//===-- msan_interceptors.cpp ---------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file is a part of MemorySanitizer. // // Interceptors for standard library functions. // // FIXME: move as many interceptors as possible into // sanitizer_common/sanitizer_common_interceptors.h //===----------------------------------------------------------------------===// #include "interception/interception.h" #include "msan.h" #include "msan_chained_origin_depot.h" #include "msan_origin.h" #include "msan_report.h" #include "msan_thread.h" #include "msan_poisoning.h" #include "sanitizer_common/sanitizer_platform_limits_posix.h" #include "sanitizer_common/sanitizer_platform_limits_netbsd.h" #include "sanitizer_common/sanitizer_allocator.h" #include "sanitizer_common/sanitizer_allocator_interface.h" #include "sanitizer_common/sanitizer_allocator_internal.h" #include "sanitizer_common/sanitizer_atomic.h" #include "sanitizer_common/sanitizer_common.h" #include "sanitizer_common/sanitizer_errno.h" #include "sanitizer_common/sanitizer_stackdepot.h" #include "sanitizer_common/sanitizer_libc.h" #include "sanitizer_common/sanitizer_linux.h" #include "sanitizer_common/sanitizer_tls_get_addr.h" #include "sanitizer_common/sanitizer_vector.h" #if SANITIZER_NETBSD #define fstat __fstat50 #define gettimeofday __gettimeofday50 #define getrusage __getrusage50 #define tzset __tzset50 #endif #include // ACHTUNG! No other system header includes in this file. // Ideally, we should get rid of stdarg.h as well. using namespace __msan; using __sanitizer::memory_order; using __sanitizer::atomic_load; using __sanitizer::atomic_store; using __sanitizer::atomic_uintptr_t; DECLARE_REAL(SIZE_T, strlen, const char *s) DECLARE_REAL(SIZE_T, strnlen, const char *s, SIZE_T maxlen) DECLARE_REAL(void *, memcpy, void *dest, const void *src, uptr n) DECLARE_REAL(void *, memset, void *dest, int c, uptr n) // True if this is a nested interceptor. static THREADLOCAL int in_interceptor_scope; void __msan_scoped_disable_interceptor_checks() { ++in_interceptor_scope; } void __msan_scoped_enable_interceptor_checks() { --in_interceptor_scope; } struct InterceptorScope { InterceptorScope() { ++in_interceptor_scope; } ~InterceptorScope() { --in_interceptor_scope; } }; bool IsInInterceptorScope() { return in_interceptor_scope; } static uptr allocated_for_dlsym; static const uptr kDlsymAllocPoolSize = 1024; static uptr alloc_memory_for_dlsym[kDlsymAllocPoolSize]; static bool IsInDlsymAllocPool(const void *ptr) { uptr off = (uptr)ptr - (uptr)alloc_memory_for_dlsym; return off < sizeof(alloc_memory_for_dlsym); } static void *AllocateFromLocalPool(uptr size_in_bytes) { uptr size_in_words = RoundUpTo(size_in_bytes, kWordSize) / kWordSize; void *mem = (void *)&alloc_memory_for_dlsym[allocated_for_dlsym]; allocated_for_dlsym += size_in_words; CHECK_LT(allocated_for_dlsym, kDlsymAllocPoolSize); return mem; } #define ENSURE_MSAN_INITED() do { \ CHECK(!msan_init_is_running); \ if (!msan_inited) { \ __msan_init(); \ } \ } while (0) // Check that [x, x+n) range is unpoisoned. #define CHECK_UNPOISONED_0(x, n) \ do { \ sptr __offset = __msan_test_shadow(x, n); \ if (__msan::IsInSymbolizer()) break; \ if (__offset >= 0 && __msan::flags()->report_umrs) { \ GET_CALLER_PC_BP_SP; \ (void)sp; \ ReportUMRInsideAddressRange(__func__, x, n, __offset); \ __msan::PrintWarningWithOrigin( \ pc, bp, __msan_get_origin((const char *)x + __offset)); \ if (__msan::flags()->halt_on_error) { \ Printf("Exiting\n"); \ Die(); \ } \ } \ } while (0) // Check that [x, x+n) range is unpoisoned unless we are in a nested // interceptor. #define CHECK_UNPOISONED(x, n) \ do { \ if (!IsInInterceptorScope()) CHECK_UNPOISONED_0(x, n); \ } while (0) #define CHECK_UNPOISONED_STRING_OF_LEN(x, len, n) \ CHECK_UNPOISONED((x), \ common_flags()->strict_string_checks ? (len) + 1 : (n) ) #define CHECK_UNPOISONED_STRING(x, n) \ CHECK_UNPOISONED_STRING_OF_LEN((x), internal_strlen(x), (n)) #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(SIZE_T, fread_unlocked, void *ptr, SIZE_T size, SIZE_T nmemb, void *file) { ENSURE_MSAN_INITED(); SIZE_T res = REAL(fread_unlocked)(ptr, size, nmemb, file); if (res > 0) __msan_unpoison(ptr, res *size); return res; } #define MSAN_MAYBE_INTERCEPT_FREAD_UNLOCKED INTERCEPT_FUNCTION(fread_unlocked) #else #define MSAN_MAYBE_INTERCEPT_FREAD_UNLOCKED #endif #if !SANITIZER_NETBSD INTERCEPTOR(void *, mempcpy, void *dest, const void *src, SIZE_T n) { return (char *)__msan_memcpy(dest, src, n) + n; } #define MSAN_MAYBE_INTERCEPT_MEMPCPY INTERCEPT_FUNCTION(mempcpy) #else #define MSAN_MAYBE_INTERCEPT_MEMPCPY #endif INTERCEPTOR(void *, memccpy, void *dest, const void *src, int c, SIZE_T n) { ENSURE_MSAN_INITED(); void *res = REAL(memccpy)(dest, src, c, n); CHECK(!res || (res >= dest && res <= (char *)dest + n)); SIZE_T sz = res ? (char *)res - (char *)dest : n; CHECK_UNPOISONED(src, sz); __msan_unpoison(dest, sz); return res; } INTERCEPTOR(void *, bcopy, const void *src, void *dest, SIZE_T n) { return __msan_memmove(dest, src, n); } INTERCEPTOR(int, posix_memalign, void **memptr, SIZE_T alignment, SIZE_T size) { GET_MALLOC_STACK_TRACE; CHECK_NE(memptr, 0); int res = msan_posix_memalign(memptr, alignment, size, &stack); if (!res) __msan_unpoison(memptr, sizeof(*memptr)); return res; } #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(void *, memalign, SIZE_T alignment, SIZE_T size) { GET_MALLOC_STACK_TRACE; return msan_memalign(alignment, size, &stack); } #define MSAN_MAYBE_INTERCEPT_MEMALIGN INTERCEPT_FUNCTION(memalign) #else #define MSAN_MAYBE_INTERCEPT_MEMALIGN #endif INTERCEPTOR(void *, aligned_alloc, SIZE_T alignment, SIZE_T size) { GET_MALLOC_STACK_TRACE; return msan_aligned_alloc(alignment, size, &stack); } #if !SANITIZER_NETBSD INTERCEPTOR(void *, __libc_memalign, SIZE_T alignment, SIZE_T size) { GET_MALLOC_STACK_TRACE; void *ptr = msan_memalign(alignment, size, &stack); if (ptr) DTLS_on_libc_memalign(ptr, size); return ptr; } #define MSAN_MAYBE_INTERCEPT___LIBC_MEMALIGN INTERCEPT_FUNCTION(__libc_memalign) #else #define MSAN_MAYBE_INTERCEPT___LIBC_MEMALIGN #endif INTERCEPTOR(void *, valloc, SIZE_T size) { GET_MALLOC_STACK_TRACE; return msan_valloc(size, &stack); } #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(void *, pvalloc, SIZE_T size) { GET_MALLOC_STACK_TRACE; return msan_pvalloc(size, &stack); } #define MSAN_MAYBE_INTERCEPT_PVALLOC INTERCEPT_FUNCTION(pvalloc) #else #define MSAN_MAYBE_INTERCEPT_PVALLOC #endif INTERCEPTOR(void, free, void *ptr) { GET_MALLOC_STACK_TRACE; if (!ptr || UNLIKELY(IsInDlsymAllocPool(ptr))) return; MsanDeallocate(&stack, ptr); } #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(void, cfree, void *ptr) { GET_MALLOC_STACK_TRACE; if (!ptr || UNLIKELY(IsInDlsymAllocPool(ptr))) return; MsanDeallocate(&stack, ptr); } #define MSAN_MAYBE_INTERCEPT_CFREE INTERCEPT_FUNCTION(cfree) #else #define MSAN_MAYBE_INTERCEPT_CFREE #endif #if !SANITIZER_NETBSD INTERCEPTOR(uptr, malloc_usable_size, void *ptr) { return __sanitizer_get_allocated_size(ptr); } #define MSAN_MAYBE_INTERCEPT_MALLOC_USABLE_SIZE \ INTERCEPT_FUNCTION(malloc_usable_size) #else #define MSAN_MAYBE_INTERCEPT_MALLOC_USABLE_SIZE #endif #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD // This function actually returns a struct by value, but we can't unpoison a // temporary! The following is equivalent on all supported platforms but // aarch64 (which uses a different register for sret value). We have a test // to confirm that. INTERCEPTOR(void, mallinfo, __sanitizer_struct_mallinfo *sret) { #ifdef __aarch64__ uptr r8; asm volatile("mov %0,x8" : "=r" (r8)); sret = reinterpret_cast<__sanitizer_struct_mallinfo*>(r8); #endif REAL(memset)(sret, 0, sizeof(*sret)); __msan_unpoison(sret, sizeof(*sret)); } #define MSAN_MAYBE_INTERCEPT_MALLINFO INTERCEPT_FUNCTION(mallinfo) #else #define MSAN_MAYBE_INTERCEPT_MALLINFO #endif #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(int, mallopt, int cmd, int value) { return 0; } #define MSAN_MAYBE_INTERCEPT_MALLOPT INTERCEPT_FUNCTION(mallopt) #else #define MSAN_MAYBE_INTERCEPT_MALLOPT #endif #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(void, malloc_stats, void) { // FIXME: implement, but don't call REAL(malloc_stats)! } #define MSAN_MAYBE_INTERCEPT_MALLOC_STATS INTERCEPT_FUNCTION(malloc_stats) #else #define MSAN_MAYBE_INTERCEPT_MALLOC_STATS #endif INTERCEPTOR(char *, strcpy, char *dest, const char *src) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; SIZE_T n = REAL(strlen)(src); CHECK_UNPOISONED_STRING(src + n, 0); char *res = REAL(strcpy)(dest, src); CopyShadowAndOrigin(dest, src, n + 1, &stack); return res; } INTERCEPTOR(char *, strncpy, char *dest, const char *src, SIZE_T n) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; SIZE_T copy_size = REAL(strnlen)(src, n); if (copy_size < n) copy_size++; // trailing \0 char *res = REAL(strncpy)(dest, src, n); CopyShadowAndOrigin(dest, src, copy_size, &stack); __msan_unpoison(dest + copy_size, n - copy_size); return res; } #if !SANITIZER_NETBSD INTERCEPTOR(char *, stpcpy, char *dest, const char *src) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; SIZE_T n = REAL(strlen)(src); CHECK_UNPOISONED_STRING(src + n, 0); char *res = REAL(stpcpy)(dest, src); CopyShadowAndOrigin(dest, src, n + 1, &stack); return res; } #define MSAN_MAYBE_INTERCEPT_STPCPY INTERCEPT_FUNCTION(stpcpy) #else #define MSAN_MAYBE_INTERCEPT_STPCPY #endif INTERCEPTOR(char *, strdup, char *src) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; // On FreeBSD strdup() leverages strlen(). InterceptorScope interceptor_scope; SIZE_T n = REAL(strlen)(src); CHECK_UNPOISONED_STRING(src + n, 0); char *res = REAL(strdup)(src); CopyShadowAndOrigin(res, src, n + 1, &stack); return res; } #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(char *, __strdup, char *src) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; SIZE_T n = REAL(strlen)(src); CHECK_UNPOISONED_STRING(src + n, 0); char *res = REAL(__strdup)(src); CopyShadowAndOrigin(res, src, n + 1, &stack); return res; } #define MSAN_MAYBE_INTERCEPT___STRDUP INTERCEPT_FUNCTION(__strdup) #else #define MSAN_MAYBE_INTERCEPT___STRDUP #endif #if !SANITIZER_NETBSD INTERCEPTOR(char *, gcvt, double number, SIZE_T ndigit, char *buf) { ENSURE_MSAN_INITED(); char *res = REAL(gcvt)(number, ndigit, buf); SIZE_T n = REAL(strlen)(buf); __msan_unpoison(buf, n + 1); return res; } #define MSAN_MAYBE_INTERCEPT_GCVT INTERCEPT_FUNCTION(gcvt) #else #define MSAN_MAYBE_INTERCEPT_GCVT #endif INTERCEPTOR(char *, strcat, char *dest, const char *src) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; SIZE_T src_size = REAL(strlen)(src); SIZE_T dest_size = REAL(strlen)(dest); CHECK_UNPOISONED_STRING(src + src_size, 0); CHECK_UNPOISONED_STRING(dest + dest_size, 0); char *res = REAL(strcat)(dest, src); CopyShadowAndOrigin(dest + dest_size, src, src_size + 1, &stack); return res; } INTERCEPTOR(char *, strncat, char *dest, const char *src, SIZE_T n) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; SIZE_T dest_size = REAL(strlen)(dest); SIZE_T copy_size = REAL(strnlen)(src, n); CHECK_UNPOISONED_STRING(dest + dest_size, 0); char *res = REAL(strncat)(dest, src, n); CopyShadowAndOrigin(dest + dest_size, src, copy_size, &stack); __msan_unpoison(dest + dest_size + copy_size, 1); // \0 return res; } // Hack: always pass nptr and endptr as part of __VA_ARGS_ to avoid having to // deal with empty __VA_ARGS__ in the case of INTERCEPTOR_STRTO. #define INTERCEPTOR_STRTO_BODY(ret_type, func, ...) \ ENSURE_MSAN_INITED(); \ ret_type res = REAL(func)(__VA_ARGS__); \ __msan_unpoison(endptr, sizeof(*endptr)); \ return res; #define INTERCEPTOR_STRTO(ret_type, func, char_type) \ INTERCEPTOR(ret_type, func, const char_type *nptr, char_type **endptr) { \ INTERCEPTOR_STRTO_BODY(ret_type, func, nptr, endptr); \ } #define INTERCEPTOR_STRTO_BASE(ret_type, func, char_type) \ INTERCEPTOR(ret_type, func, const char_type *nptr, char_type **endptr, \ int base) { \ INTERCEPTOR_STRTO_BODY(ret_type, func, nptr, endptr, base); \ } #define INTERCEPTOR_STRTO_LOC(ret_type, func, char_type) \ INTERCEPTOR(ret_type, func, const char_type *nptr, char_type **endptr, \ void *loc) { \ INTERCEPTOR_STRTO_BODY(ret_type, func, nptr, endptr, loc); \ } #define INTERCEPTOR_STRTO_BASE_LOC(ret_type, func, char_type) \ INTERCEPTOR(ret_type, func, const char_type *nptr, char_type **endptr, \ int base, void *loc) { \ INTERCEPTOR_STRTO_BODY(ret_type, func, nptr, endptr, base, loc); \ } #if SANITIZER_NETBSD #define INTERCEPTORS_STRTO(ret_type, func, char_type) \ INTERCEPTOR_STRTO(ret_type, func, char_type) \ INTERCEPTOR_STRTO_LOC(ret_type, func##_l, char_type) #define INTERCEPTORS_STRTO_BASE(ret_type, func, char_type) \ INTERCEPTOR_STRTO_BASE(ret_type, func, char_type) \ INTERCEPTOR_STRTO_BASE_LOC(ret_type, func##_l, char_type) #else #define INTERCEPTORS_STRTO(ret_type, func, char_type) \ INTERCEPTOR_STRTO(ret_type, func, char_type) \ INTERCEPTOR_STRTO_LOC(ret_type, func##_l, char_type) \ INTERCEPTOR_STRTO_LOC(ret_type, __##func##_l, char_type) \ INTERCEPTOR_STRTO_LOC(ret_type, __##func##_internal, char_type) #define INTERCEPTORS_STRTO_BASE(ret_type, func, char_type) \ INTERCEPTOR_STRTO_BASE(ret_type, func, char_type) \ INTERCEPTOR_STRTO_BASE_LOC(ret_type, func##_l, char_type) \ INTERCEPTOR_STRTO_BASE_LOC(ret_type, __##func##_l, char_type) \ INTERCEPTOR_STRTO_BASE_LOC(ret_type, __##func##_internal, char_type) #endif INTERCEPTORS_STRTO(double, strtod, char) INTERCEPTORS_STRTO(float, strtof, char) INTERCEPTORS_STRTO(long double, strtold, char) INTERCEPTORS_STRTO_BASE(long, strtol, char) INTERCEPTORS_STRTO_BASE(long long, strtoll, char) INTERCEPTORS_STRTO_BASE(unsigned long, strtoul, char) INTERCEPTORS_STRTO_BASE(unsigned long long, strtoull, char) INTERCEPTORS_STRTO_BASE(u64, strtouq, char) INTERCEPTORS_STRTO(double, wcstod, wchar_t) INTERCEPTORS_STRTO(float, wcstof, wchar_t) INTERCEPTORS_STRTO(long double, wcstold, wchar_t) INTERCEPTORS_STRTO_BASE(long, wcstol, wchar_t) INTERCEPTORS_STRTO_BASE(long long, wcstoll, wchar_t) INTERCEPTORS_STRTO_BASE(unsigned long, wcstoul, wchar_t) INTERCEPTORS_STRTO_BASE(unsigned long long, wcstoull, wchar_t) #if SANITIZER_NETBSD #define INTERCEPT_STRTO(func) \ INTERCEPT_FUNCTION(func); \ INTERCEPT_FUNCTION(func##_l); #else #define INTERCEPT_STRTO(func) \ INTERCEPT_FUNCTION(func); \ INTERCEPT_FUNCTION(func##_l); \ INTERCEPT_FUNCTION(__##func##_l); \ INTERCEPT_FUNCTION(__##func##_internal); #endif // FIXME: support *wprintf in common format interceptors. INTERCEPTOR(int, vswprintf, void *str, uptr size, void *format, va_list ap) { ENSURE_MSAN_INITED(); int res = REAL(vswprintf)(str, size, format, ap); if (res >= 0) { __msan_unpoison(str, 4 * (res + 1)); } return res; } INTERCEPTOR(int, swprintf, void *str, uptr size, void *format, ...) { ENSURE_MSAN_INITED(); va_list ap; va_start(ap, format); int res = vswprintf(str, size, format, ap); va_end(ap); return res; } #define INTERCEPTOR_STRFTIME_BODY(char_type, ret_type, func, s, ...) \ ENSURE_MSAN_INITED(); \ InterceptorScope interceptor_scope; \ ret_type res = REAL(func)(s, __VA_ARGS__); \ if (s) __msan_unpoison(s, sizeof(char_type) * (res + 1)); \ return res; INTERCEPTOR(SIZE_T, strftime, char *s, SIZE_T max, const char *format, __sanitizer_tm *tm) { INTERCEPTOR_STRFTIME_BODY(char, SIZE_T, strftime, s, max, format, tm); } INTERCEPTOR(SIZE_T, strftime_l, char *s, SIZE_T max, const char *format, __sanitizer_tm *tm, void *loc) { INTERCEPTOR_STRFTIME_BODY(char, SIZE_T, strftime_l, s, max, format, tm, loc); } #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(SIZE_T, __strftime_l, char *s, SIZE_T max, const char *format, __sanitizer_tm *tm, void *loc) { INTERCEPTOR_STRFTIME_BODY(char, SIZE_T, __strftime_l, s, max, format, tm, loc); } #define MSAN_MAYBE_INTERCEPT___STRFTIME_L INTERCEPT_FUNCTION(__strftime_l) #else #define MSAN_MAYBE_INTERCEPT___STRFTIME_L #endif INTERCEPTOR(SIZE_T, wcsftime, wchar_t *s, SIZE_T max, const wchar_t *format, __sanitizer_tm *tm) { INTERCEPTOR_STRFTIME_BODY(wchar_t, SIZE_T, wcsftime, s, max, format, tm); } INTERCEPTOR(SIZE_T, wcsftime_l, wchar_t *s, SIZE_T max, const wchar_t *format, __sanitizer_tm *tm, void *loc) { INTERCEPTOR_STRFTIME_BODY(wchar_t, SIZE_T, wcsftime_l, s, max, format, tm, loc); } #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(SIZE_T, __wcsftime_l, wchar_t *s, SIZE_T max, const wchar_t *format, __sanitizer_tm *tm, void *loc) { INTERCEPTOR_STRFTIME_BODY(wchar_t, SIZE_T, __wcsftime_l, s, max, format, tm, loc); } #define MSAN_MAYBE_INTERCEPT___WCSFTIME_L INTERCEPT_FUNCTION(__wcsftime_l) #else #define MSAN_MAYBE_INTERCEPT___WCSFTIME_L #endif INTERCEPTOR(int, mbtowc, wchar_t *dest, const char *src, SIZE_T n) { ENSURE_MSAN_INITED(); int res = REAL(mbtowc)(dest, src, n); if (res != -1 && dest) __msan_unpoison(dest, sizeof(wchar_t)); return res; } INTERCEPTOR(SIZE_T, mbrtowc, wchar_t *dest, const char *src, SIZE_T n, void *ps) { ENSURE_MSAN_INITED(); SIZE_T res = REAL(mbrtowc)(dest, src, n, ps); if (res != (SIZE_T)-1 && dest) __msan_unpoison(dest, sizeof(wchar_t)); return res; } // wchar_t *wmemcpy(wchar_t *dest, const wchar_t *src, SIZE_T n); INTERCEPTOR(wchar_t *, wmemcpy, wchar_t *dest, const wchar_t *src, SIZE_T n) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; wchar_t *res = REAL(wmemcpy)(dest, src, n); CopyShadowAndOrigin(dest, src, n * sizeof(wchar_t), &stack); return res; } #if !SANITIZER_NETBSD INTERCEPTOR(wchar_t *, wmempcpy, wchar_t *dest, const wchar_t *src, SIZE_T n) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; wchar_t *res = REAL(wmempcpy)(dest, src, n); CopyShadowAndOrigin(dest, src, n * sizeof(wchar_t), &stack); return res; } #define MSAN_MAYBE_INTERCEPT_WMEMPCPY INTERCEPT_FUNCTION(wmempcpy) #else #define MSAN_MAYBE_INTERCEPT_WMEMPCPY #endif INTERCEPTOR(wchar_t *, wmemset, wchar_t *s, wchar_t c, SIZE_T n) { CHECK(MEM_IS_APP(s)); ENSURE_MSAN_INITED(); wchar_t *res = REAL(wmemset)(s, c, n); __msan_unpoison(s, n * sizeof(wchar_t)); return res; } INTERCEPTOR(wchar_t *, wmemmove, wchar_t *dest, const wchar_t *src, SIZE_T n) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; wchar_t *res = REAL(wmemmove)(dest, src, n); MoveShadowAndOrigin(dest, src, n * sizeof(wchar_t), &stack); return res; } INTERCEPTOR(int, wcscmp, const wchar_t *s1, const wchar_t *s2) { ENSURE_MSAN_INITED(); int res = REAL(wcscmp)(s1, s2); return res; } INTERCEPTOR(int, gettimeofday, void *tv, void *tz) { ENSURE_MSAN_INITED(); int res = REAL(gettimeofday)(tv, tz); if (tv) __msan_unpoison(tv, 16); if (tz) __msan_unpoison(tz, 8); return res; } #if !SANITIZER_NETBSD INTERCEPTOR(char *, fcvt, double x, int a, int *b, int *c) { ENSURE_MSAN_INITED(); char *res = REAL(fcvt)(x, a, b, c); __msan_unpoison(b, sizeof(*b)); __msan_unpoison(c, sizeof(*c)); if (res) __msan_unpoison(res, REAL(strlen)(res) + 1); return res; } #define MSAN_MAYBE_INTERCEPT_FCVT INTERCEPT_FUNCTION(fcvt) #else #define MSAN_MAYBE_INTERCEPT_FCVT #endif INTERCEPTOR(char *, getenv, char *name) { if (msan_init_is_running) return REAL(getenv)(name); ENSURE_MSAN_INITED(); char *res = REAL(getenv)(name); if (res) __msan_unpoison(res, REAL(strlen)(res) + 1); return res; } extern char **environ; static void UnpoisonEnviron() { char **envp = environ; for (; *envp; ++envp) { __msan_unpoison(envp, sizeof(*envp)); __msan_unpoison(*envp, REAL(strlen)(*envp) + 1); } // Trailing NULL pointer. __msan_unpoison(envp, sizeof(*envp)); } INTERCEPTOR(int, setenv, const char *name, const char *value, int overwrite) { ENSURE_MSAN_INITED(); CHECK_UNPOISONED_STRING(name, 0); int res = REAL(setenv)(name, value, overwrite); if (!res) UnpoisonEnviron(); return res; } INTERCEPTOR(int, putenv, char *string) { ENSURE_MSAN_INITED(); int res = REAL(putenv)(string); if (!res) UnpoisonEnviron(); return res; } #if SANITIZER_FREEBSD || SANITIZER_NETBSD INTERCEPTOR(int, fstat, int fd, void *buf) { ENSURE_MSAN_INITED(); int res = REAL(fstat)(fd, buf); if (!res) __msan_unpoison(buf, __sanitizer::struct_stat_sz); return res; } #define MSAN_MAYBE_INTERCEPT_FSTAT INTERCEPT_FUNCTION(fstat) #else #define MSAN_MAYBE_INTERCEPT_FSTAT #endif #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(int, __fxstat, int magic, int fd, void *buf) { ENSURE_MSAN_INITED(); int res = REAL(__fxstat)(magic, fd, buf); if (!res) __msan_unpoison(buf, __sanitizer::struct_stat_sz); return res; } #define MSAN_MAYBE_INTERCEPT___FXSTAT INTERCEPT_FUNCTION(__fxstat) #else #define MSAN_MAYBE_INTERCEPT___FXSTAT #endif #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(int, __fxstat64, int magic, int fd, void *buf) { ENSURE_MSAN_INITED(); int res = REAL(__fxstat64)(magic, fd, buf); if (!res) __msan_unpoison(buf, __sanitizer::struct_stat64_sz); return res; } #define MSAN_MAYBE_INTERCEPT___FXSTAT64 INTERCEPT_FUNCTION(__fxstat64) #else #define MSAN_MAYBE_INTERCEPT___FXSTAT64 #endif #if SANITIZER_FREEBSD || SANITIZER_NETBSD INTERCEPTOR(int, fstatat, int fd, char *pathname, void *buf, int flags) { ENSURE_MSAN_INITED(); int res = REAL(fstatat)(fd, pathname, buf, flags); if (!res) __msan_unpoison(buf, __sanitizer::struct_stat_sz); return res; } # define MSAN_INTERCEPT_FSTATAT INTERCEPT_FUNCTION(fstatat) #else INTERCEPTOR(int, __fxstatat, int magic, int fd, char *pathname, void *buf, int flags) { ENSURE_MSAN_INITED(); int res = REAL(__fxstatat)(magic, fd, pathname, buf, flags); if (!res) __msan_unpoison(buf, __sanitizer::struct_stat_sz); return res; } # define MSAN_INTERCEPT_FSTATAT INTERCEPT_FUNCTION(__fxstatat) #endif #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(int, __fxstatat64, int magic, int fd, char *pathname, void *buf, int flags) { ENSURE_MSAN_INITED(); int res = REAL(__fxstatat64)(magic, fd, pathname, buf, flags); if (!res) __msan_unpoison(buf, __sanitizer::struct_stat64_sz); return res; } #define MSAN_MAYBE_INTERCEPT___FXSTATAT64 INTERCEPT_FUNCTION(__fxstatat64) #else #define MSAN_MAYBE_INTERCEPT___FXSTATAT64 #endif INTERCEPTOR(int, pipe, int pipefd[2]) { if (msan_init_is_running) return REAL(pipe)(pipefd); ENSURE_MSAN_INITED(); int res = REAL(pipe)(pipefd); if (!res) __msan_unpoison(pipefd, sizeof(int[2])); return res; } INTERCEPTOR(int, pipe2, int pipefd[2], int flags) { ENSURE_MSAN_INITED(); int res = REAL(pipe2)(pipefd, flags); if (!res) __msan_unpoison(pipefd, sizeof(int[2])); return res; } INTERCEPTOR(int, socketpair, int domain, int type, int protocol, int sv[2]) { ENSURE_MSAN_INITED(); int res = REAL(socketpair)(domain, type, protocol, sv); if (!res) __msan_unpoison(sv, sizeof(int[2])); return res; } #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(char *, fgets_unlocked, char *s, int size, void *stream) { ENSURE_MSAN_INITED(); char *res = REAL(fgets_unlocked)(s, size, stream); if (res) __msan_unpoison(s, REAL(strlen)(s) + 1); return res; } #define MSAN_MAYBE_INTERCEPT_FGETS_UNLOCKED INTERCEPT_FUNCTION(fgets_unlocked) #else #define MSAN_MAYBE_INTERCEPT_FGETS_UNLOCKED #endif #define INTERCEPTOR_GETRLIMIT_BODY(func, resource, rlim) \ if (msan_init_is_running) \ return REAL(getrlimit)(resource, rlim); \ ENSURE_MSAN_INITED(); \ int res = REAL(func)(resource, rlim); \ if (!res) \ __msan_unpoison(rlim, __sanitizer::struct_rlimit_sz); \ return res INTERCEPTOR(int, getrlimit, int resource, void *rlim) { INTERCEPTOR_GETRLIMIT_BODY(getrlimit, resource, rlim); } #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(int, __getrlimit, int resource, void *rlim) { INTERCEPTOR_GETRLIMIT_BODY(__getrlimit, resource, rlim); } INTERCEPTOR(int, getrlimit64, int resource, void *rlim) { if (msan_init_is_running) return REAL(getrlimit64)(resource, rlim); ENSURE_MSAN_INITED(); int res = REAL(getrlimit64)(resource, rlim); if (!res) __msan_unpoison(rlim, __sanitizer::struct_rlimit64_sz); return res; } INTERCEPTOR(int, prlimit, int pid, int resource, void *new_rlimit, void *old_rlimit) { if (msan_init_is_running) return REAL(prlimit)(pid, resource, new_rlimit, old_rlimit); ENSURE_MSAN_INITED(); CHECK_UNPOISONED(new_rlimit, __sanitizer::struct_rlimit_sz); int res = REAL(prlimit)(pid, resource, new_rlimit, old_rlimit); if (!res) __msan_unpoison(old_rlimit, __sanitizer::struct_rlimit_sz); return res; } INTERCEPTOR(int, prlimit64, int pid, int resource, void *new_rlimit, void *old_rlimit) { if (msan_init_is_running) return REAL(prlimit64)(pid, resource, new_rlimit, old_rlimit); ENSURE_MSAN_INITED(); CHECK_UNPOISONED(new_rlimit, __sanitizer::struct_rlimit64_sz); int res = REAL(prlimit64)(pid, resource, new_rlimit, old_rlimit); if (!res) __msan_unpoison(old_rlimit, __sanitizer::struct_rlimit64_sz); return res; } #define MSAN_MAYBE_INTERCEPT___GETRLIMIT INTERCEPT_FUNCTION(__getrlimit) #define MSAN_MAYBE_INTERCEPT_GETRLIMIT64 INTERCEPT_FUNCTION(getrlimit64) #define MSAN_MAYBE_INTERCEPT_PRLIMIT INTERCEPT_FUNCTION(prlimit) #define MSAN_MAYBE_INTERCEPT_PRLIMIT64 INTERCEPT_FUNCTION(prlimit64) #else #define MSAN_MAYBE_INTERCEPT___GETRLIMIT #define MSAN_MAYBE_INTERCEPT_GETRLIMIT64 #define MSAN_MAYBE_INTERCEPT_PRLIMIT #define MSAN_MAYBE_INTERCEPT_PRLIMIT64 #endif INTERCEPTOR(int, gethostname, char *name, SIZE_T len) { ENSURE_MSAN_INITED(); int res = REAL(gethostname)(name, len); if (!res || (res == -1 && errno == errno_ENAMETOOLONG)) { SIZE_T real_len = REAL(strnlen)(name, len); if (real_len < len) ++real_len; __msan_unpoison(name, real_len); } return res; } #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(int, epoll_wait, int epfd, void *events, int maxevents, int timeout) { ENSURE_MSAN_INITED(); int res = REAL(epoll_wait)(epfd, events, maxevents, timeout); if (res > 0) { __msan_unpoison(events, __sanitizer::struct_epoll_event_sz * res); } return res; } #define MSAN_MAYBE_INTERCEPT_EPOLL_WAIT INTERCEPT_FUNCTION(epoll_wait) #else #define MSAN_MAYBE_INTERCEPT_EPOLL_WAIT #endif #if !SANITIZER_FREEBSD && !SANITIZER_NETBSD INTERCEPTOR(int, epoll_pwait, int epfd, void *events, int maxevents, int timeout, void *sigmask) { ENSURE_MSAN_INITED(); int res = REAL(epoll_pwait)(epfd, events, maxevents, timeout, sigmask); if (res > 0) { __msan_unpoison(events, __sanitizer::struct_epoll_event_sz * res); } return res; } #define MSAN_MAYBE_INTERCEPT_EPOLL_PWAIT INTERCEPT_FUNCTION(epoll_pwait) #else #define MSAN_MAYBE_INTERCEPT_EPOLL_PWAIT #endif INTERCEPTOR(void *, calloc, SIZE_T nmemb, SIZE_T size) { GET_MALLOC_STACK_TRACE; if (UNLIKELY(!msan_inited)) // Hack: dlsym calls calloc before REAL(calloc) is retrieved from dlsym. return AllocateFromLocalPool(nmemb * size); return msan_calloc(nmemb, size, &stack); } INTERCEPTOR(void *, realloc, void *ptr, SIZE_T size) { GET_MALLOC_STACK_TRACE; if (UNLIKELY(IsInDlsymAllocPool(ptr))) { uptr offset = (uptr)ptr - (uptr)alloc_memory_for_dlsym; uptr copy_size = Min(size, kDlsymAllocPoolSize - offset); void *new_ptr; if (UNLIKELY(!msan_inited)) { new_ptr = AllocateFromLocalPool(copy_size); } else { copy_size = size; new_ptr = msan_malloc(copy_size, &stack); } internal_memcpy(new_ptr, ptr, copy_size); return new_ptr; } return msan_realloc(ptr, size, &stack); } INTERCEPTOR(void *, reallocarray, void *ptr, SIZE_T nmemb, SIZE_T size) { GET_MALLOC_STACK_TRACE; return msan_reallocarray(ptr, nmemb, size, &stack); } INTERCEPTOR(void *, malloc, SIZE_T size) { GET_MALLOC_STACK_TRACE; if (UNLIKELY(!msan_inited)) // Hack: dlsym calls malloc before REAL(malloc) is retrieved from dlsym. return AllocateFromLocalPool(size); return msan_malloc(size, &stack); } void __msan_allocated_memory(const void *data, uptr size) { GET_MALLOC_STACK_TRACE; if (flags()->poison_in_malloc) { stack.tag = STACK_TRACE_TAG_POISON; PoisonMemory(data, size, &stack); } } void __msan_copy_shadow(void *dest, const void *src, uptr n) { GET_STORE_STACK_TRACE; MoveShadowAndOrigin(dest, src, n, &stack); } void __sanitizer_dtor_callback(const void *data, uptr size) { GET_MALLOC_STACK_TRACE; if (flags()->poison_in_dtor) { stack.tag = STACK_TRACE_TAG_POISON; PoisonMemory(data, size, &stack); } } template static void *mmap_interceptor(Mmap real_mmap, void *addr, SIZE_T length, int prot, int flags, int fd, OFF64_T offset) { SIZE_T rounded_length = RoundUpTo(length, GetPageSize()); void *end_addr = (char *)addr + (rounded_length - 1); if (addr && (!MEM_IS_APP(addr) || !MEM_IS_APP(end_addr))) { if (flags & map_fixed) { errno = errno_EINVAL; return (void *)-1; } else { addr = nullptr; } } void *res = real_mmap(addr, length, prot, flags, fd, offset); if (res != (void *)-1) { void *end_res = (char *)res + (rounded_length - 1); if (MEM_IS_APP(res) && MEM_IS_APP(end_res)) { __msan_unpoison(res, rounded_length); } else { // Application has attempted to map more memory than is supported by // MSAN. Act as if we ran out of memory. internal_munmap(res, length); errno = errno_ENOMEM; return (void *)-1; } } return res; } INTERCEPTOR(int, getrusage, int who, void *usage) { ENSURE_MSAN_INITED(); int res = REAL(getrusage)(who, usage); if (res == 0) { __msan_unpoison(usage, __sanitizer::struct_rusage_sz); } return res; } class SignalHandlerScope { public: SignalHandlerScope() { if (MsanThread *t = GetCurrentThread()) t->EnterSignalHandler(); } ~SignalHandlerScope() { if (MsanThread *t = GetCurrentThread()) t->LeaveSignalHandler(); } }; // sigactions_mu guarantees atomicity of sigaction() and signal() calls. // Access to sigactions[] is gone with relaxed atomics to avoid data race with // the signal handler. const int kMaxSignals = 1024; static atomic_uintptr_t sigactions[kMaxSignals]; static StaticSpinMutex sigactions_mu; static void SignalHandler(int signo) { SignalHandlerScope signal_handler_scope; ScopedThreadLocalStateBackup stlsb; UnpoisonParam(1); typedef void (*signal_cb)(int x); signal_cb cb = (signal_cb)atomic_load(&sigactions[signo], memory_order_relaxed); cb(signo); } static void SignalAction(int signo, void *si, void *uc) { SignalHandlerScope signal_handler_scope; ScopedThreadLocalStateBackup stlsb; UnpoisonParam(3); __msan_unpoison(si, sizeof(__sanitizer_sigaction)); __msan_unpoison(uc, __sanitizer::ucontext_t_sz); typedef void (*sigaction_cb)(int, void *, void *); sigaction_cb cb = (sigaction_cb)atomic_load(&sigactions[signo], memory_order_relaxed); cb(signo, si, uc); } static void read_sigaction(const __sanitizer_sigaction *act) { CHECK_UNPOISONED(&act->sa_flags, sizeof(act->sa_flags)); if (act->sa_flags & __sanitizer::sa_siginfo) CHECK_UNPOISONED(&act->sigaction, sizeof(act->sigaction)); else CHECK_UNPOISONED(&act->handler, sizeof(act->handler)); CHECK_UNPOISONED(&act->sa_mask, sizeof(act->sa_mask)); } extern "C" int pthread_attr_init(void *attr); extern "C" int pthread_attr_destroy(void *attr); static void *MsanThreadStartFunc(void *arg) { MsanThread *t = (MsanThread *)arg; SetCurrentThread(t); return t->ThreadStart(); } INTERCEPTOR(int, pthread_create, void *th, void *attr, void *(*callback)(void*), void * param) { ENSURE_MSAN_INITED(); // for GetTlsSize() __sanitizer_pthread_attr_t myattr; if (!attr) { pthread_attr_init(&myattr); attr = &myattr; } AdjustStackSize(attr); MsanThread *t = MsanThread::Create(callback, param); int res = REAL(pthread_create)(th, attr, MsanThreadStartFunc, t); if (attr == &myattr) pthread_attr_destroy(&myattr); if (!res) { __msan_unpoison(th, __sanitizer::pthread_t_sz); } return res; } INTERCEPTOR(int, pthread_key_create, __sanitizer_pthread_key_t *key, void (*dtor)(void *value)) { if (msan_init_is_running) return REAL(pthread_key_create)(key, dtor); ENSURE_MSAN_INITED(); int res = REAL(pthread_key_create)(key, dtor); if (!res && key) __msan_unpoison(key, sizeof(*key)); return res; } #if SANITIZER_NETBSD INTERCEPTOR(int, __libc_thr_keycreate, __sanitizer_pthread_key_t *m, void (*dtor)(void *value)) ALIAS(WRAPPER_NAME(pthread_key_create)); #endif INTERCEPTOR(int, pthread_join, void *th, void **retval) { ENSURE_MSAN_INITED(); int res = REAL(pthread_join)(th, retval); if (!res && retval) __msan_unpoison(retval, sizeof(*retval)); return res; } extern char *tzname[2]; INTERCEPTOR(void, tzset, int fake) { ENSURE_MSAN_INITED(); InterceptorScope interceptor_scope; REAL(tzset)(fake); if (tzname[0]) __msan_unpoison(tzname[0], REAL(strlen)(tzname[0]) + 1); if (tzname[1]) __msan_unpoison(tzname[1], REAL(strlen)(tzname[1]) + 1); return; } struct MSanAtExitRecord { void (*func)(void *arg); void *arg; }; struct InterceptorContext { BlockingMutex atexit_mu; Vector AtExitStack; InterceptorContext() : AtExitStack() { } }; static ALIGNED(64) char interceptor_placeholder[sizeof(InterceptorContext)]; InterceptorContext *interceptor_ctx() { return reinterpret_cast(&interceptor_placeholder[0]); } void MSanAtExitWrapper() { MSanAtExitRecord *r; { BlockingMutexLock l(&interceptor_ctx()->atexit_mu); uptr element = interceptor_ctx()->AtExitStack.Size() - 1; r = interceptor_ctx()->AtExitStack[element]; interceptor_ctx()->AtExitStack.PopBack(); } UnpoisonParam(1); ((void(*)())r->func)(); InternalFree(r); } void MSanCxaAtExitWrapper(void *arg) { UnpoisonParam(1); MSanAtExitRecord *r = (MSanAtExitRecord *)arg; // libc before 2.27 had race which caused occasional double handler execution // https://sourceware.org/ml/libc-alpha/2017-08/msg01204.html if (!r->func) return; r->func(r->arg); r->func = nullptr; } static int setup_at_exit_wrapper(void(*f)(), void *arg, void *dso); // Unpoison argument shadow for C++ module destructors. INTERCEPTOR(int, __cxa_atexit, void (*func)(void *), void *arg, void *dso_handle) { if (msan_init_is_running) return REAL(__cxa_atexit)(func, arg, dso_handle); return setup_at_exit_wrapper((void(*)())func, arg, dso_handle); } // Unpoison argument shadow for C++ module destructors. INTERCEPTOR(int, atexit, void (*func)()) { // Avoid calling real atexit as it is unrechable on at least on Linux. if (msan_init_is_running) return REAL(__cxa_atexit)((void (*)(void *a))func, 0, 0); return setup_at_exit_wrapper((void(*)())func, 0, 0); } static int setup_at_exit_wrapper(void(*f)(), void *arg, void *dso) { ENSURE_MSAN_INITED(); MSanAtExitRecord *r = (MSanAtExitRecord *)InternalAlloc(sizeof(MSanAtExitRecord)); r->func = (void(*)(void *a))f; r->arg = arg; int res; if (!dso) { // NetBSD does not preserve the 2nd argument if dso is equal to 0 // Store ctx in a local stack-like structure BlockingMutexLock l(&interceptor_ctx()->atexit_mu); res = REAL(__cxa_atexit)((void (*)(void *a))MSanAtExitWrapper, 0, 0); if (!res) { interceptor_ctx()->AtExitStack.PushBack(r); } } else { res = REAL(__cxa_atexit)(MSanCxaAtExitWrapper, r, dso); } return res; } static void BeforeFork() { StackDepotLockAll(); ChainedOriginDepotLockAll(); } static void AfterFork() { ChainedOriginDepotUnlockAll(); StackDepotUnlockAll(); } INTERCEPTOR(int, fork, void) { ENSURE_MSAN_INITED(); BeforeFork(); int pid = REAL(fork)(); AfterFork(); return pid; } // NetBSD ships with openpty(3) in -lutil, that needs to be prebuilt explicitly // with MSan. #if SANITIZER_LINUX INTERCEPTOR(int, openpty, int *aparent, int *aworker, char *name, const void *termp, const void *winp) { ENSURE_MSAN_INITED(); InterceptorScope interceptor_scope; int res = REAL(openpty)(aparent, aworker, name, termp, winp); if (!res) { __msan_unpoison(aparent, sizeof(*aparent)); __msan_unpoison(aworker, sizeof(*aworker)); } return res; } #define MSAN_MAYBE_INTERCEPT_OPENPTY INTERCEPT_FUNCTION(openpty) #else #define MSAN_MAYBE_INTERCEPT_OPENPTY #endif // NetBSD ships with forkpty(3) in -lutil, that needs to be prebuilt explicitly // with MSan. #if SANITIZER_LINUX INTERCEPTOR(int, forkpty, int *aparent, char *name, const void *termp, const void *winp) { ENSURE_MSAN_INITED(); InterceptorScope interceptor_scope; int res = REAL(forkpty)(aparent, name, termp, winp); if (res != -1) __msan_unpoison(aparent, sizeof(*aparent)); return res; } #define MSAN_MAYBE_INTERCEPT_FORKPTY INTERCEPT_FUNCTION(forkpty) #else #define MSAN_MAYBE_INTERCEPT_FORKPTY #endif struct MSanInterceptorContext { bool in_interceptor_scope; }; namespace __msan { int OnExit() { // FIXME: ask frontend whether we need to return failure. return 0; } } // namespace __msan // A version of CHECK_UNPOISONED using a saved scope value. Used in common // interceptors. #define CHECK_UNPOISONED_CTX(ctx, x, n) \ do { \ if (!((MSanInterceptorContext *)ctx)->in_interceptor_scope) \ CHECK_UNPOISONED_0(x, n); \ } while (0) #define MSAN_INTERCEPT_FUNC(name) \ do { \ if (!INTERCEPT_FUNCTION(name)) \ VReport(1, "MemorySanitizer: failed to intercept '%s'\n", #name); \ } while (0) #define MSAN_INTERCEPT_FUNC_VER(name, ver) \ do { \ if (!INTERCEPT_FUNCTION_VER(name, ver)) \ VReport(1, "MemorySanitizer: failed to intercept '%s@@%s'\n", #name, \ #ver); \ } while (0) #define COMMON_INTERCEPT_FUNCTION(name) MSAN_INTERCEPT_FUNC(name) #define COMMON_INTERCEPT_FUNCTION_VER(name, ver) \ MSAN_INTERCEPT_FUNC_VER(name, ver) #define COMMON_INTERCEPTOR_UNPOISON_PARAM(count) \ UnpoisonParam(count) #define COMMON_INTERCEPTOR_WRITE_RANGE(ctx, ptr, size) \ __msan_unpoison(ptr, size) #define COMMON_INTERCEPTOR_READ_RANGE(ctx, ptr, size) \ CHECK_UNPOISONED_CTX(ctx, ptr, size) #define COMMON_INTERCEPTOR_INITIALIZE_RANGE(ptr, size) \ __msan_unpoison(ptr, size) #define COMMON_INTERCEPTOR_ENTER(ctx, func, ...) \ if (msan_init_is_running) return REAL(func)(__VA_ARGS__); \ ENSURE_MSAN_INITED(); \ MSanInterceptorContext msan_ctx = {IsInInterceptorScope()}; \ ctx = (void *)&msan_ctx; \ (void)ctx; \ InterceptorScope interceptor_scope; \ __msan_unpoison(__errno_location(), sizeof(int)); /* NOLINT */ #define COMMON_INTERCEPTOR_DIR_ACQUIRE(ctx, path) \ do { \ } 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) \ do { \ } while (false) // FIXME #define COMMON_INTERCEPTOR_SET_PTHREAD_NAME(ctx, thread, name) \ do { \ } while (false) // FIXME #define COMMON_INTERCEPTOR_BLOCK_REAL(name) REAL(name) #define COMMON_INTERCEPTOR_ON_EXIT(ctx) OnExit() #define COMMON_INTERCEPTOR_LIBRARY_LOADED(filename, handle) \ do { \ link_map *map = GET_LINK_MAP_BY_DLOPEN_HANDLE((handle)); \ if (filename && map) \ ForEachMappedRegion(map, __msan_unpoison); \ } while (false) #define COMMON_INTERCEPTOR_NOTHING_IS_INITIALIZED (!msan_inited) #define COMMON_INTERCEPTOR_GET_TLS_RANGE(begin, end) \ if (MsanThread *t = GetCurrentThread()) { \ *begin = t->tls_begin(); \ *end = t->tls_end(); \ } else { \ *begin = *end = 0; \ } #define COMMON_INTERCEPTOR_MEMSET_IMPL(ctx, block, c, size) \ { \ (void)ctx; \ return __msan_memset(block, c, size); \ } #define COMMON_INTERCEPTOR_MEMMOVE_IMPL(ctx, to, from, size) \ { \ (void)ctx; \ return __msan_memmove(to, from, size); \ } #define COMMON_INTERCEPTOR_MEMCPY_IMPL(ctx, to, from, size) \ { \ (void)ctx; \ return __msan_memcpy(to, from, size); \ } #define COMMON_INTERCEPTOR_COPY_STRING(ctx, to, from, size) \ do { \ GET_STORE_STACK_TRACE; \ CopyShadowAndOrigin(to, from, size, &stack); \ __msan_unpoison(to + size, 1); \ } while (false) #define COMMON_INTERCEPTOR_MMAP_IMPL(ctx, mmap, addr, length, prot, flags, fd, \ offset) \ do { \ return mmap_interceptor(REAL(mmap), addr, sz, prot, flags, fd, off); \ } while (false) #include "sanitizer_common/sanitizer_platform_interceptors.h" #include "sanitizer_common/sanitizer_common_interceptors.inc" static uptr signal_impl(int signo, uptr cb); static int sigaction_impl(int signo, const __sanitizer_sigaction *act, __sanitizer_sigaction *oldact); #define SIGNAL_INTERCEPTOR_SIGACTION_IMPL(signo, act, oldact) \ { return sigaction_impl(signo, act, oldact); } #define SIGNAL_INTERCEPTOR_SIGNAL_IMPL(func, signo, handler) \ { \ handler = signal_impl(signo, handler); \ InterceptorScope interceptor_scope; \ return REAL(func)(signo, handler); \ } #include "sanitizer_common/sanitizer_signal_interceptors.inc" static int sigaction_impl(int signo, const __sanitizer_sigaction *act, __sanitizer_sigaction *oldact) { ENSURE_MSAN_INITED(); if (act) read_sigaction(act); int res; if (flags()->wrap_signals) { SpinMutexLock lock(&sigactions_mu); CHECK_LT(signo, kMaxSignals); uptr old_cb = atomic_load(&sigactions[signo], memory_order_relaxed); __sanitizer_sigaction new_act; __sanitizer_sigaction *pnew_act = act ? &new_act : nullptr; if (act) { REAL(memcpy)(pnew_act, act, sizeof(__sanitizer_sigaction)); uptr cb = (uptr)pnew_act->sigaction; uptr new_cb = (pnew_act->sa_flags & __sanitizer::sa_siginfo) ? (uptr)SignalAction : (uptr)SignalHandler; if (cb != __sanitizer::sig_ign && cb != __sanitizer::sig_dfl) { atomic_store(&sigactions[signo], cb, memory_order_relaxed); pnew_act->sigaction = (decltype(pnew_act->sigaction))new_cb; } } res = REAL(SIGACTION_SYMNAME)(signo, pnew_act, oldact); if (res == 0 && oldact) { uptr cb = (uptr)oldact->sigaction; if (cb == (uptr)SignalAction || cb == (uptr)SignalHandler) { oldact->sigaction = (decltype(oldact->sigaction))old_cb; } } } else { res = REAL(SIGACTION_SYMNAME)(signo, act, oldact); } if (res == 0 && oldact) { __msan_unpoison(oldact, sizeof(__sanitizer_sigaction)); } return res; } static uptr signal_impl(int signo, uptr cb) { ENSURE_MSAN_INITED(); if (flags()->wrap_signals) { CHECK_LT(signo, kMaxSignals); SpinMutexLock lock(&sigactions_mu); if (cb != __sanitizer::sig_ign && cb != __sanitizer::sig_dfl) { atomic_store(&sigactions[signo], cb, memory_order_relaxed); cb = (uptr)&SignalHandler; } } return cb; } #define COMMON_SYSCALL_PRE_READ_RANGE(p, s) CHECK_UNPOISONED(p, s) #define COMMON_SYSCALL_PRE_WRITE_RANGE(p, s) \ do { \ } while (false) #define COMMON_SYSCALL_POST_READ_RANGE(p, s) \ do { \ } while (false) #define COMMON_SYSCALL_POST_WRITE_RANGE(p, s) __msan_unpoison(p, s) #include "sanitizer_common/sanitizer_common_syscalls.inc" #include "sanitizer_common/sanitizer_syscalls_netbsd.inc" struct dlinfo { char *dli_fname; void *dli_fbase; char *dli_sname; void *dli_saddr; }; INTERCEPTOR(int, dladdr, void *addr, dlinfo *info) { void *ctx; COMMON_INTERCEPTOR_ENTER(ctx, dladdr, addr, info); int res = REAL(dladdr)(addr, info); if (res != 0) { __msan_unpoison(info, sizeof(*info)); if (info->dli_fname) __msan_unpoison(info->dli_fname, REAL(strlen)(info->dli_fname) + 1); if (info->dli_sname) __msan_unpoison(info->dli_sname, REAL(strlen)(info->dli_sname) + 1); } return res; } INTERCEPTOR(char *, dlerror, int fake) { void *ctx; COMMON_INTERCEPTOR_ENTER(ctx, dlerror, fake); char *res = REAL(dlerror)(fake); if (res) __msan_unpoison(res, REAL(strlen)(res) + 1); return res; } typedef int (*dl_iterate_phdr_cb)(__sanitizer_dl_phdr_info *info, SIZE_T size, void *data); struct dl_iterate_phdr_data { dl_iterate_phdr_cb callback; void *data; }; static int msan_dl_iterate_phdr_cb(__sanitizer_dl_phdr_info *info, SIZE_T size, void *data) { if (info) { __msan_unpoison(info, size); if (info->dlpi_phdr && info->dlpi_phnum) __msan_unpoison(info->dlpi_phdr, struct_ElfW_Phdr_sz * info->dlpi_phnum); if (info->dlpi_name) __msan_unpoison(info->dlpi_name, REAL(strlen)(info->dlpi_name) + 1); } dl_iterate_phdr_data *cbdata = (dl_iterate_phdr_data *)data; UnpoisonParam(3); return cbdata->callback(info, size, cbdata->data); } INTERCEPTOR(void *, shmat, int shmid, const void *shmaddr, int shmflg) { ENSURE_MSAN_INITED(); void *p = REAL(shmat)(shmid, shmaddr, shmflg); if (p != (void *)-1) { __sanitizer_shmid_ds ds; int res = REAL(shmctl)(shmid, shmctl_ipc_stat, &ds); if (!res) { __msan_unpoison(p, ds.shm_segsz); } } return p; } INTERCEPTOR(int, dl_iterate_phdr, dl_iterate_phdr_cb callback, void *data) { void *ctx; COMMON_INTERCEPTOR_ENTER(ctx, dl_iterate_phdr, callback, data); dl_iterate_phdr_data cbdata; cbdata.callback = callback; cbdata.data = data; int res = REAL(dl_iterate_phdr)(msan_dl_iterate_phdr_cb, (void *)&cbdata); return res; } // wchar_t *wcschr(const wchar_t *wcs, wchar_t wc); INTERCEPTOR(wchar_t *, wcschr, void *s, wchar_t wc, void *ps) { ENSURE_MSAN_INITED(); wchar_t *res = REAL(wcschr)(s, wc, ps); return res; } // wchar_t *wcscpy(wchar_t *dest, const wchar_t *src); INTERCEPTOR(wchar_t *, wcscpy, wchar_t *dest, const wchar_t *src) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; wchar_t *res = REAL(wcscpy)(dest, src); CopyShadowAndOrigin(dest, src, sizeof(wchar_t) * (REAL(wcslen)(src) + 1), &stack); return res; } INTERCEPTOR(wchar_t *, wcsncpy, wchar_t *dest, const wchar_t *src, SIZE_T n) { ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; SIZE_T copy_size = REAL(wcsnlen)(src, n); if (copy_size < n) copy_size++; // trailing \0 wchar_t *res = REAL(wcsncpy)(dest, src, n); CopyShadowAndOrigin(dest, src, copy_size * sizeof(wchar_t), &stack); __msan_unpoison(dest + copy_size, (n - copy_size) * sizeof(wchar_t)); return res; } // These interface functions reside here so that they can use // REAL(memset), etc. void __msan_unpoison(const void *a, uptr size) { if (!MEM_IS_APP(a)) return; SetShadow(a, size, 0); } void __msan_poison(const void *a, uptr size) { if (!MEM_IS_APP(a)) return; SetShadow(a, size, __msan::flags()->poison_heap_with_zeroes ? 0 : -1); } void __msan_poison_stack(void *a, uptr size) { if (!MEM_IS_APP(a)) return; SetShadow(a, size, __msan::flags()->poison_stack_with_zeroes ? 0 : -1); } void __msan_unpoison_param(uptr n) { UnpoisonParam(n); } void __msan_clear_and_unpoison(void *a, uptr size) { REAL(memset)(a, 0, size); SetShadow(a, size, 0); } void *__msan_memcpy(void *dest, const void *src, SIZE_T n) { if (!msan_inited) return internal_memcpy(dest, src, n); if (msan_init_is_running || __msan::IsInSymbolizer()) return REAL(memcpy)(dest, src, n); ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; void *res = REAL(memcpy)(dest, src, n); CopyShadowAndOrigin(dest, src, n, &stack); return res; } void *__msan_memset(void *s, int c, SIZE_T n) { if (!msan_inited) return internal_memset(s, c, n); if (msan_init_is_running) return REAL(memset)(s, c, n); ENSURE_MSAN_INITED(); void *res = REAL(memset)(s, c, n); __msan_unpoison(s, n); return res; } void *__msan_memmove(void *dest, const void *src, SIZE_T n) { if (!msan_inited) return internal_memmove(dest, src, n); if (msan_init_is_running) return REAL(memmove)(dest, src, n); ENSURE_MSAN_INITED(); GET_STORE_STACK_TRACE; void *res = REAL(memmove)(dest, src, n); MoveShadowAndOrigin(dest, src, n, &stack); return res; } void __msan_unpoison_string(const char* s) { if (!MEM_IS_APP(s)) return; __msan_unpoison(s, REAL(strlen)(s) + 1); } namespace __msan { void InitializeInterceptors() { static int inited = 0; CHECK_EQ(inited, 0); new(interceptor_ctx()) InterceptorContext(); InitializeCommonInterceptors(); InitializeSignalInterceptors(); INTERCEPT_FUNCTION(posix_memalign); MSAN_MAYBE_INTERCEPT_MEMALIGN; MSAN_MAYBE_INTERCEPT___LIBC_MEMALIGN; INTERCEPT_FUNCTION(valloc); MSAN_MAYBE_INTERCEPT_PVALLOC; INTERCEPT_FUNCTION(malloc); INTERCEPT_FUNCTION(calloc); INTERCEPT_FUNCTION(realloc); INTERCEPT_FUNCTION(reallocarray); INTERCEPT_FUNCTION(free); MSAN_MAYBE_INTERCEPT_CFREE; MSAN_MAYBE_INTERCEPT_MALLOC_USABLE_SIZE; MSAN_MAYBE_INTERCEPT_MALLINFO; MSAN_MAYBE_INTERCEPT_MALLOPT; MSAN_MAYBE_INTERCEPT_MALLOC_STATS; INTERCEPT_FUNCTION(fread); MSAN_MAYBE_INTERCEPT_FREAD_UNLOCKED; INTERCEPT_FUNCTION(memccpy); MSAN_MAYBE_INTERCEPT_MEMPCPY; INTERCEPT_FUNCTION(bcopy); INTERCEPT_FUNCTION(wmemset); INTERCEPT_FUNCTION(wmemcpy); MSAN_MAYBE_INTERCEPT_WMEMPCPY; INTERCEPT_FUNCTION(wmemmove); INTERCEPT_FUNCTION(strcpy); MSAN_MAYBE_INTERCEPT_STPCPY; INTERCEPT_FUNCTION(strdup); MSAN_MAYBE_INTERCEPT___STRDUP; INTERCEPT_FUNCTION(strncpy); MSAN_MAYBE_INTERCEPT_GCVT; INTERCEPT_FUNCTION(strcat); INTERCEPT_FUNCTION(strncat); INTERCEPT_STRTO(strtod); INTERCEPT_STRTO(strtof); INTERCEPT_STRTO(strtold); INTERCEPT_STRTO(strtol); INTERCEPT_STRTO(strtoul); INTERCEPT_STRTO(strtoll); INTERCEPT_STRTO(strtoull); INTERCEPT_STRTO(strtouq); INTERCEPT_STRTO(wcstod); INTERCEPT_STRTO(wcstof); INTERCEPT_STRTO(wcstold); INTERCEPT_STRTO(wcstol); INTERCEPT_STRTO(wcstoul); INTERCEPT_STRTO(wcstoll); INTERCEPT_STRTO(wcstoull); #ifdef SANITIZER_NLDBL_VERSION INTERCEPT_FUNCTION_VER(vswprintf, SANITIZER_NLDBL_VERSION); INTERCEPT_FUNCTION_VER(swprintf, SANITIZER_NLDBL_VERSION); #else INTERCEPT_FUNCTION(vswprintf); INTERCEPT_FUNCTION(swprintf); #endif INTERCEPT_FUNCTION(strftime); INTERCEPT_FUNCTION(strftime_l); MSAN_MAYBE_INTERCEPT___STRFTIME_L; INTERCEPT_FUNCTION(wcsftime); INTERCEPT_FUNCTION(wcsftime_l); MSAN_MAYBE_INTERCEPT___WCSFTIME_L; INTERCEPT_FUNCTION(mbtowc); INTERCEPT_FUNCTION(mbrtowc); INTERCEPT_FUNCTION(wcslen); INTERCEPT_FUNCTION(wcsnlen); INTERCEPT_FUNCTION(wcschr); INTERCEPT_FUNCTION(wcscpy); INTERCEPT_FUNCTION(wcsncpy); INTERCEPT_FUNCTION(wcscmp); INTERCEPT_FUNCTION(getenv); INTERCEPT_FUNCTION(setenv); INTERCEPT_FUNCTION(putenv); INTERCEPT_FUNCTION(gettimeofday); MSAN_MAYBE_INTERCEPT_FCVT; MSAN_MAYBE_INTERCEPT_FSTAT; MSAN_MAYBE_INTERCEPT___FXSTAT; MSAN_INTERCEPT_FSTATAT; MSAN_MAYBE_INTERCEPT___FXSTAT64; MSAN_MAYBE_INTERCEPT___FXSTATAT64; INTERCEPT_FUNCTION(pipe); INTERCEPT_FUNCTION(pipe2); INTERCEPT_FUNCTION(socketpair); MSAN_MAYBE_INTERCEPT_FGETS_UNLOCKED; INTERCEPT_FUNCTION(getrlimit); MSAN_MAYBE_INTERCEPT___GETRLIMIT; MSAN_MAYBE_INTERCEPT_GETRLIMIT64; MSAN_MAYBE_INTERCEPT_PRLIMIT; MSAN_MAYBE_INTERCEPT_PRLIMIT64; INTERCEPT_FUNCTION(gethostname); MSAN_MAYBE_INTERCEPT_EPOLL_WAIT; MSAN_MAYBE_INTERCEPT_EPOLL_PWAIT; INTERCEPT_FUNCTION(dladdr); INTERCEPT_FUNCTION(dlerror); INTERCEPT_FUNCTION(dl_iterate_phdr); INTERCEPT_FUNCTION(getrusage); #if defined(__mips__) INTERCEPT_FUNCTION_VER(pthread_create, "GLIBC_2.2"); #else INTERCEPT_FUNCTION(pthread_create); #endif INTERCEPT_FUNCTION(pthread_key_create); #if SANITIZER_NETBSD INTERCEPT_FUNCTION(__libc_thr_keycreate); #endif INTERCEPT_FUNCTION(pthread_join); INTERCEPT_FUNCTION(tzset); INTERCEPT_FUNCTION(atexit); INTERCEPT_FUNCTION(__cxa_atexit); INTERCEPT_FUNCTION(shmat); INTERCEPT_FUNCTION(fork); MSAN_MAYBE_INTERCEPT_OPENPTY; MSAN_MAYBE_INTERCEPT_FORKPTY; inited = 1; } } // namespace __msan