//===-- asan_interceptors.cc ----------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file is a part of AddressSanitizer, an address sanity checker. // // Intercept various libc functions. //===----------------------------------------------------------------------===// #include "asan_interceptors.h" #include "asan_allocator.h" #include "asan_intercepted_functions.h" #include "asan_internal.h" #include "asan_mapping.h" #include "asan_poisoning.h" #include "asan_report.h" #include "asan_stack.h" #include "asan_stats.h" #include "interception/interception.h" #include "sanitizer_common/sanitizer_libc.h" namespace __asan { // Return true if we can quickly decide that the region is unpoisoned. static inline bool QuickCheckForUnpoisonedRegion(uptr beg, uptr size) { if (size == 0) return true; if (size <= 32) return !AddressIsPoisoned(beg) && !AddressIsPoisoned(beg + size - 1) && !AddressIsPoisoned(beg + size / 2); return false; } // We implement ACCESS_MEMORY_RANGE, ASAN_READ_RANGE, // and ASAN_WRITE_RANGE as macro instead of function so // that no extra frames are created, and stack trace contains // relevant information only. // We check all shadow bytes. #define ACCESS_MEMORY_RANGE(offset, size, isWrite) do { \ uptr __offset = (uptr)(offset); \ uptr __size = (uptr)(size); \ uptr __bad = 0; \ if (!QuickCheckForUnpoisonedRegion(__offset, __size) && \ (__bad = __asan_region_is_poisoned(__offset, __size))) { \ GET_CURRENT_PC_BP_SP; \ __asan_report_error(pc, bp, sp, __bad, isWrite, __size); \ } \ } while (0) #define ASAN_READ_RANGE(offset, size) ACCESS_MEMORY_RANGE(offset, size, false) #define ASAN_WRITE_RANGE(offset, size) ACCESS_MEMORY_RANGE(offset, size, true) // Behavior of functions like "memcpy" or "strcpy" is undefined // if memory intervals overlap. We report error in this case. // Macro is used to avoid creation of new frames. static inline bool RangesOverlap(const char *offset1, uptr length1, const char *offset2, uptr length2) { return !((offset1 + length1 <= offset2) || (offset2 + length2 <= offset1)); } #define CHECK_RANGES_OVERLAP(name, _offset1, length1, _offset2, length2) do { \ const char *offset1 = (const char*)_offset1; \ const char *offset2 = (const char*)_offset2; \ if (RangesOverlap(offset1, length1, offset2, length2)) { \ GET_STACK_TRACE_FATAL_HERE; \ ReportStringFunctionMemoryRangesOverlap(name, offset1, length1, \ offset2, length2, &stack); \ } \ } while (0) #define ENSURE_ASAN_INITED() do { \ CHECK(!asan_init_is_running); \ if (!asan_inited) { \ __asan_init(); \ } \ } while (0) static inline uptr MaybeRealStrnlen(const char *s, uptr maxlen) { #if ASAN_INTERCEPT_STRNLEN if (REAL(strnlen) != 0) { return REAL(strnlen)(s, maxlen); } #endif return internal_strnlen(s, maxlen); } void SetThreadName(const char *name) { AsanThread *t = GetCurrentThread(); if (t) asanThreadRegistry().SetThreadName(t->tid(), name); } } // namespace __asan // ---------------------- Wrappers ---------------- {{{1 using namespace __asan; // NOLINT DECLARE_REAL_AND_INTERCEPTOR(void *, malloc, uptr) DECLARE_REAL_AND_INTERCEPTOR(void, free, void *) #define COMMON_INTERCEPTOR_UNPOISON_PARAM(ctx, count) \ do { \ } while (false) #define COMMON_INTERCEPTOR_WRITE_RANGE(ctx, ptr, size) \ ASAN_WRITE_RANGE(ptr, size) #define COMMON_INTERCEPTOR_READ_RANGE(ctx, ptr, size) ASAN_READ_RANGE(ptr, size) #define COMMON_INTERCEPTOR_ENTER(ctx, func, ...) \ do { \ if (asan_init_is_running) return REAL(func)(__VA_ARGS__); \ ctx = 0; \ (void) ctx; \ ENSURE_ASAN_INITED(); \ } while (false) #define COMMON_INTERCEPTOR_FD_ACQUIRE(ctx, fd) \ do { \ } while (false) #define COMMON_INTERCEPTOR_FD_RELEASE(ctx, fd) \ do { \ } while (false) #define COMMON_INTERCEPTOR_FD_SOCKET_ACCEPT(ctx, fd, newfd) \ do { \ } while (false) #define COMMON_INTERCEPTOR_SET_THREAD_NAME(ctx, name) SetThreadName(name) #include "sanitizer_common/sanitizer_common_interceptors.inc" #define COMMON_SYSCALL_PRE_READ_RANGE(p, s) ASAN_READ_RANGE(p, s) #define COMMON_SYSCALL_PRE_WRITE_RANGE(p, s) ASAN_WRITE_RANGE(p, s) #define COMMON_SYSCALL_POST_READ_RANGE(p, s) \ do { \ } while (false) #define COMMON_SYSCALL_POST_WRITE_RANGE(p, s) \ do { \ } while (false) #include "sanitizer_common/sanitizer_common_syscalls.inc" static thread_return_t THREAD_CALLING_CONV asan_thread_start(void *arg) { AsanThread *t = (AsanThread*)arg; SetCurrentThread(t); return t->ThreadStart(GetTid()); } #if ASAN_INTERCEPT_PTHREAD_CREATE extern "C" int pthread_attr_getdetachstate(void *attr, int *v); INTERCEPTOR(int, pthread_create, void *thread, void *attr, void *(*start_routine)(void*), void *arg) { EnsureMainThreadIDIsCorrect(); // Strict init-order checking in thread-hostile. if (flags()->strict_init_order) StopInitOrderChecking(); GET_STACK_TRACE_THREAD; int detached = 0; if (attr != 0) pthread_attr_getdetachstate(attr, &detached); u32 current_tid = GetCurrentTidOrInvalid(); AsanThread *t = AsanThread::Create(start_routine, arg); CreateThreadContextArgs args = { t, &stack }; asanThreadRegistry().CreateThread(*(uptr*)t, detached, current_tid, &args); return REAL(pthread_create)(thread, attr, asan_thread_start, t); } #endif // ASAN_INTERCEPT_PTHREAD_CREATE #if ASAN_INTERCEPT_SIGNAL_AND_SIGACTION INTERCEPTOR(void*, signal, int signum, void *handler) { if (!AsanInterceptsSignal(signum) || flags()->allow_user_segv_handler) { return REAL(signal)(signum, handler); } return 0; } INTERCEPTOR(int, sigaction, int signum, const struct sigaction *act, struct sigaction *oldact) { if (!AsanInterceptsSignal(signum) || flags()->allow_user_segv_handler) { return REAL(sigaction)(signum, act, oldact); } return 0; } #elif SANITIZER_POSIX // We need to have defined REAL(sigaction) on posix systems. DEFINE_REAL(int, sigaction, int signum, const struct sigaction *act, struct sigaction *oldact) #endif // ASAN_INTERCEPT_SIGNAL_AND_SIGACTION #if ASAN_INTERCEPT_SWAPCONTEXT static void ClearShadowMemoryForContextStack(uptr stack, uptr ssize) { // Align to page size. uptr PageSize = GetPageSizeCached(); uptr bottom = stack & ~(PageSize - 1); ssize += stack - bottom; ssize = RoundUpTo(ssize, PageSize); static const uptr kMaxSaneContextStackSize = 1 << 22; // 4 Mb if (ssize && ssize <= kMaxSaneContextStackSize) { PoisonShadow(bottom, ssize, 0); } } INTERCEPTOR(int, swapcontext, struct ucontext_t *oucp, struct ucontext_t *ucp) { static bool reported_warning = false; if (!reported_warning) { Report("WARNING: ASan doesn't fully support makecontext/swapcontext " "functions and may produce false positives in some cases!\n"); reported_warning = true; } // Clear shadow memory for new context (it may share stack // with current context). uptr stack, ssize; ReadContextStack(ucp, &stack, &ssize); ClearShadowMemoryForContextStack(stack, ssize); int res = REAL(swapcontext)(oucp, ucp); // swapcontext technically does not return, but program may swap context to // "oucp" later, that would look as if swapcontext() returned 0. // We need to clear shadow for ucp once again, as it may be in arbitrary // state. ClearShadowMemoryForContextStack(stack, ssize); return res; } #endif // ASAN_INTERCEPT_SWAPCONTEXT INTERCEPTOR(void, longjmp, void *env, int val) { __asan_handle_no_return(); REAL(longjmp)(env, val); } #if ASAN_INTERCEPT__LONGJMP INTERCEPTOR(void, _longjmp, void *env, int val) { __asan_handle_no_return(); REAL(_longjmp)(env, val); } #endif #if ASAN_INTERCEPT_SIGLONGJMP INTERCEPTOR(void, siglongjmp, void *env, int val) { __asan_handle_no_return(); REAL(siglongjmp)(env, val); } #endif #if ASAN_INTERCEPT___CXA_THROW INTERCEPTOR(void, __cxa_throw, void *a, void *b, void *c) { CHECK(REAL(__cxa_throw)); __asan_handle_no_return(); REAL(__cxa_throw)(a, b, c); } #endif // intercept mlock and friends. // Since asan maps 16T of RAM, mlock is completely unfriendly to asan. // All functions return 0 (success). static void MlockIsUnsupported() { static bool printed = false; if (printed) return; printed = true; if (flags()->verbosity > 0) { Printf("INFO: AddressSanitizer ignores " "mlock/mlockall/munlock/munlockall\n"); } } INTERCEPTOR(int, mlock, const void *addr, uptr len) { MlockIsUnsupported(); return 0; } INTERCEPTOR(int, munlock, const void *addr, uptr len) { MlockIsUnsupported(); return 0; } INTERCEPTOR(int, mlockall, int flags) { MlockIsUnsupported(); return 0; } INTERCEPTOR(int, munlockall, void) { MlockIsUnsupported(); return 0; } static inline int CharCmp(unsigned char c1, unsigned char c2) { return (c1 == c2) ? 0 : (c1 < c2) ? -1 : 1; } INTERCEPTOR(int, memcmp, const void *a1, const void *a2, uptr size) { if (!asan_inited) return internal_memcmp(a1, a2, size); ENSURE_ASAN_INITED(); if (flags()->replace_intrin) { if (flags()->strict_memcmp) { // Check the entire regions even if the first bytes of the buffers are // different. ASAN_READ_RANGE(a1, size); ASAN_READ_RANGE(a2, size); // Fallthrough to REAL(memcmp) below. } else { unsigned char c1 = 0, c2 = 0; const unsigned char *s1 = (const unsigned char*)a1; const unsigned char *s2 = (const unsigned char*)a2; uptr i; for (i = 0; i < size; i++) { c1 = s1[i]; c2 = s2[i]; if (c1 != c2) break; } ASAN_READ_RANGE(s1, Min(i + 1, size)); ASAN_READ_RANGE(s2, Min(i + 1, size)); return CharCmp(c1, c2); } } return REAL(memcmp(a1, a2, size)); } INTERCEPTOR(void*, memcpy, void *to, const void *from, uptr size) { if (!asan_inited) return internal_memcpy(to, from, size); // memcpy is called during __asan_init() from the internals // of printf(...). if (asan_init_is_running) { return REAL(memcpy)(to, from, size); } ENSURE_ASAN_INITED(); if (flags()->replace_intrin) { if (to != from) { // We do not treat memcpy with to==from as a bug. // See http://llvm.org/bugs/show_bug.cgi?id=11763. CHECK_RANGES_OVERLAP("memcpy", to, size, from, size); } ASAN_READ_RANGE(from, size); ASAN_WRITE_RANGE(to, size); } // Interposing of resolver functions is broken on Mac OS 10.7 and 10.8. // See also http://code.google.com/p/address-sanitizer/issues/detail?id=116. return internal_memcpy(to, from, size); } INTERCEPTOR(void*, memmove, void *to, const void *from, uptr size) { if (!asan_inited) return internal_memmove(to, from, size); if (asan_init_is_running) { return REAL(memmove)(to, from, size); } ENSURE_ASAN_INITED(); if (flags()->replace_intrin) { ASAN_READ_RANGE(from, size); ASAN_WRITE_RANGE(to, size); } // Interposing of resolver functions is broken on Mac OS 10.7 and 10.8. // See also http://code.google.com/p/address-sanitizer/issues/detail?id=116. return internal_memmove(to, from, size); } INTERCEPTOR(void*, memset, void *block, int c, uptr size) { if (!asan_inited) return internal_memset(block, c, size); // memset is called inside Printf. if (asan_init_is_running) { return REAL(memset)(block, c, size); } ENSURE_ASAN_INITED(); if (flags()->replace_intrin) { ASAN_WRITE_RANGE(block, size); } return REAL(memset)(block, c, size); } INTERCEPTOR(char*, strchr, const char *str, int c) { if (!asan_inited) return internal_strchr(str, c); // strchr is called inside create_purgeable_zone() when MallocGuardEdges=1 is // used. if (asan_init_is_running) { return REAL(strchr)(str, c); } ENSURE_ASAN_INITED(); char *result = REAL(strchr)(str, c); if (flags()->replace_str) { uptr bytes_read = (result ? result - str : REAL(strlen)(str)) + 1; ASAN_READ_RANGE(str, bytes_read); } return result; } #if ASAN_INTERCEPT_INDEX # if ASAN_USE_ALIAS_ATTRIBUTE_FOR_INDEX INTERCEPTOR(char*, index, const char *string, int c) ALIAS(WRAPPER_NAME(strchr)); # else # if SANITIZER_MAC DECLARE_REAL(char*, index, const char *string, int c) OVERRIDE_FUNCTION(index, strchr); # else DEFINE_REAL(char*, index, const char *string, int c) # endif # endif #endif // ASAN_INTERCEPT_INDEX // For both strcat() and strncat() we need to check the validity of |to| // argument irrespective of the |from| length. INTERCEPTOR(char*, strcat, char *to, const char *from) { // NOLINT ENSURE_ASAN_INITED(); if (flags()->replace_str) { uptr from_length = REAL(strlen)(from); ASAN_READ_RANGE(from, from_length + 1); uptr to_length = REAL(strlen)(to); ASAN_READ_RANGE(to, to_length); ASAN_WRITE_RANGE(to + to_length, from_length + 1); // If the copying actually happens, the |from| string should not overlap // with the resulting string starting at |to|, which has a length of // to_length + from_length + 1. if (from_length > 0) { CHECK_RANGES_OVERLAP("strcat", to, from_length + to_length + 1, from, from_length + 1); } } return REAL(strcat)(to, from); // NOLINT } INTERCEPTOR(char*, strncat, char *to, const char *from, uptr size) { ENSURE_ASAN_INITED(); if (flags()->replace_str) { uptr from_length = MaybeRealStrnlen(from, size); uptr copy_length = Min(size, from_length + 1); ASAN_READ_RANGE(from, copy_length); uptr to_length = REAL(strlen)(to); ASAN_READ_RANGE(to, to_length); ASAN_WRITE_RANGE(to + to_length, from_length + 1); if (from_length > 0) { CHECK_RANGES_OVERLAP("strncat", to, to_length + copy_length + 1, from, copy_length); } } return REAL(strncat)(to, from, size); } INTERCEPTOR(char*, strcpy, char *to, const char *from) { // NOLINT #if SANITIZER_MAC if (!asan_inited) return REAL(strcpy)(to, from); // NOLINT #endif // strcpy is called from malloc_default_purgeable_zone() // in __asan::ReplaceSystemAlloc() on Mac. if (asan_init_is_running) { return REAL(strcpy)(to, from); // NOLINT } ENSURE_ASAN_INITED(); if (flags()->replace_str) { uptr from_size = REAL(strlen)(from) + 1; CHECK_RANGES_OVERLAP("strcpy", to, from_size, from, from_size); ASAN_READ_RANGE(from, from_size); ASAN_WRITE_RANGE(to, from_size); } return REAL(strcpy)(to, from); // NOLINT } #if ASAN_INTERCEPT_STRDUP INTERCEPTOR(char*, strdup, const char *s) { if (!asan_inited) return internal_strdup(s); ENSURE_ASAN_INITED(); uptr length = REAL(strlen)(s); if (flags()->replace_str) { ASAN_READ_RANGE(s, length + 1); } GET_STACK_TRACE_MALLOC; void *new_mem = asan_malloc(length + 1, &stack); REAL(memcpy)(new_mem, s, length + 1); return reinterpret_cast<char*>(new_mem); } #endif INTERCEPTOR(uptr, strlen, const char *s) { if (!asan_inited) return internal_strlen(s); // strlen is called from malloc_default_purgeable_zone() // in __asan::ReplaceSystemAlloc() on Mac. if (asan_init_is_running) { return REAL(strlen)(s); } ENSURE_ASAN_INITED(); uptr length = REAL(strlen)(s); if (flags()->replace_str) { ASAN_READ_RANGE(s, length + 1); } return length; } INTERCEPTOR(char*, strncpy, char *to, const char *from, uptr size) { ENSURE_ASAN_INITED(); if (flags()->replace_str) { uptr from_size = Min(size, MaybeRealStrnlen(from, size) + 1); CHECK_RANGES_OVERLAP("strncpy", to, from_size, from, from_size); ASAN_READ_RANGE(from, from_size); ASAN_WRITE_RANGE(to, size); } return REAL(strncpy)(to, from, size); } #if ASAN_INTERCEPT_STRNLEN INTERCEPTOR(uptr, strnlen, const char *s, uptr maxlen) { ENSURE_ASAN_INITED(); uptr length = REAL(strnlen)(s, maxlen); if (flags()->replace_str) { ASAN_READ_RANGE(s, Min(length + 1, maxlen)); } return length; } #endif // ASAN_INTERCEPT_STRNLEN static inline bool IsValidStrtolBase(int base) { return (base == 0) || (2 <= base && base <= 36); } static inline void FixRealStrtolEndptr(const char *nptr, char **endptr) { CHECK(endptr); if (nptr == *endptr) { // No digits were found at strtol call, we need to find out the last // symbol accessed by strtoll on our own. // We get this symbol by skipping leading blanks and optional +/- sign. while (IsSpace(*nptr)) nptr++; if (*nptr == '+' || *nptr == '-') nptr++; *endptr = (char*)nptr; } CHECK(*endptr >= nptr); } INTERCEPTOR(long, strtol, const char *nptr, // NOLINT char **endptr, int base) { ENSURE_ASAN_INITED(); if (!flags()->replace_str) { return REAL(strtol)(nptr, endptr, base); } char *real_endptr; long result = REAL(strtol)(nptr, &real_endptr, base); // NOLINT if (endptr != 0) { *endptr = real_endptr; } if (IsValidStrtolBase(base)) { FixRealStrtolEndptr(nptr, &real_endptr); ASAN_READ_RANGE(nptr, (real_endptr - nptr) + 1); } return result; } INTERCEPTOR(int, atoi, const char *nptr) { #if SANITIZER_MAC if (!asan_inited) return REAL(atoi)(nptr); #endif ENSURE_ASAN_INITED(); if (!flags()->replace_str) { return REAL(atoi)(nptr); } char *real_endptr; // "man atoi" tells that behavior of atoi(nptr) is the same as // strtol(nptr, 0, 10), i.e. it sets errno to ERANGE if the // parsed integer can't be stored in *long* type (even if it's // different from int). So, we just imitate this behavior. int result = REAL(strtol)(nptr, &real_endptr, 10); FixRealStrtolEndptr(nptr, &real_endptr); ASAN_READ_RANGE(nptr, (real_endptr - nptr) + 1); return result; } INTERCEPTOR(long, atol, const char *nptr) { // NOLINT #if SANITIZER_MAC if (!asan_inited) return REAL(atol)(nptr); #endif ENSURE_ASAN_INITED(); if (!flags()->replace_str) { return REAL(atol)(nptr); } char *real_endptr; long result = REAL(strtol)(nptr, &real_endptr, 10); // NOLINT FixRealStrtolEndptr(nptr, &real_endptr); ASAN_READ_RANGE(nptr, (real_endptr - nptr) + 1); return result; } #if ASAN_INTERCEPT_ATOLL_AND_STRTOLL INTERCEPTOR(long long, strtoll, const char *nptr, // NOLINT char **endptr, int base) { ENSURE_ASAN_INITED(); if (!flags()->replace_str) { return REAL(strtoll)(nptr, endptr, base); } char *real_endptr; long long result = REAL(strtoll)(nptr, &real_endptr, base); // NOLINT if (endptr != 0) { *endptr = real_endptr; } // If base has unsupported value, strtoll can exit with EINVAL // without reading any characters. So do additional checks only // if base is valid. if (IsValidStrtolBase(base)) { FixRealStrtolEndptr(nptr, &real_endptr); ASAN_READ_RANGE(nptr, (real_endptr - nptr) + 1); } return result; } INTERCEPTOR(long long, atoll, const char *nptr) { // NOLINT ENSURE_ASAN_INITED(); if (!flags()->replace_str) { return REAL(atoll)(nptr); } char *real_endptr; long long result = REAL(strtoll)(nptr, &real_endptr, 10); // NOLINT FixRealStrtolEndptr(nptr, &real_endptr); ASAN_READ_RANGE(nptr, (real_endptr - nptr) + 1); return result; } #endif // ASAN_INTERCEPT_ATOLL_AND_STRTOLL static void AtCxaAtexit(void *unused) { (void)unused; StopInitOrderChecking(); } #if ASAN_INTERCEPT___CXA_ATEXIT INTERCEPTOR(int, __cxa_atexit, void (*func)(void *), void *arg, void *dso_handle) { ENSURE_ASAN_INITED(); int res = REAL(__cxa_atexit)(func, arg, dso_handle); REAL(__cxa_atexit)(AtCxaAtexit, 0, 0); return res; } #endif // ASAN_INTERCEPT___CXA_ATEXIT #if !SANITIZER_MAC #define ASAN_INTERCEPT_FUNC(name) do { \ if (!INTERCEPT_FUNCTION(name) && flags()->verbosity > 0) \ Report("AddressSanitizer: failed to intercept '" #name "'\n"); \ } while (0) #else // OS X interceptors don't need to be initialized with INTERCEPT_FUNCTION. #define ASAN_INTERCEPT_FUNC(name) #endif // SANITIZER_MAC #if SANITIZER_WINDOWS INTERCEPTOR_WINAPI(DWORD, CreateThread, void* security, uptr stack_size, DWORD (__stdcall *start_routine)(void*), void* arg, DWORD thr_flags, void* tid) { // Strict init-order checking in thread-hostile. if (flags()->strict_init_order) StopInitOrderChecking(); GET_STACK_TRACE_THREAD; u32 current_tid = GetCurrentTidOrInvalid(); AsanThread *t = AsanThread::Create(start_routine, arg); CreateThreadContextArgs args = { t, &stack }; bool detached = false; // FIXME: how can we determine it on Windows? asanThreadRegistry().CreateThread(*(uptr*)t, detached, current_tid, &args); return REAL(CreateThread)(security, stack_size, asan_thread_start, t, thr_flags, tid); } namespace __asan { void InitializeWindowsInterceptors() { ASAN_INTERCEPT_FUNC(CreateThread); } } // namespace __asan #endif // ---------------------- InitializeAsanInterceptors ---------------- {{{1 namespace __asan { void InitializeAsanInterceptors() { static bool was_called_once; CHECK(was_called_once == false); was_called_once = true; SANITIZER_COMMON_INTERCEPTORS_INIT; // Intercept mem* functions. ASAN_INTERCEPT_FUNC(memcmp); ASAN_INTERCEPT_FUNC(memmove); ASAN_INTERCEPT_FUNC(memset); if (PLATFORM_HAS_DIFFERENT_MEMCPY_AND_MEMMOVE) { ASAN_INTERCEPT_FUNC(memcpy); } // Intercept str* functions. ASAN_INTERCEPT_FUNC(strcat); // NOLINT ASAN_INTERCEPT_FUNC(strchr); ASAN_INTERCEPT_FUNC(strcpy); // NOLINT ASAN_INTERCEPT_FUNC(strlen); ASAN_INTERCEPT_FUNC(strncat); ASAN_INTERCEPT_FUNC(strncpy); #if ASAN_INTERCEPT_STRDUP ASAN_INTERCEPT_FUNC(strdup); #endif #if ASAN_INTERCEPT_STRNLEN ASAN_INTERCEPT_FUNC(strnlen); #endif #if ASAN_INTERCEPT_INDEX && ASAN_USE_ALIAS_ATTRIBUTE_FOR_INDEX ASAN_INTERCEPT_FUNC(index); #endif ASAN_INTERCEPT_FUNC(atoi); ASAN_INTERCEPT_FUNC(atol); ASAN_INTERCEPT_FUNC(strtol); #if ASAN_INTERCEPT_ATOLL_AND_STRTOLL ASAN_INTERCEPT_FUNC(atoll); ASAN_INTERCEPT_FUNC(strtoll); #endif #if ASAN_INTERCEPT_MLOCKX // Intercept mlock/munlock. ASAN_INTERCEPT_FUNC(mlock); ASAN_INTERCEPT_FUNC(munlock); ASAN_INTERCEPT_FUNC(mlockall); ASAN_INTERCEPT_FUNC(munlockall); #endif // Intecept signal- and jump-related functions. ASAN_INTERCEPT_FUNC(longjmp); #if ASAN_INTERCEPT_SIGNAL_AND_SIGACTION ASAN_INTERCEPT_FUNC(sigaction); ASAN_INTERCEPT_FUNC(signal); #endif #if ASAN_INTERCEPT_SWAPCONTEXT ASAN_INTERCEPT_FUNC(swapcontext); #endif #if ASAN_INTERCEPT__LONGJMP ASAN_INTERCEPT_FUNC(_longjmp); #endif #if ASAN_INTERCEPT_SIGLONGJMP ASAN_INTERCEPT_FUNC(siglongjmp); #endif // Intercept exception handling functions. #if ASAN_INTERCEPT___CXA_THROW INTERCEPT_FUNCTION(__cxa_throw); #endif // Intercept threading-related functions #if ASAN_INTERCEPT_PTHREAD_CREATE ASAN_INTERCEPT_FUNC(pthread_create); #endif // Intercept atexit function. #if ASAN_INTERCEPT___CXA_ATEXIT ASAN_INTERCEPT_FUNC(__cxa_atexit); #endif // Some Windows-specific interceptors. #if SANITIZER_WINDOWS InitializeWindowsInterceptors(); #endif if (flags()->verbosity > 0) { Report("AddressSanitizer: libc interceptors initialized\n"); } } } // namespace __asan