h_segv.c revision 1.7
11.7Skamil/* $NetBSD: h_segv.c,v 1.7 2018/05/30 17:48:13 kamil Exp $ */ 21.1Schristos 31.1Schristos/*- 41.1Schristos * Copyright (c) 2017 The NetBSD Foundation, Inc. 51.1Schristos * All rights reserved. 61.1Schristos * 71.1Schristos * This code is derived from software contributed to The NetBSD Foundation 81.1Schristos * by Christos Zoulas. 91.1Schristos * 101.1Schristos * Redistribution and use in source and binary forms, with or without 111.1Schristos * modification, are permitted provided that the following conditions 121.1Schristos * are met: 131.1Schristos * 1. Redistributions of source code must retain the above copyright 141.1Schristos * notice, this list of conditions and the following disclaimer. 151.1Schristos * 2. Redistributions in binary form must reproduce the above copyright 161.1Schristos * notice, this list of conditions and the following disclaimer in the 171.1Schristos * documentation and/or other materials provided with the distribution. 181.1Schristos * 191.1Schristos * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 201.1Schristos * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 211.1Schristos * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 221.1Schristos * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 231.1Schristos * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 241.1Schristos * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 251.1Schristos * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 261.1Schristos * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 271.1Schristos * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 281.1Schristos * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 291.1Schristos * POSSIBILITY OF SUCH DAMAGE. 301.1Schristos */ 311.1Schristos#include <sys/cdefs.h> 321.7Skamil__RCSID("$NetBSD: h_segv.c,v 1.7 2018/05/30 17:48:13 kamil Exp $"); 331.1Schristos 341.4Skamil#include <sys/types.h> 351.5Skamil#include <sys/mman.h> 361.4Skamil#include <sys/ptrace.h> 371.1Schristos#include <stdio.h> 381.1Schristos#include <string.h> 391.1Schristos#include <stdlib.h> 401.1Schristos#include <unistd.h> 411.1Schristos#include <signal.h> 421.1Schristos#include <err.h> 431.1Schristos 441.1Schristosstatic int flags; 451.1Schristos#define F_RECURSE 1 461.1Schristos#define F_HANDLE 2 471.1Schristos#define F_MASK 4 481.3Skamil#define F_IGNORE 8 491.1Schristos 501.1Schristosstatic struct { 511.1Schristos const char *n; 521.1Schristos int v; 531.1Schristos} nv[] = { 541.1Schristos { "recurse", F_RECURSE }, 551.1Schristos { "handle", F_HANDLE }, 561.1Schristos { "mask", F_MASK }, 571.3Skamil { "ignore", F_IGNORE } 581.1Schristos}; 591.1Schristos 601.4Skamilstatic int sig; 611.4Skamilstatic struct { 621.4Skamil const char *n; 631.4Skamil int v; 641.4Skamil} sn[] = { 651.4Skamil { "segv", SIGSEGV }, 661.5Skamil { "trap", SIGTRAP }, 671.5Skamil { "ill", SIGILL }, 681.5Skamil { "fpe", SIGFPE }, 691.5Skamil { "bus", SIGBUS } 701.4Skamil}; 711.4Skamil 721.1Schristosstatic void 731.5Skamiltrigger_segv(void) 741.5Skamil{ 751.5Skamil volatile int *p = (int *)(intptr_t)atoi("0"); 761.5Skamil 771.5Skamil *p = 1; 781.5Skamil} 791.5Skamil 801.5Skamilstatic void 811.5Skamiltrigger_trap(void) 821.1Schristos{ 831.5Skamil 841.4Skamil#ifdef PTRACE_BREAKPOINT_ASM 851.5Skamil PTRACE_BREAKPOINT_ASM; 861.5Skamil#else 871.5Skamil /* port me */ 881.5Skamil#endif 891.5Skamil} 901.5Skamil 911.5Skamilstatic void 921.5Skamiltrigger_ill(void) 931.5Skamil{ 941.5Skamil 951.5Skamil#ifdef PTRACE_ILLEGAL_ASM 961.5Skamil PTRACE_ILLEGAL_ASM; 971.4Skamil#else 981.5Skamil /* port me */ 991.5Skamil#endif 1001.5Skamil} 1011.5Skamil 1021.5Skamilstatic void 1031.5Skamiltrigger_fpe(void) 1041.5Skamil{ 1051.5Skamil volatile int a = getpid(); 1061.5Skamil volatile int b = strtol("0", NULL, 0); 1071.5Skamil 1081.5Skamil usleep(a/b); 1091.5Skamil} 1101.5Skamil 1111.5Skamilstatic void 1121.5Skamiltrigger_bus(void) 1131.5Skamil{ 1141.5Skamil FILE *fp; 1151.5Skamil char *p; 1161.5Skamil 1171.5Skamil /* Open an empty file for writing. */ 1181.5Skamil fp = tmpfile(); 1191.5Skamil if (fp == NULL) 1201.5Skamil err(EXIT_FAILURE, "tmpfile"); 1211.5Skamil 1221.7Skamil /* 1231.7Skamil * Map an empty file with mmap(2) to a pointer. 1241.7Skamil * 1251.7Skamil * PROT_READ handles read-modify-write sequences emitted for 1261.7Skamil * certain combinations of CPUs and compilers (e.g. Alpha AXP). 1271.7Skamil */ 1281.6Skamil p = mmap(0, 1, PROT_READ|PROT_WRITE, MAP_PRIVATE, fileno(fp), 0); 1291.5Skamil if (p == MAP_FAILED) 1301.5Skamil err(EXIT_FAILURE, "mmap"); 1311.5Skamil 1321.5Skamil /* Invalid memory access causes CPU trap, translated to SIGBUS */ 1331.5Skamil *p = 'a'; 1341.5Skamil} 1351.5Skamil 1361.5Skamilstatic void 1371.5Skamiltrigger(void) 1381.5Skamil{ 1391.5Skamil 1401.5Skamil switch (sig) { 1411.5Skamil case SIGSEGV: 1421.5Skamil trigger_segv(); 1431.5Skamil break; 1441.5Skamil case SIGTRAP: 1451.5Skamil trigger_trap(); 1461.5Skamil break; 1471.5Skamil case SIGILL: 1481.5Skamil trigger_ill(); 1491.5Skamil break; 1501.5Skamil case SIGFPE: 1511.5Skamil trigger_fpe(); 1521.5Skamil break; 1531.5Skamil case SIGBUS: 1541.5Skamil trigger_bus(); 1551.5Skamil break; 1561.5Skamil default: 1571.5Skamil break; 1581.4Skamil } 1591.5Skamil} 1601.5Skamil 1611.5Skamilstatic void 1621.5Skamilfoo(int s) 1631.5Skamil{ 1641.5Skamil char buf[64]; 1651.5Skamil int i = snprintf(buf, sizeof(buf), "got %d\n", s); 1661.5Skamil write(2, buf, i); 1671.5Skamil 1681.5Skamil if (flags & F_RECURSE) 1691.5Skamil trigger(); 1701.5Skamil 1711.5Skamil exit(EXIT_SUCCESS); 1721.1Schristos} 1731.1Schristos 1741.1Schristosstatic __dead void 1751.1Schristosusage(void) 1761.1Schristos{ 1771.4Skamil const char *pname = getprogname(); 1781.4Skamil 1791.5Skamil fprintf(stderr, "Usage: %s segv|trap|ill|fpe|bus " 1801.5Skamil "[recurse|mask|handle|ignore] ...\n", pname); 1811.5Skamil 1821.1Schristos exit(EXIT_FAILURE); 1831.1Schristos} 1841.1Schristos 1851.1Schristosint 1861.1Schristosmain(int argc, char *argv[]) 1871.1Schristos{ 1881.5Skamil 1891.1Schristos if (argc == 1) 1901.1Schristos usage(); 1911.1Schristos 1921.1Schristos for (int i = 1; i < argc; i++) { 1931.1Schristos size_t j; 1941.4Skamil for (j = 0; j < __arraycount(nv); j++) { 1951.1Schristos if (strcmp(nv[j].n, argv[i]) == 0) { 1961.1Schristos flags |= nv[j].v; 1971.5Skamil goto consumed; 1981.1Schristos } 1991.5Skamil } 2001.5Skamil for (j = 0; j < __arraycount(sn); j++) { 2011.4Skamil if (strcmp(sn[j].n, argv[i]) == 0) { 2021.4Skamil sig = sn[j].v; 2031.5Skamil goto consumed; 2041.4Skamil } 2051.4Skamil } 2061.5Skamil 2071.5Skamil usage(); 2081.5Skamil 2091.5Skamil consumed: 2101.5Skamil continue; 2111.1Schristos } 2121.1Schristos 2131.4Skamil if (flags == 0 || sig == 0) 2141.1Schristos usage(); 2151.1Schristos 2161.1Schristos if (flags & F_HANDLE) { 2171.1Schristos struct sigaction sa; 2181.1Schristos 2191.1Schristos sa.sa_flags = SA_RESTART; 2201.1Schristos sa.sa_handler = foo; 2211.1Schristos sigemptyset(&sa.sa_mask); 2221.4Skamil if (sigaction(sig, &sa, NULL) == -1) 2231.1Schristos err(EXIT_FAILURE, "sigaction"); 2241.1Schristos } 2251.1Schristos 2261.1Schristos if (flags & F_MASK) { 2271.1Schristos sigset_t set; 2281.1Schristos 2291.1Schristos sigemptyset(&set); 2301.4Skamil sigaddset(&set, sig); 2311.1Schristos if (sigprocmask(SIG_BLOCK, &set, NULL) == -1) 2321.1Schristos err(EXIT_FAILURE, "sigprocmask"); 2331.1Schristos } 2341.1Schristos 2351.3Skamil if (flags & F_IGNORE) { 2361.3Skamil struct sigaction sa; 2371.3Skamil 2381.3Skamil memset(&sa, 0, sizeof(sa)); 2391.3Skamil sa.sa_handler = SIG_IGN; 2401.3Skamil sigemptyset(&sa.sa_mask); 2411.4Skamil if (sigaction(sig, &sa, NULL) == -1) 2421.3Skamil err(EXIT_FAILURE, "sigaction"); 2431.3Skamil } 2441.3Skamil 2451.5Skamil trigger(); 2461.5Skamil 2471.1Schristos return EXIT_SUCCESS; 2481.1Schristos} 249