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/*
* Copyright (c) 2019-2023 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
*/
#include <assert.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "mutator_aux.h"
#include "wiredata_fido2.h"
#include "wiredata_u2f.h"
#include "dummy.h"
#include "../openbsd-compat/openbsd-compat.h"
/* Parameter set defining a FIDO2 get assertion operation. */
struct param {
char pin[MAXSTR];
char rp_id[MAXSTR];
int ext;
int seed;
struct blob cdh;
struct blob cred;
struct blob es256;
struct blob rs256;
struct blob eddsa;
struct blob wire_data;
uint8_t cred_count;
uint8_t type;
uint8_t opt;
uint8_t up;
uint8_t uv;
};
/*
* Collection of HID reports from an authenticator issued with a FIDO2
* get assertion using the example parameters above.
*/
static const uint8_t dummy_wire_data_fido[] = {
WIREDATA_CTAP_INIT,
WIREDATA_CTAP_CBOR_INFO,
WIREDATA_CTAP_CBOR_AUTHKEY,
WIREDATA_CTAP_CBOR_PINTOKEN,
WIREDATA_CTAP_CBOR_ASSERT,
};
/*
* Collection of HID reports from an authenticator issued with a U2F
* authentication using the example parameters above.
*/
static const uint8_t dummy_wire_data_u2f[] = {
WIREDATA_CTAP_INIT,
WIREDATA_CTAP_U2F_6985,
WIREDATA_CTAP_U2F_6985,
WIREDATA_CTAP_U2F_6985,
WIREDATA_CTAP_U2F_6985,
WIREDATA_CTAP_U2F_AUTH,
};
struct param *
unpack(const uint8_t *ptr, size_t len)
{
cbor_item_t *item = NULL, **v;
struct cbor_load_result cbor;
struct param *p;
int ok = -1;
if ((p = calloc(1, sizeof(*p))) == NULL ||
(item = cbor_load(ptr, len, &cbor)) == NULL ||
cbor.read != len ||
cbor_isa_array(item) == false ||
cbor_array_is_definite(item) == false ||
cbor_array_size(item) != 15 ||
(v = cbor_array_handle(item)) == NULL)
goto fail;
if (unpack_byte(v[0], &p->uv) < 0 ||
unpack_byte(v[1], &p->up) < 0 ||
unpack_byte(v[2], &p->opt) < 0 ||
unpack_byte(v[3], &p->type) < 0 ||
unpack_byte(v[4], &p->cred_count) < 0 ||
unpack_int(v[5], &p->ext) < 0 ||
unpack_int(v[6], &p->seed) < 0 ||
unpack_string(v[7], p->rp_id) < 0 ||
unpack_string(v[8], p->pin) < 0 ||
unpack_blob(v[9], &p->wire_data) < 0 ||
unpack_blob(v[10], &p->rs256) < 0 ||
unpack_blob(v[11], &p->es256) < 0 ||
unpack_blob(v[12], &p->eddsa) < 0 ||
unpack_blob(v[13], &p->cred) < 0 ||
unpack_blob(v[14], &p->cdh) < 0)
goto fail;
ok = 0;
fail:
if (ok < 0) {
free(p);
p = NULL;
}
if (item)
cbor_decref(&item);
return p;
}
size_t
pack(uint8_t *ptr, size_t len, const struct param *p)
{
cbor_item_t *argv[15], *array = NULL;
size_t cbor_alloc_len, cbor_len = 0;
unsigned char *cbor = NULL;
memset(argv, 0, sizeof(argv));
if ((array = cbor_new_definite_array(15)) == NULL ||
(argv[0] = pack_byte(p->uv)) == NULL ||
(argv[1] = pack_byte(p->up)) == NULL ||
(argv[2] = pack_byte(p->opt)) == NULL ||
(argv[3] = pack_byte(p->type)) == NULL ||
(argv[4] = pack_byte(p->cred_count)) == NULL ||
(argv[5] = pack_int(p->ext)) == NULL ||
(argv[6] = pack_int(p->seed)) == NULL ||
(argv[7] = pack_string(p->rp_id)) == NULL ||
(argv[8] = pack_string(p->pin)) == NULL ||
(argv[9] = pack_blob(&p->wire_data)) == NULL ||
(argv[10] = pack_blob(&p->rs256)) == NULL ||
(argv[11] = pack_blob(&p->es256)) == NULL ||
(argv[12] = pack_blob(&p->eddsa)) == NULL ||
(argv[13] = pack_blob(&p->cred)) == NULL ||
(argv[14] = pack_blob(&p->cdh)) == NULL)
goto fail;
for (size_t i = 0; i < 15; i++)
if (cbor_array_push(array, argv[i]) == false)
goto fail;
if ((cbor_len = cbor_serialize_alloc(array, &cbor,
&cbor_alloc_len)) == 0 || cbor_len > len) {
cbor_len = 0;
goto fail;
}
memcpy(ptr, cbor, cbor_len);
fail:
for (size_t i = 0; i < 15; i++)
if (argv[i])
cbor_decref(&argv[i]);
if (array)
cbor_decref(&array);
free(cbor);
return cbor_len;
}
size_t
pack_dummy(uint8_t *ptr, size_t len)
{
struct param dummy;
uint8_t blob[MAXCORPUS];
size_t blob_len;
memset(&dummy, 0, sizeof(dummy));
dummy.type = 1; /* rsa */
dummy.ext = FIDO_EXT_HMAC_SECRET;
strlcpy(dummy.pin, dummy_pin, sizeof(dummy.pin));
strlcpy(dummy.rp_id, dummy_rp_id, sizeof(dummy.rp_id));
dummy.cred.len = sizeof(dummy_cdh); /* XXX */
dummy.cdh.len = sizeof(dummy_cdh);
dummy.es256.len = sizeof(dummy_es256);
dummy.rs256.len = sizeof(dummy_rs256);
dummy.eddsa.len = sizeof(dummy_eddsa);
dummy.wire_data.len = sizeof(dummy_wire_data_fido);
memcpy(&dummy.cred.body, &dummy_cdh, dummy.cred.len); /* XXX */
memcpy(&dummy.cdh.body, &dummy_cdh, dummy.cdh.len);
memcpy(&dummy.wire_data.body, &dummy_wire_data_fido,
dummy.wire_data.len);
memcpy(&dummy.es256.body, &dummy_es256, dummy.es256.len);
memcpy(&dummy.rs256.body, &dummy_rs256, dummy.rs256.len);
memcpy(&dummy.eddsa.body, &dummy_eddsa, dummy.eddsa.len);
assert((blob_len = pack(blob, sizeof(blob), &dummy)) != 0);
if (blob_len > len) {
memcpy(ptr, blob, len);
return len;
}
memcpy(ptr, blob, blob_len);
return blob_len;
}
static void
get_assert(fido_assert_t *assert, uint8_t opt, const struct blob *cdh,
const char *rp_id, int ext, uint8_t up, uint8_t uv, const char *pin,
uint8_t cred_count, const struct blob *cred)
{
fido_dev_t *dev;
if ((dev = open_dev(opt & 2)) == NULL)
return;
if (opt & 1)
fido_dev_force_u2f(dev);
if (ext & FIDO_EXT_HMAC_SECRET)
fido_assert_set_extensions(assert, FIDO_EXT_HMAC_SECRET);
if (ext & FIDO_EXT_CRED_BLOB)
fido_assert_set_extensions(assert, FIDO_EXT_CRED_BLOB);
if (ext & FIDO_EXT_LARGEBLOB_KEY)
fido_assert_set_extensions(assert, FIDO_EXT_LARGEBLOB_KEY);
if (up & 1)
fido_assert_set_up(assert, FIDO_OPT_TRUE);
else if (opt & 1)
fido_assert_set_up(assert, FIDO_OPT_FALSE);
if (uv & 1)
fido_assert_set_uv(assert, FIDO_OPT_TRUE);
for (uint8_t i = 0; i < cred_count; i++)
fido_assert_allow_cred(assert, cred->body, cred->len);
fido_assert_set_clientdata_hash(assert, cdh->body, cdh->len);
fido_assert_set_rp(assert, rp_id);
/* XXX reuse cred as hmac salt */
fido_assert_set_hmac_salt(assert, cred->body, cred->len);
/* repeat memory operations to trigger reallocation paths */
fido_assert_set_clientdata_hash(assert, cdh->body, cdh->len);
fido_assert_set_rp(assert, rp_id);
fido_assert_set_hmac_salt(assert, cred->body, cred->len);
if (strlen(pin) == 0)
pin = NULL;
fido_dev_get_assert(dev, assert, (opt & 1) ? NULL : pin);
fido_dev_cancel(dev);
fido_dev_close(dev);
fido_dev_free(&dev);
}
static void
verify_assert(int type, const unsigned char *cdh_ptr, size_t cdh_len,
const char *rp_id, const unsigned char *authdata_ptr, size_t authdata_len,
const unsigned char *sig_ptr, size_t sig_len, uint8_t up, uint8_t uv,
int ext, void *pk)
{
fido_assert_t *assert = NULL;
int r;
if ((assert = fido_assert_new()) == NULL)
return;
fido_assert_set_clientdata_hash(assert, cdh_ptr, cdh_len);
fido_assert_set_rp(assert, rp_id);
fido_assert_set_count(assert, 1);
if (fido_assert_set_authdata(assert, 0, authdata_ptr,
authdata_len) != FIDO_OK) {
fido_assert_set_authdata_raw(assert, 0, authdata_ptr,
authdata_len);
}
if (up & 1)
fido_assert_set_up(assert, FIDO_OPT_TRUE);
if (uv & 1)
fido_assert_set_uv(assert, FIDO_OPT_TRUE);
fido_assert_set_extensions(assert, ext);
fido_assert_set_sig(assert, 0, sig_ptr, sig_len);
/* repeat memory operations to trigger reallocation paths */
if (fido_assert_set_authdata(assert, 0, authdata_ptr,
authdata_len) != FIDO_OK) {
fido_assert_set_authdata_raw(assert, 0, authdata_ptr,
authdata_len);
}
fido_assert_set_sig(assert, 0, sig_ptr, sig_len);
r = fido_assert_verify(assert, 0, type, pk);
consume(&r, sizeof(r));
fido_assert_free(&assert);
}
/*
* Do a dummy conversion to exercise es256_pk_from_EVP_PKEY().
*/
static void
es256_convert(const es256_pk_t *k)
{
EVP_PKEY *pkey = NULL;
es256_pk_t *pk = NULL;
int r;
if ((pkey = es256_pk_to_EVP_PKEY(k)) == NULL ||
(pk = es256_pk_new()) == NULL)
goto out;
r = es256_pk_from_EVP_PKEY(pk, pkey);
consume(&r, sizeof(r));
out:
es256_pk_free(&pk);
EVP_PKEY_free(pkey);
}
/*
* Do a dummy conversion to exercise es384_pk_from_EVP_PKEY().
*/
static void
es384_convert(const es384_pk_t *k)
{
EVP_PKEY *pkey = NULL;
es384_pk_t *pk = NULL;
int r;
if ((pkey = es384_pk_to_EVP_PKEY(k)) == NULL ||
(pk = es384_pk_new()) == NULL)
goto out;
r = es384_pk_from_EVP_PKEY(pk, pkey);
consume(&r, sizeof(r));
out:
es384_pk_free(&pk);
EVP_PKEY_free(pkey);
}
/*
* Do a dummy conversion to exercise rs256_pk_from_EVP_PKEY().
*/
static void
rs256_convert(const rs256_pk_t *k)
{
EVP_PKEY *pkey = NULL;
rs256_pk_t *pk = NULL;
int r;
if ((pkey = rs256_pk_to_EVP_PKEY(k)) == NULL ||
(pk = rs256_pk_new()) == NULL)
goto out;
r = rs256_pk_from_EVP_PKEY(pk, pkey);
consume(&r, sizeof(r));
out:
rs256_pk_free(&pk);
EVP_PKEY_free(pkey);
}
/*
* Do a dummy conversion to exercise eddsa_pk_from_EVP_PKEY().
*/
static void
eddsa_convert(const eddsa_pk_t *k)
{
EVP_PKEY *pkey = NULL;
eddsa_pk_t *pk = NULL;
int r;
if ((pkey = eddsa_pk_to_EVP_PKEY(k)) == NULL ||
(pk = eddsa_pk_new()) == NULL)
goto out;
r = eddsa_pk_from_EVP_PKEY(pk, pkey);
consume(&r, sizeof(r));
out:
if (pk)
eddsa_pk_free(&pk);
if (pkey)
EVP_PKEY_free(pkey);
}
void
test(const struct param *p)
{
fido_assert_t *assert = NULL;
es256_pk_t *es256_pk = NULL;
es384_pk_t *es384_pk = NULL;
rs256_pk_t *rs256_pk = NULL;
eddsa_pk_t *eddsa_pk = NULL;
uint8_t flags;
uint32_t sigcount;
int cose_alg = 0;
void *pk;
prng_init((unsigned int)p->seed);
fuzz_clock_reset();
fido_init(FIDO_DEBUG);
fido_set_log_handler(consume_str);
switch (p->type & 3) {
case 0:
cose_alg = COSE_ES256;
if ((es256_pk = es256_pk_new()) == NULL)
return;
es256_pk_from_ptr(es256_pk, p->es256.body, p->es256.len);
pk = es256_pk;
es256_convert(pk);
break;
case 1:
cose_alg = COSE_RS256;
if ((rs256_pk = rs256_pk_new()) == NULL)
return;
rs256_pk_from_ptr(rs256_pk, p->rs256.body, p->rs256.len);
pk = rs256_pk;
rs256_convert(pk);
break;
case 2:
cose_alg = COSE_ES384;
if ((es384_pk = es384_pk_new()) == NULL)
return;
/* XXX reuse p->es256 as es384 */
es384_pk_from_ptr(es384_pk, p->es256.body, p->es256.len);
pk = es384_pk;
es384_convert(pk);
break;
default:
cose_alg = COSE_EDDSA;
if ((eddsa_pk = eddsa_pk_new()) == NULL)
return;
eddsa_pk_from_ptr(eddsa_pk, p->eddsa.body, p->eddsa.len);
pk = eddsa_pk;
eddsa_convert(pk);
break;
}
if ((assert = fido_assert_new()) == NULL)
goto out;
set_wire_data(p->wire_data.body, p->wire_data.len);
get_assert(assert, p->opt, &p->cdh, p->rp_id, p->ext, p->up, p->uv,
p->pin, p->cred_count, &p->cred);
/* XXX +1 on purpose */
for (size_t i = 0; i <= fido_assert_count(assert); i++) {
verify_assert(cose_alg,
fido_assert_clientdata_hash_ptr(assert),
fido_assert_clientdata_hash_len(assert),
fido_assert_rp_id(assert),
fido_assert_authdata_ptr(assert, i),
fido_assert_authdata_len(assert, i),
fido_assert_sig_ptr(assert, i),
fido_assert_sig_len(assert, i), p->up, p->uv, p->ext, pk);
consume(fido_assert_authdata_raw_ptr(assert, i),
fido_assert_authdata_raw_len(assert, i));
consume(fido_assert_id_ptr(assert, i),
fido_assert_id_len(assert, i));
consume(fido_assert_user_id_ptr(assert, i),
fido_assert_user_id_len(assert, i));
consume(fido_assert_hmac_secret_ptr(assert, i),
fido_assert_hmac_secret_len(assert, i));
consume_str(fido_assert_user_icon(assert, i));
consume_str(fido_assert_user_name(assert, i));
consume_str(fido_assert_user_display_name(assert, i));
consume(fido_assert_blob_ptr(assert, i),
fido_assert_blob_len(assert, i));
consume(fido_assert_largeblob_key_ptr(assert, i),
fido_assert_largeblob_key_len(assert, i));
flags = fido_assert_flags(assert, i);
consume(&flags, sizeof(flags));
sigcount = fido_assert_sigcount(assert, i);
consume(&sigcount, sizeof(sigcount));
}
out:
es256_pk_free(&es256_pk);
es384_pk_free(&es384_pk);
rs256_pk_free(&rs256_pk);
eddsa_pk_free(&eddsa_pk);
fido_assert_free(&assert);
}
void
mutate(struct param *p, unsigned int seed, unsigned int flags) NO_MSAN
{
if (flags & MUTATE_SEED)
p->seed = (int)seed;
if (flags & MUTATE_PARAM) {
mutate_byte(&p->uv);
mutate_byte(&p->up);
mutate_byte(&p->opt);
mutate_byte(&p->type);
mutate_byte(&p->cred_count);
mutate_int(&p->ext);
mutate_blob(&p->rs256);
mutate_blob(&p->es256);
mutate_blob(&p->eddsa);
mutate_blob(&p->cred);
mutate_blob(&p->cdh);
mutate_string(p->rp_id);
mutate_string(p->pin);
}
if (flags & MUTATE_WIREDATA) {
if (p->opt & 1) {
p->wire_data.len = sizeof(dummy_wire_data_u2f);
memcpy(&p->wire_data.body, &dummy_wire_data_u2f,
p->wire_data.len);
} else {
p->wire_data.len = sizeof(dummy_wire_data_fido);
memcpy(&p->wire_data.body, &dummy_wire_data_fido,
p->wire_data.len);
}
mutate_blob(&p->wire_data);
}
}
|