kern/fork-exit/fork-exit.c

*5a9dda22Sbluhm/*	$OpenBSD: fork-exit.c,v 1.4 2021/05/21 20:21:10 bluhm Exp $	*/
0383853bSbluhm
0383853bSbluhm/*
0383853bSbluhm * Copyright (c) 2021 Alexander Bluhm <bluhm@openbsd.org>
0383853bSbluhm *
0383853bSbluhm * Permission to use, copy, modify, and distribute this software for any
0383853bSbluhm * purpose with or without fee is hereby granted, provided that the above
0383853bSbluhm * copyright notice and this permission notice appear in all copies.
0383853bSbluhm *
0383853bSbluhm * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
0383853bSbluhm * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
0383853bSbluhm * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
0383853bSbluhm * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
0383853bSbluhm * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
0383853bSbluhm * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
0383853bSbluhm * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
0383853bSbluhm */
0383853bSbluhm
85f5c1e8Sbluhm#include <sys/mman.h>
0383853bSbluhm#include <sys/select.h>
0383853bSbluhm#include <sys/wait.h>
0383853bSbluhm
0383853bSbluhm#include <err.h>
0383853bSbluhm#include <errno.h>
0383853bSbluhm#include <fcntl.h>
0383853bSbluhm#include <limits.h>
79f7fadeSbluhm#include <pthread.h>
0383853bSbluhm#include <signal.h>
0383853bSbluhm#include <stdio.h>
0383853bSbluhm#include <stdlib.h>
85f5c1e8Sbluhm#include <string.h>
0383853bSbluhm#include <unistd.h>
0383853bSbluhm
0383853bSbluhmint execute = 0;
0383853bSbluhmint daemonize = 0;
85f5c1e8Sbluhmint heap = 0;
0383853bSbluhmint procs = 1;
85f5c1e8Sbluhmint stack = 0;
79f7fadeSbluhmint threads = 0;
0383853bSbluhmint timeout = 30;
0383853bSbluhm
79f7fadeSbluhmpthread_barrier_t thread_barrier;
79f7fadeSbluhmchar timeoutstr[sizeof("-2147483647")];
79f7fadeSbluhm
0383853bSbluhmstatic void __dead
0383853bSbluhmusage(void)
0383853bSbluhm{
79f7fadeSbluhm	fprintf(stderr, "fork-exit [-ed] [-p procs] [-t threads] [-T timeout]\n"
0383853bSbluhm	    "    -e          child execs sleep(1), default call sleep(3)\n"
79f7fadeSbluhm	    "    -d          daemonize, use if already process group leader\n"
85f5c1e8Sbluhm	    "    -h heap     allocate pages of heap memory, default 0\n"
0383853bSbluhm	    "    -p procs    number of processes to fork, default 1\n"
85f5c1e8Sbluhm	    "    -s stack    allocate pages of stack memory, default 0\n"
79f7fadeSbluhm	    "    -t threads  number of threads to create, default 0\n"
79f7fadeSbluhm	    "    -T timeout  parent and children will exit, default 30 sec\n");
0383853bSbluhm	exit(2);
0383853bSbluhm}
0383853bSbluhm
85f5c1e8Sbluhmstatic void
85f5c1e8Sbluhmrecurse_page(int depth)
85f5c1e8Sbluhm{
85f5c1e8Sbluhm	int p[4096 / sizeof(int)];
85f5c1e8Sbluhm
85f5c1e8Sbluhm	if (depth == 0)
85f5c1e8Sbluhm		return;
85f5c1e8Sbluhm	p[1] = 0x9abcdef0;
85f5c1e8Sbluhm	explicit_bzero(p, sizeof(int));
85f5c1e8Sbluhm	recurse_page(depth - 1);
85f5c1e8Sbluhm}
85f5c1e8Sbluhm
85f5c1e8Sbluhmstatic void
85f5c1e8Sbluhmalloc_stack(void)
85f5c1e8Sbluhm{
85f5c1e8Sbluhm	recurse_page(stack);
85f5c1e8Sbluhm}
85f5c1e8Sbluhm
85f5c1e8Sbluhmstatic void
85f5c1e8Sbluhmalloc_heap(void)
85f5c1e8Sbluhm{
85f5c1e8Sbluhm	int *p;
85f5c1e8Sbluhm	int i;
85f5c1e8Sbluhm
85f5c1e8Sbluhm	for(i = 0; i < heap; i++) {
85f5c1e8Sbluhm		p = mmap(0, 4096, PROT_WRITE, MAP_SHARED|MAP_ANON, -1, 0);
85f5c1e8Sbluhm		if (p == MAP_FAILED)
85f5c1e8Sbluhm			err(1, "mmap");
85f5c1e8Sbluhm		p[1] = 0x12345678;
85f5c1e8Sbluhm		explicit_bzero(p, sizeof(int));
85f5c1e8Sbluhm	}
85f5c1e8Sbluhm}
85f5c1e8Sbluhm
79f7fadeSbluhmstatic void * __dead
79f7fadeSbluhmrun_thread(void *arg)
79f7fadeSbluhm{
79f7fadeSbluhm	int error;
79f7fadeSbluhm
85f5c1e8Sbluhm	if (heap)
85f5c1e8Sbluhm		alloc_heap();
85f5c1e8Sbluhm	if (stack)
85f5c1e8Sbluhm		alloc_stack();
85f5c1e8Sbluhm
79f7fadeSbluhm	error = pthread_barrier_wait(&thread_barrier);
79f7fadeSbluhm	if (error && error != PTHREAD_BARRIER_SERIAL_THREAD)
79f7fadeSbluhm		errc(1, error, "pthread_barrier_wait");
79f7fadeSbluhm
79f7fadeSbluhm	if (sleep(timeout) != 0)
79f7fadeSbluhm		err(1, "sleep %d", timeout);
79f7fadeSbluhm
79f7fadeSbluhm	/* should not happen */
79f7fadeSbluhm	_exit(0);
79f7fadeSbluhm}
79f7fadeSbluhm
79f7fadeSbluhmstatic void
79f7fadeSbluhmcreate_threads(void)
79f7fadeSbluhm{
*5a9dda22Sbluhm	pthread_attr_t tattr;
79f7fadeSbluhm	pthread_t *thrs;
79f7fadeSbluhm	int i, error;
79f7fadeSbluhm
*5a9dda22Sbluhm	error = pthread_attr_init(&tattr);
*5a9dda22Sbluhm	if (error)
*5a9dda22Sbluhm		errc(1, error, "pthread_attr_init");
*5a9dda22Sbluhm	if (stack) {
*5a9dda22Sbluhm		/* thread start and function call overhead needs a bit more */
*5a9dda22Sbluhm		error = pthread_attr_setstacksize(&tattr,
*5a9dda22Sbluhm		    (stack + 2) * (4096 + 32));
*5a9dda22Sbluhm		if (error)
*5a9dda22Sbluhm			errc(1, error, "pthread_attr_setstacksize");
*5a9dda22Sbluhm	}
*5a9dda22Sbluhm
79f7fadeSbluhm	error = pthread_barrier_init(&thread_barrier, NULL, threads + 1);
79f7fadeSbluhm	if (error)
*5a9dda22Sbluhm		errc(1, error, "pthread_barrier_init");
79f7fadeSbluhm
79f7fadeSbluhm	thrs = reallocarray(NULL, threads, sizeof(pthread_t));
79f7fadeSbluhm	if (thrs == NULL)
79f7fadeSbluhm		err(1, "thrs");
79f7fadeSbluhm
79f7fadeSbluhm	for (i = 0; i < threads; i++) {
*5a9dda22Sbluhm		error = pthread_create(&thrs[i], &tattr, run_thread, NULL);
79f7fadeSbluhm		if (error)
79f7fadeSbluhm			errc(1, error, "pthread_create");
79f7fadeSbluhm	}
79f7fadeSbluhm
79f7fadeSbluhm	error = pthread_barrier_wait(&thread_barrier);
79f7fadeSbluhm	if (error && error != PTHREAD_BARRIER_SERIAL_THREAD)
79f7fadeSbluhm		errc(1, error, "pthread_barrier_wait");
79f7fadeSbluhm
79f7fadeSbluhm	/* return to close child's pipe and sleep */
79f7fadeSbluhm}
79f7fadeSbluhm
0383853bSbluhmstatic void __dead
0383853bSbluhmexec_sleep(void)
0383853bSbluhm{
79f7fadeSbluhm	execl("/bin/sleep", "sleep", timeoutstr, NULL);
0383853bSbluhm	err(1, "exec sleep");
0383853bSbluhm}
0383853bSbluhm
79f7fadeSbluhmstatic void __dead
79f7fadeSbluhmrun_child(int fd)
0383853bSbluhm{
0383853bSbluhm	/* close pipe to parent and sleep until killed */
0383853bSbluhm	if (execute) {
0383853bSbluhm		if (fcntl(fd, F_SETFD, FD_CLOEXEC))
0383853bSbluhm			err(1, "fcntl FD_CLOEXEC");
0383853bSbluhm		exec_sleep();
0383853bSbluhm	} else {
85f5c1e8Sbluhm		if (threads) {
79f7fadeSbluhm			create_threads();
85f5c1e8Sbluhm		} else {
85f5c1e8Sbluhm			if (heap)
85f5c1e8Sbluhm				alloc_heap();
85f5c1e8Sbluhm			if (stack)
85f5c1e8Sbluhm				alloc_stack();
85f5c1e8Sbluhm		}
0383853bSbluhm		if (close(fd) == -1)
79f7fadeSbluhm			err(1, "close child");
0383853bSbluhm		if (sleep(timeout) != 0)
0383853bSbluhm			err(1, "sleep %d", timeout);
0383853bSbluhm	}
79f7fadeSbluhm
79f7fadeSbluhm	/* should not happen */
0383853bSbluhm	_exit(0);
0383853bSbluhm}
0383853bSbluhm
0383853bSbluhmstatic void
0383853bSbluhmsigexit(int sig)
0383853bSbluhm{
0383853bSbluhm	int i, status;
0383853bSbluhm	pid_t pid;
0383853bSbluhm
0383853bSbluhm	/* all children must terminate in time */
0383853bSbluhm	if ((int)alarm(timeout) == -1)
0383853bSbluhm		err(1, "alarm");
0383853bSbluhm
0383853bSbluhm	for (i = 0; i < procs; i++) {
0383853bSbluhm		pid = wait(&status);
0383853bSbluhm		if (pid == -1)
0383853bSbluhm			err(1, "wait");
0383853bSbluhm		if (!WIFSIGNALED(status))
0383853bSbluhm			errx(1, "child %d not killed", pid);
0383853bSbluhm		if(WTERMSIG(status) != SIGTERM)
0383853bSbluhm			errx(1, "child %d signal %d", pid, WTERMSIG(status));
0383853bSbluhm	}
0383853bSbluhm	exit(0);
0383853bSbluhm}
0383853bSbluhm
0383853bSbluhmint
0383853bSbluhmmain(int argc, char *argv[])
0383853bSbluhm{
0383853bSbluhm	const char *errstr;
0383853bSbluhm	int ch, i, fdmax, fdlen, *rfds, waiting;
0383853bSbluhm	fd_set *fdset;
0383853bSbluhm	pid_t pgrp;
0383853bSbluhm	struct timeval tv;
0383853bSbluhm
85f5c1e8Sbluhm	while ((ch = getopt(argc, argv, "edh:p:s:T:t:")) != -1) {
0383853bSbluhm	switch (ch) {
0383853bSbluhm		case 'e':
0383853bSbluhm			execute = 1;
0383853bSbluhm			break;
0383853bSbluhm		case 'd':
0383853bSbluhm			daemonize = 1;
0383853bSbluhm			break;
85f5c1e8Sbluhm		case 'h':
85f5c1e8Sbluhm			heap = strtonum(optarg, 0, INT_MAX, &errstr);
85f5c1e8Sbluhm			if (errstr != NULL)
85f5c1e8Sbluhm				errx(1, "number of heap allocations is %s: %s",
85f5c1e8Sbluhm				    errstr, optarg);
85f5c1e8Sbluhm			break;
0383853bSbluhm		case 'p':
*5a9dda22Sbluhm			procs = strtonum(optarg, 0, INT_MAX / 4096, &errstr);
0383853bSbluhm			if (errstr != NULL)
0383853bSbluhm				errx(1, "number of procs is %s: %s", errstr,
0383853bSbluhm				    optarg);
0383853bSbluhm			break;
85f5c1e8Sbluhm		case 's':
*5a9dda22Sbluhm			stack = strtonum(optarg, 0,
*5a9dda22Sbluhm			    (INT_MAX - 2) / (4096 + 32), &errstr);
85f5c1e8Sbluhm			if (errstr != NULL)
85f5c1e8Sbluhm				errx(1, "number of stack allocations is %s: %s",
85f5c1e8Sbluhm				    errstr, optarg);
85f5c1e8Sbluhm			break;
0383853bSbluhm		case 't':
79f7fadeSbluhm			threads = strtonum(optarg, 0, INT_MAX, &errstr);
79f7fadeSbluhm			if (errstr != NULL)
79f7fadeSbluhm				errx(1, "number of threads is %s: %s", errstr,
79f7fadeSbluhm				    optarg);
79f7fadeSbluhm			break;
79f7fadeSbluhm		case 'T':
0383853bSbluhm			timeout = strtonum(optarg, 0, INT_MAX, &errstr);
0383853bSbluhm			if (errstr != NULL)
0383853bSbluhm				errx(1, "timeout is %s: %s", errstr, optarg);
79f7fadeSbluhm			break;
0383853bSbluhm		default:
0383853bSbluhm			usage();
0383853bSbluhm		}
0383853bSbluhm	}
79f7fadeSbluhm	if (execute) {
79f7fadeSbluhm		int ret;
79f7fadeSbluhm
79f7fadeSbluhm		if (threads > 0)
79f7fadeSbluhm			errx(1, "execute sleep cannot be used with threads");
79f7fadeSbluhm
79f7fadeSbluhm		ret = snprintf(timeoutstr, sizeof(timeoutstr), "%d", timeout);
79f7fadeSbluhm		if (ret < 0 || (size_t)ret >= sizeof(timeoutstr))
79f7fadeSbluhm			err(1, "snprintf");
79f7fadeSbluhm	}
0383853bSbluhm
0383853bSbluhm	/* become process group leader */
79f7fadeSbluhm	if (daemonize) {
79f7fadeSbluhm		/* get rid of process leadership */
0383853bSbluhm		switch (fork()) {
0383853bSbluhm		case -1:
0383853bSbluhm			err(1, "fork parent");
0383853bSbluhm		case 0:
0383853bSbluhm			break;
0383853bSbluhm		default:
79f7fadeSbluhm			/* parent leaves orphan behind to do the work */
0383853bSbluhm			_exit(0);
0383853bSbluhm		}
0383853bSbluhm	}
79f7fadeSbluhm	pgrp = setsid();
79f7fadeSbluhm	if (pgrp == -1) {
0383853bSbluhm		if (!daemonize)
0383853bSbluhm			warnx("try -d to become process group leader");
0383853bSbluhm		err(1, "setsid");
0383853bSbluhm	}
0383853bSbluhm
0383853bSbluhm	/* create pipes to keep in contact with children */
0383853bSbluhm	rfds = reallocarray(NULL, procs, sizeof(int));
0383853bSbluhm	if (rfds == NULL)
0383853bSbluhm		err(1, "rfds");
0383853bSbluhm	fdmax = 0;
0383853bSbluhm
0383853bSbluhm	/* fork child processes and pass writing end of pipe */
0383853bSbluhm	for (i = 0; i < procs; i++) {
79f7fadeSbluhm		int pipefds[2], error;
0383853bSbluhm
0383853bSbluhm		if (pipe(pipefds) == -1)
0383853bSbluhm			err(1, "pipe");
0383853bSbluhm		if (fdmax < pipefds[0])
0383853bSbluhm			fdmax = pipefds[0];
0383853bSbluhm		rfds[i] = pipefds[0];
79f7fadeSbluhm
79f7fadeSbluhm		switch (fork()) {
79f7fadeSbluhm		case -1:
79f7fadeSbluhm			/* resource temporarily unavailable may happen */
79f7fadeSbluhm			error = errno;
79f7fadeSbluhm			/* reap children, but not parent */
79f7fadeSbluhm			signal(SIGTERM, SIG_IGN);
79f7fadeSbluhm			kill(-pgrp, SIGTERM);
79f7fadeSbluhm			errc(1, error, "fork child");
79f7fadeSbluhm		case 0:
79f7fadeSbluhm			/* child closes reading end, read is for the parent */
79f7fadeSbluhm			if (close(pipefds[0]) == -1)
79f7fadeSbluhm				err(1, "close read");
79f7fadeSbluhm			run_child(pipefds[1]);
79f7fadeSbluhm			/* cannot happen */
79f7fadeSbluhm			_exit(0);
79f7fadeSbluhm		default:
79f7fadeSbluhm			/* parent closes writing end, write is for the child */
0383853bSbluhm			if (close(pipefds[1]) == -1)
79f7fadeSbluhm				err(1, "close write");
79f7fadeSbluhm			break;
79f7fadeSbluhm		}
0383853bSbluhm	}
0383853bSbluhm
0383853bSbluhm	/* create select mask with all reading ends of child pipes */
0383853bSbluhm	fdlen = howmany(fdmax + 1, NFDBITS);
0383853bSbluhm	fdset = calloc(fdlen, sizeof(fd_mask));
0383853bSbluhm	if (fdset == NULL)
0383853bSbluhm		err(1, "fdset");
79f7fadeSbluhm	waiting = 0;
0383853bSbluhm	for (i = 0; i < procs; i++) {
0383853bSbluhm		FD_SET(rfds[i], fdset);
79f7fadeSbluhm		waiting = 1;
0383853bSbluhm	}
0383853bSbluhm
0383853bSbluhm	/* wait until all child processes are waiting */
79f7fadeSbluhm	while (waiting) {
0383853bSbluhm		tv.tv_sec = timeout;
0383853bSbluhm		tv.tv_usec = 0;
0383853bSbluhm		errno = ETIMEDOUT;
0383853bSbluhm		if (select(fdmax + 1, fdset, NULL, NULL, &tv) <= 0)
0383853bSbluhm			err(1, "select");
0383853bSbluhm
79f7fadeSbluhm		waiting = 0;
0383853bSbluhm		/* remove fd of children that closed their end  */
0383853bSbluhm		for (i = 0; i < procs; i++) {
0383853bSbluhm			if (rfds[i] >= 0) {
0383853bSbluhm				if (FD_ISSET(rfds[i], fdset)) {
0383853bSbluhm					if (close(rfds[i]) == -1)
79f7fadeSbluhm						err(1, "close parent");
0383853bSbluhm					FD_CLR(rfds[i], fdset);
0383853bSbluhm					rfds[i] = -1;
0383853bSbluhm				} else {
0383853bSbluhm					FD_SET(rfds[i], fdset);
0383853bSbluhm					waiting = 1;
0383853bSbluhm				}
0383853bSbluhm			}
0383853bSbluhm		}
79f7fadeSbluhm	}
0383853bSbluhm
0383853bSbluhm	/* kill all children simultaneously, parent exits in signal handler */
0383853bSbluhm	if (signal(SIGTERM, sigexit) == SIG_ERR)
0383853bSbluhm		err(1, "signal SIGTERM");
0383853bSbluhm	if (kill(-pgrp, SIGTERM) == -1)
0383853bSbluhm		err(1, "kill %d", -pgrp);
0383853bSbluhm
0383853bSbluhm	errx(1, "alive");
0383853bSbluhm}