmp(pathbuf, _PATH_PTS, strlen(_PATH_PTS)) == 0) break; if (strcmp(pathbuf, _PATH_CONSOLE) == 0) break; /* Check to see if /dev/tty${elem} exists */ strlcpy(pathbuf2, _PATH_TTY, sizeof(pathbuf2)); strlcat(pathbuf2, elem, sizeof(pathbuf2)); if (stat(pathbuf2, &sb) == 0 && S_ISCHR(sb.st_mode)) { /* No need to repeat stat() && S_ISCHR() checks */ ttypath = NULL; break; } /* Check to see if /dev/pts/${elem} exists */ strlcpy(pathbuf3, _PATH_PTS, sizeof(pathbuf3)); strlcat(pathbuf3, elem, sizeof(pathbuf3)); if (stat(pathbuf3, &sb) == 0 && S_ISCHR(sb.st_mode)) { /* No need to repeat stat() && S_ISCHR() checks */ ttypath = NULL; break; } break; } if (ttypath) { if (stat(ttypath, &sb) == -1) { if (pathbuf3[0] != '\0') warn("%s, %s, and %s", pathbuf3, pathbuf2, ttypath); else warn("%s", ttypath); optfatal = 1; return (0); } if (!S_ISCHR(sb.st_mode)) { if (pathbuf3[0] != '\0') warnx("%s, %s, and %s: Not a terminal", pathbuf3, pathbuf2, ttypath); else warnx("%s: Not a terminal", ttypath); optfatal = 1; return (0); } } if (inf->count >= inf->maxcount) expand_list(inf); inf->l.ttys[(inf->count)++] = sb.st_rdev; return (1); } static int addelem_uid(struct listinfo *inf, const char *elem) { struct passwd *pwd; char *endp; u_long bigtemp; if (*elem == '\0' || strlen(elem) >= MAXLOGNAME) { if (*elem == '\0') warnx("Invalid (zero-length) %s name", inf->lname); else warnx("%s name too long: %s", inf->lname, elem); optfatal = 1; return (0); /* Do not add this value. */ } pwd = getpwnam(elem); if (pwd == NULL) { errno = 0; bigtemp = strtoul(elem, &endp, 10); if (errno != 0 || *endp != '\0' || bigtemp > UID_MAX) warnx("No %s named '%s'", inf->lname, elem); else { /* The string is all digits, so it might be a userID. */ pwd = getpwuid((uid_t)bigtemp); if (pwd == NULL) warnx("No %s name or ID matches '%s'", inf->lname, elem); } } if (pwd == NULL) { /* * These used to be treated as minor warnings (and the * option was simply ignored), but now they are fatal * errors (and the command will be aborted). */ optfatal = 1; return (0); } if (inf->count >= inf->maxcount) expand_list(inf); inf->l.uids[(inf->count)++] = pwd->pw_uid; return (1); } static void add_list(struct listinfo *inf, const char *argp) { const char *savep; char *cp, *endp; int toolong; char elemcopy[PATH_MAX]; if (*argp == 0) inf->addelem(inf, elemcopy); while (*argp != '\0') { while (*argp != '\0' && strchr(W_SEP, *argp) != NULL) argp++; savep = argp; toolong = 0; cp = elemcopy; if (strchr(T_SEP, *argp) == NULL) { endp = elemcopy + sizeof(elemcopy) - 1; while (*argp != '\0' && cp <= endp && strchr(W_SEP T_SEP, *argp) == NULL) *cp++ = *argp++; if (cp > endp) toolong = 1; } if (!toolong) { *cp = '\0'; /* * Add this single element to the given list. */ inf->addelem(inf, elemcopy); } else { /* * The string is too long to copy. Find the end * of the string to print out the warning message. */ while (*argp != '\0' && strchr(W_SEP T_SEP, *argp) == NULL) argp++; warnx("Value too long: %.*s", (int)(argp - savep), savep); optfatal = 1; } /* * Skip over any number of trailing whitespace characters, * but only one (at most) trailing element-terminating * character. */ while (*argp != '\0' && strchr(W_SEP, *argp) != NULL) argp++; if (*argp != '\0' && strchr(T_SEP, *argp) != NULL) { argp++; /* Catch case where string ended with a comma. */ if (*argp == '\0') inf->addelem(inf, argp); } } } static void descendant_sort(KINFO *ki, int items) { int dst, lvl, maxlvl, n, ndst, nsrc, siblings, src; unsigned char *path; KINFO kn; /* * First, sort the entries by descendancy, tracking the descendancy * depth in the ki_d.level field. */ src = 0; maxlvl = 0; while (src < items) { if (ki[src].ki_d.level) { src++; continue; } for (nsrc = 1; src + nsrc < items; nsrc++) if (!ki[src + nsrc].ki_d.level) break; for (dst = 0; dst < items; dst++) { if (ki[dst].ki_p->ki_pid == ki[src].ki_p->ki_pid) continue; if (ki[dst].ki_p->ki_pid == ki[src].ki_p->ki_ppid) break; } if (dst == items) { src += nsrc; continue; } for (ndst = 1; dst + ndst < items; ndst++) if (ki[dst + ndst].ki_d.level <= ki[dst].ki_d.level) break; for (n = src; n < src + nsrc; n++) { ki[n].ki_d.level += ki[dst].ki_d.level + 1; if (maxlvl < ki[n].ki_d.level) maxlvl = ki[n].ki_d.level; } while (nsrc) { if (src < dst) { kn = ki[src]; memmove(ki + src, ki + src + 1, (dst - src + ndst - 1) * sizeof *ki); ki[dst + ndst - 1] = kn; nsrc--; dst--; ndst++; } else if (src != dst + ndst) { kn = ki[src]; memmove(ki + dst + ndst + 1, ki + dst + ndst, (src - dst - ndst) * sizeof *ki); ki[dst + ndst] = kn; ndst++; nsrc--; src++; } else { ndst += nsrc; src += nsrc; nsrc = 0; } } } /* * Now populate ki_d.prefix (instead of ki_d.level) with the command * prefix used to show descendancies. */ path = malloc((maxlvl + 7) / 8); memset(path, '\0', (maxlvl + 7) / 8); for (src = 0; src < items; src++) { if ((lvl = ki[src].ki_d.level) == 0) { ki[src].ki_d.prefix = NULL; continue; } if ((ki[src].ki_d.prefix = malloc(lvl * 2 + 1)) == NULL) errx(1, "malloc failed"); for (n = 0; n < lvl - 2; n++) { ki[src].ki_d.prefix[n * 2] = path[n / 8] & 1 << (n % 8) ? '|' : ' '; ki[src].ki_d.prefix[n * 2 + 1] = ' '; } if (n == lvl - 2) { /* Have I any more siblings? */ for (siblings = 0, dst = src + 1; dst < items; dst++) { if (ki[dst].ki_d.level > lvl) continue; if (ki[dst].ki_d.level == lvl) siblings = 1; break; } if (siblings) path[n / 8] |= 1 << (n % 8); else path[n / 8] &= ~(1 << (n % 8)); ki[src].ki_d.prefix[n * 2] = siblings ? '|' : '`'; ki[src].ki_d.prefix[n * 2 + 1] = '-'; n++; } strcpy(ki[src].ki_d.prefix + n * 2, "- "); } free(path); } static void * expand_list(struct listinfo *inf) { void *newlist; int newmax; newmax = (inf->maxcount + 1) << 1; newlist = realloc(inf->l.ptr, newmax * inf->elemsize); if (newlist == NULL) { free(inf->l.ptr); errx(1, "realloc to %d %ss failed", newmax, inf->lname); } inf->maxcount = newmax; inf->l.ptr = newlist; return (newlist); } static void free_list(struct listinfo *inf) { inf->count = inf->elemsize = inf->maxcount = 0; if (inf->l.ptr != NULL) free(inf->l.ptr); inf->addelem = NULL; inf->lname = NULL; inf->l.ptr = NULL; } static void init_list(struct listinfo *inf, addelem_rtn artn, int elemsize, const char *lname) { inf->count = inf->maxcount = 0; inf->elemsize = elemsize; inf->addelem = artn; inf->lname = lname; inf->l.ptr = NULL; } VARENT * find_varentry(VAR *v) { struct varent *vent; STAILQ_FOREACH(vent, &varlist, next_ve) { if (strcmp(vent->var->name, v->name) == 0) return vent; } return NULL; } static void scanvars(void) { struct varent *vent; VAR *v; STAILQ_FOREACH(vent, &varlist, next_ve) { v = vent->var; if (v->sproc != NULL) { v->dwidth = v->width; v->width = 0; } if (v->flag & USER) needuser = 1; if (v->flag & COMM) needcomm = 1; } } static void dynsizevars(KINFO *ki) { struct varent *vent; VAR *v; int i; STAILQ_FOREACH(vent, &varlist, next_ve) { v = vent->var; if (v->sproc == NULL) continue; i = (v->sproc)(ki); if (v->width < i) v->width = i; if (v->width > v->dwidth) v->width = v->dwidth; } } static void sizevars(void) { struct varent *vent; VAR *v; int i; STAILQ_FOREACH(vent, &varlist, next_ve) { v = vent->var; i = strlen(vent->header); if (v->width < i) v->width = i; totwidth += v->width + 1; /* +1 for space */ } totwidth--; } static const char * fmt(char **(*fn)(kvm_t *, const struct kinfo_proc *, int), KINFO *ki, char *comm, int maxlen) { const char *s; s = fmt_argv((*fn)(kd, ki->ki_p, termwidth), comm, maxlen); return (s); } #define UREADOK(ki) (forceuread || (ki->ki_p->ki_flag & P_INMEM)) static void saveuser(KINFO *ki) { if (ki->ki_p->ki_flag & P_INMEM) { /* * The u-area might be swapped out, and we can't get * at it because we have a crashdump and no swap. * If it's here fill in these fields, otherwise, just * leave them 0. */ ki->ki_valid = 1; } else ki->ki_valid = 0; /* * save arguments if needed */ if (needcomm) { if (ki->ki_p->ki_stat == SZOMB) ki->ki_args = strdup(""); else if (UREADOK(ki) || (ki->ki_p->ki_args != NULL)) ki->ki_args = strdup(fmt(kvm_getargv, ki, ki->ki_p->ki_comm, MAXCOMLEN)); else asprintf(&ki->ki_args, "(%s)", ki->ki_p->ki_comm); if (ki->ki_args == NULL) errx(1, "malloc failed"); } else { ki->ki_args = NULL; } if (needenv) { if (UREADOK(ki)) ki->ki_env = strdup(fmt(kvm_getenvv, ki, (char *)NULL, 0)); else ki->ki_env = strdup("()"); if (ki->ki_env == NULL) errx(1, "malloc failed"); } else { ki->ki_env = NULL; } } /* A macro used to improve the readability of pscomp(). */ #define DIFF_RETURN(a, b, field) do { \ if ((a)->field != (b)->field) \ return (((a)->field < (b)->field) ? -1 : 1); \ } while (0) static int pscomp(const void *a, const void *b) { const KINFO *ka, *kb; ka = a; kb = b; /* SORTCPU and SORTMEM are sorted in descending order. */ if (sortby == SORTCPU) DIFF_RETURN(kb, ka, ki_pcpu); if (sortby == SORTMEM) DIFF_RETURN(kb, ka, ki_memsize); /* * TTY's are sorted in ascending order, except that all NODEV * processes come before all processes with a device. */ if (ka->ki_p->ki_tdev != kb->ki_p->ki_tdev) { if (ka->ki_p->ki_tdev == NODEV) return (-1); if (kb->ki_p->ki_tdev == NODEV) return (1); DIFF_RETURN(ka, kb, ki_p->ki_tdev); } /* PID's and TID's (threads) are sorted in ascending order. */ DIFF_RETURN(ka, kb, ki_p->ki_pid); DIFF_RETURN(ka, kb, ki_p->ki_tid); return (0); } #undef DIFF_RETURN /* * ICK (all for getopt), would rather hide the ugliness * here than taint the main code. * * ps foo -> ps -foo * ps 34 -> ps -p34 * * The old convention that 't' with no trailing tty arg means the users * tty, is only supported if argv[1] doesn't begin with a '-'. This same * feature is available with the option 'T', which takes no argument. */ static char * kludge_oldps_options(const char *optlist, char *origval, const char *nextarg) { size_t len; char *argp, *cp, *newopts, *ns, *optp, *pidp; /* * See if the original value includes any option which takes an * argument (and will thus use up the remainder of the string). */ argp = NULL; if (optlist != NULL) { for (cp = origval; *cp != '\0'; cp++) { optp = strchr(optlist, *cp); if ((optp != NULL) && *(optp + 1) == ':') { argp = cp; break; } } } if (argp != NULL && *origval == '-') return (origval); /* * if last letter is a 't' flag with no argument (in the context * of the oldps options -- option string NOT starting with a '-' -- * then convert to 'T' (meaning *this* terminal, i.e. ttyname(0)). * * However, if a flag accepting a string argument is found earlier * in the option string (including a possible `t' flag), then the * remainder of the string must be the argument to that flag; so * do not modify that argument. Note that a trailing `t' would * cause argp to be set, if argp was not already set by some * earlier option. */ len = strlen(origval); cp = origval + len - 1; pidp = NULL; if (*cp == 't' && *origval != '-' && cp == argp) { if (nextarg == NULL || *nextarg == '-' || isdigitch(*nextarg)) *cp = 'T'; } else if (argp == NULL) { /* * The original value did not include any option which takes * an argument (and that would include `p' and `t'), so check * the value for trailing number, or comma-separated list of * numbers, which we will treat as a pid request. */ if (isdigitch(*cp)) { while (cp >= origval && (*cp == ',' || isdigitch(*cp))) --cp; pidp = cp + 1; } } /* * If nothing needs to be added to the string, then return * the "original" (although possibly modified) value. */ if (*origval == '-' && pidp == NULL) return (origval); /* * Create a copy of the string to add '-' and/or 'p' to the * original value. */ if ((newopts = ns = malloc(len + 3)) == NULL) errx(1, "malloc failed"); if (*origval != '-') *ns++ = '-'; /* add option flag */ if (pidp == NULL) strcpy(ns, origval); else { /* * Copy everything before the pid string, add the `p', * and then copy the pid string. */ len = pidp - origval; memcpy(ns, origval, len); ns += len; *ns++ = 'p'; strcpy(ns, pidp); } return (newopts); } static int check_procfs(void) { struct statfs mnt; if (statfs("/proc", &mnt) < 0) return (0); if (strcmp(mnt.f_fstypename, "procfs") != 0) return (0); return (1); } static void usage(void) { #define SINGLE_OPTS "[-aCcde" OPT_LAZY_f "HhjlmrSTuvwXxZ]" (void)fprintf(stderr, "%s\n%s\n%s\n%s\n", "usage: ps " SINGLE_OPTS " [-O fmt | -o fmt] [-G gid[,gid...]]", " [-M core] [-N system]", " [-p pid[,pid...]] [-t tty[,tty...]] [-U user[,user...]]", " ps [-L]"); exit(1); }