/* Copyright (C) CZ.NIC, z.s.p.o. * SPDX-License-Identifier: GPL-3.0-or-later */ #include #include #include #include #include #include #include #include #include #include #include #include #include "lib/defines.h" #include "lib/utils.h" #include "lib/dnssec/signature.h" static int authenticate_ds(const dnssec_key_t *key, dnssec_binary_t *ds_rdata, uint8_t digest_type) { /* Compute DS RDATA from the DNSKEY. */ dnssec_binary_t computed_ds = { 0, }; int ret = dnssec_key_create_ds(key, digest_type, &computed_ds); if (ret != DNSSEC_EOK) goto fail; /* DS records contain algorithm, key tag and the digest. * Therefore the comparison of the two DS is sufficient. */ ret = (ds_rdata->size == computed_ds.size) && (memcmp(ds_rdata->data, computed_ds.data, ds_rdata->size) == 0); ret = ret ? kr_ok() : kr_error(ENOENT); fail: dnssec_binary_free(&computed_ds); return kr_error(ret); } int kr_authenticate_referral(const knot_rrset_t *ref, const dnssec_key_t *key) { if (kr_fails_assert(ref && key)) return kr_error(EINVAL); if (ref->type != KNOT_RRTYPE_DS) return kr_error(EINVAL); /* Determine whether to ignore SHA1 digests, because: https://datatracker.ietf.org/doc/html/rfc4509#section-3 * Now, the RFCs seem to only mention SHA1 and SHA256 (e.g. no SHA384), * but the most natural extension is to make any other algorithm trump SHA1. * (Note that the old GOST version is already unsupported by libdnssec.) */ bool skip_sha1 = false; knot_rdata_t *rd = ref->rrs.rdata; for (int i = 0; i < ref->rrs.count; ++i, rd = knot_rdataset_next(rd)) { const uint8_t algo = knot_ds_digest_type(rd); if (algo != DNSSEC_KEY_DIGEST_SHA1 && dnssec_algorithm_digest_support(algo)) { skip_sha1 = true; break; } } /* But otherwise try all possible DS records. */ int ret = 0; rd = ref->rrs.rdata; for (int i = 0; i < ref->rrs.count; ++i, rd = knot_rdataset_next(rd)) { const uint8_t algo = knot_ds_digest_type(rd); if (skip_sha1 && algo == DNSSEC_KEY_DIGEST_SHA1) continue; dnssec_binary_t ds_rdata = { .size = rd->len, .data = rd->data }; ret = authenticate_ds(key, &ds_rdata, algo); if (ret == 0) /* Found a good DS */ return kr_ok(); } return kr_error(ret); } /** * Adjust TTL in wire format. * @param wire RR Set in wire format. * @param wire_size Size of the wire data portion. * @param new_ttl TTL value to be set for all RRs. * @return 0 or error code. */ static int adjust_wire_ttl(uint8_t *wire, size_t wire_size, uint32_t new_ttl) { if (kr_fails_assert(wire)) return kr_error(EINVAL); static_assert(sizeof(uint16_t) == 2, "uint16_t must be exactly 2 bytes"); static_assert(sizeof(uint32_t) == 4, "uint32_t must be exactly 4 bytes"); uint16_t rdlen; int ret; new_ttl = htonl(new_ttl); size_t i = 0; /* RR wire format in RFC1035 3.2.1 */ while(i < wire_size) { ret = knot_dname_size(wire + i); if (ret < 0) return ret; i += ret + 4; memcpy(wire + i, &new_ttl, sizeof(uint32_t)); i += sizeof(uint32_t); memcpy(&rdlen, wire + i, sizeof(uint16_t)); rdlen = ntohs(rdlen); i += sizeof(uint16_t) + rdlen; if (kr_fails_assert(i <= wire_size)) return kr_error(EINVAL); } return kr_ok(); } /*! * \brief Add RRSIG RDATA without signature to signing context. * * Requires signer name in RDATA in canonical form. * * \param ctx Signing context. * \param rdata Pointer to RRSIG RDATA. * * \return Error code, KNOT_EOK if successful. */ #define RRSIG_RDATA_SIGNER_OFFSET 18 static int sign_ctx_add_self(dnssec_sign_ctx_t *ctx, const uint8_t *rdata) { if (kr_fails_assert(ctx && rdata)) return kr_error(EINVAL); int result; // static header dnssec_binary_t header = { .data = (uint8_t *)rdata, .size = RRSIG_RDATA_SIGNER_OFFSET, }; result = dnssec_sign_add(ctx, &header); if (result != DNSSEC_EOK) return result; // signer name const uint8_t *rdata_signer = rdata + RRSIG_RDATA_SIGNER_OFFSET; dnssec_binary_t signer = { 0 }; signer.data = knot_dname_copy(rdata_signer, NULL); signer.size = knot_dname_size(signer.data); result = dnssec_sign_add(ctx, &signer); free(signer.data); return result; } #undef RRSIG_RDATA_SIGNER_OFFSET /*! * \brief Add covered RRs to signing context. * * Requires all DNAMEs in canonical form and all RRs ordered canonically. * * \param ctx Signing context. * \param covered Covered RRs. * * \return Error code, KNOT_EOK if successful. */ static int sign_ctx_add_records(dnssec_sign_ctx_t *ctx, const knot_rrset_t *covered, uint32_t orig_ttl, int trim_labels) { if (!ctx || !covered || trim_labels < 0) return kr_error(EINVAL); // huge block of rrsets can be optionally created static uint8_t wire_buffer[KNOT_WIRE_MAX_PKTSIZE]; int written = knot_rrset_to_wire(covered, wire_buffer, sizeof(wire_buffer), NULL); if (written < 0) return written; /* Set original ttl. */ int ret = adjust_wire_ttl(wire_buffer, written, orig_ttl); if (ret != 0) return ret; if (!trim_labels) { const dnssec_binary_t wire_binary = { .size = written, .data = wire_buffer }; return dnssec_sign_add(ctx, &wire_binary); } /* RFC4035 5.3.2 * Remove leftmost labels and replace them with '*.' * for each RR in covered. */ uint8_t *beginp = wire_buffer; for (uint16_t i = 0; i < covered->rrs.count; ++i) { /* RR(i) = name | type | class | OrigTTL | RDATA length | RDATA */ for (int j = 0; j < trim_labels; ++j) { if (kr_fails_assert(beginp[0])) return kr_error(EINVAL); beginp = (uint8_t *) knot_dname_next_label(beginp); if (kr_fails_assert(beginp)) return kr_error(EFAULT); } *(--beginp) = '*'; *(--beginp) = 1; const size_t rdatalen_offset = knot_dname_size(beginp) + /* name */ sizeof(uint16_t) + /* type */ sizeof(uint16_t) + /* class */ sizeof(uint32_t); /* OrigTTL */ const uint8_t *rdatalen_ptr = beginp + rdatalen_offset; const uint16_t rdata_size = knot_wire_read_u16(rdatalen_ptr); const size_t rr_size = rdatalen_offset + sizeof(uint16_t) + /* RDATA length */ rdata_size; /* RDATA */ const dnssec_binary_t wire_binary = { .size = rr_size, .data = beginp }; ret = dnssec_sign_add(ctx, &wire_binary); if (ret != 0) break; beginp += rr_size; } return ret; } /*! * \brief Add all data covered by signature into signing context. * * RFC 4034: The signature covers RRSIG RDATA field (excluding the signature) * and all matching RR records, which are ordered canonically. * * Requires all DNAMEs in canonical form and all RRs ordered canonically. * * \param ctx Signing context. * \param rrsig_rdata RRSIG RDATA with populated fields except signature. * \param covered Covered RRs. * * \return Error code, KNOT_EOK if successful. */ /* TODO -- Taken from knot/src/knot/dnssec/rrset-sign.c. Re-write for better fit needed. */ static int sign_ctx_add_data(dnssec_sign_ctx_t *ctx, const uint8_t *rrsig_rdata, const knot_rrset_t *covered, uint32_t orig_ttl, int trim_labels) { int result = sign_ctx_add_self(ctx, rrsig_rdata); if (result != KNOT_EOK) return result; return sign_ctx_add_records(ctx, covered, orig_ttl, trim_labels); } int kr_check_signature(const knot_rdata_t *rrsig, const dnssec_key_t *key, const knot_rrset_t *covered, int trim_labels) { if (!rrsig || !key || !dnssec_key_can_verify(key)) return kr_error(EINVAL); int ret = 0; dnssec_sign_ctx_t *sign_ctx = NULL; dnssec_binary_t signature = { .data = /*const-cast*/(uint8_t*)knot_rrsig_signature(rrsig), .size = knot_rrsig_signature_len(rrsig), }; if (!signature.data || !signature.size) { ret = kr_error(EINVAL); goto fail; } if (dnssec_sign_new(&sign_ctx, key) != 0) { ret = kr_error(ENOMEM); goto fail; } uint32_t orig_ttl = knot_rrsig_original_ttl(rrsig); if (sign_ctx_add_data(sign_ctx, rrsig->data, covered, orig_ttl, trim_labels) != 0) { ret = kr_error(ENOMEM); goto fail; } ret = dnssec_sign_verify(sign_ctx, false, &signature); if (ret != 0) { ret = kr_error(EBADMSG); goto fail; } ret = kr_ok(); fail: dnssec_sign_free(sign_ctx); return ret; }