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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 09:23:06 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-28 09:23:06 +0000 |
commit | cd13e2506379761d3464eae917eb1881876a7aa1 (patch) | |
tree | 54d32c05b0d6396408ff0d599d771fb9e7cdd60c /src/tpm.c | |
parent | Initial commit. (diff) | |
download | libfido2-cd13e2506379761d3464eae917eb1881876a7aa1.tar.xz libfido2-cd13e2506379761d3464eae917eb1881876a7aa1.zip |
Adding upstream version 1.12.0.upstream/1.12.0upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/tpm.c')
-rw-r--r-- | src/tpm.c | 391 |
1 files changed, 391 insertions, 0 deletions
diff --git a/src/tpm.c b/src/tpm.c new file mode 100644 index 0000000..69c48c3 --- /dev/null +++ b/src/tpm.c @@ -0,0 +1,391 @@ +/* + * Copyright (c) 2021 Yubico AB. All rights reserved. + * Use of this source code is governed by a BSD-style + * license that can be found in the LICENSE file. + * SPDX-License-Identifier: BSD-2-Clause + */ + +/* + * Trusted Platform Module (TPM) 2.0 attestation support. Documentation + * references are relative to revision 01.38 of the TPM 2.0 specification. + */ + +#include <openssl/sha.h> + +#include "packed.h" +#include "fido.h" + +/* Part 1, 4.89: TPM_GENERATED_VALUE */ +#define TPM_MAGIC 0xff544347 + +/* Part 2, 6.3: TPM_ALG_ID */ +#define TPM_ALG_RSA 0x0001 +#define TPM_ALG_SHA256 0x000b +#define TPM_ALG_NULL 0x0010 +#define TPM_ALG_ECC 0x0023 + +/* Part 2, 6.4: TPM_ECC_CURVE */ +#define TPM_ECC_P256 0x0003 + +/* Part 2, 6.9: TPM_ST_ATTEST_CERTIFY */ +#define TPM_ST_CERTIFY 0x8017 + +/* Part 2, 8.3: TPMA_OBJECT */ +#define TPMA_RESERVED 0xfff8f309 /* reserved bits; must be zero */ +#define TPMA_FIXED 0x00000002 /* object has fixed hierarchy */ +#define TPMA_CLEAR 0x00000004 /* object persists */ +#define TPMA_FIXED_P 0x00000010 /* object has fixed parent */ +#define TPMA_SENSITIVE 0x00000020 /* data originates within tpm */ +#define TPMA_SIGN 0x00040000 /* object may sign */ + +/* Part 2, 10.4.2: TPM2B_DIGEST */ +PACKED_TYPE(tpm_sha256_digest_t, +struct tpm_sha256_digest { + uint16_t size; /* sizeof(body) */ + uint8_t body[32]; +}) + +/* Part 2, 10.4.3: TPM2B_DATA */ +PACKED_TYPE(tpm_sha1_data_t, +struct tpm_sha1_data { + uint16_t size; /* sizeof(body */ + uint8_t body[20]; +}) + +/* Part 2, 10.5.3: TPM2B_NAME */ +PACKED_TYPE(tpm_sha256_name_t, +struct tpm_sha256_name { + uint16_t size; /* sizeof(alg) + sizeof(body) */ + uint16_t alg; /* TPM_ALG_SHA256 */ + uint8_t body[32]; +}) + +/* Part 2, 10.11.1: TPMS_CLOCK_INFO */ +PACKED_TYPE(tpm_clock_info_t, +struct tpm_clock_info { + uint64_t timestamp_ms; + uint32_t reset_count; /* obfuscated by tpm */ + uint32_t restart_count; /* obfuscated by tpm */ + uint8_t safe; /* 1 if timestamp_ms is current */ +}) + +/* Part 2, 10.12.8 TPMS_ATTEST */ +PACKED_TYPE(tpm_sha1_attest_t, +struct tpm_sha1_attest { + uint32_t magic; /* TPM_MAGIC */ + uint16_t type; /* TPM_ST_ATTEST_CERTIFY */ + tpm_sha256_name_t signer; /* full tpm path of signing key */ + tpm_sha1_data_t data; /* signed sha1 */ + tpm_clock_info_t clock; + uint64_t fwversion; /* obfuscated by tpm */ + tpm_sha256_name_t name; /* sha256 of tpm_rs256_pubarea_t */ + tpm_sha256_name_t qual_name; /* full tpm path of attested key */ +}) + +/* Part 2, 11.2.4.5: TPM2B_PUBLIC_KEY_RSA */ +PACKED_TYPE(tpm_rs256_key_t, +struct tpm_rs256_key { + uint16_t size; /* sizeof(body) */ + uint8_t body[256]; +}) + +/* Part 2, 11.2.5.1: TPM2B_ECC_PARAMETER */ +PACKED_TYPE(tpm_es256_coord_t, +struct tpm_es256_coord { + uint16_t size; /* sizeof(body) */ + uint8_t body[32]; +}) + +/* Part 2, 11.2.5.2: TPMS_ECC_POINT */ +PACKED_TYPE(tpm_es256_point_t, +struct tpm_es256_point { + tpm_es256_coord_t x; + tpm_es256_coord_t y; +}) + +/* Part 2, 12.2.3.5: TPMS_RSA_PARMS */ +PACKED_TYPE(tpm_rs256_param_t, +struct tpm_rs256_param { + uint16_t symmetric; /* TPM_ALG_NULL */ + uint16_t scheme; /* TPM_ALG_NULL */ + uint16_t keybits; /* 2048 */ + uint32_t exponent; /* zero (meaning 2^16 + 1) */ +}) + +/* Part 2, 12.2.3.6: TPMS_ECC_PARMS */ +PACKED_TYPE(tpm_es256_param_t, +struct tpm_es256_param { + uint16_t symmetric; /* TPM_ALG_NULL */ + uint16_t scheme; /* TPM_ALG_NULL */ + uint16_t curve_id; /* TPM_ECC_P256 */ + uint16_t kdf; /* TPM_ALG_NULL */ +}) + +/* Part 2, 12.2.4: TPMT_PUBLIC */ +PACKED_TYPE(tpm_rs256_pubarea_t, +struct tpm_rs256_pubarea { + uint16_t alg; /* TPM_ALG_RSA */ + uint16_t hash; /* TPM_ALG_SHA256 */ + uint32_t attr; + tpm_sha256_digest_t policy; /* must be present? */ + tpm_rs256_param_t param; + tpm_rs256_key_t key; +}) + +/* Part 2, 12.2.4: TPMT_PUBLIC */ +PACKED_TYPE(tpm_es256_pubarea_t, +struct tpm_es256_pubarea { + uint16_t alg; /* TPM_ALG_ECC */ + uint16_t hash; /* TPM_ALG_SHA256 */ + uint32_t attr; + tpm_sha256_digest_t policy; /* must be present? */ + tpm_es256_param_t param; + tpm_es256_point_t point; +}) + +static int +get_signed_sha1(tpm_sha1_data_t *dgst, const fido_blob_t *authdata, + const fido_blob_t *clientdata) +{ + const EVP_MD *md = NULL; + EVP_MD_CTX *ctx = NULL; + int ok = -1; + + if ((dgst->size = sizeof(dgst->body)) != SHA_DIGEST_LENGTH || + (md = EVP_sha1()) == NULL || + (ctx = EVP_MD_CTX_new()) == NULL || + EVP_DigestInit_ex(ctx, md, NULL) != 1 || + EVP_DigestUpdate(ctx, authdata->ptr, authdata->len) != 1 || + EVP_DigestUpdate(ctx, clientdata->ptr, clientdata->len) != 1 || + EVP_DigestFinal_ex(ctx, dgst->body, NULL) != 1) { + fido_log_debug("%s: sha1", __func__); + goto fail; + } + + ok = 0; +fail: + EVP_MD_CTX_free(ctx); + + return (ok); +} + +static int +get_signed_name(tpm_sha256_name_t *name, const fido_blob_t *pubarea) +{ + name->alg = TPM_ALG_SHA256; + name->size = sizeof(name->alg) + sizeof(name->body); + if (sizeof(name->body) != SHA256_DIGEST_LENGTH || + SHA256(pubarea->ptr, pubarea->len, name->body) != name->body) { + fido_log_debug("%s: sha256", __func__); + return -1; + } + + return 0; +} + +static void +bswap_rs256_pubarea(tpm_rs256_pubarea_t *x) +{ + x->alg = htobe16(x->alg); + x->hash = htobe16(x->hash); + x->attr = htobe32(x->attr); + x->policy.size = htobe16(x->policy.size); + x->param.symmetric = htobe16(x->param.symmetric); + x->param.scheme = htobe16(x->param.scheme); + x->param.keybits = htobe16(x->param.keybits); + x->key.size = htobe16(x->key.size); +} + +static void +bswap_es256_pubarea(tpm_es256_pubarea_t *x) +{ + x->alg = htobe16(x->alg); + x->hash = htobe16(x->hash); + x->attr = htobe32(x->attr); + x->policy.size = htobe16(x->policy.size); + x->param.symmetric = htobe16(x->param.symmetric); + x->param.scheme = htobe16(x->param.scheme); + x->param.curve_id = htobe16(x->param.curve_id); + x->param.kdf = htobe16(x->param.kdf); + x->point.x.size = htobe16(x->point.x.size); + x->point.y.size = htobe16(x->point.y.size); +} + +static void +bswap_sha1_certinfo(tpm_sha1_attest_t *x) +{ + x->magic = htobe32(x->magic); + x->type = htobe16(x->type); + x->signer.size = htobe16(x->signer.size); + x->data.size = htobe16(x->data.size); + x->name.alg = htobe16(x->name.alg); + x->name.size = htobe16(x->name.size); +} + +static int +check_rs256_pubarea(const fido_blob_t *buf, const rs256_pk_t *pk) +{ + const tpm_rs256_pubarea_t *actual; + tpm_rs256_pubarea_t expected; + int ok; + + if (buf->len != sizeof(*actual)) { + fido_log_debug("%s: buf->len=%zu", __func__, buf->len); + return -1; + } + actual = (const void *)buf->ptr; + + memset(&expected, 0, sizeof(expected)); + expected.alg = TPM_ALG_RSA; + expected.hash = TPM_ALG_SHA256; + expected.attr = be32toh(actual->attr); + expected.attr &= ~(TPMA_RESERVED|TPMA_CLEAR); + expected.attr |= (TPMA_FIXED|TPMA_FIXED_P|TPMA_SENSITIVE|TPMA_SIGN); + expected.policy = actual->policy; + expected.policy.size = sizeof(expected.policy.body); + expected.param.symmetric = TPM_ALG_NULL; + expected.param.scheme = TPM_ALG_NULL; + expected.param.keybits = 2048; + expected.param.exponent = 0; /* meaning 2^16+1 */ + expected.key.size = sizeof(expected.key.body); + memcpy(&expected.key.body, &pk->n, sizeof(expected.key.body)); + bswap_rs256_pubarea(&expected); + + ok = timingsafe_bcmp(&expected, actual, sizeof(expected)); + explicit_bzero(&expected, sizeof(expected)); + + return ok != 0 ? -1 : 0; +} + +static int +check_es256_pubarea(const fido_blob_t *buf, const es256_pk_t *pk) +{ + const tpm_es256_pubarea_t *actual; + tpm_es256_pubarea_t expected; + int ok; + + if (buf->len != sizeof(*actual)) { + fido_log_debug("%s: buf->len=%zu", __func__, buf->len); + return -1; + } + actual = (const void *)buf->ptr; + + memset(&expected, 0, sizeof(expected)); + expected.alg = TPM_ALG_ECC; + expected.hash = TPM_ALG_SHA256; + expected.attr = be32toh(actual->attr); + expected.attr &= ~(TPMA_RESERVED|TPMA_CLEAR); + expected.attr |= (TPMA_FIXED|TPMA_FIXED_P|TPMA_SENSITIVE|TPMA_SIGN); + expected.policy = actual->policy; + expected.policy.size = sizeof(expected.policy.body); + expected.param.symmetric = TPM_ALG_NULL; + expected.param.scheme = TPM_ALG_NULL; /* TCG Alg. Registry, 5.2.4 */ + expected.param.curve_id = TPM_ECC_P256; + expected.param.kdf = TPM_ALG_NULL; + expected.point.x.size = sizeof(expected.point.x.body); + expected.point.y.size = sizeof(expected.point.y.body); + memcpy(&expected.point.x.body, &pk->x, sizeof(expected.point.x.body)); + memcpy(&expected.point.y.body, &pk->y, sizeof(expected.point.y.body)); + bswap_es256_pubarea(&expected); + + ok = timingsafe_bcmp(&expected, actual, sizeof(expected)); + explicit_bzero(&expected, sizeof(expected)); + + return ok != 0 ? -1 : 0; +} + +static int +check_sha1_certinfo(const fido_blob_t *buf, const fido_blob_t *clientdata_hash, + const fido_blob_t *authdata_raw, const fido_blob_t *pubarea) +{ + const tpm_sha1_attest_t *actual; + tpm_sha1_attest_t expected; + tpm_sha1_data_t signed_data; + tpm_sha256_name_t signed_name; + int ok = -1; + + memset(&signed_data, 0, sizeof(signed_data)); + memset(&signed_name, 0, sizeof(signed_name)); + + if (get_signed_sha1(&signed_data, authdata_raw, clientdata_hash) < 0 || + get_signed_name(&signed_name, pubarea) < 0) { + fido_log_debug("%s: get_signed_sha1/name", __func__); + goto fail; + } + if (buf->len != sizeof(*actual)) { + fido_log_debug("%s: buf->len=%zu", __func__, buf->len); + goto fail; + } + actual = (const void *)buf->ptr; + + memset(&expected, 0, sizeof(expected)); + expected.magic = TPM_MAGIC; + expected.type = TPM_ST_CERTIFY; + expected.signer = actual->signer; + expected.signer.size = sizeof(expected.signer.alg) + + sizeof(expected.signer.body); + expected.data = signed_data; + expected.clock = actual->clock; + expected.clock.safe = 1; + expected.fwversion = actual->fwversion; + expected.name = signed_name; + expected.qual_name = actual->qual_name; + bswap_sha1_certinfo(&expected); + + ok = timingsafe_bcmp(&expected, actual, sizeof(expected)); +fail: + explicit_bzero(&expected, sizeof(expected)); + explicit_bzero(&signed_data, sizeof(signed_data)); + explicit_bzero(&signed_name, sizeof(signed_name)); + + return ok != 0 ? -1 : 0; +} + +int +fido_get_signed_hash_tpm(fido_blob_t *dgst, const fido_blob_t *clientdata_hash, + const fido_blob_t *authdata_raw, const fido_attstmt_t *attstmt, + const fido_attcred_t *attcred) +{ + const fido_blob_t *pubarea = &attstmt->pubarea; + const fido_blob_t *certinfo = &attstmt->certinfo; + + if (attstmt->alg != COSE_RS1) { + fido_log_debug("%s: unsupported alg %d", __func__, + attstmt->alg); + return -1; + } + + switch (attcred->type) { + case COSE_ES256: + if (check_es256_pubarea(pubarea, &attcred->pubkey.es256) < 0) { + fido_log_debug("%s: check_es256_pubarea", __func__); + return -1; + } + break; + case COSE_RS256: + if (check_rs256_pubarea(pubarea, &attcred->pubkey.rs256) < 0) { + fido_log_debug("%s: check_rs256_pubarea", __func__); + return -1; + } + break; + default: + fido_log_debug("%s: unsupported type %d", __func__, + attcred->type); + return -1; + } + + if (check_sha1_certinfo(certinfo, clientdata_hash, authdata_raw, + pubarea) < 0) { + fido_log_debug("%s: check_sha1_certinfo", __func__); + return -1; + } + + if (dgst->len < SHA_DIGEST_LENGTH || + SHA1(certinfo->ptr, certinfo->len, dgst->ptr) != dgst->ptr) { + fido_log_debug("%s: sha1", __func__); + return -1; + } + dgst->len = SHA_DIGEST_LENGTH; + + return 0; +} |