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Diffstat (limited to 'src/lib/crypt_ops/crypto_digest_openssl.c')
| -rw-r--r-- | src/lib/crypt_ops/crypto_digest_openssl.c | 522 |
1 files changed, 522 insertions, 0 deletions
diff --git a/src/lib/crypt_ops/crypto_digest_openssl.c b/src/lib/crypt_ops/crypto_digest_openssl.c new file mode 100644 index 0000000000..c631b0eac0 --- /dev/null +++ b/src/lib/crypt_ops/crypto_digest_openssl.c @@ -0,0 +1,522 @@ +/* Copyright (c) 2001, Matej Pfajfar. + * Copyright (c) 2001-2004, Roger Dingledine. + * Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson. + * Copyright (c) 2007-2019, The Tor Project, Inc. */ +/* See LICENSE for licensing information */ + +/** + * \file crypto_digest_openssl.c + * \brief Block of functions related with digest and xof utilities and + * operations (OpenSSL specific implementations). + **/ + +#include "lib/container/smartlist.h" +#include "lib/crypt_ops/crypto_digest.h" +#include "lib/crypt_ops/crypto_util.h" +#include "lib/log/log.h" +#include "lib/log/util_bug.h" + +#include "keccak-tiny/keccak-tiny.h" + +#include <stdlib.h> +#include <string.h> + +#include "lib/arch/bytes.h" + +#include "lib/crypt_ops/crypto_openssl_mgt.h" + +DISABLE_GCC_WARNING(redundant-decls) + +#include <openssl/hmac.h> +#include <openssl/sha.h> + +ENABLE_GCC_WARNING(redundant-decls) + +/* Crypto digest functions */ + +/** Compute the SHA1 digest of the <b>len</b> bytes on data stored in + * <b>m</b>. Write the DIGEST_LEN byte result into <b>digest</b>. + * Return 0 on success, -1 on failure. + */ +MOCK_IMPL(int, +crypto_digest,(char *digest, const char *m, size_t len)) +{ + tor_assert(m); + tor_assert(digest); + if (SHA1((const unsigned char*)m,len,(unsigned char*)digest) == NULL) { + return -1; + } + return 0; +} + +/** Compute a 256-bit digest of <b>len</b> bytes in data stored in <b>m</b>, + * using the algorithm <b>algorithm</b>. Write the DIGEST_LEN256-byte result + * into <b>digest</b>. Return 0 on success, -1 on failure. */ +int +crypto_digest256(char *digest, const char *m, size_t len, + digest_algorithm_t algorithm) +{ + tor_assert(m); + tor_assert(digest); + tor_assert(algorithm == DIGEST_SHA256 || algorithm == DIGEST_SHA3_256); + + int ret = 0; + if (algorithm == DIGEST_SHA256) { + ret = (SHA256((const uint8_t*)m,len,(uint8_t*)digest) != NULL); + } else { +#ifdef OPENSSL_HAS_SHA3 + unsigned int dlen = DIGEST256_LEN; + ret = EVP_Digest(m, len, (uint8_t*)digest, &dlen, EVP_sha3_256(), NULL); +#else + ret = (sha3_256((uint8_t *)digest, DIGEST256_LEN,(const uint8_t *)m, len) + > -1); +#endif /* defined(OPENSSL_HAS_SHA3) */ + } + + if (!ret) + return -1; + return 0; +} + +/** Compute a 512-bit digest of <b>len</b> bytes in data stored in <b>m</b>, + * using the algorithm <b>algorithm</b>. Write the DIGEST_LEN512-byte result + * into <b>digest</b>. Return 0 on success, -1 on failure. */ +int +crypto_digest512(char *digest, const char *m, size_t len, + digest_algorithm_t algorithm) +{ + tor_assert(m); + tor_assert(digest); + tor_assert(algorithm == DIGEST_SHA512 || algorithm == DIGEST_SHA3_512); + + int ret = 0; + if (algorithm == DIGEST_SHA512) { + ret = (SHA512((const unsigned char*)m,len,(unsigned char*)digest) + != NULL); + } else { +#ifdef OPENSSL_HAS_SHA3 + unsigned int dlen = DIGEST512_LEN; + ret = EVP_Digest(m, len, (uint8_t*)digest, &dlen, EVP_sha3_512(), NULL); +#else + ret = (sha3_512((uint8_t*)digest, DIGEST512_LEN, (const uint8_t*)m, len) + > -1); +#endif /* defined(OPENSSL_HAS_SHA3) */ + } + + if (!ret) + return -1; + return 0; +} + +/** Intermediate information about the digest of a stream of data. */ +struct crypto_digest_t { + digest_algorithm_t algorithm; /**< Which algorithm is in use? */ + /** State for the digest we're using. Only one member of the + * union is usable, depending on the value of <b>algorithm</b>. Note also + * that space for other members might not even be allocated! + */ + union { + SHA_CTX sha1; /**< state for SHA1 */ + SHA256_CTX sha2; /**< state for SHA256 */ + SHA512_CTX sha512; /**< state for SHA512 */ +#ifdef OPENSSL_HAS_SHA3 + EVP_MD_CTX *md; +#else + keccak_state sha3; /**< state for SHA3-[256,512] */ +#endif + } d; +}; + +#ifdef TOR_UNIT_TESTS + +digest_algorithm_t +crypto_digest_get_algorithm(crypto_digest_t *digest) +{ + tor_assert(digest); + + return digest->algorithm; +} + +#endif /* defined(TOR_UNIT_TESTS) */ + +/** + * Return the number of bytes we need to malloc in order to get a + * crypto_digest_t for <b>alg</b>, or the number of bytes we need to wipe + * when we free one. + */ +static size_t +crypto_digest_alloc_bytes(digest_algorithm_t alg) +{ + /* Helper: returns the number of bytes in the 'f' field of 'st' */ +#define STRUCT_FIELD_SIZE(st, f) (sizeof( ((st*)0)->f )) + /* Gives the length of crypto_digest_t through the end of the field 'd' */ +#define END_OF_FIELD(f) (offsetof(crypto_digest_t, f) + \ + STRUCT_FIELD_SIZE(crypto_digest_t, f)) + switch (alg) { + case DIGEST_SHA1: + return END_OF_FIELD(d.sha1); + case DIGEST_SHA256: + return END_OF_FIELD(d.sha2); + case DIGEST_SHA512: + return END_OF_FIELD(d.sha512); +#ifdef OPENSSL_HAS_SHA3 + case DIGEST_SHA3_256: /* Fall through */ + case DIGEST_SHA3_512: + return END_OF_FIELD(d.md); +#else + case DIGEST_SHA3_256: /* Fall through */ + case DIGEST_SHA3_512: + return END_OF_FIELD(d.sha3); +#endif /* defined(OPENSSL_HAS_SHA3) */ + default: + tor_assert(0); // LCOV_EXCL_LINE + return 0; // LCOV_EXCL_LINE + } +#undef END_OF_FIELD +#undef STRUCT_FIELD_SIZE +} + +/** + * Internal function: create and return a new digest object for 'algorithm'. + * Does not typecheck the algorithm. + */ +static crypto_digest_t * +crypto_digest_new_internal(digest_algorithm_t algorithm) +{ + crypto_digest_t *r = tor_malloc(crypto_digest_alloc_bytes(algorithm)); + r->algorithm = algorithm; + + switch (algorithm) + { + case DIGEST_SHA1: + SHA1_Init(&r->d.sha1); + break; + case DIGEST_SHA256: + SHA256_Init(&r->d.sha2); + break; + case DIGEST_SHA512: + SHA512_Init(&r->d.sha512); + break; +#ifdef OPENSSL_HAS_SHA3 + case DIGEST_SHA3_256: + r->d.md = EVP_MD_CTX_new(); + if (!EVP_DigestInit(r->d.md, EVP_sha3_256())) { + crypto_digest_free(r); + return NULL; + } + break; + case DIGEST_SHA3_512: + r->d.md = EVP_MD_CTX_new(); + if (!EVP_DigestInit(r->d.md, EVP_sha3_512())) { + crypto_digest_free(r); + return NULL; + } + break; +#else /* !(defined(OPENSSL_HAS_SHA3)) */ + case DIGEST_SHA3_256: + keccak_digest_init(&r->d.sha3, 256); + break; + case DIGEST_SHA3_512: + keccak_digest_init(&r->d.sha3, 512); + break; +#endif /* defined(OPENSSL_HAS_SHA3) */ + default: + tor_assert_unreached(); + } + + return r; +} + +/** Allocate and return a new digest object to compute SHA1 digests. + */ +crypto_digest_t * +crypto_digest_new(void) +{ + return crypto_digest_new_internal(DIGEST_SHA1); +} + +/** Allocate and return a new digest object to compute 256-bit digests + * using <b>algorithm</b>. + * + * C_RUST_COUPLED: `external::crypto_digest::crypto_digest256_new` + * C_RUST_COUPLED: `crypto::digest::Sha256::default` + */ +crypto_digest_t * +crypto_digest256_new(digest_algorithm_t algorithm) +{ + tor_assert(algorithm == DIGEST_SHA256 || algorithm == DIGEST_SHA3_256); + return crypto_digest_new_internal(algorithm); +} + +/** Allocate and return a new digest object to compute 512-bit digests + * using <b>algorithm</b>. */ +crypto_digest_t * +crypto_digest512_new(digest_algorithm_t algorithm) +{ + tor_assert(algorithm == DIGEST_SHA512 || algorithm == DIGEST_SHA3_512); + return crypto_digest_new_internal(algorithm); +} + +/** Deallocate a digest object. + */ +void +crypto_digest_free_(crypto_digest_t *digest) +{ + if (!digest) + return; +#ifdef OPENSSL_HAS_SHA3 + if (digest->algorithm == DIGEST_SHA3_256 || + digest->algorithm == DIGEST_SHA3_512) { + if (digest->d.md) { + EVP_MD_CTX_free(digest->d.md); + } + } +#endif /* defined(OPENSSL_HAS_SHA3) */ + size_t bytes = crypto_digest_alloc_bytes(digest->algorithm); + memwipe(digest, 0, bytes); + tor_free(digest); +} + +/** Add <b>len</b> bytes from <b>data</b> to the digest object. + * + * C_RUST_COUPLED: `external::crypto_digest::crypto_digest_add_bytess` + * C_RUST_COUPLED: `crypto::digest::Sha256::process` + */ +void +crypto_digest_add_bytes(crypto_digest_t *digest, const char *data, + size_t len) +{ + tor_assert(digest); + tor_assert(data); + /* Using the SHA*_*() calls directly means we don't support doing + * SHA in hardware. But so far the delay of getting the question + * to the hardware, and hearing the answer, is likely higher than + * just doing it ourselves. Hashes are fast. + */ + switch (digest->algorithm) { + case DIGEST_SHA1: + SHA1_Update(&digest->d.sha1, (void*)data, len); + break; + case DIGEST_SHA256: + SHA256_Update(&digest->d.sha2, (void*)data, len); + break; + case DIGEST_SHA512: + SHA512_Update(&digest->d.sha512, (void*)data, len); + break; +#ifdef OPENSSL_HAS_SHA3 + case DIGEST_SHA3_256: /* FALLSTHROUGH */ + case DIGEST_SHA3_512: { + int r = EVP_DigestUpdate(digest->d.md, data, len); + tor_assert(r); + } + break; +#else /* !(defined(OPENSSL_HAS_SHA3)) */ + case DIGEST_SHA3_256: /* FALLSTHROUGH */ + case DIGEST_SHA3_512: + keccak_digest_update(&digest->d.sha3, (const uint8_t *)data, len); + break; +#endif /* defined(OPENSSL_HAS_SHA3) */ + default: + /* LCOV_EXCL_START */ + tor_fragile_assert(); + break; + /* LCOV_EXCL_STOP */ + } +} + +/** Compute the hash of the data that has been passed to the digest + * object; write the first out_len bytes of the result to <b>out</b>. + * <b>out_len</b> must be \<= DIGEST512_LEN. + * + * C_RUST_COUPLED: `external::crypto_digest::crypto_digest_get_digest` + * C_RUST_COUPLED: `impl digest::FixedOutput for Sha256` + */ +void +crypto_digest_get_digest(crypto_digest_t *digest, + char *out, size_t out_len) +{ + unsigned char r[DIGEST512_LEN]; + tor_assert(digest); + tor_assert(out); + tor_assert(out_len <= crypto_digest_algorithm_get_length(digest->algorithm)); + + /* The SHA-3 code handles copying into a temporary ctx, and also can handle + * short output buffers by truncating appropriately. */ + if (digest->algorithm == DIGEST_SHA3_256 || + digest->algorithm == DIGEST_SHA3_512) { +#ifdef OPENSSL_HAS_SHA3 + unsigned dlen = (unsigned) + crypto_digest_algorithm_get_length(digest->algorithm); + EVP_MD_CTX *tmp = EVP_MD_CTX_new(); + EVP_MD_CTX_copy(tmp, digest->d.md); + memset(r, 0xff, sizeof(r)); + int res = EVP_DigestFinal(tmp, r, &dlen); + EVP_MD_CTX_free(tmp); + tor_assert(res == 1); + goto done; +#else /* !(defined(OPENSSL_HAS_SHA3)) */ + /* Tiny-Keccak handles copying into a temporary ctx, and also can handle + * short output buffers by truncating appropriately. */ + keccak_digest_sum(&digest->d.sha3, (uint8_t *)out, out_len); + return; +#endif /* defined(OPENSSL_HAS_SHA3) */ + } + + const size_t alloc_bytes = crypto_digest_alloc_bytes(digest->algorithm); + crypto_digest_t tmpenv; + /* memcpy into a temporary ctx, since SHA*_Final clears the context */ + memcpy(&tmpenv, digest, alloc_bytes); + switch (digest->algorithm) { + case DIGEST_SHA1: + SHA1_Final(r, &tmpenv.d.sha1); + break; + case DIGEST_SHA256: + SHA256_Final(r, &tmpenv.d.sha2); + break; + case DIGEST_SHA512: + SHA512_Final(r, &tmpenv.d.sha512); + break; +//LCOV_EXCL_START + case DIGEST_SHA3_256: /* FALLSTHROUGH */ + case DIGEST_SHA3_512: + default: + log_warn(LD_BUG, "Handling unexpected algorithm %d", digest->algorithm); + /* This is fatal, because it should never happen. */ + tor_assert_unreached(); + break; +//LCOV_EXCL_STOP + } +#ifdef OPENSSL_HAS_SHA3 + done: +#endif + memcpy(out, r, out_len); + memwipe(r, 0, sizeof(r)); +} + +/** Allocate and return a new digest object with the same state as + * <b>digest</b> + * + * C_RUST_COUPLED: `external::crypto_digest::crypto_digest_dup` + * C_RUST_COUPLED: `impl Clone for crypto::digest::Sha256` + */ +crypto_digest_t * +crypto_digest_dup(const crypto_digest_t *digest) +{ + tor_assert(digest); + const size_t alloc_bytes = crypto_digest_alloc_bytes(digest->algorithm); + crypto_digest_t *result = tor_memdup(digest, alloc_bytes); + +#ifdef OPENSSL_HAS_SHA3 + if (digest->algorithm == DIGEST_SHA3_256 || + digest->algorithm == DIGEST_SHA3_512) { + result->d.md = EVP_MD_CTX_new(); + EVP_MD_CTX_copy(result->d.md, digest->d.md); + } +#endif /* defined(OPENSSL_HAS_SHA3) */ + return result; +} + +/** Temporarily save the state of <b>digest</b> in <b>checkpoint</b>. + * Asserts that <b>digest</b> is a SHA1 digest object. + */ +void +crypto_digest_checkpoint(crypto_digest_checkpoint_t *checkpoint, + const crypto_digest_t *digest) +{ + const size_t bytes = crypto_digest_alloc_bytes(digest->algorithm); + tor_assert(bytes <= sizeof(checkpoint->mem)); + memcpy(checkpoint->mem, digest, bytes); +} + +/** Restore the state of <b>digest</b> from <b>checkpoint</b>. + * Asserts that <b>digest</b> is a SHA1 digest object. Requires that the + * state was previously stored with crypto_digest_checkpoint() */ +void +crypto_digest_restore(crypto_digest_t *digest, + const crypto_digest_checkpoint_t *checkpoint) +{ + const size_t bytes = crypto_digest_alloc_bytes(digest->algorithm); + memcpy(digest, checkpoint->mem, bytes); +} + +/** Replace the state of the digest object <b>into</b> with the state + * of the digest object <b>from</b>. Requires that 'into' and 'from' + * have the same digest type. + */ +void +crypto_digest_assign(crypto_digest_t *into, + const crypto_digest_t *from) +{ + tor_assert(into); + tor_assert(from); + tor_assert(into->algorithm == from->algorithm); + const size_t alloc_bytes = crypto_digest_alloc_bytes(from->algorithm); + +#ifdef OPENSSL_HAS_SHA3 + if (from->algorithm == DIGEST_SHA3_256 || + from->algorithm == DIGEST_SHA3_512) { + EVP_MD_CTX_copy(into->d.md, from->d.md); + return; + } +#endif /* defined(OPENSSL_HAS_SHA3) */ + + memcpy(into,from,alloc_bytes); +} + +/** Given a list of strings in <b>lst</b>, set the <b>len_out</b>-byte digest + * at <b>digest_out</b> to the hash of the concatenation of those strings, + * plus the optional string <b>append</b>, computed with the algorithm + * <b>alg</b>. + * <b>out_len</b> must be \<= DIGEST512_LEN. */ +void +crypto_digest_smartlist(char *digest_out, size_t len_out, + const smartlist_t *lst, + const char *append, + digest_algorithm_t alg) +{ + crypto_digest_smartlist_prefix(digest_out, len_out, NULL, lst, append, alg); +} + +/** Given a list of strings in <b>lst</b>, set the <b>len_out</b>-byte digest + * at <b>digest_out</b> to the hash of the concatenation of: the + * optional string <b>prepend</b>, those strings, + * and the optional string <b>append</b>, computed with the algorithm + * <b>alg</b>. + * <b>len_out</b> must be \<= DIGEST512_LEN. */ +void +crypto_digest_smartlist_prefix(char *digest_out, size_t len_out, + const char *prepend, + const smartlist_t *lst, + const char *append, + digest_algorithm_t alg) +{ + crypto_digest_t *d = crypto_digest_new_internal(alg); + if (prepend) + crypto_digest_add_bytes(d, prepend, strlen(prepend)); + SMARTLIST_FOREACH(lst, const char *, cp, + crypto_digest_add_bytes(d, cp, strlen(cp))); + if (append) + crypto_digest_add_bytes(d, append, strlen(append)); + crypto_digest_get_digest(d, digest_out, len_out); + crypto_digest_free(d); +} + +/** Compute the HMAC-SHA-256 of the <b>msg_len</b> bytes in <b>msg</b>, using + * the <b>key</b> of length <b>key_len</b>. Store the DIGEST256_LEN-byte + * result in <b>hmac_out</b>. Asserts on failure. + */ +void +crypto_hmac_sha256(char *hmac_out, + const char *key, size_t key_len, + const char *msg, size_t msg_len) +{ + /* If we've got OpenSSL >=0.9.8 we can use its hmac implementation. */ + tor_assert(key_len < INT_MAX); + tor_assert(msg_len < INT_MAX); + tor_assert(hmac_out); + unsigned char *rv = NULL; + rv = HMAC(EVP_sha256(), key, (int)key_len, (unsigned char*)msg, (int)msg_len, + (unsigned char*)hmac_out, NULL); + tor_assert(rv); +} + |