/* * rand - generate random bytes * * Copyright(c) 2016 Glenn Strauss gstrauss()gluelogic.com All rights reserved * License: BSD 3-clause (same as lighttpd) */ #ifdef _WIN32 /* _WIN32 rand_s() requires _CRT_RAND_S defined prior to #include */ #define _CRT_RAND_S #endif #include "first.h" #include "rand.h" #include "ck.h" #include "fdevent.h" #include #include #include "sys-time.h" #include "sys-unistd.h" /* */ #include #include #include #include #include "sys-crypto-md.h" /* USE_LIB_CRYPTO and additional crypto lib config */ #ifdef USE_NETTLE_CRYPTO #undef USE_MBEDTLS_CRYPTO #undef USE_WOLFSSL_CRYPTO #undef USE_OPENSSL_CRYPTO #undef USE_GNUTLS_CRYPTO #undef USE_NSS_CRYPTO #include #include #include #endif #ifdef USE_MBEDTLS_CRYPTO #undef USE_WOLFSSL_CRYPTO #undef USE_OPENSSL_CRYPTO #undef USE_GNUTLS_CRYPTO #undef USE_NSS_CRYPTO #include #include #endif #ifdef USE_WOLFSSL_CRYPTO #undef USE_OPENSSL_CRYPTO #undef USE_GNUTLS_CRYPTO #undef USE_NSS_CRYPTO #include #endif #ifdef USE_OPENSSL_CRYPTO #undef USE_GNUTLS_CRYPTO #undef USE_NSS_CRYPTO #include /* OPENSSL_VERSION_NUMBER */ #include #endif #ifdef USE_GNUTLS_CRYPTO #undef USE_NSS_CRYPTO #include #endif #ifdef USE_NSS_CRYPTO #ifdef NSS_VER_INCLUDE #include #include #else #include #include #endif #endif #ifndef USE_LIB_CRYPTO #undef USE_NETTLE_CRYPTO #undef USE_MBEDTLS_CRYPTO #undef USE_WOLFSSL_CRYPTO #undef USE_OPENSSL_CRYPTO #undef USE_GNUTLS_CRYPTO #undef USE_NSS_CRYPTO #endif #ifdef HAVE_GETENTROPY #include #endif #ifdef HAVE_LINUX_RANDOM_H #include #include #endif #ifdef RNDGETENTCNT #include #endif #if defined(__APPLE__) && defined(__MACH__) #if __ENVIRONMENT_MAC_OS_X_VERSION_MIN_REQUIRED__ >= 101200 /* OS X 10.12+ */ #undef HAVE_ARC4RANDOM_BUF #define HAVE_CCRANDOMGENERATEBYTES #include #include #endif #endif #ifdef __has_include #if __has_include() #include /* getauxval(AT_RANDOM) is a glibc extension */ #ifdef AT_RANDOM #define HAVE_GETAUXVAL #endif #endif #endif /* Take some reasonable steps to attempt to *seed* random number generators with * cryptographically random data. Some of these initialization routines may * block, and are intended to be called only at startup in lighttpd, or * immediately after fork() to start lighttpd workers. * * Update: li_rand_init() is now deferred until first use so that installations * that do not use modules which use these routines do need to potentially block * at startup. Current use by core lighttpd modules is in mod_auth HTTP Digest * auth. Deferring collection of random data until first * use may allow sufficient entropy to be collected by kernel before first use, * helping reduce or avoid situations in low-entropy-generating embedded devices * which might otherwise block lighttpd for minutes at device startup. * Further discussion in https://redmine.lighttpd.net/boards/2/topics/6981 * * Note: results from li_rand_pseudo_bytes() are not necessarily * cryptographically random and must not be used for purposes such * as key generation which require cryptographic randomness. * * https://wiki.openssl.org/index.php/Random_Numbers * https://wiki.openssl.org/index.php/Random_fork-safety * * openssl random number generators are not thread-safe by default * https://wiki.openssl.org/index.php/Manual:Threads(3) * * RFE: add more paranoid checks from the following to improve confidence: * http://insanecoding.blogspot.co.uk/2014/05/a-good-idea-with-bad-usage-devurandom.html * RFE: retry on EINTR * RFE: check RAND_status() */ static int li_getentropy (void *buf, size_t buflen) { #ifdef HAVE_GETENTROPY return getentropy(buf, buflen); #elif defined(_WIN32) for (unsigned int rnum; buflen; buflen -= 4) { if (0 != rand_s(&rnum) || 0 == rnum) { errno = EIO; return -1; } if (buflen > 4) { memcpy(buf, &rnum, 4); buf = (char *)buf + 4; } else { memcpy(buf, &rnum, buflen); break; } } return 0; #else /*(see NOTES section in 'man getrandom' on Linux)*/ #if defined(HAVE_GETRANDOM) || defined(SYS_getrandom) if (buflen <= 256) { #ifdef HAVE_GETRANDOM /*(not implemented in glibc yet)*/ int num = getrandom(buf, buflen, 0); #elif defined(SYS_getrandom) /* https://lwn.net/Articles/605828/ */ /* https://bbs.archlinux.org/viewtopic.php?id=200039 */ int num = (int)syscall(SYS_getrandom, buf, buflen, 0); #endif if (num == (int)buflen) return 0; if (num < 0) return num; /* -1 */ } #else UNUSED(buf); UNUSED(buflen); #endif errno = EIO; return -1; #endif } static int li_rand_device_bytes (unsigned char *buf, int num) { /* randomness from these devices is cryptographically strong, * unless /dev/urandom is low on entropy */ static const char * const devices[] = { #ifdef __OpenBSD__ "/dev/arandom", #endif "/dev/urandom", "/dev/random" }; /* device files might not be available in chroot environment, * so prefer syscall, if available */ if (0 == li_getentropy(buf, (size_t)num)) return 1; for (unsigned int u = 0; u < sizeof(devices)/sizeof(devices[0]); ++u) { /*(some systems might have symlink to another device; omit O_NOFOLLOW)*/ int fd = fdevent_open_cloexec(devices[u], 1, O_RDONLY, 0); if (fd >= 0) { ssize_t rd = 0; #ifdef RNDGETENTCNT int entropy; if (0 == ioctl(fd, (unsigned long)(RNDGETENTCNT), &entropy) && entropy >= num*8) #endif rd = read(fd, buf, (size_t)num); close(fd); if (rd == num) { return 1; } } } return 0; } static int li_rand_inited; static unsigned short xsubi[3]; #ifdef USE_MBEDTLS_CRYPTO #ifdef MBEDTLS_ENTROPY_C static mbedtls_entropy_context entropy; #ifdef MBEDTLS_CTR_DRBG_C static mbedtls_ctr_drbg_context ctr_drbg; #endif #endif #endif #ifdef USE_WOLFSSL_CRYPTO static WC_RNG wolf_globalRNG; #endif #ifdef USE_NETTLE_CRYPTO static struct knuth_lfib_ctx knuth_lfib_ctx; static struct arcfour_ctx arcfour_ctx; static struct yarrow256_ctx yarrow256_ctx; #endif #ifdef USE_NETTLE_CRYPTO /* adapted from Nettle documentation arcfour_set_key_hashed() in nettle.pdf */ /* A more robust key setup function for ARCFOUR */ static void li_arcfour_init_random_key_hashed(struct arcfour_ctx *ctx) { uint8_t key[ARCFOUR_KEY_SIZE]; const size_t length = sizeof(key); if (1 != li_rand_device_bytes(key, (int)sizeof(key))) { ck_bt_abort(__FILE__, __LINE__, "gathering entropy for arcfour seed failed"); } memset(ctx, 0, sizeof(*ctx)); struct sha256_ctx hash; uint8_t digest[SHA256_DIGEST_SIZE]; uint8_t buf[0x200]; memset(buf, 0, sizeof(buf)); sha256_init(&hash); sha256_update(&hash, length, key); sha256_digest(&hash, SHA256_DIGEST_SIZE, digest); nettle_arcfour_set_key(ctx, SHA256_DIGEST_SIZE, digest); nettle_arcfour_crypt(ctx, sizeof(buf), buf, buf); nettle_arcfour_crypt(ctx, sizeof(buf), buf, buf); nettle_arcfour_crypt(ctx, sizeof(buf), buf, buf); } #endif __attribute_cold__ static void li_rand_init (void) { /* (intended to be called at init and after fork() in order to re-seed PRNG * so that forked children, grandchildren, etc do not share PRNG seed) * https://github.com/ramsey/uuid/issues/80 * https://www.agwa.name/blog/post/libressls_prng_is_unsafe_on_linux * (issue in early version of libressl has since been fixed) * https://github.com/libressl-portable/portable/commit/32d9eeeecf4e951e1566d5f4a42b36ea37b60f35 */ unsigned int u; li_rand_inited = 1; if (1 == li_rand_device_bytes((unsigned char *)xsubi, (int)sizeof(xsubi))) { u = ((unsigned int)xsubi[0] << 16) | xsubi[1]; } #ifdef HAVE_CCRANDOMGENERATEBYTES else if (CCRandomGenerateBytes(xsubi, sizeof(xsubi)) == kCCSuccess && CCRandomGenerateBytes(&u, sizeof(u)) == kCCSuccess) { } #endif else { #ifdef HAVE_ARC4RANDOM_BUF u = arc4random(); arc4random_buf(xsubi, sizeof(xsubi)); #elif defined(__COVERITY__) /* Coverity Scan ignores(?) annotation below, * so hide fallback path from Coverity Scan */ u = (unsigned int)(time(NULL) ^ getpid()); #else /* NOTE: not cryptographically random !!! */ #ifdef HAVE_GETAUXVAL char *auxv_random = (char *)(uintptr_t)getauxval(AT_RANDOM); if (auxv_random) { memcpy(&u, auxv_random, 4); memcpy(xsubi, auxv_random+4, 6); } else memset(xsubi, (u = 0), sizeof(xsubi)); srand((unsigned int)(time(NULL) ^ getpid()) ^ u); for (u = 0; u < sizeof(unsigned short); ++u) /* coverity[dont_call : FALSE] */ xsubi[u] ^= (unsigned short)(rand() & 0xFFFF); #else srand((unsigned int)(time(NULL) ^ getpid())); for (u = 0; u < sizeof(unsigned short); ++u) /* coverity[dont_call : FALSE] */ xsubi[u] = (unsigned short)(rand() & 0xFFFF); #endif u = ((unsigned int)xsubi[0] << 16) | xsubi[1]; #endif } srand(u); /*(initialize just in case rand() used elsewhere)*/ #ifdef HAVE_SRANDOM srandom(u); /*(initialize just in case random() used elsewhere)*/ #endif #ifdef USE_NETTLE_CRYPTO nettle_knuth_lfib_init(&knuth_lfib_ctx, u); nettle_yarrow256_init(&yarrow256_ctx, 0, NULL); li_arcfour_init_random_key_hashed(&arcfour_ctx); #endif #ifdef USE_WOLFSSL_CRYPTO /* xsubi[] is small, so use wc_InitRng() instead of wc_InitRngNonce() * to get default behavior of a larger internally-generated nonce */ if (0 != wolfCrypt_Init() || 0 != wc_InitRng(&wolf_globalRNG)) ck_bt_abort(__FILE__,__LINE__,"wolfCrypt_Init or wc_InitRng() failed"); #endif #ifdef USE_OPENSSL_CRYPTO RAND_poll(); RAND_seed(xsubi, (int)sizeof(xsubi)); #endif #ifdef USE_MBEDTLS_CRYPTO #ifdef MBEDTLS_ENTROPY_C mbedtls_entropy_init(&entropy); #ifdef MBEDTLS_CTR_DRBG_C mbedtls_ctr_drbg_init(&ctr_drbg); int rc = mbedtls_ctr_drbg_seed(&ctr_drbg, mbedtls_entropy_func, &entropy, (unsigned char *)xsubi, sizeof(xsubi)); if (0 != rc) /*(not expecting built-in entropy function to fail)*/ ck_bt_abort(__FILE__, __LINE__, "mbedtls_ctr_drbg_seed() failed"); #endif #endif #endif #ifdef USE_NSS_CRYPTO if (!NSS_IsInitialized() && NSS_NoDB_Init(NULL) < 0) ck_bt_abort(__FILE__, __LINE__, "aborted"); PK11_RandomUpdate(xsubi, sizeof(xsubi)); #endif } void li_rand_reseed (void) { #ifdef USE_GNUTLS_CRYPTO gnutls_rnd_refresh(); return; #endif #ifdef USE_WOLFSSL_CRYPTO if (li_rand_inited) { #if 0 /*(wc_RNG_DRBG_Reseed() is not part of public API)*/ /*(XXX: might use stack to procure larger seed; * xsubi[] is short (6 bytes)) */ if (1 == li_rand_device_bytes((unsigned char *)xsubi, (int)sizeof(xsubi))) { if (0 != wc_RNG_DRBG_Reseed(&wolf_globalRNG, (const byte *)xsubi, (word32)sizeof(xsubi))) /*(not expecting this to fail)*/ ck_bt_abort(__FILE__, __LINE__, "wc_RNG_DRBG_Reseed() failed"); } #else wc_FreeRng(&wolf_globalRNG); if (0 != wc_InitRng(&wolf_globalRNG)) ck_bt_abort(__FILE__, __LINE__, "wc_InitRng() failed"); #endif return; } #endif #ifdef USE_MBEDTLS_CRYPTO if (li_rand_inited) { #ifdef MBEDTLS_ENTROPY_C #ifdef MBEDTLS_CTR_DRBG_C mbedtls_ctr_drbg_free(&ctr_drbg); #endif mbedtls_entropy_free(&entropy); #endif } #endif if (li_rand_inited) li_rand_init(); } int li_rand_pseudo (void) { #ifdef USE_GNUTLS_CRYPTO int i; if (0 == gnutls_rnd(GNUTLS_RND_NONCE, &i, sizeof(i))) return i; #endif if (!li_rand_inited) li_rand_init(); /* randomness *is not* cryptographically strong */ /* (attempt to use better mechanisms to replace the more portable rand()) */ #ifdef USE_OPENSSL_CRYPTO /* (openssl 1.1.0 deprecates RAND_pseudo_bytes()) */ #if OPENSSL_VERSION_NUMBER < 0x10100000L || defined(LIBRESSL_VERSION_NUMBER) int i; if (-1 != RAND_pseudo_bytes((unsigned char *)&i, sizeof(i))) return i; #endif #endif #ifdef USE_WOLFSSL_CRYPTO /* RAND_pseudo_bytes() in WolfSSL is equivalent to RAND_bytes() */ int i; if (0 == wc_RNG_GenerateBlock(&wolf_globalRNG,(byte *)&i,(word32)sizeof(i))) return i; #endif #ifdef USE_NETTLE_CRYPTO int i = (int)nettle_knuth_lfib_get(&knuth_lfib_ctx); nettle_arcfour_crypt(&arcfour_ctx, sizeof(i), (uint8_t *)&i, (uint8_t *)&i); if (i) return i; /*(cond to avoid compiler warning for code after return)*/ #endif #ifdef USE_MBEDTLS_CRYPTO #ifdef MBEDTLS_CTR_DRBG_C int i; if (0 == mbedtls_ctr_drbg_random(&ctr_drbg, (unsigned char *)&i, sizeof(i))) return i; #endif #endif #ifdef USE_NSS_CRYPTO int i; if (SECSuccess == PK11_GenerateRandom((unsigned char *)&i, sizeof(i))) return i; #endif #ifdef HAVE_CCRANDOMGENERATEBYTES int j; if (CCRandomGenerateBytes(&j, sizeof(j)) == kCCSuccess) return j; #endif #ifdef HAVE_ARC4RANDOM_BUF return (int)arc4random(); #elif defined(__COVERITY__) /* li_rand_pseudo() is not intended for cryptographic use */ /* Coverity Scan ignores(?) annotation below, * so hide fallback paths from Coverity Scan */ return (int)(time(NULL) ^ getpid()); #elif defined(HAVE_SRANDOM) /* coverity[dont_call : FALSE] */ return (int)random(); #elif defined(HAVE_JRAND48) /*(FYI: jrand48() reentrant, but use of file-scoped static xsubi[] is not)*/ /* coverity[dont_call : FALSE] */ return (int)jrand48(xsubi); #else /* coverity[dont_call : FALSE] */ return rand(); #endif } void li_rand_pseudo_bytes (unsigned char *buf, int num) { #ifdef USE_GNUTLS_CRYPTO if (0 == gnutls_rnd(GNUTLS_RND_NONCE, buf, (size_t)num)) return; #endif if (!li_rand_inited) li_rand_init(); #ifdef USE_NSS_CRYPTO if (SECSuccess == PK11_GenerateRandom(buf, num)) return; #endif #ifdef USE_MBEDTLS_CRYPTO #ifdef MBEDTLS_CTR_DRBG_C if (0 == mbedtls_ctr_drbg_random(&ctr_drbg, buf, (size_t)num)) return; #endif #endif #ifdef USE_WOLFSSL_CRYPTO /* RAND_pseudo_bytes() in WolfSSL is equivalent to RAND_bytes() */ if (0 == wc_RNG_GenerateBlock(&wolf_globalRNG, (byte *)buf, (word32)num)) return; #endif for (int i = 0; i < num; ++i) buf[i] = li_rand_pseudo() & 0xFF; } int li_rand_bytes (unsigned char *buf, int num) { #ifdef USE_GNUTLS_CRYPTO /* should use GNUTLS_RND_KEY for long-term keys */ if (0 == gnutls_rnd(GNUTLS_RND_RANDOM, buf, (size_t)num)) return 1; #endif #ifdef USE_NSS_CRYPTO if (!li_rand_inited) li_rand_init(); if (SECSuccess == PK11_GenerateRandom(buf, num)) return 1; #endif #ifdef USE_NETTLE_CRYPTO #if 0 /* not implemented: periodic nettle_yarrow256_update() and reseed */ if (!nettle_yarrow256_is_seeded(&yarrow256_ctx)) { uint8_t seed_file[YARROW256_SEED_FILE_SIZE]; if (1 == li_rand_device_bytes((unsigned char *)seed_file, (int)sizeof(seed_file))) { nettle_yarrow256_seed(&yarrow256_ctx, sizeof(seed_file), seed_file); } } if (nettle_yarrow256_is_seeded(&yarrow256_ctx)) { nettle_yarrow256_random(&yarrow256_ctx, (size_t)num, (uint8_t *)buf); return 1; } #endif #endif #ifdef USE_OPENSSL_CRYPTO int rc = RAND_bytes(buf, num); if (-1 != rc) { return rc; } #endif #ifdef USE_WOLFSSL_CRYPTO if (0 == wc_RNG_GenerateBlock(&wolf_globalRNG, (byte *)buf, (word32)num)) { return 1; } #endif #ifdef USE_MBEDTLS_CRYPTO #ifdef MBEDTLS_ENTROPY_C /*(each call <= MBEDTLS_ENTROPY_BLOCK_SIZE; could implement loop here)*/ if (num <= MBEDTLS_ENTROPY_BLOCK_SIZE && 0 == mbedtls_entropy_func(&entropy, buf, (size_t)num)) { return 1; } #endif #endif if (1 == li_rand_device_bytes(buf, num)) { return 1; } else { /* NOTE: not cryptographically random !!! */ li_rand_pseudo_bytes(buf, num); /*(openssl RAND_pseudo_bytes rc for non-cryptographically random data)*/ return 0; } } void li_rand_cleanup (void) { #ifdef USE_WOLFSSL_CRYPTO if (li_rand_inited) { wc_FreeRng(&wolf_globalRNG); wolfCrypt_Cleanup(); li_rand_inited = 0; } #endif #ifdef USE_OPENSSL_CRYPTO #if OPENSSL_VERSION_NUMBER < 0x10100000L RAND_cleanup(); #endif #endif #ifdef USE_MBEDTLS_CRYPTO #ifdef MBEDTLS_ENTROPY_C #ifdef MBEDTLS_CTR_DRBG_C mbedtls_ctr_drbg_free(&ctr_drbg); #endif mbedtls_entropy_free(&entropy); #endif #endif ck_memzero(xsubi, sizeof(xsubi)); }