#ifndef __STDC_WANT_LIB_EXT1__ # define __STDC_WANT_LIB_EXT1__ 1 #endif #include #include #include #include #include #include #include #include #ifdef HAVE_SYS_MMAN_H # include #endif #ifdef _WIN32 # include # include #else # include #endif #include "utils.h" #include "randombytes.h" #ifndef ENOSYS # define ENOSYS ENXIO #endif #if defined(_WIN32) && (!defined(WINAPI_FAMILY) || WINAPI_FAMILY == WINAPI_FAMILY_DESKTOP_APP) # define WINAPI_DESKTOP #endif #define CANARY_SIZE 16U #define GARBAGE_VALUE 0xd0 #ifndef MAP_NOCORE # define MAP_NOCORE 0 #endif #if !defined(MAP_ANON) && defined(MAP_ANONYMOUS) # define MAP_ANON MAP_ANONYMOUS #endif #if defined(WINAPI_DESKTOP) || (defined(MAP_ANON) && defined(HAVE_MMAP)) || defined(HAVE_POSIX_MEMALIGN) # define HAVE_ALIGNED_MALLOC #endif #if defined(HAVE_MPROTECT) && !(defined(PROT_NONE) && defined(PROT_READ) && defined(PROT_WRITE)) # undef HAVE_MPROTECT #endif #if defined(HAVE_ALIGNED_MALLOC) && (defined(WINAPI_DESKTOP) || defined(HAVE_MPROTECT)) # define HAVE_PAGE_PROTECTION #endif #if !defined(MADV_DODUMP) && defined(MADV_CORE) # define MADV_DODUMP MADV_CORE # define MADV_DONTDUMP MADV_NOCORE #endif static size_t page_size; static unsigned char canary[CANARY_SIZE]; #ifdef HAVE_WEAK_SYMBOLS __attribute__ ((weak)) void _sodium_memzero_as_a_weak_symbol_to_prevent_lto(void * const pnt, const size_t len) { unsigned char *pnt_ = (unsigned char *) pnt;; size_t i = (size_t) 0U; while (i < len) { pnt_[i++] = 0U; } } #endif void sodium_memzero(void * const pnt, const size_t len) { #ifdef _WIN32 SecureZeroMemory(pnt, len); #elif defined(HAVE_MEMSET_S) if (len > 0U && memset_s(pnt, (rsize_t) len, 0, (rsize_t) len) != 0) { abort(); /* LCOV_EXCL_LINE */ } #elif defined(HAVE_EXPLICIT_BZERO) explicit_bzero(pnt, len); #elif HAVE_WEAK_SYMBOLS _sodium_memzero_as_a_weak_symbol_to_prevent_lto(pnt, len); #else volatile unsigned char *volatile pnt_ = (volatile unsigned char * volatile) pnt; size_t i = (size_t) 0U; while (i < len) { pnt_[i++] = 0U; } #endif } #ifdef HAVE_WEAK_SYMBOLS __attribute__ ((weak)) void _sodium_dummy_symbol_to_prevent_memcmp_lto(const unsigned char *b1, const unsigned char *b2, const size_t len) { (void) b1; (void) b2; (void) len; } #endif int sodium_memcmp(const void * const b1_, const void * const b2_, size_t len) { #ifdef HAVE_WEAK_SYMBOLS const unsigned char *b1 = (const unsigned char *) b1_; const unsigned char *b2 = (const unsigned char *) b2_; #else const volatile unsigned char *volatile b1 = (const volatile unsigned char * volatile) b1_; const volatile unsigned char *volatile b2 = (const volatile unsigned char * volatile) b2_; #endif size_t i; unsigned char d = (unsigned char) 0U; #if HAVE_WEAK_SYMBOLS _sodium_dummy_symbol_to_prevent_memcmp_lto(b1, b2, len); #endif for (i = 0U; i < len; i++) { d |= b1[i] ^ b2[i]; } return (1 & ((d - 1) >> 8)) - 1; } #ifdef HAVE_WEAK_SYMBOLS __attribute__ ((weak)) void _sodium_dummy_symbol_to_prevent_compare_lto(const unsigned char *b1, const unsigned char *b2, const size_t len) { (void) b1; (void) b2; (void) len; } #endif int sodium_compare(const unsigned char *b1_, const unsigned char *b2_, size_t len) { #ifdef HAVE_WEAK_SYMBOLS const unsigned char *b1 = b1_; const unsigned char *b2 = b2_; #else const volatile unsigned char * volatile b1 = (const volatile unsigned char * volatile) b1_; const volatile unsigned char * volatile b2 = (const volatile unsigned char * volatile) b2_; #endif unsigned char gt = 0U; unsigned char eq = 1U; size_t i; #if HAVE_WEAK_SYMBOLS _sodium_dummy_symbol_to_prevent_compare_lto(b1, b2, len); #endif i = len; while (i != 0U) { i--; gt |= ((b2[i] - b1[i]) >> 8) & eq; eq &= ((b2[i] ^ b1[i]) - 1) >> 8; } return (int) (gt + gt + eq) - 1; } int sodium_is_zero(const unsigned char *n, const size_t nlen) { size_t i; unsigned char d = 0U; for (i = 0U; i < nlen; i++) { d |= n[i]; } return 1 & ((d - 1) >> 8); } void sodium_increment(unsigned char *n, const size_t nlen) { size_t i = 0U; uint_fast16_t c = 1U; #ifdef HAVE_AMD64_ASM uint64_t t64, t64_2; uint32_t t32; if (nlen == 12U) { __asm__ __volatile__("xorq %[t64], %[t64] \n" "xorl %[t32], %[t32] \n" "stc \n" "adcq %[t64], (%[out]) \n" "adcl %[t32], 8(%[out]) \n" : [t64] "=&r"(t64), [t32] "=&r" (t32) : [out] "D"(n) : "memory", "flags", "cc"); return; } else if (nlen == 24U) { __asm__ __volatile__("movq $1, %[t64] \n" "xorq %[t64_2], %[t64_2] \n" "addq %[t64], (%[out]) \n" "adcq %[t64_2], 8(%[out]) \n" "adcq %[t64_2], 16(%[out]) \n" : [t64] "=&r"(t64), [t64_2] "=&r" (t64_2) : [out] "D"(n) : "memory", "flags", "cc"); return; } else if (nlen == 8U) { __asm__ __volatile__("incq (%[out]) \n" : : [out] "D"(n) : "memory", "flags", "cc"); return; } #endif for (; i < nlen; i++) { c += (uint_fast16_t) n[i]; n[i] = (unsigned char) c; c >>= 8; } } void sodium_add(unsigned char *a, const unsigned char *b, const size_t len) { size_t i = 0U; uint_fast16_t c = 0U; #ifdef HAVE_AMD64_ASM uint64_t t64, t64_2, t64_3; uint32_t t32; if (len == 12U) { __asm__ __volatile__("movq (%[in]), %[t64] \n" "movl 8(%[in]), %[t32] \n" "addq %[t64], (%[out]) \n" "adcl %[t32], 8(%[out]) \n" : [t64] "=&r"(t64), [t32] "=&r" (t32) : [in] "S"(b), [out] "D"(a) : "memory", "flags", "cc"); return; } else if (len == 24U) { __asm__ __volatile__("movq (%[in]), %[t64] \n" "movq 8(%[in]), %[t64_2] \n" "movq 16(%[in]), %[t64_3] \n" "addq %[t64], (%[out]) \n" "adcq %[t64_2], 8(%[out]) \n" "adcq %[t64_3], 16(%[out]) \n" : [t64] "=&r"(t64), [t64_2] "=&r"(t64_2), [t64_3] "=&r"(t64_3) : [in] "S"(b), [out] "D"(a) : "memory", "flags", "cc"); return; } else if (len == 8U) { __asm__ __volatile__("movq (%[in]), %[t64] \n" "addq %[t64], (%[out]) \n" : [t64] "=&r"(t64) : [in] "S"(b), [out] "D"(a) : "memory", "flags", "cc"); return; } #endif for (; i < len; i++) { c += (uint_fast16_t) a[i] + (uint_fast16_t) b[i]; a[i] = (unsigned char) c; c >>= 8; } } /* Derived from original code by CodesInChaos */ char * sodium_bin2hex(char * const hex, const size_t hex_maxlen, const unsigned char * const bin, const size_t bin_len) { size_t i = (size_t) 0U; unsigned int x; int b; int c; if (bin_len >= SIZE_MAX / 2 || hex_maxlen <= bin_len * 2U) { abort(); /* LCOV_EXCL_LINE */ } while (i < bin_len) { c = bin[i] & 0xf; b = bin[i] >> 4; x = (unsigned char) (87U + c + (((c - 10U) >> 8) & ~38U)) << 8 | (unsigned char) (87U + b + (((b - 10U) >> 8) & ~38U)); hex[i * 2U] = (char) x; x >>= 8; hex[i * 2U + 1U] = (char) x; i++; } hex[i * 2U] = 0U; return hex; } int sodium_hex2bin(unsigned char * const bin, const size_t bin_maxlen, const char * const hex, const size_t hex_len, const char * const ignore, size_t * const bin_len, const char ** const hex_end) { size_t bin_pos = (size_t) 0U; size_t hex_pos = (size_t) 0U; int ret = 0; unsigned char c; unsigned char c_acc = 0U; unsigned char c_alpha0, c_alpha; unsigned char c_num0, c_num; unsigned char c_val; unsigned char state = 0U; while (hex_pos < hex_len) { c = (unsigned char) hex[hex_pos]; c_num = c ^ 48U; c_num0 = (c_num - 10U) >> 8; c_alpha = (c & ~32U) - 55U; c_alpha0 = ((c_alpha - 10U) ^ (c_alpha - 16U)) >> 8; if ((c_num0 | c_alpha0) == 0U) { if (ignore != NULL && state == 0U && strchr(ignore, c) != NULL) { hex_pos++; continue; } break; } c_val = (c_num0 & c_num) | (c_alpha0 & c_alpha); if (bin_pos >= bin_maxlen) { ret = -1; errno = ERANGE; break; } if (state == 0U) { c_acc = c_val * 16U; } else { bin[bin_pos++] = c_acc | c_val; } state = ~state; hex_pos++; } if (state != 0U) { hex_pos--; } if (hex_end != NULL) { *hex_end = &hex[hex_pos]; } if (bin_len != NULL) { *bin_len = bin_pos; } return ret; } int _sodium_alloc_init(void) { #ifdef HAVE_ALIGNED_MALLOC # if defined(_SC_PAGESIZE) long page_size_ = sysconf(_SC_PAGESIZE); if (page_size_ > 0L) { page_size = (size_t) page_size_; } # elif defined(WINAPI_DESKTOP) SYSTEM_INFO si; GetSystemInfo(&si); page_size = (size_t) si.dwPageSize; # endif if (page_size < CANARY_SIZE || page_size < sizeof(size_t)) { abort(); /* LCOV_EXCL_LINE */ } #endif randombytes_buf(canary, sizeof canary); return 0; } int sodium_mlock(void * const addr, const size_t len) { #if defined(MADV_DONTDUMP) && defined(HAVE_MADVISE) (void) madvise(addr, len, MADV_DONTDUMP); #endif #ifdef HAVE_MLOCK return mlock(addr, len); #elif defined(WINAPI_DESKTOP) return -(VirtualLock(addr, len) == 0); #else errno = ENOSYS; return -1; #endif } int sodium_munlock(void * const addr, const size_t len) { sodium_memzero(addr, len); #if defined(MADV_DODUMP) && defined(HAVE_MADVISE) (void) madvise(addr, len, MADV_DODUMP); #endif #ifdef HAVE_MLOCK return munlock(addr, len); #elif defined(WINAPI_DESKTOP) return -(VirtualUnlock(addr, len) == 0); #else errno = ENOSYS; return -1; #endif } static int _mprotect_noaccess(void *ptr, size_t size) { #ifdef HAVE_MPROTECT return mprotect(ptr, size, PROT_NONE); #elif defined(WINAPI_DESKTOP) DWORD old; return -(VirtualProtect(ptr, size, PAGE_NOACCESS, &old) == 0); #else errno = ENOSYS; return -1; #endif } static int _mprotect_readonly(void *ptr, size_t size) { #ifdef HAVE_MPROTECT return mprotect(ptr, size, PROT_READ); #elif defined(WINAPI_DESKTOP) DWORD old; return -(VirtualProtect(ptr, size, PAGE_READONLY, &old) == 0); #else errno = ENOSYS; return -1; #endif } static int _mprotect_readwrite(void *ptr, size_t size) { #ifdef HAVE_MPROTECT return mprotect(ptr, size, PROT_READ | PROT_WRITE); #elif defined(WINAPI_DESKTOP) DWORD old; return -(VirtualProtect(ptr, size, PAGE_READWRITE, &old) == 0); #else errno = ENOSYS; return -1; #endif } #ifdef HAVE_ALIGNED_MALLOC __attribute__ ((noreturn)) static void _out_of_bounds(void) { # ifdef SIGSEGV raise(SIGSEGV); # elif defined(SIGKILL) raise(SIGKILL); # endif abort(); } /* LCOV_EXCL_LINE */ static inline size_t _page_round(const size_t size) { const size_t page_mask = page_size - 1U; return (size + page_mask) & ~page_mask; } static __attribute__ ((malloc)) unsigned char * _alloc_aligned(const size_t size) { void *ptr; # if defined(MAP_ANON) && defined(HAVE_MMAP) if ((ptr = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_ANON | MAP_PRIVATE | MAP_NOCORE, -1, 0)) == MAP_FAILED) { ptr = NULL; /* LCOV_EXCL_LINE */ } /* LCOV_EXCL_LINE */ # elif defined(HAVE_POSIX_MEMALIGN) if (posix_memalign(&ptr, page_size, size) != 0) { ptr = NULL; /* LCOV_EXCL_LINE */ } /* LCOV_EXCL_LINE */ # elif defined(WINAPI_DESKTOP) ptr = VirtualAlloc(NULL, size, MEM_COMMIT | MEM_RESERVE, PAGE_READWRITE); # else # error Bug # endif return (unsigned char *) ptr; } static void _free_aligned(unsigned char * const ptr, const size_t size) { # if defined(MAP_ANON) && defined(HAVE_MMAP) (void) munmap(ptr, size); # elif defined(HAVE_POSIX_MEMALIGN) free(ptr); # elif defined(WINAPI_DESKTOP) VirtualFree(ptr, 0U, MEM_RELEASE); # else # error Bug # endif } static unsigned char * _unprotected_ptr_from_user_ptr(void * const ptr) { uintptr_t unprotected_ptr_u; unsigned char *canary_ptr; size_t page_mask; canary_ptr = ((unsigned char *) ptr) - sizeof canary; page_mask = page_size - 1U; unprotected_ptr_u = ((uintptr_t) canary_ptr & (uintptr_t) ~page_mask); if (unprotected_ptr_u <= page_size * 2U) { abort(); /* LCOV_EXCL_LINE */ } return (unsigned char *) unprotected_ptr_u; } #endif /* HAVE_ALIGNED_MALLOC */ #ifndef HAVE_ALIGNED_MALLOC static __attribute__ ((malloc)) void * _sodium_malloc(const size_t size) { return malloc(size > (size_t) 0U ? size : (size_t) 1U); } #else static __attribute__ ((malloc)) void * _sodium_malloc(const size_t size) { void *user_ptr; unsigned char *base_ptr; unsigned char *canary_ptr; unsigned char *unprotected_ptr; size_t size_with_canary; size_t total_size; size_t unprotected_size; if (size >= (size_t) SIZE_MAX - page_size * 4U) { errno = ENOMEM; return NULL; } if (page_size <= sizeof canary || page_size < sizeof unprotected_size) { abort(); /* LCOV_EXCL_LINE */ } size_with_canary = (sizeof canary) + size; unprotected_size = _page_round(size_with_canary); total_size = page_size + page_size + unprotected_size + page_size; if ((base_ptr = _alloc_aligned(total_size)) == NULL) { return NULL; /* LCOV_EXCL_LINE */ } unprotected_ptr = base_ptr + page_size * 2U; _mprotect_noaccess(base_ptr + page_size, page_size); # ifndef HAVE_PAGE_PROTECTION memcpy(unprotected_ptr + unprotected_size, canary, sizeof canary); # endif _mprotect_noaccess(unprotected_ptr + unprotected_size, page_size); sodium_mlock(unprotected_ptr, unprotected_size); canary_ptr = unprotected_ptr + _page_round(size_with_canary) - size_with_canary; user_ptr = canary_ptr + sizeof canary; memcpy(canary_ptr, canary, sizeof canary); memcpy(base_ptr, &unprotected_size, sizeof unprotected_size); _mprotect_readonly(base_ptr, page_size); assert(_unprotected_ptr_from_user_ptr(user_ptr) == unprotected_ptr); return user_ptr; } #endif /* !HAVE_ALIGNED_MALLOC */ __attribute__ ((malloc)) void * sodium_malloc(const size_t size) { void *ptr; if ((ptr = _sodium_malloc(size)) == NULL) { return NULL; } memset(ptr, (int) GARBAGE_VALUE, size); return ptr; } __attribute__ ((malloc)) void * sodium_allocarray(size_t count, size_t size) { size_t total_size; if (count > (size_t) 0U && size >= (size_t) SIZE_MAX / count) { errno = ENOMEM; return NULL; } total_size = count * size; return sodium_malloc(total_size); } #ifndef HAVE_ALIGNED_MALLOC void sodium_free(void *ptr) { free(ptr); } #else void sodium_free(void *ptr) { unsigned char *base_ptr; unsigned char *canary_ptr; unsigned char *unprotected_ptr; size_t total_size; size_t unprotected_size; if (ptr == NULL) { return; } canary_ptr = ((unsigned char *) ptr) - sizeof canary; unprotected_ptr = _unprotected_ptr_from_user_ptr(ptr); base_ptr = unprotected_ptr - page_size * 2U; memcpy(&unprotected_size, base_ptr, sizeof unprotected_size); total_size = page_size + page_size + unprotected_size + page_size; _mprotect_readwrite(base_ptr, total_size); if (sodium_memcmp(canary_ptr, canary, sizeof canary) != 0) { _out_of_bounds(); } # ifndef HAVE_PAGE_PROTECTION if (sodium_memcmp(unprotected_ptr + unprotected_size, canary, sizeof canary) != 0) { _out_of_bounds(); } # endif sodium_munlock(unprotected_ptr, unprotected_size); _free_aligned(base_ptr, total_size); } #endif /* HAVE_ALIGNED_MALLOC */ #ifndef HAVE_PAGE_PROTECTION static int _sodium_mprotect(void *ptr, int (*cb)(void *ptr, size_t size)) { (void) ptr; (void) cb; errno = ENOSYS; return -1; } #else static int _sodium_mprotect(void *ptr, int (*cb)(void *ptr, size_t size)) { unsigned char *base_ptr; unsigned char *unprotected_ptr; size_t unprotected_size; unprotected_ptr = _unprotected_ptr_from_user_ptr(ptr); base_ptr = unprotected_ptr - page_size * 2U; memcpy(&unprotected_size, base_ptr, sizeof unprotected_size); return cb(unprotected_ptr, unprotected_size); } #endif int sodium_mprotect_noaccess(void *ptr) { return _sodium_mprotect(ptr, _mprotect_noaccess); } int sodium_mprotect_readonly(void *ptr) { return _sodium_mprotect(ptr, _mprotect_readonly); } int sodium_mprotect_readwrite(void *ptr) { return _sodium_mprotect(ptr, _mprotect_readwrite); }