#ifndef lint static char rcsid[] = "$Header: sunos-40.c,v 1.8 1996/07/20 00:26:18 forys Exp $"; #endif /* ** This program may be freely redistributed for noncommercial purposes. ** This entire comment MUST remain intact. ** ** SunOS 4.0 support by Greg Earle (earle@isolar.Tujunga.CA.US) ** ** Copyright 1994, 1996 by Jeff Forys (jeff@forys.cranbury.nj.us) */ #define NO_MEXTERN #include "conf.h" #undef NO_MEXTERN #include #include #include /* * Define SigNames, NSig, and TtyDevDir here; they are used by other * routines and must be global. Everyone seems to have their own * idea as to what NSIG should be. Here, `NSig' is the number of * signals available, not counting zero. */ char *SigMap[] = { "0", "HUP", "INT", "QUIT", "ILL", "TRAP", "IOT", /* 1 - 6 */ "EMT", "FPE", "KILL", "BUS", "SEGV", "SYS", /* 7 - 12 */ "PIPE", "ALRM", "TERM", "URG", "STOP", "TSTP", /* 13 - 18 */ "CONT", "CHLD", "TTIN", "TTOU", "IO", "XCPU", /* 19 - 24 */ "XFSZ", "VTALRM", "PROF", "WINCH", "LOST", "USR1", /* 25 - 30 */ "USR2", "32", /* 31 - 32 */ }; int NSig = NSIG; #define SETCMD(dst,src,maxlen) { \ extern char *rindex(); \ if (maxlen > 0) src[maxlen] = '\0'; \ dst = (dst = rindex(src, '/')) ? ++dst: src; \ } static char *TtyDevDir = "/dev"; int Skill; /* set 1 if running `skill', 0 if `snice' */ int PrioMin, PrioMax; /* min and max process priorities */ int SigPri; /* signal to send or priority to set */ pid_T MyPid; /* pid of this process */ uid_T MyUid; /* uid of this process */ char *ProgName; /* program name */ /* * This is the machine-dependent initialization routine. * * - The following global variables must be initialized: * MyPid, MyUid, ProgName, Skill, PrioMin, PrioMax, SigPri * - The working directory will be changed to that which contains the * tty devices (`TtyDevDir'); this makes argument parsing go faster. * - If possible, this routine should raise the priority of this process. */ void MdepInit(pname) char *pname; { extern char *rindex(), *SysErr(); MyPid = (pid_T) getpid(); MyUid = (uid_T) getuid(); SETCMD(ProgName, pname, 0) /* * If we are running as root, raise our priority to better * catch runaway processes. */ if (MyUid == ROOTUID) (void) setpriority(PRIO_PROCESS, MyPid, PRIO_MIN); /* * Determine what we are doing to processes we find. We will * either send them a signal (skill), or renice them (snice). */ Skill = (strcmp(ProgName, "snice") != 0); /* * chdir to `TtyDevDir' to speed up tty argument parsing. */ if (chdir(TtyDevDir) < 0) { fprintf(stderr, "%s: chdir(%s): %s\n", ProgName, TtyDevDir, SysErr()); exit(EX_SERR); } /* * Set up minimum and maximum process priorities. * Initialize SigPri to either default signal (`skill') or * default priority (`snice'). */ PrioMin = PRIO_MIN; PrioMax = PRIO_MAX; SigPri = Skill? SIGTERM: 4; } /* * Carry out an action on a particular process. If this is `skill', * then send the process a signal, otherwise this is `snice' so change * it's priority. * * If 0 is returned, the operation was successful, otherwise -1 is * returned and `errno' set. */ int MdepAction(pid) pid_T pid; { if (Skill) return(kill((int)pid, SigPri)); else return(setpriority(PRIO_PROCESS, (int)pid, SigPri)); } /* * Now, set up everything we need to write a GetProc() routine. */ #include #include #include static kvm_t *kd = NULL; static char *pidmap[] = { "swapper", "init", "pagedaemon" }; static int pidmapsiz = sizeof(pidmap) / sizeof(pidmap[0]); extern off_t lseek(); /* * GetProc() * * Fill in and return a `struct ProcInfo' with information about the * next process. If no processes are left, return NULL. */ struct ProcInfo * GetProc() { static char *WarnMsg = "Warning: can't read "; static struct ProcInfo procinfo; register struct user *auser; register struct proc *aproc; /* * If this is our first time here, prepare to read procs from kernel. */ if (kd == NULL) { if ((kd = kvm_open((char *)NULL, (char *)NULL, (char *)NULL, O_RDONLY, ProgName)) == NULL) exit(EX_SERR); if (kvm_setproc(kd) == -1) { fprintf(stderr,"%s: kvm_setproc: failed\n", ProgName); exit(EX_SERR); } } do { if ((aproc = kvm_nextproc(kd)) == NULL) return((struct ProcInfo *)NULL); if (aproc->p_stat != 0) { /* * Before we go through the trouble of reading * in the user struct, let's make sure this isn't * a "zombie" or "exiting" process. If it is, * we have all the information we need; fill in * procinfo and return. */ procinfo.pi_flags = 0; procinfo.pi_pid = (pid_T) aproc->p_pid; procinfo.pi_uid = (uid_T) aproc->p_uid; if (aproc->p_stat == SZOMB) { /* zombie */ static char *zombie = ""; procinfo.pi_flags |= PI_ZOMBIE; procinfo.pi_cmd = zombie; } else if (aproc->p_flag & SWEXIT) { /* exiting */ static char *exiting = ""; procinfo.pi_flags |= PI_SWEXIT; procinfo.pi_cmd = exiting; } if (procinfo.pi_flags) return(&procinfo); else if ((auser = kvm_getu(kd, aproc)) == NULL && Wflag) printf("%su for pid %d with kvm_getu\n", WarnMsg, aproc->p_pid); } } while (aproc->p_stat == 0 || auser == NULL); /* * We now have a process (`aproc') and a user (`auser'). * Fill in the rest of `procinfo'. */ if (auser->u_ttyp != 0) { /* has a controlling tty */ procinfo.pi_flags |= PI_CTLTTY; procinfo.pi_tty = (tty_T) auser->u_ttyd; } if (aproc->p_pid < pidmapsiz) { /* special */ procinfo.pi_cmd = pidmap[aproc->p_pid]; procinfo.pi_flags |= PI_ASKUSR; } else /* set path-stripped command name */ SETCMD(procinfo.pi_cmd, auser->u_comm, MAXCOMLEN) return(&procinfo); }