t_siginfo.c revision 1.32.2.1
1 1.32.2.1 pgoyette /* $NetBSD: t_siginfo.c,v 1.32.2.1 2019/01/26 22:00:38 pgoyette Exp $ */ 2 1.1 pgoyette 3 1.1 pgoyette /*- 4 1.1 pgoyette * Copyright (c) 2010 The NetBSD Foundation, Inc. 5 1.1 pgoyette * All rights reserved. 6 1.1 pgoyette * 7 1.1 pgoyette * Redistribution and use in source and binary forms, with or without 8 1.1 pgoyette * modification, are permitted provided that the following conditions 9 1.1 pgoyette * are met: 10 1.1 pgoyette * 1. Redistributions of source code must retain the above copyright 11 1.1 pgoyette * notice, this list of conditions and the following disclaimer. 12 1.1 pgoyette * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 pgoyette * notice, this list of conditions and the following disclaimer in the 14 1.1 pgoyette * documentation and/or other materials provided with the distribution. 15 1.1 pgoyette * 16 1.1 pgoyette * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 17 1.1 pgoyette * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 18 1.1 pgoyette * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 19 1.1 pgoyette * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 20 1.1 pgoyette * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 21 1.1 pgoyette * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 22 1.1 pgoyette * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 23 1.1 pgoyette * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 24 1.1 pgoyette * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 25 1.1 pgoyette * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 26 1.1 pgoyette * POSSIBILITY OF SUCH DAMAGE. 27 1.1 pgoyette */ 28 1.1 pgoyette 29 1.1 pgoyette #include <atf-c.h> 30 1.1 pgoyette 31 1.1 pgoyette #include <sys/resource.h> 32 1.18 njoly #include <sys/sysctl.h> 33 1.1 pgoyette #include <sys/time.h> 34 1.1 pgoyette #include <sys/ucontext.h> 35 1.1 pgoyette #include <sys/wait.h> 36 1.1 pgoyette 37 1.1 pgoyette #include <assert.h> 38 1.32 maya #include <float.h> 39 1.32 maya #include <inttypes.h> 40 1.32 maya #include <setjmp.h> 41 1.1 pgoyette #include <signal.h> 42 1.1 pgoyette #include <stdio.h> 43 1.1 pgoyette #include <stdlib.h> 44 1.10 riz #include <string.h> 45 1.1 pgoyette #include <unistd.h> 46 1.1 pgoyette 47 1.22 matt #include <fenv.h> 48 1.30 christos #ifdef __HAVE_FENV 49 1.27 martin #include <ieeefp.h> /* only need for ARM Cortex/Neon hack */ 50 1.22 matt #elif defined(_FLOAT_IEEE754) 51 1.1 pgoyette #include <ieeefp.h> 52 1.1 pgoyette #endif 53 1.1 pgoyette 54 1.19 christos #include "isqemu.h" 55 1.19 christos 56 1.15 jym /* for sigbus */ 57 1.17 martin volatile char *addr; 58 1.15 jym 59 1.1 pgoyette /* for sigchild */ 60 1.1 pgoyette pid_t child; 61 1.1 pgoyette int code; 62 1.1 pgoyette int status; 63 1.1 pgoyette 64 1.1 pgoyette /* for sigfpe */ 65 1.1 pgoyette sig_atomic_t fltdiv_signalled = 0; 66 1.1 pgoyette sig_atomic_t intdiv_signalled = 0; 67 1.1 pgoyette 68 1.1 pgoyette static void 69 1.1 pgoyette sig_debug(int signo, siginfo_t *info, ucontext_t *ctx) 70 1.1 pgoyette { 71 1.1 pgoyette unsigned int i; 72 1.1 pgoyette 73 1.1 pgoyette printf("%d %p %p\n", signo, info, ctx); 74 1.1 pgoyette if (info != NULL) { 75 1.1 pgoyette printf("si_signo=%d\n", info->si_signo); 76 1.1 pgoyette printf("si_errno=%d\n", info->si_errno); 77 1.1 pgoyette printf("si_code=%d\n", info->si_code); 78 1.1 pgoyette printf("si_value.sival_int=%d\n", info->si_value.sival_int); 79 1.1 pgoyette } 80 1.1 pgoyette if (ctx != NULL) { 81 1.1 pgoyette printf("uc_flags 0x%x\n", ctx->uc_flags); 82 1.1 pgoyette printf("uc_link %p\n", ctx->uc_link); 83 1.1 pgoyette for (i = 0; i < __arraycount(ctx->uc_sigmask.__bits); i++) 84 1.1 pgoyette printf("uc_sigmask[%d] 0x%x\n", i, 85 1.1 pgoyette ctx->uc_sigmask.__bits[i]); 86 1.14 jruoho printf("uc_stack %p %lu 0x%x\n", ctx->uc_stack.ss_sp, 87 1.1 pgoyette (unsigned long)ctx->uc_stack.ss_size, 88 1.1 pgoyette ctx->uc_stack.ss_flags); 89 1.3 pgoyette for (i = 0; i < __arraycount(ctx->uc_mcontext.__gregs); i++) 90 1.3 pgoyette printf("uc_mcontext.greg[%d] 0x%lx\n", i, 91 1.3 pgoyette (long)ctx->uc_mcontext.__gregs[i]); 92 1.1 pgoyette } 93 1.1 pgoyette } 94 1.1 pgoyette 95 1.1 pgoyette static void 96 1.1 pgoyette sigalrm_action(int signo, siginfo_t *info, void *ptr) 97 1.1 pgoyette { 98 1.1 pgoyette 99 1.1 pgoyette sig_debug(signo, info, (ucontext_t *)ptr); 100 1.1 pgoyette 101 1.1 pgoyette ATF_REQUIRE_EQ(info->si_signo, SIGALRM); 102 1.1 pgoyette ATF_REQUIRE_EQ(info->si_code, SI_TIMER); 103 1.1 pgoyette ATF_REQUIRE_EQ(info->si_value.sival_int, ITIMER_REAL); 104 1.1 pgoyette 105 1.1 pgoyette atf_tc_pass(); 106 1.1 pgoyette /* NOTREACHED */ 107 1.1 pgoyette } 108 1.1 pgoyette 109 1.1 pgoyette ATF_TC(sigalarm); 110 1.1 pgoyette 111 1.1 pgoyette ATF_TC_HEAD(sigalarm, tc) 112 1.14 jruoho { 113 1.1 pgoyette 114 1.1 pgoyette atf_tc_set_md_var(tc, "descr", 115 1.14 jruoho "Checks that signal trampoline correctly calls SIGALRM handler"); 116 1.1 pgoyette } 117 1.1 pgoyette 118 1.1 pgoyette ATF_TC_BODY(sigalarm, tc) 119 1.1 pgoyette { 120 1.1 pgoyette struct sigaction sa; 121 1.1 pgoyette sa.sa_flags = SA_SIGINFO; 122 1.1 pgoyette sa.sa_sigaction = sigalrm_action; 123 1.1 pgoyette sigemptyset(&sa.sa_mask); 124 1.1 pgoyette sigaction(SIGALRM, &sa, NULL); 125 1.1 pgoyette for (;;) { 126 1.1 pgoyette alarm(1); 127 1.1 pgoyette sleep(1); 128 1.1 pgoyette } 129 1.14 jruoho atf_tc_fail("SIGALRM handler wasn't called"); 130 1.1 pgoyette } 131 1.1 pgoyette 132 1.1 pgoyette static void 133 1.1 pgoyette sigchild_action(int signo, siginfo_t *info, void *ptr) 134 1.1 pgoyette { 135 1.1 pgoyette if (info != NULL) { 136 1.1 pgoyette printf("info=%p\n", info); 137 1.1 pgoyette printf("ptr=%p\n", ptr); 138 1.1 pgoyette printf("si_signo=%d\n", info->si_signo); 139 1.1 pgoyette printf("si_errno=%d\n", info->si_errno); 140 1.1 pgoyette printf("si_code=%d\n", info->si_code); 141 1.1 pgoyette printf("si_uid=%d\n", info->si_uid); 142 1.1 pgoyette printf("si_pid=%d\n", info->si_pid); 143 1.1 pgoyette printf("si_status=%d\n", info->si_status); 144 1.3 pgoyette printf("si_utime=%lu\n", (unsigned long int)info->si_utime); 145 1.3 pgoyette printf("si_stime=%lu\n", (unsigned long int)info->si_stime); 146 1.1 pgoyette } 147 1.1 pgoyette ATF_REQUIRE_EQ(info->si_code, code); 148 1.1 pgoyette ATF_REQUIRE_EQ(info->si_signo, SIGCHLD); 149 1.1 pgoyette ATF_REQUIRE_EQ(info->si_uid, getuid()); 150 1.1 pgoyette ATF_REQUIRE_EQ(info->si_pid, child); 151 1.1 pgoyette if (WIFEXITED(info->si_status)) 152 1.1 pgoyette ATF_REQUIRE_EQ(WEXITSTATUS(info->si_status), status); 153 1.1 pgoyette else if (WIFSTOPPED(info->si_status)) 154 1.1 pgoyette ATF_REQUIRE_EQ(WSTOPSIG(info->si_status), status); 155 1.1 pgoyette else if (WIFSIGNALED(info->si_status)) 156 1.1 pgoyette ATF_REQUIRE_EQ(WTERMSIG(info->si_status), status); 157 1.1 pgoyette } 158 1.1 pgoyette 159 1.1 pgoyette static void 160 1.1 pgoyette setchildhandler(void (*action)(int, siginfo_t *, void *)) 161 1.1 pgoyette { 162 1.1 pgoyette struct sigaction sa; 163 1.1 pgoyette sa.sa_flags = SA_SIGINFO; 164 1.1 pgoyette sa.sa_sigaction = action; 165 1.1 pgoyette sigemptyset(&sa.sa_mask); 166 1.1 pgoyette sigaction(SIGCHLD, &sa, NULL); 167 1.1 pgoyette } 168 1.1 pgoyette 169 1.1 pgoyette static void 170 1.1 pgoyette sigchild_setup(void) 171 1.1 pgoyette { 172 1.1 pgoyette sigset_t set; 173 1.1 pgoyette struct rlimit rlim; 174 1.1 pgoyette 175 1.1 pgoyette (void)getrlimit(RLIMIT_CORE, &rlim); 176 1.1 pgoyette rlim.rlim_cur = rlim.rlim_max; 177 1.1 pgoyette (void)setrlimit(RLIMIT_CORE, &rlim); 178 1.1 pgoyette 179 1.1 pgoyette setchildhandler(sigchild_action); 180 1.1 pgoyette sigemptyset(&set); 181 1.1 pgoyette sigaddset(&set, SIGCHLD); 182 1.1 pgoyette sigprocmask(SIG_BLOCK, &set, NULL); 183 1.1 pgoyette } 184 1.1 pgoyette 185 1.1 pgoyette ATF_TC(sigchild_normal); 186 1.1 pgoyette ATF_TC_HEAD(sigchild_normal, tc) 187 1.1 pgoyette { 188 1.1 pgoyette 189 1.1 pgoyette atf_tc_set_md_var(tc, "descr", 190 1.1 pgoyette "Checks that signal trampoline correctly calls SIGCHLD handler " 191 1.1 pgoyette "when child exits normally"); 192 1.1 pgoyette } 193 1.1 pgoyette 194 1.1 pgoyette ATF_TC_BODY(sigchild_normal, tc) 195 1.1 pgoyette { 196 1.1 pgoyette sigset_t set; 197 1.1 pgoyette 198 1.14 jruoho sigchild_setup(); 199 1.1 pgoyette 200 1.1 pgoyette status = 25; 201 1.1 pgoyette code = CLD_EXITED; 202 1.1 pgoyette 203 1.1 pgoyette switch ((child = fork())) { 204 1.1 pgoyette case 0: 205 1.1 pgoyette sleep(1); 206 1.1 pgoyette exit(status); 207 1.1 pgoyette case -1: 208 1.1 pgoyette atf_tc_fail("fork failed"); 209 1.1 pgoyette default: 210 1.1 pgoyette sigemptyset(&set); 211 1.1 pgoyette sigsuspend(&set); 212 1.1 pgoyette } 213 1.1 pgoyette } 214 1.1 pgoyette 215 1.1 pgoyette ATF_TC(sigchild_dump); 216 1.1 pgoyette ATF_TC_HEAD(sigchild_dump, tc) 217 1.1 pgoyette { 218 1.1 pgoyette 219 1.1 pgoyette atf_tc_set_md_var(tc, "descr", 220 1.1 pgoyette "Checks that signal trampoline correctly calls SIGCHLD handler " 221 1.1 pgoyette "when child segfaults"); 222 1.1 pgoyette } 223 1.1 pgoyette 224 1.1 pgoyette ATF_TC_BODY(sigchild_dump, tc) 225 1.14 jruoho { 226 1.1 pgoyette sigset_t set; 227 1.1 pgoyette 228 1.14 jruoho sigchild_setup(); 229 1.1 pgoyette 230 1.1 pgoyette status = SIGSEGV; 231 1.1 pgoyette code = CLD_DUMPED; 232 1.1 pgoyette 233 1.1 pgoyette switch ((child = fork())) { 234 1.1 pgoyette case 0: 235 1.1 pgoyette sleep(1); 236 1.11 joerg *(volatile long *)0 = 0; 237 1.1 pgoyette atf_tc_fail("Child did not segfault"); 238 1.1 pgoyette /* NOTREACHED */ 239 1.1 pgoyette case -1: 240 1.1 pgoyette atf_tc_fail("fork failed"); 241 1.1 pgoyette default: 242 1.1 pgoyette sigemptyset(&set); 243 1.1 pgoyette sigsuspend(&set); 244 1.1 pgoyette } 245 1.1 pgoyette } 246 1.1 pgoyette 247 1.1 pgoyette ATF_TC(sigchild_kill); 248 1.1 pgoyette ATF_TC_HEAD(sigchild_kill, tc) 249 1.1 pgoyette { 250 1.1 pgoyette 251 1.1 pgoyette atf_tc_set_md_var(tc, "descr", 252 1.1 pgoyette "Checks that signal trampoline correctly calls SIGCHLD handler " 253 1.1 pgoyette "when child is killed"); 254 1.1 pgoyette } 255 1.1 pgoyette 256 1.1 pgoyette ATF_TC_BODY(sigchild_kill, tc) 257 1.14 jruoho { 258 1.1 pgoyette sigset_t set; 259 1.1 pgoyette 260 1.14 jruoho sigchild_setup(); 261 1.1 pgoyette 262 1.1 pgoyette status = SIGPIPE; 263 1.1 pgoyette code = CLD_KILLED; 264 1.1 pgoyette 265 1.1 pgoyette switch ((child = fork())) { 266 1.1 pgoyette case 0: 267 1.1 pgoyette sigemptyset(&set); 268 1.1 pgoyette sigsuspend(&set); 269 1.1 pgoyette break; 270 1.1 pgoyette case -1: 271 1.1 pgoyette atf_tc_fail("fork failed"); 272 1.1 pgoyette default: 273 1.1 pgoyette kill(child, SIGPIPE); 274 1.1 pgoyette sigemptyset(&set); 275 1.1 pgoyette sigsuspend(&set); 276 1.1 pgoyette } 277 1.1 pgoyette } 278 1.1 pgoyette 279 1.5 mlelstv static sigjmp_buf sigfpe_flt_env; 280 1.1 pgoyette static void 281 1.1 pgoyette sigfpe_flt_action(int signo, siginfo_t *info, void *ptr) 282 1.1 pgoyette { 283 1.1 pgoyette 284 1.1 pgoyette sig_debug(signo, info, (ucontext_t *)ptr); 285 1.1 pgoyette 286 1.1 pgoyette if (fltdiv_signalled++ != 0) 287 1.1 pgoyette atf_tc_fail("FPE handler called more than once"); 288 1.1 pgoyette 289 1.1 pgoyette ATF_REQUIRE_EQ(info->si_signo, SIGFPE); 290 1.1 pgoyette ATF_REQUIRE_EQ(info->si_code, FPE_FLTDIV); 291 1.1 pgoyette ATF_REQUIRE_EQ(info->si_errno, 0); 292 1.5 mlelstv 293 1.5 mlelstv siglongjmp(sigfpe_flt_env, 1); 294 1.1 pgoyette } 295 1.1 pgoyette 296 1.1 pgoyette ATF_TC(sigfpe_flt); 297 1.1 pgoyette ATF_TC_HEAD(sigfpe_flt, tc) 298 1.1 pgoyette { 299 1.1 pgoyette 300 1.1 pgoyette atf_tc_set_md_var(tc, "descr", 301 1.1 pgoyette "Checks that signal trampoline correctly calls SIGFPE handler " 302 1.1 pgoyette "for floating div-by-zero"); 303 1.1 pgoyette } 304 1.1 pgoyette 305 1.1 pgoyette ATF_TC_BODY(sigfpe_flt, tc) 306 1.14 jruoho { 307 1.1 pgoyette struct sigaction sa; 308 1.1 pgoyette double d = strtod("0", NULL); 309 1.1 pgoyette 310 1.19 christos if (isQEMU()) 311 1.20 christos atf_tc_skip("Test does not run correctly under QEMU"); 312 1.32.2.1 pgoyette #if (__arm__ && !__SOFTFP__) || __aarch64__ 313 1.28 martin /* 314 1.26 martin * Some NEON fpus do not implement IEEE exception handling, 315 1.26 martin * skip these tests if running on them and compiled for 316 1.26 martin * hard float. 317 1.26 martin */ 318 1.26 martin if (0 == fpsetmask(fpsetmask(FP_X_INV))) 319 1.26 martin atf_tc_skip("FPU does not implement exception handling"); 320 1.23 jmmv #endif 321 1.5 mlelstv if (sigsetjmp(sigfpe_flt_env, 0) == 0) { 322 1.5 mlelstv sa.sa_flags = SA_SIGINFO; 323 1.5 mlelstv sa.sa_sigaction = sigfpe_flt_action; 324 1.5 mlelstv sigemptyset(&sa.sa_mask); 325 1.5 mlelstv sigaction(SIGFPE, &sa, NULL); 326 1.30 christos #ifdef __HAVE_FENV 327 1.22 matt feenableexcept(FE_ALL_EXCEPT); 328 1.22 matt #elif defined(_FLOAT_IEEE754) 329 1.5 mlelstv fpsetmask(FP_X_INV|FP_X_DZ|FP_X_OFL|FP_X_UFL|FP_X_IMP); 330 1.1 pgoyette #endif 331 1.5 mlelstv printf("%g\n", 1 / d); 332 1.5 mlelstv } 333 1.1 pgoyette if (fltdiv_signalled == 0) 334 1.1 pgoyette atf_tc_fail("FPE signal handler was not invoked"); 335 1.1 pgoyette } 336 1.1 pgoyette 337 1.5 mlelstv static sigjmp_buf sigfpe_int_env; 338 1.1 pgoyette static void 339 1.1 pgoyette sigfpe_int_action(int signo, siginfo_t *info, void *ptr) 340 1.1 pgoyette { 341 1.1 pgoyette 342 1.1 pgoyette sig_debug(signo, info, (ucontext_t *)ptr); 343 1.1 pgoyette 344 1.1 pgoyette if (intdiv_signalled++ != 0) 345 1.1 pgoyette atf_tc_fail("INTDIV handler called more than once"); 346 1.1 pgoyette 347 1.1 pgoyette ATF_REQUIRE_EQ(info->si_signo, SIGFPE); 348 1.1 pgoyette ATF_REQUIRE_EQ(info->si_code, FPE_INTDIV); 349 1.7 pgoyette atf_tc_expect_pass(); 350 1.1 pgoyette ATF_REQUIRE_EQ(info->si_errno, 0); 351 1.5 mlelstv 352 1.5 mlelstv siglongjmp(sigfpe_int_env, 1); 353 1.1 pgoyette } 354 1.1 pgoyette 355 1.1 pgoyette ATF_TC(sigfpe_int); 356 1.1 pgoyette ATF_TC_HEAD(sigfpe_int, tc) 357 1.1 pgoyette { 358 1.1 pgoyette 359 1.1 pgoyette atf_tc_set_md_var(tc, "descr", 360 1.1 pgoyette "Checks that signal trampoline correctly calls SIGFPE handler " 361 1.14 jruoho "for integer div-by-zero (PR port-i386/43655)"); 362 1.1 pgoyette } 363 1.1 pgoyette 364 1.1 pgoyette ATF_TC_BODY(sigfpe_int, tc) 365 1.14 jruoho { 366 1.1 pgoyette struct sigaction sa; 367 1.4 njoly long l = strtol("0", NULL, 10); 368 1.1 pgoyette 369 1.23 jmmv #if defined(__powerpc__) 370 1.23 jmmv atf_tc_skip("Test not valid on powerpc"); 371 1.23 jmmv #endif 372 1.5 mlelstv if (sigsetjmp(sigfpe_int_env, 0) == 0) { 373 1.5 mlelstv sa.sa_flags = SA_SIGINFO; 374 1.5 mlelstv sa.sa_sigaction = sigfpe_int_action; 375 1.5 mlelstv sigemptyset(&sa.sa_mask); 376 1.5 mlelstv sigaction(SIGFPE, &sa, NULL); 377 1.30 christos #ifdef __HAVE_FENV 378 1.22 matt feenableexcept(FE_ALL_EXCEPT); 379 1.22 matt #elif defined(_FLOAT_IEEE754) 380 1.5 mlelstv fpsetmask(FP_X_INV|FP_X_DZ|FP_X_OFL|FP_X_UFL|FP_X_IMP); 381 1.1 pgoyette #endif 382 1.5 mlelstv printf("%ld\n", 1 / l); 383 1.5 mlelstv } 384 1.1 pgoyette if (intdiv_signalled == 0) 385 1.1 pgoyette atf_tc_fail("FPE signal handler was not invoked"); 386 1.1 pgoyette } 387 1.1 pgoyette 388 1.1 pgoyette static void 389 1.1 pgoyette sigsegv_action(int signo, siginfo_t *info, void *ptr) 390 1.1 pgoyette { 391 1.1 pgoyette 392 1.1 pgoyette sig_debug(signo, info, (ucontext_t *)ptr); 393 1.1 pgoyette 394 1.1 pgoyette ATF_REQUIRE_EQ(info->si_signo, SIGSEGV); 395 1.1 pgoyette ATF_REQUIRE_EQ(info->si_errno, 0); 396 1.1 pgoyette ATF_REQUIRE_EQ(info->si_code, SEGV_MAPERR); 397 1.1 pgoyette ATF_REQUIRE_EQ(info->si_addr, (void *)0); 398 1.1 pgoyette 399 1.1 pgoyette atf_tc_pass(); 400 1.1 pgoyette /* NOTREACHED */ 401 1.1 pgoyette } 402 1.1 pgoyette 403 1.1 pgoyette ATF_TC(sigsegv); 404 1.1 pgoyette ATF_TC_HEAD(sigsegv, tc) 405 1.1 pgoyette { 406 1.1 pgoyette 407 1.1 pgoyette atf_tc_set_md_var(tc, "descr", 408 1.1 pgoyette "Checks that signal trampoline correctly calls SIGSEGV handler"); 409 1.1 pgoyette } 410 1.1 pgoyette 411 1.1 pgoyette ATF_TC_BODY(sigsegv, tc) 412 1.1 pgoyette { 413 1.1 pgoyette struct sigaction sa; 414 1.1 pgoyette 415 1.1 pgoyette sa.sa_flags = SA_SIGINFO; 416 1.1 pgoyette sa.sa_sigaction = sigsegv_action; 417 1.1 pgoyette sigemptyset(&sa.sa_mask); 418 1.1 pgoyette sigaction(SIGSEGV, &sa, NULL); 419 1.1 pgoyette 420 1.11 joerg *(volatile long *)0 = 0; 421 1.1 pgoyette atf_tc_fail("Test did not fault as expected"); 422 1.1 pgoyette } 423 1.1 pgoyette 424 1.15 jym static void 425 1.15 jym sigbus_action(int signo, siginfo_t *info, void *ptr) 426 1.15 jym { 427 1.15 jym 428 1.17 martin printf("si_addr = %p\n", info->si_addr); 429 1.15 jym sig_debug(signo, info, (ucontext_t *)ptr); 430 1.15 jym 431 1.15 jym ATF_REQUIRE_EQ(info->si_signo, SIGBUS); 432 1.15 jym ATF_REQUIRE_EQ(info->si_errno, 0); 433 1.15 jym ATF_REQUIRE_EQ(info->si_code, BUS_ADRALN); 434 1.15 jym 435 1.23 jmmv #if defined(__i386__) || defined(__x86_64__) 436 1.23 jmmv atf_tc_expect_fail("x86 architecture does not correctly " 437 1.23 jmmv "report the address where the unaligned access occured"); 438 1.23 jmmv #endif 439 1.17 martin ATF_REQUIRE_EQ(info->si_addr, (volatile void *)addr); 440 1.16 martin 441 1.15 jym atf_tc_pass(); 442 1.15 jym /* NOTREACHED */ 443 1.15 jym } 444 1.15 jym 445 1.15 jym ATF_TC(sigbus_adraln); 446 1.15 jym ATF_TC_HEAD(sigbus_adraln, tc) 447 1.15 jym { 448 1.15 jym 449 1.15 jym atf_tc_set_md_var(tc, "descr", 450 1.15 jym "Checks that signal trampoline correctly calls SIGBUS handler " 451 1.15 jym "for invalid address alignment"); 452 1.15 jym } 453 1.15 jym 454 1.15 jym ATF_TC_BODY(sigbus_adraln, tc) 455 1.15 jym { 456 1.15 jym struct sigaction sa; 457 1.15 jym 458 1.25 martin #if defined(__alpha__) || defined(__arm__) 459 1.23 jmmv int rv, val; 460 1.23 jmmv size_t len = sizeof(val); 461 1.23 jmmv rv = sysctlbyname("machdep.unaligned_sigbus", &val, &len, NULL, 0); 462 1.23 jmmv ATF_REQUIRE(rv == 0); 463 1.23 jmmv if (val == 0) 464 1.25 martin atf_tc_skip("No SIGBUS signal for unaligned accesses"); 465 1.23 jmmv #endif 466 1.18 njoly 467 1.32.2.1 pgoyette /* m68k (except sun2) never issue SIGBUS (PR lib/49653), 468 1.32.2.1 pgoyette * same for armv8 or newer */ 469 1.32.2.1 pgoyette if (strcmp(MACHINE_ARCH, "m68k") == 0 || 470 1.32.2.1 pgoyette strcmp(MACHINE_ARCH, "aarch64") == 0) 471 1.29 isaki atf_tc_skip("No SIGBUS signal for unaligned accesses"); 472 1.29 isaki 473 1.15 jym sa.sa_flags = SA_SIGINFO; 474 1.15 jym sa.sa_sigaction = sigbus_action; 475 1.15 jym sigemptyset(&sa.sa_mask); 476 1.15 jym sigaction(SIGBUS, &sa, NULL); 477 1.15 jym 478 1.21 skrll /* Enable alignment checks for x86. 0x40000 is PSL_AC. */ 479 1.15 jym #if defined(__i386__) 480 1.15 jym __asm__("pushf; orl $0x40000, (%esp); popf"); 481 1.15 jym #elif defined(__amd64__) 482 1.15 jym __asm__("pushf; orl $0x40000, (%rsp); popf"); 483 1.15 jym #endif 484 1.15 jym 485 1.15 jym addr = calloc(2, sizeof(int)); 486 1.15 jym ATF_REQUIRE(addr != NULL); 487 1.15 jym 488 1.19 christos if (isQEMU()) 489 1.19 christos atf_tc_expect_fail("QEMU fails to trap unaligned accesses"); 490 1.15 jym 491 1.15 jym /* Force an unaligned access */ 492 1.15 jym addr++; 493 1.17 martin printf("now trying to access unaligned address %p\n", addr); 494 1.15 jym ATF_REQUIRE_EQ(*(volatile int *)addr, 0); 495 1.15 jym 496 1.15 jym atf_tc_fail("Test did not fault as expected"); 497 1.15 jym } 498 1.15 jym 499 1.1 pgoyette ATF_TP_ADD_TCS(tp) 500 1.1 pgoyette { 501 1.1 pgoyette 502 1.1 pgoyette ATF_TP_ADD_TC(tp, sigalarm); 503 1.1 pgoyette ATF_TP_ADD_TC(tp, sigchild_normal); 504 1.1 pgoyette ATF_TP_ADD_TC(tp, sigchild_dump); 505 1.1 pgoyette ATF_TP_ADD_TC(tp, sigchild_kill); 506 1.1 pgoyette ATF_TP_ADD_TC(tp, sigfpe_flt); 507 1.1 pgoyette ATF_TP_ADD_TC(tp, sigfpe_int); 508 1.1 pgoyette ATF_TP_ADD_TC(tp, sigsegv); 509 1.15 jym ATF_TP_ADD_TC(tp, sigbus_adraln); 510 1.1 pgoyette 511 1.1 pgoyette return atf_no_error(); 512 1.1 pgoyette } 513
Indexes created Thu Oct 02 14:10:14 GMT 2025