/** \ingroup signature * \file rpmio/digest.c */ #include "system.h" #include "rpmio/digest.h" #include "debug.h" #ifdef SHA_DEBUG #define DPRINTF(_a) fprintf _a #else #define DPRINTF(_a) #endif /** * MD5/SHA1 digest private data. */ struct DIGEST_CTX_s { rpmDigestFlags flags; /*!< Bit(s) to control digest operation. */ HASHContext *hashctx; /*!< Internal NSS hash context. */ pgpHashAlgo algo; /*!< Used hash algorithm */ }; #define DIGESTS_MAX 11 struct rpmDigestBundle_s { int index_min; /*!< Smallest index of active digest */ int index_max; /*!< Largest index of active digest */ off_t nbytes; /*!< Length of total input data */ DIGEST_CTX digests[DIGESTS_MAX]; /*!< Digest contexts indexed by algo */ }; rpmDigestBundle rpmDigestBundleNew(void) { rpmDigestBundle bundle = xcalloc(1, sizeof(*bundle)); return bundle; } rpmDigestBundle rpmDigestBundleFree(rpmDigestBundle bundle) { if (bundle) { for (int i = bundle->index_min; i <= bundle->index_max ; i++) { if (bundle->digests[i] == NULL) continue; rpmDigestFinal(bundle->digests[i], NULL, NULL, 0); bundle->digests[i] = NULL; } memset(bundle, 0, sizeof(*bundle)); free(bundle); } return NULL; } int rpmDigestBundleAdd(rpmDigestBundle bundle, pgpHashAlgo algo, rpmDigestFlags flags) { DIGEST_CTX ctx = NULL; if (bundle && algo > 0 && algo < DIGESTS_MAX) { if (bundle->digests[algo] == NULL) { ctx = rpmDigestInit(algo, flags); if (ctx) { bundle->digests[algo] = ctx; if (algo < bundle->index_min) { bundle->index_min = algo; } if (algo > bundle->index_max) { bundle->index_max = algo; } } } } return (ctx != NULL); } int rpmDigestBundleUpdate(rpmDigestBundle bundle, const void *data, size_t len) { int rc = 0; if (bundle && data && len > 0) { for (int i = bundle->index_min; i <= bundle->index_max; i++) { DIGEST_CTX ctx = bundle->digests[i]; if (ctx == NULL) continue; rc += rpmDigestUpdate(ctx, data, len); } bundle->nbytes += len; } return rc; } int rpmDigestBundleFinal(rpmDigestBundle bundle, pgpHashAlgo algo, void ** datap, size_t * lenp, int asAscii) { int rc = 0; if (bundle && algo >= bundle->index_min && algo <= bundle->index_max) { rc = rpmDigestFinal(bundle->digests[algo], datap, lenp, asAscii); bundle->digests[algo] = NULL; } return rc; } DIGEST_CTX rpmDigestBundleDupCtx(rpmDigestBundle bundle, pgpHashAlgo algo) { DIGEST_CTX dup = NULL; if (bundle && algo >= bundle->index_min && algo <= bundle->index_max) { dup = rpmDigestDup(bundle->digests[algo]); } return dup; } DIGEST_CTX rpmDigestDup(DIGEST_CTX octx) { DIGEST_CTX nctx = NULL; if (octx) { HASHContext *hctx = HASH_Clone(octx->hashctx); if (hctx) { nctx = memcpy(xcalloc(1, sizeof(*nctx)), octx, sizeof(*nctx)); nctx->hashctx = hctx; } } return nctx; } RPM_GNUC_PURE static HASH_HashType getHashType(pgpHashAlgo hashalgo) { switch (hashalgo) { case PGPHASHALGO_MD5: return HASH_AlgMD5; break; case PGPHASHALGO_MD2: return HASH_AlgMD2; break; case PGPHASHALGO_SHA1: return HASH_AlgSHA1; break; case PGPHASHALGO_SHA256: return HASH_AlgSHA256; break; case PGPHASHALGO_SHA384: return HASH_AlgSHA384; break; case PGPHASHALGO_SHA512: return HASH_AlgSHA512; break; case PGPHASHALGO_RIPEMD160: case PGPHASHALGO_TIGER192: case PGPHASHALGO_HAVAL_5_160: default: return HASH_AlgNULL; break; } } size_t rpmDigestLength(pgpHashAlgo hashalgo) { return HASH_ResultLen(getHashType(hashalgo)); } DIGEST_CTX rpmDigestInit(pgpHashAlgo hashalgo, rpmDigestFlags flags) { HASH_HashType type = getHashType(hashalgo); HASHContext *hashctx = NULL; DIGEST_CTX ctx = NULL; if (type == HASH_AlgNULL || rpmInitCrypto() < 0) goto exit; if ((hashctx = HASH_Create(type)) != NULL) { ctx = xcalloc(1, sizeof(*ctx)); ctx->flags = flags; ctx->algo = hashalgo; ctx->hashctx = hashctx; HASH_Begin(ctx->hashctx); } DPRINTF((stderr, "*** Init(%x) ctx %p hashctx %p\n", flags, ctx, ctx->hashctx)); exit: return ctx; } int rpmDigestUpdate(DIGEST_CTX ctx, const void * data, size_t len) { size_t partlen; const unsigned char *ptr = data; if (ctx == NULL) return -1; DPRINTF((stderr, "*** Update(%p,%p,%zd) hashctx %p \"%s\"\n", ctx, data, len, ctx->hashctx, ((char *)data))); partlen = ~(unsigned int)0xFF; while (len > 0) { if (len < partlen) { partlen = len; } HASH_Update(ctx->hashctx, ptr, partlen); ptr += partlen; len -= partlen; } return 0; } int rpmDigestFinal(DIGEST_CTX ctx, void ** datap, size_t *lenp, int asAscii) { unsigned char * digest; unsigned int digestlen; if (ctx == NULL) return -1; digestlen = HASH_ResultLenContext(ctx->hashctx); digest = xmalloc(digestlen); DPRINTF((stderr, "*** Final(%p,%p,%p,%zd) hashctx %p digest %p\n", ctx, datap, lenp, asAscii, ctx->hashctx, digest)); /* FIX: check rc */ HASH_End(ctx->hashctx, digest, (unsigned int *) &digestlen, digestlen); /* Return final digest. */ if (!asAscii) { if (lenp) *lenp = digestlen; if (datap) { *datap = digest; digest = NULL; } } else { if (lenp) *lenp = (2*digestlen) + 1; if (datap) { const uint8_t * s = (const uint8_t *) digest; *datap = pgpHexStr(s, digestlen); } } if (digest) { memset(digest, 0, digestlen); /* In case it's sensitive */ free(digest); } HASH_Destroy(ctx->hashctx); memset(ctx, 0, sizeof(*ctx)); /* In case it's sensitive */ free(ctx); return 0; } void fdInitDigest(FD_t fd, pgpHashAlgo hashalgo, int flags) { if (fd->digests == NULL) { fd->digests = rpmDigestBundleNew(); } fdstat_enter(fd, FDSTAT_DIGEST); rpmDigestBundleAdd(fd->digests, hashalgo, flags); fdstat_exit(fd, FDSTAT_DIGEST, (ssize_t) 0); } void fdUpdateDigests(FD_t fd, const unsigned char * buf, size_t buflen) { if (fd && fd->digests) { fdstat_enter(fd, FDSTAT_DIGEST); rpmDigestBundleUpdate(fd->digests, buf, buflen); fdstat_exit(fd, FDSTAT_DIGEST, (ssize_t) buflen); } } void fdFiniDigest(FD_t fd, pgpHashAlgo hashalgo, void ** datap, size_t * lenp, int asAscii) { if (fd && fd->digests) { fdstat_enter(fd, FDSTAT_DIGEST); rpmDigestBundleFinal(fd->digests, hashalgo, datap, lenp, asAscii); fdstat_exit(fd, FDSTAT_DIGEST, (ssize_t) 0); } }