/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2013 Gary Mills * * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * University Copyright- Copyright (c) 1982, 1986, 1988 * The Regents of the University of California * All Rights Reserved * * University Acknowledgment- Portions of this document are derived from * software developed by the University of California, Berkeley, and its * contributors. */ /* * This is the new whodo command which takes advantage of * the /proc interface to gain access to the information * of all the processes currently on the system. * * Maintenance note: * * Much of this code is replicated in w.c. If you're * fixing bugs here, then you should probably fix 'em there too. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* /proc header file */ #include #include #include #include #include /* * Use the full lengths from utmpx for user and line. */ #define NMAX (sizeof (((struct utmpx *)0)->ut_user)) #define LMAX (sizeof (((struct utmpx *)0)->ut_line)) /* Print minimum field widths. */ #define LOGIN_WIDTH 8 #define LINE_WIDTH 12 #define DIV60(t) ((t+30)/60) /* x/60 rounded */ #ifdef ERR #undef ERR #endif #define ERR (-1) #define DEVNAMELEN 14 #define HSIZE 256 /* size of process hash table */ #define PROCDIR "/proc" #define INITPROCESS (pid_t)1 /* init process pid */ #define NONE 'n' /* no state */ #define RUNNING 'r' /* runnable process */ #define ZOMBIE 'z' /* zombie process */ #define VISITED 'v' /* marked node as visited */ static int ndevs; /* number of configured devices */ static int maxdev; /* slots for configured devices */ #define DNINCR 100 static struct devl { /* device list */ char dname[DEVNAMELEN]; /* device name */ dev_t ddev; /* device number */ } *devl; struct uproc { pid_t p_upid; /* user process id */ char p_state; /* numeric value of process state */ dev_t p_ttyd; /* controlling tty of process */ time_t p_time; /* ticks of user & system time */ time_t p_ctime; /* ticks of child user & system time */ int p_igintr; /* 1=ignores SIGQUIT and SIGINT */ char p_comm[PRARGSZ+1]; /* command */ char p_args[PRARGSZ+1]; /* command line arguments */ struct uproc *p_child, /* first child pointer */ *p_sibling, /* sibling pointer */ *p_pgrplink, /* pgrp link */ *p_link; /* hash table chain pointer */ }; /* * define hash table for struct uproc * Hash function uses process id * and the size of the hash table(HSIZE) * to determine process index into the table. */ static struct uproc pr_htbl[HSIZE]; static struct uproc *findhash(pid_t); static time_t findidle(char *); static void clnarglist(char *); static void showproc(struct uproc *); static void showtotals(struct uproc *); static void calctotals(struct uproc *); static char *getty(dev_t); static void prttime(time_t, char *); static void prtat(time_t *); static void checkampm(char *); static char *prog; static int header = 1; /* true if -h flag: don't print heading */ static int lflag = 0; /* true if -l flag: w command format */ static char *sel_user; /* login of particular user selected */ static time_t now; /* current time of day */ static time_t uptime; /* time of last reboot & elapsed time since */ static int nusers; /* number of users logged in now */ static time_t idle; /* number of minutes user is idle */ static time_t jobtime; /* total cpu time visible */ static char doing[520]; /* process attached to terminal */ static time_t proctime; /* cpu time of process in doing */ static int empty; static pid_t curpid; #if SIGQUIT > SIGINT #define ACTSIZE SIGQUIT #else #define ACTSIZE SIGINT #endif int main(int argc, char *argv[]) { struct utmpx *ut; struct utmpx *utmpbegin; struct utmpx *utmpend; struct utmpx *utp; struct tm *tm; struct uproc *up, *parent, *pgrp; struct psinfo info; struct sigaction actinfo[ACTSIZE]; struct pstatus statinfo; size_t size; struct stat sbuf; struct utsname uts; DIR *dirp; struct dirent *dp; char pname[64]; char *fname; int procfd; int i; int days, hrs, mins; int entries; /* * This program needs the proc_owner privilege */ (void) __init_suid_priv(PU_CLEARLIMITSET, PRIV_PROC_OWNER, (char *)NULL); (void) setlocale(LC_ALL, ""); #if !defined(TEXT_DOMAIN) #define TEXT_DOMAIN "SYS_TEST" #endif (void) textdomain(TEXT_DOMAIN); prog = argv[0]; while (argc > 1) { if (argv[1][0] == '-') { for (i = 1; argv[1][i]; i++) { switch (argv[1][i]) { case 'h': header = 0; break; case 'l': lflag++; break; default: (void) printf(gettext( "usage: %s [ -hl ] [ user ]\n"), prog); exit(1); } } } else { if (!isalnum(argv[1][0]) || argc > 2) { (void) printf(gettext( "usage: %s [ -hl ] [ user ]\n"), prog); exit(1); } else sel_user = argv[1]; } argc--; argv++; } /* * read the UTMPX_FILE (contains information about * each logged in user) */ if (stat(UTMPX_FILE, &sbuf) == ERR) { (void) fprintf(stderr, gettext("%s: stat error of %s: %s\n"), prog, UTMPX_FILE, strerror(errno)); exit(1); } entries = sbuf.st_size / sizeof (struct futmpx); size = sizeof (struct utmpx) * entries; if ((ut = malloc(size)) == NULL) { (void) fprintf(stderr, gettext("%s: malloc error of %s: %s\n"), prog, UTMPX_FILE, strerror(errno)); exit(1); } (void) utmpxname(UTMPX_FILE); utmpbegin = ut; /* LINTED pointer cast may result in improper alignment */ utmpend = (struct utmpx *)((char *)utmpbegin + size); setutxent(); while ((ut < utmpend) && ((utp = getutxent()) != NULL)) (void) memcpy(ut++, utp, sizeof (*ut)); endutxent(); (void) time(&now); /* get current time */ if (header) { /* print a header */ if (lflag) { /* w command format header */ prtat(&now); for (ut = utmpbegin; ut < utmpend; ut++) { if (ut->ut_type == USER_PROCESS) { nusers++; } else if (ut->ut_type == BOOT_TIME) { uptime = now - ut->ut_xtime; uptime += 30; days = uptime / (60*60*24); uptime %= (60*60*24); hrs = uptime / (60*60); uptime %= (60*60); mins = uptime / 60; (void) printf(dcgettext(NULL, " up %d day(s), %d hr(s), " "%d min(s)", LC_TIME), days, hrs, mins); } } ut = utmpbegin; /* rewind utmp data */ (void) printf(dcgettext(NULL, " %d user(s)\n", LC_TIME), nusers); (void) printf(dcgettext(NULL, "User tty " "login@ idle JCPU PCPU what\n", LC_TIME)); } else { /* standard whodo header */ char date_buf[100]; /* * print current time and date */ (void) strftime(date_buf, sizeof (date_buf), dcgettext(NULL, "%C", LC_TIME), localtime(&now)); (void) printf("%s\n", date_buf); /* * print system name */ (void) uname(&uts); (void) printf("%s\n", uts.nodename); } } /* * loop through /proc, reading info about each process * and build the parent/child tree */ if (!(dirp = opendir(PROCDIR))) { (void) fprintf(stderr, gettext("%s: could not open %s: %s\n"), prog, PROCDIR, strerror(errno)); exit(1); } while ((dp = readdir(dirp)) != NULL) { if (dp->d_name[0] == '.') continue; retry: (void) snprintf(pname, sizeof (pname), "%s/%s/", PROCDIR, dp->d_name); fname = pname + strlen(pname); (void) strcpy(fname, "psinfo"); if ((procfd = open(pname, O_RDONLY)) < 0) continue; if (read(procfd, &info, sizeof (info)) != sizeof (info)) { int err = errno; (void) close(procfd); if (err == EAGAIN) goto retry; if (err != ENOENT) (void) fprintf(stderr, gettext( "%s: read() failed on %s: %s\n"), prog, pname, strerror(err)); continue; } (void) close(procfd); up = findhash(info.pr_pid); up->p_ttyd = info.pr_ttydev; up->p_state = (info.pr_nlwp == 0? ZOMBIE : RUNNING); up->p_time = 0; up->p_ctime = 0; up->p_igintr = 0; (void) strncpy(up->p_comm, info.pr_fname, sizeof (info.pr_fname)); up->p_args[0] = 0; if (up->p_state != NONE && up->p_state != ZOMBIE) { (void) strcpy(fname, "status"); /* now we need the proc_owner privilege */ (void) __priv_bracket(PRIV_ON); procfd = open(pname, O_RDONLY); /* drop proc_owner privilege after open */ (void) __priv_bracket(PRIV_OFF); if (procfd < 0) continue; if (read(procfd, &statinfo, sizeof (statinfo)) != sizeof (statinfo)) { int err = errno; (void) close(procfd); if (err == EAGAIN) goto retry; if (err != ENOENT) (void) fprintf(stderr, gettext( "%s: read() failed on %s: %s \n"), prog, pname, strerror(err)); continue; } (void) close(procfd); up->p_time = statinfo.pr_utime.tv_sec + statinfo.pr_stime.tv_sec; up->p_ctime = statinfo.pr_cutime.tv_sec + statinfo.pr_cstime.tv_sec; (void) strcpy(fname, "sigact"); /* now we need the proc_owner privilege */ (void) __priv_bracket(PRIV_ON); procfd = open(pname, O_RDONLY); /* drop proc_owner privilege after open */ (void) __priv_bracket(PRIV_OFF); if (procfd < 0) continue; if (read(procfd, actinfo, sizeof (actinfo)) != sizeof (actinfo)) { int err = errno; (void) close(procfd); if (err == EAGAIN) goto retry; if (err != ENOENT) (void) fprintf(stderr, gettext( "%s: read() failed on %s: %s \n"), prog, pname, strerror(err)); continue; } (void) close(procfd); up->p_igintr = actinfo[SIGINT-1].sa_handler == SIG_IGN && actinfo[SIGQUIT-1].sa_handler == SIG_IGN; up->p_args[0] = 0; /* * Process args if there's a chance we'll print it. */ if (lflag) { /* w command needs args */ clnarglist(info.pr_psargs); (void) strcpy(up->p_args, info.pr_psargs); if (up->p_args[0] == 0 || up->p_args[0] == '-' && up->p_args[1] <= ' ' || up->p_args[0] == '?') { (void) strcat(up->p_args, " ("); (void) strcat(up->p_args, up->p_comm); (void) strcat(up->p_args, ")"); } } } /* * link pgrp together in case parents go away * Pgrp chain is a single linked list originating * from the pgrp leader to its group member. */ if (info.pr_pgid != info.pr_pid) { /* not pgrp leader */ pgrp = findhash(info.pr_pgid); up->p_pgrplink = pgrp->p_pgrplink; pgrp->p_pgrplink = up; } parent = findhash(info.pr_ppid); /* if this is the new member, link it in */ if (parent->p_upid != INITPROCESS) { if (parent->p_child) { up->p_sibling = parent->p_child; up->p_child = 0; } parent->p_child = up; } } /* revert to non-privileged user */ (void) __priv_relinquish(); (void) closedir(dirp); (void) time(&now); /* get current time */ /* * loop through utmpx file, printing process info * about each logged in user */ for (ut = utmpbegin; ut < utmpend; ut++) { time_t tim; if (ut->ut_type != USER_PROCESS) continue; if (sel_user && strncmp(ut->ut_name, sel_user, NMAX) != 0) continue; /* we're looking for somebody else */ if (lflag) { /* -l flag format (w command) */ /* print login name of the user */ (void) printf("%-*.*s ", LOGIN_WIDTH, (int)NMAX, ut->ut_name); /* print tty user is on */ (void) printf("%-*.*s", LINE_WIDTH, (int)LMAX, ut->ut_line); /* print when the user logged in */ tim = ut->ut_xtime; (void) prtat(&tim); /* print idle time */ idle = findidle(ut->ut_line); if (idle >= 36 * 60) (void) printf(dcgettext(NULL, "%2ddays ", LC_TIME), (idle + 12 * 60) / (24 * 60)); else prttime(idle, " "); showtotals(findhash((pid_t)ut->ut_pid)); } else { /* standard whodo format */ tim = ut->ut_xtime; tm = localtime(&tim); (void) printf("\n%-*.*s %-*.*s %2.1d:%2.2d\n", LINE_WIDTH, (int)LMAX, ut->ut_line, LOGIN_WIDTH, (int)NMAX, ut->ut_name, tm->tm_hour, tm->tm_min); showproc(findhash((pid_t)ut->ut_pid)); } } return (0); } /* * Used for standard whodo format. * This is the recursive routine descending the process * tree starting from the given process pointer(up). * It used depth-first search strategy and also marked * each node as printed as it traversed down the tree. */ static void showproc(struct uproc *up) { struct uproc *zp; if (up->p_state == VISITED) /* we already been here */ return; /* print the data for this process */ if (up->p_state == ZOMBIE) (void) printf(" %-*.*s %5d %4.1ld:%2.2ld %s\n", LINE_WIDTH, (int)LMAX, " ?", (int)up->p_upid, 0L, 0L, ""); else if (up->p_state != NONE) { (void) printf(" %-*.*s %5d %4.1ld:%2.2ld %s\n", LINE_WIDTH, (int)LMAX, getty(up->p_ttyd), (int)up->p_upid, up->p_time / 60L, up->p_time % 60L, up->p_comm); } up->p_state = VISITED; /* descend for its children */ if (up->p_child) { showproc(up->p_child); for (zp = up->p_child->p_sibling; zp; zp = zp->p_sibling) { showproc(zp); } } /* print the pgrp relation */ if (up->p_pgrplink) showproc(up->p_pgrplink); } /* * Used for -l flag (w command) format. * Prints the CPU time for all processes & children, * and the cpu time for interesting process, * and what the user is doing. */ static void showtotals(struct uproc *up) { jobtime = 0; proctime = 0; empty = 1; curpid = -1; (void) strcpy(doing, "-"); /* default act: normally never prints */ calctotals(up); /* print CPU time for all processes & children */ /* and need to convert clock ticks to seconds first */ prttime((time_t)jobtime, " "); /* print cpu time for interesting process */ /* and need to convert clock ticks to seconds first */ prttime((time_t)proctime, " "); /* what user is doing, current process */ (void) printf(" %-.32s\n", doing); } /* * Used for -l flag (w command) format. * This recursive routine descends the process * tree starting from the given process pointer(up). * It used depth-first search strategy and also marked * each node as visited as it traversed down the tree. * It calculates the process time for all processes & * children. It also finds the "interesting" process * and determines its cpu time and command. */ static void calctotals(struct uproc *up) { struct uproc *zp; if (up->p_state == VISITED) return; up->p_state = VISITED; if (up->p_state == NONE || up->p_state == ZOMBIE) return; jobtime += up->p_time + up->p_ctime; proctime += up->p_time; if (empty && !up->p_igintr) { empty = 0; curpid = -1; } if (up->p_upid > curpid && (!up->p_igintr || empty)) { curpid = up->p_upid; (void) strcpy(doing, up->p_args); } /* descend for its children */ if (up->p_child) { calctotals(up->p_child); for (zp = up->p_child->p_sibling; zp; zp = zp->p_sibling) calctotals(zp); } } static char * devadd(char *name, dev_t ddev) { struct devl *dp; int leng, start, i; if (ndevs == maxdev) { maxdev += DNINCR; dp = realloc(devl, maxdev * sizeof (struct devl)); if (!dp) { (void) fprintf(stderr, gettext("%s: out of memory!: %s\n"), prog, strerror(errno)); exit(1); } devl = dp; } dp = &devl[ndevs++]; dp->ddev = ddev; if (name == NULL) { (void) strcpy(dp->dname, " ? "); return (dp->dname); } leng = strlen(name); if (leng < DEVNAMELEN + 4) { /* strip off "/dev/" */ (void) strcpy(dp->dname, &name[5]); } else { /* strip enough off the front to fit */ start = leng - DEVNAMELEN - 1; for (i = start; i < leng && name[i] != '/'; i++) ; if (i == leng) (void) strncpy(dp->dname, &name[start], DEVNAMELEN); else (void) strncpy(dp->dname, &name[i+1], DEVNAMELEN); } return (dp->dname); } static char * devlookup(dev_t ddev) { struct devl *dp; int i; for (dp = devl, i = 0; i < ndevs; dp++, i++) { if (dp->ddev == ddev) return (dp->dname); } return (NULL); } /* * This routine gives back a corresponding device name * from the device number given. */ static char * getty(dev_t dev) { extern char *_ttyname_dev(dev_t, char *, size_t); char devname[TTYNAME_MAX]; char *retval; if (dev == PRNODEV) return (" ? "); if ((retval = devlookup(dev)) != NULL) return (retval); retval = _ttyname_dev(dev, devname, sizeof (devname)); return (devadd(retval, dev)); } /* * Findhash finds the appropriate entry in the process * hash table (pr_htbl) for the given pid in case that * pid exists on the hash chain. It returns back a pointer * to that uproc structure. If this is a new pid, it allocates * a new node, initializes it, links it into the chain (after * head) and returns a structure pointer. */ static struct uproc * findhash(pid_t pid) { struct uproc *up, *tp; tp = up = &pr_htbl[(int)pid % HSIZE]; if (up->p_upid == 0) { /* empty slot */ up->p_upid = pid; up->p_state = NONE; up->p_child = up->p_sibling = up->p_pgrplink = up->p_link = 0; return (up); } if (up->p_upid == pid) { /* found in hash table */ return (up); } for (tp = up->p_link; tp; tp = tp->p_link) { /* follow chain */ if (tp->p_upid == pid) { return (tp); } } tp = malloc(sizeof (*tp)); /* add new node */ if (!tp) { (void) fprintf(stderr, gettext("%s: out of memory!: %s\n"), prog, strerror(errno)); exit(1); } (void) memset((char *)tp, 0, sizeof (*tp)); tp->p_upid = pid; tp->p_state = NONE; tp->p_child = tp->p_sibling = tp->p_pgrplink = (pid_t)0; tp->p_link = up->p_link; /* insert after head */ up->p_link = tp; return (tp); } #define HR (60 * 60) #define DAY (24 * HR) #define MON (30 * DAY) /* * prints a time in hours and minutes or minutes and seconds. * The character string 'tail' is printed at the end, obvious * strings to pass are "", " ", or "am". */ static void prttime(time_t tim, char *tail) { if (tim >= 60) (void) printf(dcgettext(NULL, "%3d:%02d", LC_TIME), (int)tim/60, (int)tim%60); else if (tim > 0) (void) printf(dcgettext(NULL, " %2d", LC_TIME), (int)tim); else (void) printf(" "); (void) printf("%s", tail); } /* * prints a 12 hour time given a pointer to a time of day */ static void prtat(time_t *time) { struct tm *p; p = localtime(time); if (now - *time <= 18 * HR) { char timestr[50]; (void) strftime(timestr, sizeof (timestr), dcgettext(NULL, " %l:%M""%p", LC_TIME), p); checkampm(timestr); (void) printf("%s", timestr); } else if (now - *time <= 7 * DAY) { char weekdaytime[20]; (void) strftime(weekdaytime, sizeof (weekdaytime), dcgettext(NULL, "%a%l%p", LC_TIME), p); checkampm(weekdaytime); (void) printf(" %s", weekdaytime); } else { char monthtime[20]; (void) strftime(monthtime, sizeof (monthtime), dcgettext(NULL, "%e%b%y", LC_TIME), p); (void) printf(" %s", monthtime); } } /* * find & return number of minutes current tty has been idle */ static time_t findidle(char *devname) { struct stat stbuf; time_t lastaction, diff; char ttyname[64]; (void) strcpy(ttyname, "/dev/"); (void) strcat(ttyname, devname); if (stat(ttyname, &stbuf) != -1) { lastaction = stbuf.st_atime; diff = now - lastaction; diff = DIV60(diff); if (diff < 0) diff = 0; } else diff = 0; return (diff); } /* * given a pointer to the argument string clean out unsavory characters. */ static void clnarglist(char *arglist) { char *c; int err = 0; /* get rid of unsavory characters */ for (c = arglist; *c == NULL; c++) { if ((*c < ' ') || (*c > 0176)) { if (err++ > 5) { *arglist = NULL; break; } *c = '?'; } } } /* replaces all occurences of AM/PM with am/pm */ static void checkampm(char *str) { char *ampm; while ((ampm = strstr(str, "AM")) != NULL || (ampm = strstr(str, "PM")) != NULL) { *ampm = tolower(*ampm); *(ampm+1) = tolower(*(ampm+1)); } }