//===-- dfsan_custom.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 DataFlowSanitizer. // // This file defines the custom functions listed in done_abilist.txt. //===----------------------------------------------------------------------===// #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dfsan/dfsan.h" #include "dfsan/dfsan_chained_origin_depot.h" #include "dfsan/dfsan_flags.h" #include "dfsan/dfsan_thread.h" #include "sanitizer_common/sanitizer_common.h" #include "sanitizer_common/sanitizer_internal_defs.h" #include "sanitizer_common/sanitizer_linux.h" #include "sanitizer_common/sanitizer_stackdepot.h" using namespace __dfsan; #define CALL_WEAK_INTERCEPTOR_HOOK(f, ...) \ do { \ if (f) \ f(__VA_ARGS__); \ } while (false) #define DECLARE_WEAK_INTERCEPTOR_HOOK(f, ...) \ SANITIZER_INTERFACE_ATTRIBUTE SANITIZER_WEAK_ATTRIBUTE void f(__VA_ARGS__); // Async-safe, non-reentrant spin lock. class SignalSpinLocker { public: SignalSpinLocker() { sigset_t all_set; sigfillset(&all_set); pthread_sigmask(SIG_SETMASK, &all_set, &saved_thread_mask_); sigactions_mu.Lock(); } ~SignalSpinLocker() { sigactions_mu.Unlock(); pthread_sigmask(SIG_SETMASK, &saved_thread_mask_, nullptr); } private: static StaticSpinMutex sigactions_mu; sigset_t saved_thread_mask_; SignalSpinLocker(const SignalSpinLocker &) = delete; SignalSpinLocker &operator=(const SignalSpinLocker &) = delete; }; StaticSpinMutex SignalSpinLocker::sigactions_mu; extern "C" { SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_stat(const char *path, struct stat *buf, dfsan_label path_label, dfsan_label buf_label, dfsan_label *ret_label) { int ret = stat(path, buf); if (ret == 0) dfsan_set_label(0, buf, sizeof(struct stat)); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_stat( const char *path, struct stat *buf, dfsan_label path_label, dfsan_label buf_label, dfsan_label *ret_label, dfsan_origin path_origin, dfsan_origin buf_origin, dfsan_origin *ret_origin) { int ret = __dfsw_stat(path, buf, path_label, buf_label, ret_label); return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_fstat(int fd, struct stat *buf, dfsan_label fd_label, dfsan_label buf_label, dfsan_label *ret_label) { int ret = fstat(fd, buf); if (ret == 0) dfsan_set_label(0, buf, sizeof(struct stat)); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_fstat( int fd, struct stat *buf, dfsan_label fd_label, dfsan_label buf_label, dfsan_label *ret_label, dfsan_origin fd_origin, dfsan_origin buf_origin, dfsan_origin *ret_origin) { int ret = __dfsw_fstat(fd, buf, fd_label, buf_label, ret_label); return ret; } static char *dfsan_strchr_with_label(const char *s, int c, size_t *bytes_read, dfsan_label s_label, dfsan_label c_label, dfsan_label *ret_label) { char *match_pos = nullptr; for (size_t i = 0;; ++i) { if (s[i] == c || s[i] == 0) { // If s[i] is the \0 at the end of the string, and \0 is not the // character we are searching for, then return null. *bytes_read = i + 1; match_pos = s[i] == 0 && c != 0 ? nullptr : const_cast(s + i); break; } } if (flags().strict_data_dependencies) *ret_label = s_label; else *ret_label = dfsan_union(dfsan_read_label(s, *bytes_read), dfsan_union(s_label, c_label)); return match_pos; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfsw_strchr(const char *s, int c, dfsan_label s_label, dfsan_label c_label, dfsan_label *ret_label) { size_t bytes_read; return dfsan_strchr_with_label(s, c, &bytes_read, s_label, c_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_strchr( const char *s, int c, dfsan_label s_label, dfsan_label c_label, dfsan_label *ret_label, dfsan_origin s_origin, dfsan_origin c_origin, dfsan_origin *ret_origin) { size_t bytes_read; char *r = dfsan_strchr_with_label(s, c, &bytes_read, s_label, c_label, ret_label); if (flags().strict_data_dependencies) { *ret_origin = s_origin; } else if (*ret_label) { dfsan_origin o = dfsan_read_origin_of_first_taint(s, bytes_read); *ret_origin = o ? o : (s_label ? s_origin : c_origin); } return r; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfsw_strpbrk(const char *s, const char *accept, dfsan_label s_label, dfsan_label accept_label, dfsan_label *ret_label) { const char *ret = strpbrk(s, accept); if (flags().strict_data_dependencies) { *ret_label = ret ? s_label : 0; } else { size_t s_bytes_read = (ret ? ret - s : strlen(s)) + 1; *ret_label = dfsan_union(dfsan_read_label(s, s_bytes_read), dfsan_union(dfsan_read_label(accept, strlen(accept) + 1), dfsan_union(s_label, accept_label))); } return const_cast(ret); } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_strpbrk( const char *s, const char *accept, dfsan_label s_label, dfsan_label accept_label, dfsan_label *ret_label, dfsan_origin s_origin, dfsan_origin accept_origin, dfsan_origin *ret_origin) { const char *ret = __dfsw_strpbrk(s, accept, s_label, accept_label, ret_label); if (flags().strict_data_dependencies) { if (ret) *ret_origin = s_origin; } else { if (*ret_label) { size_t s_bytes_read = (ret ? ret - s : strlen(s)) + 1; dfsan_origin o = dfsan_read_origin_of_first_taint(s, s_bytes_read); if (o) { *ret_origin = o; } else { o = dfsan_read_origin_of_first_taint(accept, strlen(accept) + 1); *ret_origin = o ? o : (s_label ? s_origin : accept_origin); } } } return const_cast(ret); } static int dfsan_memcmp_bcmp(const void *s1, const void *s2, size_t n, size_t *bytes_read) { const char *cs1 = (const char *) s1, *cs2 = (const char *) s2; for (size_t i = 0; i != n; ++i) { if (cs1[i] != cs2[i]) { *bytes_read = i + 1; return cs1[i] - cs2[i]; } } *bytes_read = n; return 0; } static dfsan_label dfsan_get_memcmp_label(const void *s1, const void *s2, size_t pos) { if (flags().strict_data_dependencies) return 0; return dfsan_union(dfsan_read_label(s1, pos), dfsan_read_label(s2, pos)); } static void dfsan_get_memcmp_origin(const void *s1, const void *s2, size_t pos, dfsan_label *ret_label, dfsan_origin *ret_origin) { *ret_label = dfsan_get_memcmp_label(s1, s2, pos); if (*ret_label == 0) return; dfsan_origin o = dfsan_read_origin_of_first_taint(s1, pos); *ret_origin = o ? o : dfsan_read_origin_of_first_taint(s2, pos); } static int dfsan_memcmp_bcmp_label(const void *s1, const void *s2, size_t n, dfsan_label *ret_label) { size_t bytes_read; int r = dfsan_memcmp_bcmp(s1, s2, n, &bytes_read); *ret_label = dfsan_get_memcmp_label(s1, s2, bytes_read); return r; } static int dfsan_memcmp_bcmp_origin(const void *s1, const void *s2, size_t n, dfsan_label *ret_label, dfsan_origin *ret_origin) { size_t bytes_read; int r = dfsan_memcmp_bcmp(s1, s2, n, &bytes_read); dfsan_get_memcmp_origin(s1, s2, bytes_read, ret_label, ret_origin); return r; } DECLARE_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_memcmp, uptr caller_pc, const void *s1, const void *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label) DECLARE_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_origin_memcmp, uptr caller_pc, const void *s1, const void *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_origin s1_origin, dfsan_origin s2_origin, dfsan_origin n_origin) SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_memcmp(const void *s1, const void *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_label *ret_label) { CALL_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_memcmp, GET_CALLER_PC(), s1, s2, n, s1_label, s2_label, n_label); return dfsan_memcmp_bcmp_label(s1, s2, n, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_memcmp( const void *s1, const void *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_label *ret_label, dfsan_origin s1_origin, dfsan_origin s2_origin, dfsan_origin n_origin, dfsan_origin *ret_origin) { CALL_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_origin_memcmp, GET_CALLER_PC(), s1, s2, n, s1_label, s2_label, n_label, s1_origin, s2_origin, n_origin); return dfsan_memcmp_bcmp_origin(s1, s2, n, ret_label, ret_origin); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_bcmp(const void *s1, const void *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_label *ret_label) { return dfsan_memcmp_bcmp_label(s1, s2, n, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_bcmp( const void *s1, const void *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_label *ret_label, dfsan_origin s1_origin, dfsan_origin s2_origin, dfsan_origin n_origin, dfsan_origin *ret_origin) { return dfsan_memcmp_bcmp_origin(s1, s2, n, ret_label, ret_origin); } // When n == 0, compare strings without byte limit. // When n > 0, compare the first (at most) n bytes of s1 and s2. static int dfsan_strncmp(const char *s1, const char *s2, size_t n, size_t *bytes_read) { for (size_t i = 0;; ++i) { if (s1[i] != s2[i] || s1[i] == 0 || s2[i] == 0 || (n > 0 && i == n - 1)) { *bytes_read = i + 1; return s1[i] - s2[i]; } } } DECLARE_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_strcmp, uptr caller_pc, const char *s1, const char *s2, dfsan_label s1_label, dfsan_label s2_label) DECLARE_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_origin_strcmp, uptr caller_pc, const char *s1, const char *s2, dfsan_label s1_label, dfsan_label s2_label, dfsan_origin s1_origin, dfsan_origin s2_origin) SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_strcmp(const char *s1, const char *s2, dfsan_label s1_label, dfsan_label s2_label, dfsan_label *ret_label) { CALL_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_strcmp, GET_CALLER_PC(), s1, s2, s1_label, s2_label); size_t bytes_read; int r = dfsan_strncmp(s1, s2, 0, &bytes_read); *ret_label = dfsan_get_memcmp_label(s1, s2, bytes_read); return r; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_strcmp( const char *s1, const char *s2, dfsan_label s1_label, dfsan_label s2_label, dfsan_label *ret_label, dfsan_origin s1_origin, dfsan_origin s2_origin, dfsan_origin *ret_origin) { CALL_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_origin_strcmp, GET_CALLER_PC(), s1, s2, s1_label, s2_label, s1_origin, s2_origin); size_t bytes_read; int r = dfsan_strncmp(s1, s2, 0, &bytes_read); dfsan_get_memcmp_origin(s1, s2, bytes_read, ret_label, ret_origin); return r; } // When n == 0, compare strings without byte limit. // When n > 0, compare the first (at most) n bytes of s1 and s2. static int dfsan_strncasecmp(const char *s1, const char *s2, size_t n, size_t *bytes_read) { for (size_t i = 0;; ++i) { char s1_lower = tolower(s1[i]); char s2_lower = tolower(s2[i]); if (s1_lower != s2_lower || s1[i] == 0 || s2[i] == 0 || (n > 0 && i == n - 1)) { *bytes_read = i + 1; return s1_lower - s2_lower; } } } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_strcasecmp(const char *s1, const char *s2, dfsan_label s1_label, dfsan_label s2_label, dfsan_label *ret_label) { size_t bytes_read; int r = dfsan_strncasecmp(s1, s2, 0, &bytes_read); *ret_label = dfsan_get_memcmp_label(s1, s2, bytes_read); return r; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_strcasecmp( const char *s1, const char *s2, dfsan_label s1_label, dfsan_label s2_label, dfsan_label *ret_label, dfsan_origin s1_origin, dfsan_origin s2_origin, dfsan_origin *ret_origin) { size_t bytes_read; int r = dfsan_strncasecmp(s1, s2, 0, &bytes_read); dfsan_get_memcmp_origin(s1, s2, bytes_read, ret_label, ret_origin); return r; } DECLARE_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_strncmp, uptr caller_pc, const char *s1, const char *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label) DECLARE_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_origin_strncmp, uptr caller_pc, const char *s1, const char *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_origin s1_origin, dfsan_origin s2_origin, dfsan_origin n_origin) SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_strncmp(const char *s1, const char *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_label *ret_label) { if (n == 0) { *ret_label = 0; return 0; } CALL_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_strncmp, GET_CALLER_PC(), s1, s2, n, s1_label, s2_label, n_label); size_t bytes_read; int r = dfsan_strncmp(s1, s2, n, &bytes_read); *ret_label = dfsan_get_memcmp_label(s1, s2, bytes_read); return r; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_strncmp( const char *s1, const char *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_label *ret_label, dfsan_origin s1_origin, dfsan_origin s2_origin, dfsan_origin n_origin, dfsan_origin *ret_origin) { if (n == 0) { *ret_label = 0; return 0; } CALL_WEAK_INTERCEPTOR_HOOK(dfsan_weak_hook_origin_strncmp, GET_CALLER_PC(), s1, s2, n, s1_label, s2_label, n_label, s1_origin, s2_origin, n_origin); size_t bytes_read; int r = dfsan_strncmp(s1, s2, n, &bytes_read); dfsan_get_memcmp_origin(s1, s2, bytes_read, ret_label, ret_origin); return r; } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_strncasecmp( const char *s1, const char *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_label *ret_label) { if (n == 0) { *ret_label = 0; return 0; } size_t bytes_read; int r = dfsan_strncasecmp(s1, s2, n, &bytes_read); *ret_label = dfsan_get_memcmp_label(s1, s2, bytes_read); return r; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_strncasecmp( const char *s1, const char *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_label *ret_label, dfsan_origin s1_origin, dfsan_origin s2_origin, dfsan_origin n_origin, dfsan_origin *ret_origin) { if (n == 0) { *ret_label = 0; return 0; } size_t bytes_read; int r = dfsan_strncasecmp(s1, s2, n, &bytes_read); dfsan_get_memcmp_origin(s1, s2, bytes_read, ret_label, ret_origin); return r; } SANITIZER_INTERFACE_ATTRIBUTE size_t __dfsw_strlen(const char *s, dfsan_label s_label, dfsan_label *ret_label) { size_t ret = strlen(s); if (flags().strict_data_dependencies) { *ret_label = 0; } else { *ret_label = dfsan_read_label(s, ret + 1); } return ret; } SANITIZER_INTERFACE_ATTRIBUTE size_t __dfso_strlen(const char *s, dfsan_label s_label, dfsan_label *ret_label, dfsan_origin s_origin, dfsan_origin *ret_origin) { size_t ret = __dfsw_strlen(s, s_label, ret_label); if (!flags().strict_data_dependencies) *ret_origin = dfsan_read_origin_of_first_taint(s, ret + 1); return ret; } static void *dfsan_memmove(void *dest, const void *src, size_t n) { dfsan_label *sdest = shadow_for(dest); const dfsan_label *ssrc = shadow_for(src); internal_memmove((void *)sdest, (const void *)ssrc, n * sizeof(dfsan_label)); return internal_memmove(dest, src, n); } static void *dfsan_memmove_with_origin(void *dest, const void *src, size_t n) { dfsan_mem_origin_transfer(dest, src, n); return dfsan_memmove(dest, src, n); } static void *dfsan_memcpy(void *dest, const void *src, size_t n) { dfsan_label *sdest = shadow_for(dest); const dfsan_label *ssrc = shadow_for(src); internal_memcpy((void *)sdest, (const void *)ssrc, n * sizeof(dfsan_label)); return internal_memcpy(dest, src, n); } static void *dfsan_memcpy_with_origin(void *dest, const void *src, size_t n) { dfsan_mem_origin_transfer(dest, src, n); return dfsan_memcpy(dest, src, n); } static void dfsan_memset(void *s, int c, dfsan_label c_label, size_t n) { internal_memset(s, c, n); dfsan_set_label(c_label, s, n); } static void dfsan_memset_with_origin(void *s, int c, dfsan_label c_label, dfsan_origin c_origin, size_t n) { internal_memset(s, c, n); dfsan_set_label_origin(c_label, c_origin, s, n); } SANITIZER_INTERFACE_ATTRIBUTE void *__dfsw_memcpy(void *dest, const void *src, size_t n, dfsan_label dest_label, dfsan_label src_label, dfsan_label n_label, dfsan_label *ret_label) { *ret_label = dest_label; return dfsan_memcpy(dest, src, n); } SANITIZER_INTERFACE_ATTRIBUTE void *__dfso_memcpy(void *dest, const void *src, size_t n, dfsan_label dest_label, dfsan_label src_label, dfsan_label n_label, dfsan_label *ret_label, dfsan_origin dest_origin, dfsan_origin src_origin, dfsan_origin n_origin, dfsan_origin *ret_origin) { *ret_label = dest_label; *ret_origin = dest_origin; return dfsan_memcpy_with_origin(dest, src, n); } SANITIZER_INTERFACE_ATTRIBUTE void *__dfsw_memmove(void *dest, const void *src, size_t n, dfsan_label dest_label, dfsan_label src_label, dfsan_label n_label, dfsan_label *ret_label) { *ret_label = dest_label; return dfsan_memmove(dest, src, n); } SANITIZER_INTERFACE_ATTRIBUTE void *__dfso_memmove(void *dest, const void *src, size_t n, dfsan_label dest_label, dfsan_label src_label, dfsan_label n_label, dfsan_label *ret_label, dfsan_origin dest_origin, dfsan_origin src_origin, dfsan_origin n_origin, dfsan_origin *ret_origin) { *ret_label = dest_label; *ret_origin = dest_origin; return dfsan_memmove_with_origin(dest, src, n); } SANITIZER_INTERFACE_ATTRIBUTE void *__dfsw_memset(void *s, int c, size_t n, dfsan_label s_label, dfsan_label c_label, dfsan_label n_label, dfsan_label *ret_label) { dfsan_memset(s, c, c_label, n); *ret_label = s_label; return s; } SANITIZER_INTERFACE_ATTRIBUTE void *__dfso_memset(void *s, int c, size_t n, dfsan_label s_label, dfsan_label c_label, dfsan_label n_label, dfsan_label *ret_label, dfsan_origin s_origin, dfsan_origin c_origin, dfsan_origin n_origin, dfsan_origin *ret_origin) { dfsan_memset_with_origin(s, c, c_label, c_origin, n); *ret_label = s_label; *ret_origin = s_origin; return s; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfsw_strcat(char *dest, const char *src, dfsan_label dest_label, dfsan_label src_label, dfsan_label *ret_label) { size_t dest_len = strlen(dest); char *ret = strcat(dest, src); // NOLINT dfsan_label *sdest = shadow_for(dest + dest_len); const dfsan_label *ssrc = shadow_for(src); internal_memcpy((void *)sdest, (const void *)ssrc, strlen(src) * sizeof(dfsan_label)); *ret_label = dest_label; return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_strcat( char *dest, const char *src, dfsan_label dest_label, dfsan_label src_label, dfsan_label *ret_label, dfsan_origin dest_origin, dfsan_origin src_origin, dfsan_origin *ret_origin) { size_t dest_len = strlen(dest); char *ret = strcat(dest, src); // NOLINT dfsan_label *sdest = shadow_for(dest + dest_len); const dfsan_label *ssrc = shadow_for(src); size_t src_len = strlen(src); dfsan_mem_origin_transfer(dest + dest_len, src, src_len); internal_memcpy((void *)sdest, (const void *)ssrc, src_len * sizeof(dfsan_label)); *ret_label = dest_label; *ret_origin = dest_origin; return ret; } SANITIZER_INTERFACE_ATTRIBUTE char * __dfsw_strdup(const char *s, dfsan_label s_label, dfsan_label *ret_label) { size_t len = strlen(s); void *p = malloc(len+1); dfsan_memcpy(p, s, len+1); *ret_label = 0; return static_cast(p); } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_strdup(const char *s, dfsan_label s_label, dfsan_label *ret_label, dfsan_origin s_origin, dfsan_origin *ret_origin) { size_t len = strlen(s); void *p = malloc(len + 1); dfsan_memcpy_with_origin(p, s, len + 1); *ret_label = 0; return static_cast(p); } SANITIZER_INTERFACE_ATTRIBUTE char * __dfsw_strncpy(char *s1, const char *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_label *ret_label) { size_t len = strlen(s2); if (len < n) { dfsan_memcpy(s1, s2, len+1); dfsan_memset(s1+len+1, 0, 0, n-len-1); } else { dfsan_memcpy(s1, s2, n); } *ret_label = s1_label; return s1; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_strncpy( char *s1, const char *s2, size_t n, dfsan_label s1_label, dfsan_label s2_label, dfsan_label n_label, dfsan_label *ret_label, dfsan_origin s1_origin, dfsan_origin s2_origin, dfsan_origin n_origin, dfsan_origin *ret_origin) { size_t len = strlen(s2); if (len < n) { dfsan_memcpy_with_origin(s1, s2, len + 1); dfsan_memset_with_origin(s1 + len + 1, 0, 0, 0, n - len - 1); } else { dfsan_memcpy_with_origin(s1, s2, n); } *ret_label = s1_label; *ret_origin = s1_origin; return s1; } SANITIZER_INTERFACE_ATTRIBUTE ssize_t __dfsw_pread(int fd, void *buf, size_t count, off_t offset, dfsan_label fd_label, dfsan_label buf_label, dfsan_label count_label, dfsan_label offset_label, dfsan_label *ret_label) { ssize_t ret = pread(fd, buf, count, offset); if (ret > 0) dfsan_set_label(0, buf, ret); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE ssize_t __dfso_pread( int fd, void *buf, size_t count, off_t offset, dfsan_label fd_label, dfsan_label buf_label, dfsan_label count_label, dfsan_label offset_label, dfsan_label *ret_label, dfsan_origin fd_origin, dfsan_origin buf_origin, dfsan_origin count_origin, dfsan_label offset_origin, dfsan_origin *ret_origin) { return __dfsw_pread(fd, buf, count, offset, fd_label, buf_label, count_label, offset_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE ssize_t __dfsw_read(int fd, void *buf, size_t count, dfsan_label fd_label, dfsan_label buf_label, dfsan_label count_label, dfsan_label *ret_label) { ssize_t ret = read(fd, buf, count); if (ret > 0) dfsan_set_label(0, buf, ret); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE ssize_t __dfso_read( int fd, void *buf, size_t count, dfsan_label fd_label, dfsan_label buf_label, dfsan_label count_label, dfsan_label *ret_label, dfsan_origin fd_origin, dfsan_origin buf_origin, dfsan_origin count_origin, dfsan_origin *ret_origin) { return __dfsw_read(fd, buf, count, fd_label, buf_label, count_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_clock_gettime(clockid_t clk_id, struct timespec *tp, dfsan_label clk_id_label, dfsan_label tp_label, dfsan_label *ret_label) { int ret = clock_gettime(clk_id, tp); if (ret == 0) dfsan_set_label(0, tp, sizeof(struct timespec)); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_clock_gettime( clockid_t clk_id, struct timespec *tp, dfsan_label clk_id_label, dfsan_label tp_label, dfsan_label *ret_label, dfsan_origin clk_id_origin, dfsan_origin tp_origin, dfsan_origin *ret_origin) { return __dfsw_clock_gettime(clk_id, tp, clk_id_label, tp_label, ret_label); } static void dfsan_set_zero_label(const void *ptr, uptr size) { dfsan_set_label(0, const_cast(ptr), size); } // dlopen() ultimately calls mmap() down inside the loader, which generally // doesn't participate in dynamic symbol resolution. Therefore we won't // intercept its calls to mmap, and we have to hook it here. SANITIZER_INTERFACE_ATTRIBUTE void * __dfsw_dlopen(const char *filename, int flag, dfsan_label filename_label, dfsan_label flag_label, dfsan_label *ret_label) { void *handle = dlopen(filename, flag); link_map *map = GET_LINK_MAP_BY_DLOPEN_HANDLE(handle); if (map) ForEachMappedRegion(map, dfsan_set_zero_label); *ret_label = 0; return handle; } SANITIZER_INTERFACE_ATTRIBUTE void *__dfso_dlopen( const char *filename, int flag, dfsan_label filename_label, dfsan_label flag_label, dfsan_label *ret_label, dfsan_origin filename_origin, dfsan_origin flag_origin, dfsan_origin *ret_origin) { return __dfsw_dlopen(filename, flag, filename_label, flag_label, ret_label); } static void *DFsanThreadStartFunc(void *arg) { DFsanThread *t = (DFsanThread *)arg; SetCurrentThread(t); return t->ThreadStart(); } static int dfsan_pthread_create(pthread_t *thread, const pthread_attr_t *attr, void *start_routine_trampoline, void *start_routine, void *arg, dfsan_label *ret_label, bool track_origins = false) { pthread_attr_t myattr; if (!attr) { pthread_attr_init(&myattr); attr = &myattr; } // Ensure that the thread stack is large enough to hold all TLS data. AdjustStackSize((void *)(const_cast(attr))); DFsanThread *t = DFsanThread::Create(start_routine_trampoline, (thread_callback_t)start_routine, arg, track_origins); int res = pthread_create(thread, attr, DFsanThreadStartFunc, t); if (attr == &myattr) pthread_attr_destroy(&myattr); *ret_label = 0; return res; } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_pthread_create( pthread_t *thread, const pthread_attr_t *attr, void *(*start_routine_trampoline)(void *, void *, dfsan_label, dfsan_label *), void *start_routine, void *arg, dfsan_label thread_label, dfsan_label attr_label, dfsan_label start_routine_label, dfsan_label arg_label, dfsan_label *ret_label) { return dfsan_pthread_create(thread, attr, (void *)start_routine_trampoline, start_routine, arg, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_pthread_create( pthread_t *thread, const pthread_attr_t *attr, void *(*start_routine_trampoline)(void *, void *, dfsan_label, dfsan_label *, dfsan_origin, dfsan_origin *), void *start_routine, void *arg, dfsan_label thread_label, dfsan_label attr_label, dfsan_label start_routine_label, dfsan_label arg_label, dfsan_label *ret_label, dfsan_origin thread_origin, dfsan_origin attr_origin, dfsan_origin start_routine_origin, dfsan_origin arg_origin, dfsan_origin *ret_origin) { return dfsan_pthread_create(thread, attr, (void *)start_routine_trampoline, start_routine, arg, ret_label, true); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_pthread_join(pthread_t thread, void **retval, dfsan_label thread_label, dfsan_label retval_label, dfsan_label *ret_label) { int ret = pthread_join(thread, retval); if (ret == 0 && retval) dfsan_set_label(0, retval, sizeof(*retval)); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_pthread_join( pthread_t thread, void **retval, dfsan_label thread_label, dfsan_label retval_label, dfsan_label *ret_label, dfsan_origin thread_origin, dfsan_origin retval_origin, dfsan_origin *ret_origin) { return __dfsw_pthread_join(thread, retval, thread_label, retval_label, ret_label); } struct dl_iterate_phdr_info { int (*callback_trampoline)(void *callback, struct dl_phdr_info *info, size_t size, void *data, dfsan_label info_label, dfsan_label size_label, dfsan_label data_label, dfsan_label *ret_label); void *callback; void *data; }; struct dl_iterate_phdr_origin_info { int (*callback_trampoline)(void *callback, struct dl_phdr_info *info, size_t size, void *data, dfsan_label info_label, dfsan_label size_label, dfsan_label data_label, dfsan_label *ret_label, dfsan_origin info_origin, dfsan_origin size_origin, dfsan_origin data_origin, dfsan_origin *ret_origin); void *callback; void *data; }; int dl_iterate_phdr_cb(struct dl_phdr_info *info, size_t size, void *data) { dl_iterate_phdr_info *dipi = (dl_iterate_phdr_info *)data; dfsan_set_label(0, *info); dfsan_set_label(0, const_cast(info->dlpi_name), strlen(info->dlpi_name) + 1); dfsan_set_label( 0, const_cast(reinterpret_cast(info->dlpi_phdr)), sizeof(*info->dlpi_phdr) * info->dlpi_phnum); dfsan_label ret_label; return dipi->callback_trampoline(dipi->callback, info, size, dipi->data, 0, 0, 0, &ret_label); } int dl_iterate_phdr_origin_cb(struct dl_phdr_info *info, size_t size, void *data) { dl_iterate_phdr_origin_info *dipi = (dl_iterate_phdr_origin_info *)data; dfsan_set_label(0, *info); dfsan_set_label(0, const_cast(info->dlpi_name), strlen(info->dlpi_name) + 1); dfsan_set_label( 0, const_cast(reinterpret_cast(info->dlpi_phdr)), sizeof(*info->dlpi_phdr) * info->dlpi_phnum); dfsan_label ret_label; dfsan_origin ret_origin; return dipi->callback_trampoline(dipi->callback, info, size, dipi->data, 0, 0, 0, &ret_label, 0, 0, 0, &ret_origin); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_dl_iterate_phdr( int (*callback_trampoline)(void *callback, struct dl_phdr_info *info, size_t size, void *data, dfsan_label info_label, dfsan_label size_label, dfsan_label data_label, dfsan_label *ret_label), void *callback, void *data, dfsan_label callback_label, dfsan_label data_label, dfsan_label *ret_label) { dl_iterate_phdr_info dipi = { callback_trampoline, callback, data }; *ret_label = 0; return dl_iterate_phdr(dl_iterate_phdr_cb, &dipi); } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_dl_iterate_phdr( int (*callback_trampoline)(void *callback, struct dl_phdr_info *info, size_t size, void *data, dfsan_label info_label, dfsan_label size_label, dfsan_label data_label, dfsan_label *ret_label, dfsan_origin info_origin, dfsan_origin size_origin, dfsan_origin data_origin, dfsan_origin *ret_origin), void *callback, void *data, dfsan_label callback_label, dfsan_label data_label, dfsan_label *ret_label, dfsan_origin callback_origin, dfsan_origin data_origin, dfsan_origin *ret_origin) { dl_iterate_phdr_origin_info dipi = {callback_trampoline, callback, data}; *ret_label = 0; return dl_iterate_phdr(dl_iterate_phdr_origin_cb, &dipi); } // This function is only available for glibc 2.27 or newer. Mark it weak so // linking succeeds with older glibcs. SANITIZER_WEAK_ATTRIBUTE void _dl_get_tls_static_info(size_t *sizep, size_t *alignp); SANITIZER_INTERFACE_ATTRIBUTE void __dfsw__dl_get_tls_static_info( size_t *sizep, size_t *alignp, dfsan_label sizep_label, dfsan_label alignp_label) { assert(_dl_get_tls_static_info); _dl_get_tls_static_info(sizep, alignp); dfsan_set_label(0, sizep, sizeof(*sizep)); dfsan_set_label(0, alignp, sizeof(*alignp)); } SANITIZER_INTERFACE_ATTRIBUTE void __dfso__dl_get_tls_static_info( size_t *sizep, size_t *alignp, dfsan_label sizep_label, dfsan_label alignp_label, dfsan_origin sizep_origin, dfsan_origin alignp_origin) { __dfsw__dl_get_tls_static_info(sizep, alignp, sizep_label, alignp_label); } SANITIZER_INTERFACE_ATTRIBUTE char *__dfsw_ctime_r(const time_t *timep, char *buf, dfsan_label timep_label, dfsan_label buf_label, dfsan_label *ret_label) { char *ret = ctime_r(timep, buf); if (ret) { dfsan_set_label(dfsan_read_label(timep, sizeof(time_t)), buf, strlen(buf) + 1); *ret_label = buf_label; } else { *ret_label = 0; } return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_ctime_r(const time_t *timep, char *buf, dfsan_label timep_label, dfsan_label buf_label, dfsan_label *ret_label, dfsan_origin timep_origin, dfsan_origin buf_origin, dfsan_origin *ret_origin) { char *ret = ctime_r(timep, buf); if (ret) { dfsan_set_label_origin( dfsan_read_label(timep, sizeof(time_t)), dfsan_read_origin_of_first_taint(timep, sizeof(time_t)), buf, strlen(buf) + 1); *ret_label = buf_label; *ret_origin = buf_origin; } else { *ret_label = 0; } return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfsw_fgets(char *s, int size, FILE *stream, dfsan_label s_label, dfsan_label size_label, dfsan_label stream_label, dfsan_label *ret_label) { char *ret = fgets(s, size, stream); if (ret) { dfsan_set_label(0, ret, strlen(ret) + 1); *ret_label = s_label; } else { *ret_label = 0; } return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_fgets(char *s, int size, FILE *stream, dfsan_label s_label, dfsan_label size_label, dfsan_label stream_label, dfsan_label *ret_label, dfsan_origin s_origin, dfsan_origin size_origin, dfsan_origin stream_origin, dfsan_origin *ret_origin) { char *ret = __dfsw_fgets(s, size, stream, s_label, size_label, stream_label, ret_label); if (ret) *ret_origin = s_origin; return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfsw_getcwd(char *buf, size_t size, dfsan_label buf_label, dfsan_label size_label, dfsan_label *ret_label) { char *ret = getcwd(buf, size); if (ret) { dfsan_set_label(0, ret, strlen(ret) + 1); *ret_label = buf_label; } else { *ret_label = 0; } return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_getcwd(char *buf, size_t size, dfsan_label buf_label, dfsan_label size_label, dfsan_label *ret_label, dfsan_origin buf_origin, dfsan_origin size_origin, dfsan_origin *ret_origin) { char *ret = __dfsw_getcwd(buf, size, buf_label, size_label, ret_label); if (ret) *ret_origin = buf_origin; return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfsw_get_current_dir_name(dfsan_label *ret_label) { char *ret = get_current_dir_name(); if (ret) dfsan_set_label(0, ret, strlen(ret) + 1); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_get_current_dir_name(dfsan_label *ret_label, dfsan_origin *ret_origin) { return __dfsw_get_current_dir_name(ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_gethostname(char *name, size_t len, dfsan_label name_label, dfsan_label len_label, dfsan_label *ret_label) { int ret = gethostname(name, len); if (ret == 0) { dfsan_set_label(0, name, strlen(name) + 1); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_gethostname(char *name, size_t len, dfsan_label name_label, dfsan_label len_label, dfsan_label *ret_label, dfsan_origin name_origin, dfsan_origin len_origin, dfsan_label *ret_origin) { return __dfsw_gethostname(name, len, name_label, len_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_getrlimit(int resource, struct rlimit *rlim, dfsan_label resource_label, dfsan_label rlim_label, dfsan_label *ret_label) { int ret = getrlimit(resource, rlim); if (ret == 0) { dfsan_set_label(0, rlim, sizeof(struct rlimit)); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_getrlimit(int resource, struct rlimit *rlim, dfsan_label resource_label, dfsan_label rlim_label, dfsan_label *ret_label, dfsan_origin resource_origin, dfsan_origin rlim_origin, dfsan_origin *ret_origin) { return __dfsw_getrlimit(resource, rlim, resource_label, rlim_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_getrusage(int who, struct rusage *usage, dfsan_label who_label, dfsan_label usage_label, dfsan_label *ret_label) { int ret = getrusage(who, usage); if (ret == 0) { dfsan_set_label(0, usage, sizeof(struct rusage)); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_getrusage(int who, struct rusage *usage, dfsan_label who_label, dfsan_label usage_label, dfsan_label *ret_label, dfsan_origin who_origin, dfsan_origin usage_origin, dfsan_label *ret_origin) { return __dfsw_getrusage(who, usage, who_label, usage_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE char *__dfsw_strcpy(char *dest, const char *src, dfsan_label dst_label, dfsan_label src_label, dfsan_label *ret_label) { char *ret = strcpy(dest, src); // NOLINT if (ret) { internal_memcpy(shadow_for(dest), shadow_for(src), sizeof(dfsan_label) * (strlen(src) + 1)); } *ret_label = dst_label; return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_strcpy(char *dest, const char *src, dfsan_label dst_label, dfsan_label src_label, dfsan_label *ret_label, dfsan_origin dst_origin, dfsan_origin src_origin, dfsan_origin *ret_origin) { char *ret = strcpy(dest, src); // NOLINT if (ret) { size_t str_len = strlen(src) + 1; dfsan_mem_origin_transfer(dest, src, str_len); internal_memcpy(shadow_for(dest), shadow_for(src), sizeof(dfsan_label) * str_len); } *ret_label = dst_label; *ret_origin = dst_origin; return ret; } static long int dfsan_strtol(const char *nptr, char **endptr, int base, char **tmp_endptr) { assert(tmp_endptr); long int ret = strtol(nptr, tmp_endptr, base); if (endptr) *endptr = *tmp_endptr; return ret; } static void dfsan_strtolong_label(const char *nptr, const char *tmp_endptr, dfsan_label base_label, dfsan_label *ret_label) { if (tmp_endptr > nptr) { // If *tmp_endptr is '\0' include its label as well. *ret_label = dfsan_union( base_label, dfsan_read_label(nptr, tmp_endptr - nptr + (*tmp_endptr ? 0 : 1))); } else { *ret_label = 0; } } static void dfsan_strtolong_origin(const char *nptr, const char *tmp_endptr, dfsan_label base_label, dfsan_label *ret_label, dfsan_origin base_origin, dfsan_origin *ret_origin) { if (tmp_endptr > nptr) { // When multiple inputs are tainted, we propagate one of its origins. // Because checking if base_label is tainted does not need additional // computation, we prefer to propagating base_origin. *ret_origin = base_label ? base_origin : dfsan_read_origin_of_first_taint( nptr, tmp_endptr - nptr + (*tmp_endptr ? 0 : 1)); } } SANITIZER_INTERFACE_ATTRIBUTE long int __dfsw_strtol(const char *nptr, char **endptr, int base, dfsan_label nptr_label, dfsan_label endptr_label, dfsan_label base_label, dfsan_label *ret_label) { char *tmp_endptr; long int ret = dfsan_strtol(nptr, endptr, base, &tmp_endptr); dfsan_strtolong_label(nptr, tmp_endptr, base_label, ret_label); return ret; } SANITIZER_INTERFACE_ATTRIBUTE long int __dfso_strtol(const char *nptr, char **endptr, int base, dfsan_label nptr_label, dfsan_label endptr_label, dfsan_label base_label, dfsan_label *ret_label, dfsan_origin nptr_origin, dfsan_origin endptr_origin, dfsan_origin base_origin, dfsan_origin *ret_origin) { char *tmp_endptr; long int ret = dfsan_strtol(nptr, endptr, base, &tmp_endptr); dfsan_strtolong_label(nptr, tmp_endptr, base_label, ret_label); dfsan_strtolong_origin(nptr, tmp_endptr, base_label, ret_label, base_origin, ret_origin); return ret; } static double dfsan_strtod(const char *nptr, char **endptr, char **tmp_endptr) { assert(tmp_endptr); double ret = strtod(nptr, tmp_endptr); if (endptr) *endptr = *tmp_endptr; return ret; } static void dfsan_strtod_label(const char *nptr, const char *tmp_endptr, dfsan_label *ret_label) { if (tmp_endptr > nptr) { // If *tmp_endptr is '\0' include its label as well. *ret_label = dfsan_read_label( nptr, tmp_endptr - nptr + (*tmp_endptr ? 0 : 1)); } else { *ret_label = 0; } } SANITIZER_INTERFACE_ATTRIBUTE double __dfsw_strtod(const char *nptr, char **endptr, dfsan_label nptr_label, dfsan_label endptr_label, dfsan_label *ret_label) { char *tmp_endptr; double ret = dfsan_strtod(nptr, endptr, &tmp_endptr); dfsan_strtod_label(nptr, tmp_endptr, ret_label); return ret; } SANITIZER_INTERFACE_ATTRIBUTE double __dfso_strtod(const char *nptr, char **endptr, dfsan_label nptr_label, dfsan_label endptr_label, dfsan_label *ret_label, dfsan_origin nptr_origin, dfsan_origin endptr_origin, dfsan_origin *ret_origin) { char *tmp_endptr; double ret = dfsan_strtod(nptr, endptr, &tmp_endptr); dfsan_strtod_label(nptr, tmp_endptr, ret_label); if (tmp_endptr > nptr) { // If *tmp_endptr is '\0' include its label as well. *ret_origin = dfsan_read_origin_of_first_taint( nptr, tmp_endptr - nptr + (*tmp_endptr ? 0 : 1)); } else { *ret_origin = 0; } return ret; } static long long int dfsan_strtoll(const char *nptr, char **endptr, int base, char **tmp_endptr) { assert(tmp_endptr); long long int ret = strtoll(nptr, tmp_endptr, base); if (endptr) *endptr = *tmp_endptr; return ret; } SANITIZER_INTERFACE_ATTRIBUTE long long int __dfsw_strtoll(const char *nptr, char **endptr, int base, dfsan_label nptr_label, dfsan_label endptr_label, dfsan_label base_label, dfsan_label *ret_label) { char *tmp_endptr; long long int ret = dfsan_strtoll(nptr, endptr, base, &tmp_endptr); dfsan_strtolong_label(nptr, tmp_endptr, base_label, ret_label); return ret; } SANITIZER_INTERFACE_ATTRIBUTE long long int __dfso_strtoll(const char *nptr, char **endptr, int base, dfsan_label nptr_label, dfsan_label endptr_label, dfsan_label base_label, dfsan_label *ret_label, dfsan_origin nptr_origin, dfsan_origin endptr_origin, dfsan_origin base_origin, dfsan_origin *ret_origin) { char *tmp_endptr; long long int ret = dfsan_strtoll(nptr, endptr, base, &tmp_endptr); dfsan_strtolong_label(nptr, tmp_endptr, base_label, ret_label); dfsan_strtolong_origin(nptr, tmp_endptr, base_label, ret_label, base_origin, ret_origin); return ret; } static unsigned long int dfsan_strtoul(const char *nptr, char **endptr, int base, char **tmp_endptr) { assert(tmp_endptr); unsigned long int ret = strtoul(nptr, tmp_endptr, base); if (endptr) *endptr = *tmp_endptr; return ret; } SANITIZER_INTERFACE_ATTRIBUTE unsigned long int __dfsw_strtoul(const char *nptr, char **endptr, int base, dfsan_label nptr_label, dfsan_label endptr_label, dfsan_label base_label, dfsan_label *ret_label) { char *tmp_endptr; unsigned long int ret = dfsan_strtoul(nptr, endptr, base, &tmp_endptr); dfsan_strtolong_label(nptr, tmp_endptr, base_label, ret_label); return ret; } SANITIZER_INTERFACE_ATTRIBUTE unsigned long int __dfso_strtoul( const char *nptr, char **endptr, int base, dfsan_label nptr_label, dfsan_label endptr_label, dfsan_label base_label, dfsan_label *ret_label, dfsan_origin nptr_origin, dfsan_origin endptr_origin, dfsan_origin base_origin, dfsan_origin *ret_origin) { char *tmp_endptr; unsigned long int ret = dfsan_strtoul(nptr, endptr, base, &tmp_endptr); dfsan_strtolong_label(nptr, tmp_endptr, base_label, ret_label); dfsan_strtolong_origin(nptr, tmp_endptr, base_label, ret_label, base_origin, ret_origin); return ret; } static long long unsigned int dfsan_strtoull(const char *nptr, char **endptr, int base, char **tmp_endptr) { assert(tmp_endptr); long long unsigned int ret = strtoull(nptr, tmp_endptr, base); if (endptr) *endptr = *tmp_endptr; return ret; } SANITIZER_INTERFACE_ATTRIBUTE long long unsigned int __dfsw_strtoull(const char *nptr, char **endptr, int base, dfsan_label nptr_label, dfsan_label endptr_label, dfsan_label base_label, dfsan_label *ret_label) { char *tmp_endptr; long long unsigned int ret = dfsan_strtoull(nptr, endptr, base, &tmp_endptr); dfsan_strtolong_label(nptr, tmp_endptr, base_label, ret_label); return ret; } SANITIZER_INTERFACE_ATTRIBUTE long long unsigned int __dfso_strtoull( const char *nptr, char **endptr, int base, dfsan_label nptr_label, dfsan_label endptr_label, dfsan_label base_label, dfsan_label *ret_label, dfsan_origin nptr_origin, dfsan_origin endptr_origin, dfsan_origin base_origin, dfsan_origin *ret_origin) { char *tmp_endptr; long long unsigned int ret = dfsan_strtoull(nptr, endptr, base, &tmp_endptr); dfsan_strtolong_label(nptr, tmp_endptr, base_label, ret_label); dfsan_strtolong_origin(nptr, tmp_endptr, base_label, ret_label, base_origin, ret_origin); return ret; } SANITIZER_INTERFACE_ATTRIBUTE time_t __dfsw_time(time_t *t, dfsan_label t_label, dfsan_label *ret_label) { time_t ret = time(t); if (ret != (time_t) -1 && t) { dfsan_set_label(0, t, sizeof(time_t)); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE time_t __dfso_time(time_t *t, dfsan_label t_label, dfsan_label *ret_label, dfsan_origin t_origin, dfsan_origin *ret_origin) { return __dfsw_time(t, t_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_inet_pton(int af, const char *src, void *dst, dfsan_label af_label, dfsan_label src_label, dfsan_label dst_label, dfsan_label *ret_label) { int ret = inet_pton(af, src, dst); if (ret == 1) { dfsan_set_label(dfsan_read_label(src, strlen(src) + 1), dst, af == AF_INET ? sizeof(struct in_addr) : sizeof(in6_addr)); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_inet_pton(int af, const char *src, void *dst, dfsan_label af_label, dfsan_label src_label, dfsan_label dst_label, dfsan_label *ret_label, dfsan_origin af_origin, dfsan_origin src_origin, dfsan_origin dst_origin, dfsan_origin *ret_origin) { int ret = inet_pton(af, src, dst); if (ret == 1) { int src_len = strlen(src) + 1; dfsan_set_label_origin( dfsan_read_label(src, src_len), dfsan_read_origin_of_first_taint(src, src_len), dst, af == AF_INET ? sizeof(struct in_addr) : sizeof(in6_addr)); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE struct tm *__dfsw_localtime_r(const time_t *timep, struct tm *result, dfsan_label timep_label, dfsan_label result_label, dfsan_label *ret_label) { struct tm *ret = localtime_r(timep, result); if (ret) { dfsan_set_label(dfsan_read_label(timep, sizeof(time_t)), result, sizeof(struct tm)); *ret_label = result_label; } else { *ret_label = 0; } return ret; } SANITIZER_INTERFACE_ATTRIBUTE struct tm *__dfso_localtime_r(const time_t *timep, struct tm *result, dfsan_label timep_label, dfsan_label result_label, dfsan_label *ret_label, dfsan_origin timep_origin, dfsan_origin result_origin, dfsan_origin *ret_origin) { struct tm *ret = localtime_r(timep, result); if (ret) { dfsan_set_label_origin( dfsan_read_label(timep, sizeof(time_t)), dfsan_read_origin_of_first_taint(timep, sizeof(time_t)), result, sizeof(struct tm)); *ret_label = result_label; *ret_origin = result_origin; } else { *ret_label = 0; } return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_getpwuid_r(id_t uid, struct passwd *pwd, char *buf, size_t buflen, struct passwd **result, dfsan_label uid_label, dfsan_label pwd_label, dfsan_label buf_label, dfsan_label buflen_label, dfsan_label result_label, dfsan_label *ret_label) { // Store the data in pwd, the strings referenced from pwd in buf, and the // address of pwd in *result. On failure, NULL is stored in *result. int ret = getpwuid_r(uid, pwd, buf, buflen, result); if (ret == 0) { dfsan_set_label(0, pwd, sizeof(struct passwd)); dfsan_set_label(0, buf, strlen(buf) + 1); } *ret_label = 0; dfsan_set_label(0, result, sizeof(struct passwd*)); return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_getpwuid_r(id_t uid, struct passwd *pwd, char *buf, size_t buflen, struct passwd **result, dfsan_label uid_label, dfsan_label pwd_label, dfsan_label buf_label, dfsan_label buflen_label, dfsan_label result_label, dfsan_label *ret_label, dfsan_origin uid_origin, dfsan_origin pwd_origin, dfsan_origin buf_origin, dfsan_origin buflen_origin, dfsan_origin result_origin, dfsan_origin *ret_origin) { return __dfsw_getpwuid_r(uid, pwd, buf, buflen, result, uid_label, pwd_label, buf_label, buflen_label, result_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_epoll_wait(int epfd, struct epoll_event *events, int maxevents, int timeout, dfsan_label epfd_label, dfsan_label events_label, dfsan_label maxevents_label, dfsan_label timeout_label, dfsan_label *ret_label) { int ret = epoll_wait(epfd, events, maxevents, timeout); if (ret > 0) dfsan_set_label(0, events, ret * sizeof(*events)); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_epoll_wait(int epfd, struct epoll_event *events, int maxevents, int timeout, dfsan_label epfd_label, dfsan_label events_label, dfsan_label maxevents_label, dfsan_label timeout_label, dfsan_label *ret_label, dfsan_origin epfd_origin, dfsan_origin events_origin, dfsan_origin maxevents_origin, dfsan_origin timeout_origin, dfsan_origin *ret_origin) { return __dfsw_epoll_wait(epfd, events, maxevents, timeout, epfd_label, events_label, maxevents_label, timeout_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_poll(struct pollfd *fds, nfds_t nfds, int timeout, dfsan_label dfs_label, dfsan_label nfds_label, dfsan_label timeout_label, dfsan_label *ret_label) { int ret = poll(fds, nfds, timeout); if (ret >= 0) { for (; nfds > 0; --nfds) { dfsan_set_label(0, &fds[nfds - 1].revents, sizeof(fds[nfds - 1].revents)); } } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_poll(struct pollfd *fds, nfds_t nfds, int timeout, dfsan_label dfs_label, dfsan_label nfds_label, dfsan_label timeout_label, dfsan_label *ret_label, dfsan_origin dfs_origin, dfsan_origin nfds_origin, dfsan_origin timeout_origin, dfsan_origin *ret_origin) { return __dfsw_poll(fds, nfds, timeout, dfs_label, nfds_label, timeout_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_select(int nfds, fd_set *readfds, fd_set *writefds, fd_set *exceptfds, struct timeval *timeout, dfsan_label nfds_label, dfsan_label readfds_label, dfsan_label writefds_label, dfsan_label exceptfds_label, dfsan_label timeout_label, dfsan_label *ret_label) { int ret = select(nfds, readfds, writefds, exceptfds, timeout); // Clear everything (also on error) since their content is either set or // undefined. if (readfds) { dfsan_set_label(0, readfds, sizeof(fd_set)); } if (writefds) { dfsan_set_label(0, writefds, sizeof(fd_set)); } if (exceptfds) { dfsan_set_label(0, exceptfds, sizeof(fd_set)); } dfsan_set_label(0, timeout, sizeof(struct timeval)); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_select(int nfds, fd_set *readfds, fd_set *writefds, fd_set *exceptfds, struct timeval *timeout, dfsan_label nfds_label, dfsan_label readfds_label, dfsan_label writefds_label, dfsan_label exceptfds_label, dfsan_label timeout_label, dfsan_label *ret_label, dfsan_origin nfds_origin, dfsan_origin readfds_origin, dfsan_origin writefds_origin, dfsan_origin exceptfds_origin, dfsan_origin timeout_origin, dfsan_origin *ret_origin) { return __dfsw_select(nfds, readfds, writefds, exceptfds, timeout, nfds_label, readfds_label, writefds_label, exceptfds_label, timeout_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_sched_getaffinity(pid_t pid, size_t cpusetsize, cpu_set_t *mask, dfsan_label pid_label, dfsan_label cpusetsize_label, dfsan_label mask_label, dfsan_label *ret_label) { int ret = sched_getaffinity(pid, cpusetsize, mask); if (ret == 0) { dfsan_set_label(0, mask, cpusetsize); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_sched_getaffinity(pid_t pid, size_t cpusetsize, cpu_set_t *mask, dfsan_label pid_label, dfsan_label cpusetsize_label, dfsan_label mask_label, dfsan_label *ret_label, dfsan_origin pid_origin, dfsan_origin cpusetsize_origin, dfsan_origin mask_origin, dfsan_origin *ret_origin) { return __dfsw_sched_getaffinity(pid, cpusetsize, mask, pid_label, cpusetsize_label, mask_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_sigemptyset(sigset_t *set, dfsan_label set_label, dfsan_label *ret_label) { int ret = sigemptyset(set); dfsan_set_label(0, set, sizeof(sigset_t)); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_sigemptyset(sigset_t *set, dfsan_label set_label, dfsan_label *ret_label, dfsan_origin set_origin, dfsan_origin *ret_origin) { return __dfsw_sigemptyset(set, set_label, ret_label); } class SignalHandlerScope { public: SignalHandlerScope() { if (DFsanThread *t = GetCurrentThread()) t->EnterSignalHandler(); } ~SignalHandlerScope() { if (DFsanThread *t = GetCurrentThread()) t->LeaveSignalHandler(); } }; // Clear DFSan runtime TLS state at the end of a scope. // // Implementation must be async-signal-safe and use small data size, because // instances of this class may live on the signal handler stack. // // DFSan uses TLS to pass metadata of arguments and return values. When an // instrumented function accesses the TLS, if a signal callback happens, and the // callback calls other instrumented functions with updating the same TLS, the // TLS is in an inconsistent state after the callback ends. This may cause // either under-tainting or over-tainting. // // The current implementation simply resets TLS at restore. This prevents from // over-tainting. Although under-tainting may still happen, a taint flow can be // found eventually if we run a DFSan-instrumented program multiple times. The // alternative option is saving the entire TLS. However the TLS storage takes // 2k bytes, and signal calls could be nested. So it does not seem worth. class ScopedClearThreadLocalState { public: ScopedClearThreadLocalState() {} ~ScopedClearThreadLocalState() { dfsan_clear_thread_local_state(); } }; // SignalSpinLocker::sigactions_mu guarantees atomicity of sigaction() calls. const int kMaxSignals = 1024; static atomic_uintptr_t sigactions[kMaxSignals]; static void SignalHandler(int signo) { SignalHandlerScope signal_handler_scope; ScopedClearThreadLocalState scoped_clear_tls; // Clear shadows for all inputs provided by system. This is why DFSan // instrumentation generates a trampoline function to each function pointer, // and uses the trampoline to clear shadows. However sigaction does not use // a function pointer directly, so we have to do this manually. dfsan_clear_arg_tls(0, sizeof(dfsan_label)); 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, siginfo_t *si, void *uc) { SignalHandlerScope signal_handler_scope; ScopedClearThreadLocalState scoped_clear_tls; // Clear shadows for all inputs provided by system. Similar to SignalHandler. dfsan_clear_arg_tls(0, 3 * sizeof(dfsan_label)); dfsan_set_label(0, si, sizeof(*si)); dfsan_set_label(0, uc, sizeof(ucontext_t)); typedef void (*sigaction_cb)(int, siginfo_t *, void *); sigaction_cb cb = (sigaction_cb)atomic_load(&sigactions[signo], memory_order_relaxed); cb(signo, si, uc); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_sigaction(int signum, const struct sigaction *act, struct sigaction *oldact, dfsan_label signum_label, dfsan_label act_label, dfsan_label oldact_label, dfsan_label *ret_label) { CHECK_LT(signum, kMaxSignals); SignalSpinLocker lock; uptr old_cb = atomic_load(&sigactions[signum], memory_order_relaxed); struct sigaction new_act; struct sigaction *pnew_act = act ? &new_act : nullptr; if (act) { internal_memcpy(pnew_act, act, sizeof(struct sigaction)); if (pnew_act->sa_flags & SA_SIGINFO) { uptr cb = (uptr)(pnew_act->sa_sigaction); if (cb != (uptr)SIG_IGN && cb != (uptr)SIG_DFL) { atomic_store(&sigactions[signum], cb, memory_order_relaxed); pnew_act->sa_sigaction = SignalAction; } } else { uptr cb = (uptr)(pnew_act->sa_handler); if (cb != (uptr)SIG_IGN && cb != (uptr)SIG_DFL) { atomic_store(&sigactions[signum], cb, memory_order_relaxed); pnew_act->sa_handler = SignalHandler; } } } int ret = sigaction(signum, pnew_act, oldact); if (ret == 0 && oldact) { if (oldact->sa_flags & SA_SIGINFO) { if (oldact->sa_sigaction == SignalAction) oldact->sa_sigaction = (decltype(oldact->sa_sigaction))old_cb; } else { if (oldact->sa_handler == SignalHandler) oldact->sa_handler = (decltype(oldact->sa_handler))old_cb; } } if (oldact) { dfsan_set_label(0, oldact, sizeof(struct sigaction)); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_sigaction(int signum, const struct sigaction *act, struct sigaction *oldact, dfsan_label signum_label, dfsan_label act_label, dfsan_label oldact_label, dfsan_label *ret_label, dfsan_origin signum_origin, dfsan_origin act_origin, dfsan_origin oldact_origin, dfsan_origin *ret_origin) { return __dfsw_sigaction(signum, act, oldact, signum_label, act_label, oldact_label, ret_label); } static sighandler_t dfsan_signal(int signum, sighandler_t handler, dfsan_label *ret_label) { CHECK_LT(signum, kMaxSignals); SignalSpinLocker lock; uptr old_cb = atomic_load(&sigactions[signum], memory_order_relaxed); if (handler != SIG_IGN && handler != SIG_DFL) { atomic_store(&sigactions[signum], (uptr)handler, memory_order_relaxed); handler = &SignalHandler; } sighandler_t ret = signal(signum, handler); if (ret == SignalHandler) ret = (sighandler_t)old_cb; *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE sighandler_t __dfsw_signal(int signum, void *(*handler_trampoline)(void *, int, dfsan_label, dfsan_label *), sighandler_t handler, dfsan_label signum_label, dfsan_label handler_label, dfsan_label *ret_label) { return dfsan_signal(signum, handler, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE sighandler_t __dfso_signal( int signum, void *(*handler_trampoline)(void *, int, dfsan_label, dfsan_label *, dfsan_origin, dfsan_origin *), sighandler_t handler, dfsan_label signum_label, dfsan_label handler_label, dfsan_label *ret_label, dfsan_origin signum_origin, dfsan_origin handler_origin, dfsan_origin *ret_origin) { return dfsan_signal(signum, handler, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_sigaltstack(const stack_t *ss, stack_t *old_ss, dfsan_label ss_label, dfsan_label old_ss_label, dfsan_label *ret_label) { int ret = sigaltstack(ss, old_ss); if (ret != -1 && old_ss) dfsan_set_label(0, old_ss, sizeof(*old_ss)); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_sigaltstack(const stack_t *ss, stack_t *old_ss, dfsan_label ss_label, dfsan_label old_ss_label, dfsan_label *ret_label, dfsan_origin ss_origin, dfsan_origin old_ss_origin, dfsan_origin *ret_origin) { return __dfsw_sigaltstack(ss, old_ss, ss_label, old_ss_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_gettimeofday(struct timeval *tv, struct timezone *tz, dfsan_label tv_label, dfsan_label tz_label, dfsan_label *ret_label) { int ret = gettimeofday(tv, tz); if (tv) { dfsan_set_label(0, tv, sizeof(struct timeval)); } if (tz) { dfsan_set_label(0, tz, sizeof(struct timezone)); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_gettimeofday(struct timeval *tv, struct timezone *tz, dfsan_label tv_label, dfsan_label tz_label, dfsan_label *ret_label, dfsan_origin tv_origin, dfsan_origin tz_origin, dfsan_origin *ret_origin) { return __dfsw_gettimeofday(tv, tz, tv_label, tz_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE void *__dfsw_memchr(void *s, int c, size_t n, dfsan_label s_label, dfsan_label c_label, dfsan_label n_label, dfsan_label *ret_label) { void *ret = memchr(s, c, n); if (flags().strict_data_dependencies) { *ret_label = ret ? s_label : 0; } else { size_t len = ret ? reinterpret_cast(ret) - reinterpret_cast(s) + 1 : n; *ret_label = dfsan_union(dfsan_read_label(s, len), dfsan_union(s_label, c_label)); } return ret; } SANITIZER_INTERFACE_ATTRIBUTE void *__dfso_memchr( void *s, int c, size_t n, dfsan_label s_label, dfsan_label c_label, dfsan_label n_label, dfsan_label *ret_label, dfsan_origin s_origin, dfsan_origin c_origin, dfsan_origin n_origin, dfsan_origin *ret_origin) { void *ret = __dfsw_memchr(s, c, n, s_label, c_label, n_label, ret_label); if (flags().strict_data_dependencies) { if (ret) *ret_origin = s_origin; } else { size_t len = ret ? reinterpret_cast(ret) - reinterpret_cast(s) + 1 : n; dfsan_origin o = dfsan_read_origin_of_first_taint(s, len); *ret_origin = o ? o : (s_label ? s_origin : c_origin); } return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfsw_strrchr(char *s, int c, dfsan_label s_label, dfsan_label c_label, dfsan_label *ret_label) { char *ret = strrchr(s, c); if (flags().strict_data_dependencies) { *ret_label = ret ? s_label : 0; } else { *ret_label = dfsan_union(dfsan_read_label(s, strlen(s) + 1), dfsan_union(s_label, c_label)); } return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_strrchr( char *s, int c, dfsan_label s_label, dfsan_label c_label, dfsan_label *ret_label, dfsan_origin s_origin, dfsan_origin c_origin, dfsan_origin *ret_origin) { char *ret = __dfsw_strrchr(s, c, s_label, c_label, ret_label); if (flags().strict_data_dependencies) { if (ret) *ret_origin = s_origin; } else { size_t s_len = strlen(s) + 1; dfsan_origin o = dfsan_read_origin_of_first_taint(s, s_len); *ret_origin = o ? o : (s_label ? s_origin : c_origin); } return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfsw_strstr(char *haystack, char *needle, dfsan_label haystack_label, dfsan_label needle_label, dfsan_label *ret_label) { char *ret = strstr(haystack, needle); if (flags().strict_data_dependencies) { *ret_label = ret ? haystack_label : 0; } else { size_t len = ret ? ret + strlen(needle) - haystack : strlen(haystack) + 1; *ret_label = dfsan_union(dfsan_read_label(haystack, len), dfsan_union(dfsan_read_label(needle, strlen(needle) + 1), dfsan_union(haystack_label, needle_label))); } return ret; } SANITIZER_INTERFACE_ATTRIBUTE char *__dfso_strstr(char *haystack, char *needle, dfsan_label haystack_label, dfsan_label needle_label, dfsan_label *ret_label, dfsan_origin haystack_origin, dfsan_origin needle_origin, dfsan_origin *ret_origin) { char *ret = __dfsw_strstr(haystack, needle, haystack_label, needle_label, ret_label); if (flags().strict_data_dependencies) { if (ret) *ret_origin = haystack_origin; } else { size_t needle_len = strlen(needle); size_t len = ret ? ret + needle_len - haystack : strlen(haystack) + 1; dfsan_origin o = dfsan_read_origin_of_first_taint(haystack, len); if (o) { *ret_origin = o; } else { o = dfsan_read_origin_of_first_taint(needle, needle_len + 1); *ret_origin = o ? o : (haystack_label ? haystack_origin : needle_origin); } } return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_nanosleep(const struct timespec *req, struct timespec *rem, dfsan_label req_label, dfsan_label rem_label, dfsan_label *ret_label) { int ret = nanosleep(req, rem); *ret_label = 0; if (ret == -1) { // Interrupted by a signal, rem is filled with the remaining time. dfsan_set_label(0, rem, sizeof(struct timespec)); } return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_nanosleep( const struct timespec *req, struct timespec *rem, dfsan_label req_label, dfsan_label rem_label, dfsan_label *ret_label, dfsan_origin req_origin, dfsan_origin rem_origin, dfsan_origin *ret_origin) { return __dfsw_nanosleep(req, rem, req_label, rem_label, ret_label); } static void clear_msghdr_labels(size_t bytes_written, struct msghdr *msg) { dfsan_set_label(0, msg, sizeof(*msg)); dfsan_set_label(0, msg->msg_name, msg->msg_namelen); dfsan_set_label(0, msg->msg_control, msg->msg_controllen); for (size_t i = 0; bytes_written > 0; ++i) { assert(i < msg->msg_iovlen); struct iovec *iov = &msg->msg_iov[i]; size_t iov_written = bytes_written < iov->iov_len ? bytes_written : iov->iov_len; dfsan_set_label(0, iov->iov_base, iov_written); bytes_written -= iov_written; } } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_recvmmsg( int sockfd, struct mmsghdr *msgvec, unsigned int vlen, int flags, struct timespec *timeout, dfsan_label sockfd_label, dfsan_label msgvec_label, dfsan_label vlen_label, dfsan_label flags_label, dfsan_label timeout_label, dfsan_label *ret_label) { int ret = recvmmsg(sockfd, msgvec, vlen, flags, timeout); for (int i = 0; i < ret; ++i) { dfsan_set_label(0, &msgvec[i].msg_len, sizeof(msgvec[i].msg_len)); clear_msghdr_labels(msgvec[i].msg_len, &msgvec[i].msg_hdr); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_recvmmsg( int sockfd, struct mmsghdr *msgvec, unsigned int vlen, int flags, struct timespec *timeout, dfsan_label sockfd_label, dfsan_label msgvec_label, dfsan_label vlen_label, dfsan_label flags_label, dfsan_label timeout_label, dfsan_label *ret_label, dfsan_origin sockfd_origin, dfsan_origin msgvec_origin, dfsan_origin vlen_origin, dfsan_origin flags_origin, dfsan_origin timeout_origin, dfsan_origin *ret_origin) { return __dfsw_recvmmsg(sockfd, msgvec, vlen, flags, timeout, sockfd_label, msgvec_label, vlen_label, flags_label, timeout_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE ssize_t __dfsw_recvmsg( int sockfd, struct msghdr *msg, int flags, dfsan_label sockfd_label, dfsan_label msg_label, dfsan_label flags_label, dfsan_label *ret_label) { ssize_t ret = recvmsg(sockfd, msg, flags); if (ret >= 0) clear_msghdr_labels(ret, msg); *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE ssize_t __dfso_recvmsg( int sockfd, struct msghdr *msg, int flags, dfsan_label sockfd_label, dfsan_label msg_label, dfsan_label flags_label, dfsan_label *ret_label, dfsan_origin sockfd_origin, dfsan_origin msg_origin, dfsan_origin flags_origin, dfsan_origin *ret_origin) { return __dfsw_recvmsg(sockfd, msg, flags, sockfd_label, msg_label, flags_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_socketpair(int domain, int type, int protocol, int sv[2], dfsan_label domain_label, dfsan_label type_label, dfsan_label protocol_label, dfsan_label sv_label, dfsan_label *ret_label) { int ret = socketpair(domain, type, protocol, sv); *ret_label = 0; if (ret == 0) { dfsan_set_label(0, sv, sizeof(*sv) * 2); } return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_socketpair( int domain, int type, int protocol, int sv[2], dfsan_label domain_label, dfsan_label type_label, dfsan_label protocol_label, dfsan_label sv_label, dfsan_label *ret_label, dfsan_origin domain_origin, dfsan_origin type_origin, dfsan_origin protocol_origin, dfsan_origin sv_origin, dfsan_origin *ret_origin) { return __dfsw_socketpair(domain, type, protocol, sv, domain_label, type_label, protocol_label, sv_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_getsockopt( int sockfd, int level, int optname, void *optval, socklen_t *optlen, dfsan_label sockfd_label, dfsan_label level_label, dfsan_label optname_label, dfsan_label optval_label, dfsan_label optlen_label, dfsan_label *ret_label) { int ret = getsockopt(sockfd, level, optname, optval, optlen); if (ret != -1 && optval && optlen) { dfsan_set_label(0, optlen, sizeof(*optlen)); dfsan_set_label(0, optval, *optlen); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_getsockopt( int sockfd, int level, int optname, void *optval, socklen_t *optlen, dfsan_label sockfd_label, dfsan_label level_label, dfsan_label optname_label, dfsan_label optval_label, dfsan_label optlen_label, dfsan_label *ret_label, dfsan_origin sockfd_origin, dfsan_origin level_origin, dfsan_origin optname_origin, dfsan_origin optval_origin, dfsan_origin optlen_origin, dfsan_origin *ret_origin) { return __dfsw_getsockopt(sockfd, level, optname, optval, optlen, sockfd_label, level_label, optname_label, optval_label, optlen_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_getsockname( int sockfd, struct sockaddr *addr, socklen_t *addrlen, dfsan_label sockfd_label, dfsan_label addr_label, dfsan_label addrlen_label, dfsan_label *ret_label) { socklen_t origlen = addrlen ? *addrlen : 0; int ret = getsockname(sockfd, addr, addrlen); if (ret != -1 && addr && addrlen) { socklen_t written_bytes = origlen < *addrlen ? origlen : *addrlen; dfsan_set_label(0, addrlen, sizeof(*addrlen)); dfsan_set_label(0, addr, written_bytes); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_getsockname( int sockfd, struct sockaddr *addr, socklen_t *addrlen, dfsan_label sockfd_label, dfsan_label addr_label, dfsan_label addrlen_label, dfsan_label *ret_label, dfsan_origin sockfd_origin, dfsan_origin addr_origin, dfsan_origin addrlen_origin, dfsan_origin *ret_origin) { return __dfsw_getsockname(sockfd, addr, addrlen, sockfd_label, addr_label, addrlen_label, ret_label); } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_getpeername( int sockfd, struct sockaddr *addr, socklen_t *addrlen, dfsan_label sockfd_label, dfsan_label addr_label, dfsan_label addrlen_label, dfsan_label *ret_label) { socklen_t origlen = addrlen ? *addrlen : 0; int ret = getpeername(sockfd, addr, addrlen); if (ret != -1 && addr && addrlen) { socklen_t written_bytes = origlen < *addrlen ? origlen : *addrlen; dfsan_set_label(0, addrlen, sizeof(*addrlen)); dfsan_set_label(0, addr, written_bytes); } *ret_label = 0; return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_getpeername( int sockfd, struct sockaddr *addr, socklen_t *addrlen, dfsan_label sockfd_label, dfsan_label addr_label, dfsan_label addrlen_label, dfsan_label *ret_label, dfsan_origin sockfd_origin, dfsan_origin addr_origin, dfsan_origin addrlen_origin, dfsan_origin *ret_origin) { return __dfsw_getpeername(sockfd, addr, addrlen, sockfd_label, addr_label, addrlen_label, ret_label); } // Type of the trampoline function passed to the custom version of // dfsan_set_write_callback. typedef void (*write_trampoline_t)( void *callback, int fd, const void *buf, ssize_t count, dfsan_label fd_label, dfsan_label buf_label, dfsan_label count_label); typedef void (*write_origin_trampoline_t)( void *callback, int fd, const void *buf, ssize_t count, dfsan_label fd_label, dfsan_label buf_label, dfsan_label count_label, dfsan_origin fd_origin, dfsan_origin buf_origin, dfsan_origin count_origin); // Calls to dfsan_set_write_callback() set the values in this struct. // Calls to the custom version of write() read (and invoke) them. static struct { write_trampoline_t write_callback_trampoline = nullptr; void *write_callback = nullptr; } write_callback_info; static struct { write_origin_trampoline_t write_callback_trampoline = nullptr; void *write_callback = nullptr; } write_origin_callback_info; SANITIZER_INTERFACE_ATTRIBUTE void __dfsw_dfsan_set_write_callback( write_trampoline_t write_callback_trampoline, void *write_callback, dfsan_label write_callback_label, dfsan_label *ret_label) { write_callback_info.write_callback_trampoline = write_callback_trampoline; write_callback_info.write_callback = write_callback; } SANITIZER_INTERFACE_ATTRIBUTE void __dfso_dfsan_set_write_callback( write_origin_trampoline_t write_callback_trampoline, void *write_callback, dfsan_label write_callback_label, dfsan_label *ret_label, dfsan_origin write_callback_origin, dfsan_origin *ret_origin) { write_origin_callback_info.write_callback_trampoline = write_callback_trampoline; write_origin_callback_info.write_callback = write_callback; } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_write(int fd, const void *buf, size_t count, dfsan_label fd_label, dfsan_label buf_label, dfsan_label count_label, dfsan_label *ret_label) { if (write_callback_info.write_callback) { write_callback_info.write_callback_trampoline( write_callback_info.write_callback, fd, buf, count, fd_label, buf_label, count_label); } *ret_label = 0; return write(fd, buf, count); } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_write( int fd, const void *buf, size_t count, dfsan_label fd_label, dfsan_label buf_label, dfsan_label count_label, dfsan_label *ret_label, dfsan_origin fd_origin, dfsan_origin buf_origin, dfsan_origin count_origin, dfsan_origin *ret_origin) { if (write_origin_callback_info.write_callback) { write_origin_callback_info.write_callback_trampoline( write_origin_callback_info.write_callback, fd, buf, count, fd_label, buf_label, count_label, fd_origin, buf_origin, count_origin); } *ret_label = 0; return write(fd, buf, count); } } // namespace __dfsan // Type used to extract a dfsan_label with va_arg() typedef int dfsan_label_va; // Formats a chunk either a constant string or a single format directive (e.g., // '%.3f'). struct Formatter { Formatter(char *str_, const char *fmt_, size_t size_) : str(str_), str_off(0), size(size_), fmt_start(fmt_), fmt_cur(fmt_), width(-1) {} int format() { char *tmp_fmt = build_format_string(); int retval = snprintf(str + str_off, str_off < size ? size - str_off : 0, tmp_fmt, 0 /* used only to avoid warnings */); free(tmp_fmt); return retval; } template int format(T arg) { char *tmp_fmt = build_format_string(); int retval; if (width >= 0) { retval = snprintf(str + str_off, str_off < size ? size - str_off : 0, tmp_fmt, width, arg); } else { retval = snprintf(str + str_off, str_off < size ? size - str_off : 0, tmp_fmt, arg); } free(tmp_fmt); return retval; } char *build_format_string() { size_t fmt_size = fmt_cur - fmt_start + 1; char *new_fmt = (char *)malloc(fmt_size + 1); assert(new_fmt); internal_memcpy(new_fmt, fmt_start, fmt_size); new_fmt[fmt_size] = '\0'; return new_fmt; } char *str_cur() { return str + str_off; } size_t num_written_bytes(int retval) { if (retval < 0) { return 0; } size_t num_avail = str_off < size ? size - str_off : 0; if (num_avail == 0) { return 0; } size_t num_written = retval; // A return value of {v,}snprintf of size or more means that the output was // truncated. if (num_written >= num_avail) { num_written -= num_avail; } return num_written; } char *str; size_t str_off; size_t size; const char *fmt_start; const char *fmt_cur; int width; }; // Formats the input and propagates the input labels to the output. The output // is stored in 'str'. 'size' bounds the number of output bytes. 'format' and // 'ap' are the format string and the list of arguments for formatting. Returns // the return value vsnprintf would return. // // The function tokenizes the format string in chunks representing either a // constant string or a single format directive (e.g., '%.3f') and formats each // chunk independently into the output string. This approach allows to figure // out which bytes of the output string depends on which argument and thus to // propagate labels more precisely. // // WARNING: This implementation does not support conversion specifiers with // positional arguments. static int format_buffer(char *str, size_t size, const char *fmt, dfsan_label *va_labels, dfsan_label *ret_label, dfsan_origin *va_origins, dfsan_origin *ret_origin, va_list ap) { Formatter formatter(str, fmt, size); while (*formatter.fmt_cur) { formatter.fmt_start = formatter.fmt_cur; formatter.width = -1; int retval = 0; if (*formatter.fmt_cur != '%') { // Ordinary character. Consume all the characters until a '%' or the end // of the string. for (; *(formatter.fmt_cur + 1) && *(formatter.fmt_cur + 1) != '%'; ++formatter.fmt_cur) {} retval = formatter.format(); dfsan_set_label(0, formatter.str_cur(), formatter.num_written_bytes(retval)); } else { // Conversion directive. Consume all the characters until a conversion // specifier or the end of the string. bool end_fmt = false; for (; *formatter.fmt_cur && !end_fmt; ) { switch (*++formatter.fmt_cur) { case 'd': case 'i': case 'o': case 'u': case 'x': case 'X': switch (*(formatter.fmt_cur - 1)) { case 'h': // Also covers the 'hh' case (since the size of the arg is still // an int). retval = formatter.format(va_arg(ap, int)); break; case 'l': if (formatter.fmt_cur - formatter.fmt_start >= 2 && *(formatter.fmt_cur - 2) == 'l') { retval = formatter.format(va_arg(ap, long long int)); } else { retval = formatter.format(va_arg(ap, long int)); } break; case 'q': retval = formatter.format(va_arg(ap, long long int)); break; case 'j': retval = formatter.format(va_arg(ap, intmax_t)); break; case 'z': case 't': retval = formatter.format(va_arg(ap, size_t)); break; default: retval = formatter.format(va_arg(ap, int)); } if (va_origins == nullptr) dfsan_set_label(*va_labels++, formatter.str_cur(), formatter.num_written_bytes(retval)); else dfsan_set_label_origin(*va_labels++, *va_origins++, formatter.str_cur(), formatter.num_written_bytes(retval)); end_fmt = true; break; case 'a': case 'A': case 'e': case 'E': case 'f': case 'F': case 'g': case 'G': if (*(formatter.fmt_cur - 1) == 'L') { retval = formatter.format(va_arg(ap, long double)); } else { retval = formatter.format(va_arg(ap, double)); } if (va_origins == nullptr) dfsan_set_label(*va_labels++, formatter.str_cur(), formatter.num_written_bytes(retval)); else dfsan_set_label_origin(*va_labels++, *va_origins++, formatter.str_cur(), formatter.num_written_bytes(retval)); end_fmt = true; break; case 'c': retval = formatter.format(va_arg(ap, int)); if (va_origins == nullptr) dfsan_set_label(*va_labels++, formatter.str_cur(), formatter.num_written_bytes(retval)); else dfsan_set_label_origin(*va_labels++, *va_origins++, formatter.str_cur(), formatter.num_written_bytes(retval)); end_fmt = true; break; case 's': { char *arg = va_arg(ap, char *); retval = formatter.format(arg); if (va_origins) { va_origins++; dfsan_mem_origin_transfer(formatter.str_cur(), arg, formatter.num_written_bytes(retval)); } va_labels++; internal_memcpy(shadow_for(formatter.str_cur()), shadow_for(arg), sizeof(dfsan_label) * formatter.num_written_bytes(retval)); end_fmt = true; break; } case 'p': retval = formatter.format(va_arg(ap, void *)); if (va_origins == nullptr) dfsan_set_label(*va_labels++, formatter.str_cur(), formatter.num_written_bytes(retval)); else dfsan_set_label_origin(*va_labels++, *va_origins++, formatter.str_cur(), formatter.num_written_bytes(retval)); end_fmt = true; break; case 'n': { int *ptr = va_arg(ap, int *); *ptr = (int)formatter.str_off; va_labels++; if (va_origins) va_origins++; dfsan_set_label(0, ptr, sizeof(ptr)); end_fmt = true; break; } case '%': retval = formatter.format(); dfsan_set_label(0, formatter.str_cur(), formatter.num_written_bytes(retval)); end_fmt = true; break; case '*': formatter.width = va_arg(ap, int); va_labels++; if (va_origins) va_origins++; break; default: break; } } } if (retval < 0) { return retval; } formatter.fmt_cur++; formatter.str_off += retval; } *ret_label = 0; if (ret_origin) *ret_origin = 0; // Number of bytes written in total. return formatter.str_off; } extern "C" { SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_sprintf(char *str, const char *format, dfsan_label str_label, dfsan_label format_label, dfsan_label *va_labels, dfsan_label *ret_label, ...) { va_list ap; va_start(ap, ret_label); int ret = format_buffer(str, ~0ul, format, va_labels, ret_label, nullptr, nullptr, ap); va_end(ap); return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_sprintf(char *str, const char *format, dfsan_label str_label, dfsan_label format_label, dfsan_label *va_labels, dfsan_label *ret_label, dfsan_origin str_origin, dfsan_origin format_origin, dfsan_origin *va_origins, dfsan_origin *ret_origin, ...) { va_list ap; va_start(ap, ret_origin); int ret = format_buffer(str, ~0ul, format, va_labels, ret_label, va_origins, ret_origin, ap); va_end(ap); return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfsw_snprintf(char *str, size_t size, const char *format, dfsan_label str_label, dfsan_label size_label, dfsan_label format_label, dfsan_label *va_labels, dfsan_label *ret_label, ...) { va_list ap; va_start(ap, ret_label); int ret = format_buffer(str, size, format, va_labels, ret_label, nullptr, nullptr, ap); va_end(ap); return ret; } SANITIZER_INTERFACE_ATTRIBUTE int __dfso_snprintf(char *str, size_t size, const char *format, dfsan_label str_label, dfsan_label size_label, dfsan_label format_label, dfsan_label *va_labels, dfsan_label *ret_label, dfsan_origin str_origin, dfsan_origin size_origin, dfsan_origin format_origin, dfsan_origin *va_origins, dfsan_origin *ret_origin, ...) { va_list ap; va_start(ap, ret_origin); int ret = format_buffer(str, size, format, va_labels, ret_label, va_origins, ret_origin, ap); va_end(ap); return ret; } static void BeforeFork() { StackDepotLockAll(); GetChainedOriginDepot()->LockAll(); } static void AfterFork() { GetChainedOriginDepot()->UnlockAll(); StackDepotUnlockAll(); } SANITIZER_INTERFACE_ATTRIBUTE pid_t __dfsw_fork(dfsan_label *ret_label) { pid_t pid = fork(); *ret_label = 0; return pid; } SANITIZER_INTERFACE_ATTRIBUTE pid_t __dfso_fork(dfsan_label *ret_label, dfsan_origin *ret_origin) { BeforeFork(); pid_t pid = __dfsw_fork(ret_label); AfterFork(); return pid; } // Default empty implementations (weak). Users should redefine them. SANITIZER_INTERFACE_WEAK_DEF(void, __sanitizer_cov_trace_pc_guard, u32 *) {} SANITIZER_INTERFACE_WEAK_DEF(void, __sanitizer_cov_trace_pc_guard_init, u32 *, u32 *) {} SANITIZER_INTERFACE_WEAK_DEF(void, __sanitizer_cov_pcs_init, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __sanitizer_cov_trace_pc_indir, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __dfsw___sanitizer_cov_trace_cmp, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __dfsw___sanitizer_cov_trace_cmp1, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __dfsw___sanitizer_cov_trace_cmp2, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __dfsw___sanitizer_cov_trace_cmp4, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __dfsw___sanitizer_cov_trace_cmp8, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __dfsw___sanitizer_cov_trace_const_cmp1, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __dfsw___sanitizer_cov_trace_const_cmp2, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __dfsw___sanitizer_cov_trace_const_cmp4, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __dfsw___sanitizer_cov_trace_const_cmp8, void) {} SANITIZER_INTERFACE_WEAK_DEF(void, __dfsw___sanitizer_cov_trace_switch, void) {} } // extern "C"