/* * Copyright (C) 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include <gtest/gtest.h> #include <setjmp.h> #include <stdlib.h> TEST(setjmp, setjmp_smoke) { int value; jmp_buf jb; if ((value = setjmp(jb)) == 0) { longjmp(jb, 123); FAIL(); // Unreachable. } else { ASSERT_EQ(123, value); } } TEST(setjmp, _setjmp_smoke) { int value; jmp_buf jb; if ((value = _setjmp(jb)) == 0) { _longjmp(jb, 456); FAIL(); // Unreachable. } else { ASSERT_EQ(456, value); } } TEST(setjmp, sigsetjmp_0_smoke) { int value; sigjmp_buf jb; if ((value = sigsetjmp(jb, 0)) == 0) { siglongjmp(jb, 789); FAIL(); // Unreachable. } else { ASSERT_EQ(789, value); } } TEST(setjmp, sigsetjmp_1_smoke) { int value; sigjmp_buf jb; if ((value = sigsetjmp(jb, 0)) == 0) { siglongjmp(jb, 0xabc); FAIL(); // Unreachable. } else { ASSERT_EQ(0xabc, value); } } // Two distinct signal sets, pipu struct SigSets { SigSets() : one(MakeSigSet(0)), two(MakeSigSet(1)) { } static sigset_t MakeSigSet(int offset) { sigset_t ss; sigemptyset(&ss); sigaddset(&ss, SIGUSR1 + offset); #if defined(__LP64__) // For arm and x86, sigset_t was too small for the RT signals. // For mips, sigset_t was large enough but jmp_buf wasn't. sigaddset(&ss, SIGRTMIN + offset); #endif return ss; } sigset_t one; sigset_t two; sigset_t original; }; void AssertSigmaskEquals(const sigset_t& expected) { sigset_t actual; sigprocmask(0 /* ignored */, NULL, &actual); size_t end = sizeof(sigset_t) * 8; for (size_t i = 1; i <= end; ++i) { EXPECT_EQ(sigismember(&expected, i), sigismember(&actual, i)) << i; } } TEST(setjmp, _setjmp_signal_mask) { // _setjmp/_longjmp do not save/restore the signal mask. SigSets ss; sigprocmask(SIG_SETMASK, &ss.one, &ss.original); jmp_buf jb; if (_setjmp(jb) == 0) { sigprocmask(SIG_SETMASK, &ss.two, NULL); _longjmp(jb, 1); FAIL(); // Unreachable. } else { AssertSigmaskEquals(ss.two); } sigprocmask(SIG_SETMASK, &ss.original, NULL); } TEST(setjmp, setjmp_signal_mask) { // setjmp/longjmp do save/restore the signal mask on bionic, but not on glibc. // This is a BSD versus System V historical accident. POSIX leaves the // behavior unspecified, so any code that cares needs to use sigsetjmp. SigSets ss; sigprocmask(SIG_SETMASK, &ss.one, &ss.original); jmp_buf jb; if (setjmp(jb) == 0) { sigprocmask(SIG_SETMASK, &ss.two, NULL); longjmp(jb, 1); FAIL(); // Unreachable. } else { #if defined(__BIONIC__) // bionic behaves like BSD and does save/restore the signal mask. AssertSigmaskEquals(ss.one); #else // glibc behaves like System V and doesn't save/restore the signal mask. AssertSigmaskEquals(ss.two); #endif } sigprocmask(SIG_SETMASK, &ss.original, NULL); } TEST(setjmp, sigsetjmp_0_signal_mask) { // sigsetjmp(0)/siglongjmp do not save/restore the signal mask. SigSets ss; sigprocmask(SIG_SETMASK, &ss.one, &ss.original); sigjmp_buf sjb; if (sigsetjmp(sjb, 0) == 0) { sigprocmask(SIG_SETMASK, &ss.two, NULL); siglongjmp(sjb, 1); FAIL(); // Unreachable. } else { AssertSigmaskEquals(ss.two); } sigprocmask(SIG_SETMASK, &ss.original, NULL); } TEST(setjmp, sigsetjmp_1_signal_mask) { // sigsetjmp(1)/siglongjmp does save/restore the signal mask. SigSets ss; sigprocmask(SIG_SETMASK, &ss.one, &ss.original); sigjmp_buf sjb; if (sigsetjmp(sjb, 1) == 0) { sigprocmask(SIG_SETMASK, &ss.two, NULL); siglongjmp(sjb, 1); FAIL(); // Unreachable. } else { AssertSigmaskEquals(ss.one); } sigprocmask(SIG_SETMASK, &ss.original, NULL); } #if defined(__aarch64__) #define SET_FREG(n, v) asm volatile("fmov d"#n ", "#v : : : "d"#n) #define CLEAR_FREG(n) asm volatile("fmov d"#n ", xzr" : : : "d"#n) #define SET_FREGS \ SET_FREG(8, 8.0); SET_FREG(9, 9.0); SET_FREG(10, 10.0); SET_FREG(11, 11.0); \ SET_FREG(12, 12.0); SET_FREG(13, 13.0); SET_FREG(14, 14.0); SET_FREG(15, 15.0); #define CLEAR_FREGS \ CLEAR_FREG(8); CLEAR_FREG(9); CLEAR_FREG(10); CLEAR_FREG(11); \ CLEAR_FREG(12); CLEAR_FREG(13); CLEAR_FREG(14); CLEAR_FREG(15); #define GET_FREG(n) ({ double _r; asm volatile("fmov %0, d"#n : "=r"(_r) : :); _r; }) #define CHECK_FREGS \ EXPECT_EQ(8.0, GET_FREG(8)); EXPECT_EQ(9.0, GET_FREG(9)); \ EXPECT_EQ(10.0, GET_FREG(10)); EXPECT_EQ(11.0, GET_FREG(11)); \ EXPECT_EQ(12.0, GET_FREG(12)); EXPECT_EQ(13.0, GET_FREG(13)); \ EXPECT_EQ(14.0, GET_FREG(14)); EXPECT_EQ(15.0, GET_FREG(15)); #elif defined(__arm__) #define SET_FREG(n, v) \ ({ const double _v{v}; asm volatile("fcpyd d"#n ", %P0" : : "w"(_v) : "d"#n); }) #define SET_FREGS \ SET_FREG(8, 8); SET_FREG(9, 9); SET_FREG(10, 10); SET_FREG(11, 11); \ SET_FREG(12, 12); SET_FREG(13, 13); SET_FREG(14, 14); SET_FREG(15, 15); #define CLEAR_FREGS \ SET_FREG(8, 0); SET_FREG(9, 0); SET_FREG(10, 0); SET_FREG(11, 0); \ SET_FREG(12, 0); SET_FREG(13, 0); SET_FREG(14, 0); SET_FREG(15, 0); #define GET_FREG(n) ({ double _r; asm volatile("fcpyd %P0, d"#n : "=w"(_r) : :); _r;}) #define CHECK_FREGS \ EXPECT_EQ(8.0, GET_FREG(8)); EXPECT_EQ(9.0, GET_FREG(9)); \ EXPECT_EQ(10.0, GET_FREG(10)); EXPECT_EQ(11.0, GET_FREG(11)); \ EXPECT_EQ(12.0, GET_FREG(12)); EXPECT_EQ(13.0, GET_FREG(13)); \ EXPECT_EQ(14.0, GET_FREG(14)); EXPECT_EQ(15.0, GET_FREG(15)); #else /* The other architectures don't save/restore fp registers. */ #define SET_FREGS #define CLEAR_FREGS #define CHECK_FREGS #endif TEST(setjmp, setjmp_fp_registers) { int value; jmp_buf jb; SET_FREGS; if ((value = setjmp(jb)) == 0) { CLEAR_FREGS; longjmp(jb, 123); FAIL(); // Unreachable. } else { ASSERT_EQ(123, value); CHECK_FREGS; } } #if defined(__arm__) #define __JB_SIGFLAG 0 #elif defined(__aarch64__) #define __JB_SIGFLAG 0 #elif defined(__i386__) #define __JB_SIGFLAG 7 #elif defined(__x86_64) #define __JB_SIGFLAG 8 #elif defined(__mips__) && defined(__LP64__) #define __JB_SIGFLAG 1 #elif defined(__mips__) #define __JB_SIGFLAG 2 #endif TEST(setjmp, setjmp_cookie) { jmp_buf jb; int value = setjmp(jb); ASSERT_EQ(0, value); #if defined(__mips__) && !defined(__LP64__) // round address to 8-byte boundry uintptr_t jb_aligned = reinterpret_cast<uintptr_t>(jb) & ~7L; long* sigflag = reinterpret_cast<long*>(jb_aligned) + __JB_SIGFLAG; #else long* sigflag = reinterpret_cast<long*>(jb) + __JB_SIGFLAG; #endif // Make sure there's actually a cookie. EXPECT_NE(0, *sigflag & ~1); // Wipe it out *sigflag &= 1; EXPECT_DEATH(longjmp(jb, 0), ""); } TEST(setjmp, setjmp_cookie_checksum) { jmp_buf jb; int value = setjmp(jb); if (value == 0) { // Flip a bit. reinterpret_cast<long*>(jb)[0] ^= 1; EXPECT_DEATH(longjmp(jb, 1), "checksum mismatch"); } else { fprintf(stderr, "setjmp_cookie_checksum: longjmp succeeded?"); } }