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- /*
- * Copyright 1995-2024 The OpenSSL Project Authors. All Rights Reserved.
- *
- * Licensed under the Apache License 2.0 (the "License"). You may not use
- * this file except in compliance with the License. You can obtain a copy
- * in the file LICENSE in the source distribution or at
- * https://www.openssl.org/source/license.html
- */
- #include <stdio.h>
- #include <stdlib.h>
- #include <openssl/objects.h>
- #include <openssl/evp.h>
- #include <openssl/hmac.h>
- #include <openssl/core_names.h>
- #include <openssl/ocsp.h>
- #include <openssl/conf.h>
- #include <openssl/x509v3.h>
- #include <openssl/dh.h>
- #include <openssl/bn.h>
- #include <openssl/provider.h>
- #include <openssl/param_build.h>
- #include "internal/nelem.h"
- #include "internal/sizes.h"
- #include "internal/tlsgroups.h"
- #include "ssl_local.h"
- #include "quic/quic_local.h"
- #include <openssl/ct.h>
- static const SIGALG_LOOKUP *find_sig_alg(SSL_CONNECTION *s, X509 *x, EVP_PKEY *pkey);
- static int tls12_sigalg_allowed(const SSL_CONNECTION *s, int op, const SIGALG_LOOKUP *lu);
- SSL3_ENC_METHOD const TLSv1_enc_data = {
- tls1_setup_key_block,
- tls1_generate_master_secret,
- tls1_change_cipher_state,
- tls1_final_finish_mac,
- TLS_MD_CLIENT_FINISH_CONST, TLS_MD_CLIENT_FINISH_CONST_SIZE,
- TLS_MD_SERVER_FINISH_CONST, TLS_MD_SERVER_FINISH_CONST_SIZE,
- tls1_alert_code,
- tls1_export_keying_material,
- 0,
- ssl3_set_handshake_header,
- tls_close_construct_packet,
- ssl3_handshake_write
- };
- SSL3_ENC_METHOD const TLSv1_1_enc_data = {
- tls1_setup_key_block,
- tls1_generate_master_secret,
- tls1_change_cipher_state,
- tls1_final_finish_mac,
- TLS_MD_CLIENT_FINISH_CONST, TLS_MD_CLIENT_FINISH_CONST_SIZE,
- TLS_MD_SERVER_FINISH_CONST, TLS_MD_SERVER_FINISH_CONST_SIZE,
- tls1_alert_code,
- tls1_export_keying_material,
- 0,
- ssl3_set_handshake_header,
- tls_close_construct_packet,
- ssl3_handshake_write
- };
- SSL3_ENC_METHOD const TLSv1_2_enc_data = {
- tls1_setup_key_block,
- tls1_generate_master_secret,
- tls1_change_cipher_state,
- tls1_final_finish_mac,
- TLS_MD_CLIENT_FINISH_CONST, TLS_MD_CLIENT_FINISH_CONST_SIZE,
- TLS_MD_SERVER_FINISH_CONST, TLS_MD_SERVER_FINISH_CONST_SIZE,
- tls1_alert_code,
- tls1_export_keying_material,
- SSL_ENC_FLAG_SIGALGS | SSL_ENC_FLAG_SHA256_PRF
- | SSL_ENC_FLAG_TLS1_2_CIPHERS,
- ssl3_set_handshake_header,
- tls_close_construct_packet,
- ssl3_handshake_write
- };
- SSL3_ENC_METHOD const TLSv1_3_enc_data = {
- tls13_setup_key_block,
- tls13_generate_master_secret,
- tls13_change_cipher_state,
- tls13_final_finish_mac,
- TLS_MD_CLIENT_FINISH_CONST, TLS_MD_CLIENT_FINISH_CONST_SIZE,
- TLS_MD_SERVER_FINISH_CONST, TLS_MD_SERVER_FINISH_CONST_SIZE,
- tls13_alert_code,
- tls13_export_keying_material,
- SSL_ENC_FLAG_SIGALGS | SSL_ENC_FLAG_SHA256_PRF,
- ssl3_set_handshake_header,
- tls_close_construct_packet,
- ssl3_handshake_write
- };
- OSSL_TIME tls1_default_timeout(void)
- {
- /*
- * 2 hours, the 24 hours mentioned in the TLSv1 spec is way too long for
- * http, the cache would over fill
- */
- return ossl_seconds2time(60 * 60 * 2);
- }
- int tls1_new(SSL *s)
- {
- if (!ssl3_new(s))
- return 0;
- if (!s->method->ssl_clear(s))
- return 0;
- return 1;
- }
- void tls1_free(SSL *s)
- {
- SSL_CONNECTION *sc = SSL_CONNECTION_FROM_SSL(s);
- if (sc == NULL)
- return;
- OPENSSL_free(sc->ext.session_ticket);
- ssl3_free(s);
- }
- int tls1_clear(SSL *s)
- {
- SSL_CONNECTION *sc = SSL_CONNECTION_FROM_SSL(s);
- if (sc == NULL)
- return 0;
- if (!ssl3_clear(s))
- return 0;
- if (s->method->version == TLS_ANY_VERSION)
- sc->version = TLS_MAX_VERSION_INTERNAL;
- else
- sc->version = s->method->version;
- return 1;
- }
- /* Legacy NID to group_id mapping. Only works for groups we know about */
- static const struct {
- int nid;
- uint16_t group_id;
- } nid_to_group[] = {
- {NID_sect163k1, OSSL_TLS_GROUP_ID_sect163k1},
- {NID_sect163r1, OSSL_TLS_GROUP_ID_sect163r1},
- {NID_sect163r2, OSSL_TLS_GROUP_ID_sect163r2},
- {NID_sect193r1, OSSL_TLS_GROUP_ID_sect193r1},
- {NID_sect193r2, OSSL_TLS_GROUP_ID_sect193r2},
- {NID_sect233k1, OSSL_TLS_GROUP_ID_sect233k1},
- {NID_sect233r1, OSSL_TLS_GROUP_ID_sect233r1},
- {NID_sect239k1, OSSL_TLS_GROUP_ID_sect239k1},
- {NID_sect283k1, OSSL_TLS_GROUP_ID_sect283k1},
- {NID_sect283r1, OSSL_TLS_GROUP_ID_sect283r1},
- {NID_sect409k1, OSSL_TLS_GROUP_ID_sect409k1},
- {NID_sect409r1, OSSL_TLS_GROUP_ID_sect409r1},
- {NID_sect571k1, OSSL_TLS_GROUP_ID_sect571k1},
- {NID_sect571r1, OSSL_TLS_GROUP_ID_sect571r1},
- {NID_secp160k1, OSSL_TLS_GROUP_ID_secp160k1},
- {NID_secp160r1, OSSL_TLS_GROUP_ID_secp160r1},
- {NID_secp160r2, OSSL_TLS_GROUP_ID_secp160r2},
- {NID_secp192k1, OSSL_TLS_GROUP_ID_secp192k1},
- {NID_X9_62_prime192v1, OSSL_TLS_GROUP_ID_secp192r1},
- {NID_secp224k1, OSSL_TLS_GROUP_ID_secp224k1},
- {NID_secp224r1, OSSL_TLS_GROUP_ID_secp224r1},
- {NID_secp256k1, OSSL_TLS_GROUP_ID_secp256k1},
- {NID_X9_62_prime256v1, OSSL_TLS_GROUP_ID_secp256r1},
- {NID_secp384r1, OSSL_TLS_GROUP_ID_secp384r1},
- {NID_secp521r1, OSSL_TLS_GROUP_ID_secp521r1},
- {NID_brainpoolP256r1, OSSL_TLS_GROUP_ID_brainpoolP256r1},
- {NID_brainpoolP384r1, OSSL_TLS_GROUP_ID_brainpoolP384r1},
- {NID_brainpoolP512r1, OSSL_TLS_GROUP_ID_brainpoolP512r1},
- {EVP_PKEY_X25519, OSSL_TLS_GROUP_ID_x25519},
- {EVP_PKEY_X448, OSSL_TLS_GROUP_ID_x448},
- {NID_brainpoolP256r1tls13, OSSL_TLS_GROUP_ID_brainpoolP256r1_tls13},
- {NID_brainpoolP384r1tls13, OSSL_TLS_GROUP_ID_brainpoolP384r1_tls13},
- {NID_brainpoolP512r1tls13, OSSL_TLS_GROUP_ID_brainpoolP512r1_tls13},
- {NID_id_tc26_gost_3410_2012_256_paramSetA, OSSL_TLS_GROUP_ID_gc256A},
- {NID_id_tc26_gost_3410_2012_256_paramSetB, OSSL_TLS_GROUP_ID_gc256B},
- {NID_id_tc26_gost_3410_2012_256_paramSetC, OSSL_TLS_GROUP_ID_gc256C},
- {NID_id_tc26_gost_3410_2012_256_paramSetD, OSSL_TLS_GROUP_ID_gc256D},
- {NID_id_tc26_gost_3410_2012_512_paramSetA, OSSL_TLS_GROUP_ID_gc512A},
- {NID_id_tc26_gost_3410_2012_512_paramSetB, OSSL_TLS_GROUP_ID_gc512B},
- {NID_id_tc26_gost_3410_2012_512_paramSetC, OSSL_TLS_GROUP_ID_gc512C},
- {NID_ffdhe2048, OSSL_TLS_GROUP_ID_ffdhe2048},
- {NID_ffdhe3072, OSSL_TLS_GROUP_ID_ffdhe3072},
- {NID_ffdhe4096, OSSL_TLS_GROUP_ID_ffdhe4096},
- {NID_ffdhe6144, OSSL_TLS_GROUP_ID_ffdhe6144},
- {NID_ffdhe8192, OSSL_TLS_GROUP_ID_ffdhe8192}
- };
- static const unsigned char ecformats_default[] = {
- TLSEXT_ECPOINTFORMAT_uncompressed,
- TLSEXT_ECPOINTFORMAT_ansiX962_compressed_prime,
- TLSEXT_ECPOINTFORMAT_ansiX962_compressed_char2
- };
- /* The default curves */
- static const uint16_t supported_groups_default[] = {
- OSSL_TLS_GROUP_ID_x25519, /* X25519 (29) */
- OSSL_TLS_GROUP_ID_secp256r1, /* secp256r1 (23) */
- OSSL_TLS_GROUP_ID_x448, /* X448 (30) */
- OSSL_TLS_GROUP_ID_secp521r1, /* secp521r1 (25) */
- OSSL_TLS_GROUP_ID_secp384r1, /* secp384r1 (24) */
- OSSL_TLS_GROUP_ID_gc256A, /* GC256A (34) */
- OSSL_TLS_GROUP_ID_gc256B, /* GC256B (35) */
- OSSL_TLS_GROUP_ID_gc256C, /* GC256C (36) */
- OSSL_TLS_GROUP_ID_gc256D, /* GC256D (37) */
- OSSL_TLS_GROUP_ID_gc512A, /* GC512A (38) */
- OSSL_TLS_GROUP_ID_gc512B, /* GC512B (39) */
- OSSL_TLS_GROUP_ID_gc512C, /* GC512C (40) */
- OSSL_TLS_GROUP_ID_ffdhe2048, /* ffdhe2048 (0x100) */
- OSSL_TLS_GROUP_ID_ffdhe3072, /* ffdhe3072 (0x101) */
- OSSL_TLS_GROUP_ID_ffdhe4096, /* ffdhe4096 (0x102) */
- OSSL_TLS_GROUP_ID_ffdhe6144, /* ffdhe6144 (0x103) */
- OSSL_TLS_GROUP_ID_ffdhe8192, /* ffdhe8192 (0x104) */
- };
- static const uint16_t suiteb_curves[] = {
- OSSL_TLS_GROUP_ID_secp256r1,
- OSSL_TLS_GROUP_ID_secp384r1,
- };
- struct provider_ctx_data_st {
- SSL_CTX *ctx;
- OSSL_PROVIDER *provider;
- };
- #define TLS_GROUP_LIST_MALLOC_BLOCK_SIZE 10
- static OSSL_CALLBACK add_provider_groups;
- static int add_provider_groups(const OSSL_PARAM params[], void *data)
- {
- struct provider_ctx_data_st *pgd = data;
- SSL_CTX *ctx = pgd->ctx;
- OSSL_PROVIDER *provider = pgd->provider;
- const OSSL_PARAM *p;
- TLS_GROUP_INFO *ginf = NULL;
- EVP_KEYMGMT *keymgmt;
- unsigned int gid;
- unsigned int is_kem = 0;
- int ret = 0;
- if (ctx->group_list_max_len == ctx->group_list_len) {
- TLS_GROUP_INFO *tmp = NULL;
- if (ctx->group_list_max_len == 0)
- tmp = OPENSSL_malloc(sizeof(TLS_GROUP_INFO)
- * TLS_GROUP_LIST_MALLOC_BLOCK_SIZE);
- else
- tmp = OPENSSL_realloc(ctx->group_list,
- (ctx->group_list_max_len
- + TLS_GROUP_LIST_MALLOC_BLOCK_SIZE)
- * sizeof(TLS_GROUP_INFO));
- if (tmp == NULL)
- return 0;
- ctx->group_list = tmp;
- memset(tmp + ctx->group_list_max_len,
- 0,
- sizeof(TLS_GROUP_INFO) * TLS_GROUP_LIST_MALLOC_BLOCK_SIZE);
- ctx->group_list_max_len += TLS_GROUP_LIST_MALLOC_BLOCK_SIZE;
- }
- ginf = &ctx->group_list[ctx->group_list_len];
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_GROUP_NAME);
- if (p == NULL || p->data_type != OSSL_PARAM_UTF8_STRING) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- ginf->tlsname = OPENSSL_strdup(p->data);
- if (ginf->tlsname == NULL)
- goto err;
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_GROUP_NAME_INTERNAL);
- if (p == NULL || p->data_type != OSSL_PARAM_UTF8_STRING) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- ginf->realname = OPENSSL_strdup(p->data);
- if (ginf->realname == NULL)
- goto err;
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_GROUP_ID);
- if (p == NULL || !OSSL_PARAM_get_uint(p, &gid) || gid > UINT16_MAX) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- ginf->group_id = (uint16_t)gid;
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_GROUP_ALG);
- if (p == NULL || p->data_type != OSSL_PARAM_UTF8_STRING) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- ginf->algorithm = OPENSSL_strdup(p->data);
- if (ginf->algorithm == NULL)
- goto err;
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_GROUP_SECURITY_BITS);
- if (p == NULL || !OSSL_PARAM_get_uint(p, &ginf->secbits)) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_GROUP_IS_KEM);
- if (p != NULL && (!OSSL_PARAM_get_uint(p, &is_kem) || is_kem > 1)) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- ginf->is_kem = 1 & is_kem;
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_GROUP_MIN_TLS);
- if (p == NULL || !OSSL_PARAM_get_int(p, &ginf->mintls)) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_GROUP_MAX_TLS);
- if (p == NULL || !OSSL_PARAM_get_int(p, &ginf->maxtls)) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_GROUP_MIN_DTLS);
- if (p == NULL || !OSSL_PARAM_get_int(p, &ginf->mindtls)) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_GROUP_MAX_DTLS);
- if (p == NULL || !OSSL_PARAM_get_int(p, &ginf->maxdtls)) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- /*
- * Now check that the algorithm is actually usable for our property query
- * string. Regardless of the result we still return success because we have
- * successfully processed this group, even though we may decide not to use
- * it.
- */
- ret = 1;
- ERR_set_mark();
- keymgmt = EVP_KEYMGMT_fetch(ctx->libctx, ginf->algorithm, ctx->propq);
- if (keymgmt != NULL) {
- /*
- * We have successfully fetched the algorithm - however if the provider
- * doesn't match this one then we ignore it.
- *
- * Note: We're cheating a little here. Technically if the same algorithm
- * is available from more than one provider then it is undefined which
- * implementation you will get back. Theoretically this could be
- * different every time...we assume here that you'll always get the
- * same one back if you repeat the exact same fetch. Is this a reasonable
- * assumption to make (in which case perhaps we should document this
- * behaviour)?
- */
- if (EVP_KEYMGMT_get0_provider(keymgmt) == provider) {
- /* We have a match - so we will use this group */
- ctx->group_list_len++;
- ginf = NULL;
- }
- EVP_KEYMGMT_free(keymgmt);
- }
- ERR_pop_to_mark();
- err:
- if (ginf != NULL) {
- OPENSSL_free(ginf->tlsname);
- OPENSSL_free(ginf->realname);
- OPENSSL_free(ginf->algorithm);
- ginf->algorithm = ginf->tlsname = ginf->realname = NULL;
- }
- return ret;
- }
- static int discover_provider_groups(OSSL_PROVIDER *provider, void *vctx)
- {
- struct provider_ctx_data_st pgd;
- pgd.ctx = vctx;
- pgd.provider = provider;
- return OSSL_PROVIDER_get_capabilities(provider, "TLS-GROUP",
- add_provider_groups, &pgd);
- }
- int ssl_load_groups(SSL_CTX *ctx)
- {
- size_t i, j, num_deflt_grps = 0;
- uint16_t tmp_supp_groups[OSSL_NELEM(supported_groups_default)];
- if (!OSSL_PROVIDER_do_all(ctx->libctx, discover_provider_groups, ctx))
- return 0;
- for (i = 0; i < OSSL_NELEM(supported_groups_default); i++) {
- for (j = 0; j < ctx->group_list_len; j++) {
- if (ctx->group_list[j].group_id == supported_groups_default[i]) {
- tmp_supp_groups[num_deflt_grps++] = ctx->group_list[j].group_id;
- break;
- }
- }
- }
- if (num_deflt_grps == 0)
- return 1;
- ctx->ext.supported_groups_default
- = OPENSSL_malloc(sizeof(uint16_t) * num_deflt_grps);
- if (ctx->ext.supported_groups_default == NULL)
- return 0;
- memcpy(ctx->ext.supported_groups_default,
- tmp_supp_groups,
- num_deflt_grps * sizeof(tmp_supp_groups[0]));
- ctx->ext.supported_groups_default_len = num_deflt_grps;
- return 1;
- }
- #define TLS_SIGALG_LIST_MALLOC_BLOCK_SIZE 10
- static OSSL_CALLBACK add_provider_sigalgs;
- static int add_provider_sigalgs(const OSSL_PARAM params[], void *data)
- {
- struct provider_ctx_data_st *pgd = data;
- SSL_CTX *ctx = pgd->ctx;
- OSSL_PROVIDER *provider = pgd->provider;
- const OSSL_PARAM *p;
- TLS_SIGALG_INFO *sinf = NULL;
- EVP_KEYMGMT *keymgmt;
- const char *keytype;
- unsigned int code_point = 0;
- int ret = 0;
- if (ctx->sigalg_list_max_len == ctx->sigalg_list_len) {
- TLS_SIGALG_INFO *tmp = NULL;
- if (ctx->sigalg_list_max_len == 0)
- tmp = OPENSSL_malloc(sizeof(TLS_SIGALG_INFO)
- * TLS_SIGALG_LIST_MALLOC_BLOCK_SIZE);
- else
- tmp = OPENSSL_realloc(ctx->sigalg_list,
- (ctx->sigalg_list_max_len
- + TLS_SIGALG_LIST_MALLOC_BLOCK_SIZE)
- * sizeof(TLS_SIGALG_INFO));
- if (tmp == NULL)
- return 0;
- ctx->sigalg_list = tmp;
- memset(tmp + ctx->sigalg_list_max_len, 0,
- sizeof(TLS_SIGALG_INFO) * TLS_SIGALG_LIST_MALLOC_BLOCK_SIZE);
- ctx->sigalg_list_max_len += TLS_SIGALG_LIST_MALLOC_BLOCK_SIZE;
- }
- sinf = &ctx->sigalg_list[ctx->sigalg_list_len];
- /* First, mandatory parameters */
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_NAME);
- if (p == NULL || p->data_type != OSSL_PARAM_UTF8_STRING) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- OPENSSL_free(sinf->sigalg_name);
- sinf->sigalg_name = OPENSSL_strdup(p->data);
- if (sinf->sigalg_name == NULL)
- goto err;
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_IANA_NAME);
- if (p == NULL || p->data_type != OSSL_PARAM_UTF8_STRING) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- OPENSSL_free(sinf->name);
- sinf->name = OPENSSL_strdup(p->data);
- if (sinf->name == NULL)
- goto err;
- p = OSSL_PARAM_locate_const(params,
- OSSL_CAPABILITY_TLS_SIGALG_CODE_POINT);
- if (p == NULL
- || !OSSL_PARAM_get_uint(p, &code_point)
- || code_point > UINT16_MAX) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- sinf->code_point = (uint16_t)code_point;
- p = OSSL_PARAM_locate_const(params,
- OSSL_CAPABILITY_TLS_SIGALG_SECURITY_BITS);
- if (p == NULL || !OSSL_PARAM_get_uint(p, &sinf->secbits)) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- /* Now, optional parameters */
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_OID);
- if (p == NULL) {
- sinf->sigalg_oid = NULL;
- } else if (p->data_type != OSSL_PARAM_UTF8_STRING) {
- goto err;
- } else {
- OPENSSL_free(sinf->sigalg_oid);
- sinf->sigalg_oid = OPENSSL_strdup(p->data);
- if (sinf->sigalg_oid == NULL)
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_SIG_NAME);
- if (p == NULL) {
- sinf->sig_name = NULL;
- } else if (p->data_type != OSSL_PARAM_UTF8_STRING) {
- goto err;
- } else {
- OPENSSL_free(sinf->sig_name);
- sinf->sig_name = OPENSSL_strdup(p->data);
- if (sinf->sig_name == NULL)
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_SIG_OID);
- if (p == NULL) {
- sinf->sig_oid = NULL;
- } else if (p->data_type != OSSL_PARAM_UTF8_STRING) {
- goto err;
- } else {
- OPENSSL_free(sinf->sig_oid);
- sinf->sig_oid = OPENSSL_strdup(p->data);
- if (sinf->sig_oid == NULL)
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_HASH_NAME);
- if (p == NULL) {
- sinf->hash_name = NULL;
- } else if (p->data_type != OSSL_PARAM_UTF8_STRING) {
- goto err;
- } else {
- OPENSSL_free(sinf->hash_name);
- sinf->hash_name = OPENSSL_strdup(p->data);
- if (sinf->hash_name == NULL)
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_HASH_OID);
- if (p == NULL) {
- sinf->hash_oid = NULL;
- } else if (p->data_type != OSSL_PARAM_UTF8_STRING) {
- goto err;
- } else {
- OPENSSL_free(sinf->hash_oid);
- sinf->hash_oid = OPENSSL_strdup(p->data);
- if (sinf->hash_oid == NULL)
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_KEYTYPE);
- if (p == NULL) {
- sinf->keytype = NULL;
- } else if (p->data_type != OSSL_PARAM_UTF8_STRING) {
- goto err;
- } else {
- OPENSSL_free(sinf->keytype);
- sinf->keytype = OPENSSL_strdup(p->data);
- if (sinf->keytype == NULL)
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_KEYTYPE_OID);
- if (p == NULL) {
- sinf->keytype_oid = NULL;
- } else if (p->data_type != OSSL_PARAM_UTF8_STRING) {
- goto err;
- } else {
- OPENSSL_free(sinf->keytype_oid);
- sinf->keytype_oid = OPENSSL_strdup(p->data);
- if (sinf->keytype_oid == NULL)
- goto err;
- }
- /* The remaining parameters below are mandatory again */
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_MIN_TLS);
- if (p == NULL || !OSSL_PARAM_get_int(p, &sinf->mintls)) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- if ((sinf->mintls != 0) && (sinf->mintls != -1) &&
- ((sinf->mintls < TLS1_3_VERSION))) {
- /* ignore this sigalg as this OpenSSL doesn't know how to handle it */
- ret = 1;
- goto err;
- }
- p = OSSL_PARAM_locate_const(params, OSSL_CAPABILITY_TLS_SIGALG_MAX_TLS);
- if (p == NULL || !OSSL_PARAM_get_int(p, &sinf->maxtls)) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- if ((sinf->maxtls != 0) && (sinf->maxtls != -1) &&
- ((sinf->maxtls < sinf->mintls))) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- if ((sinf->maxtls != 0) && (sinf->maxtls != -1) &&
- ((sinf->maxtls < TLS1_3_VERSION))) {
- /* ignore this sigalg as this OpenSSL doesn't know how to handle it */
- ret = 1;
- goto err;
- }
- /*
- * Now check that the algorithm is actually usable for our property query
- * string. Regardless of the result we still return success because we have
- * successfully processed this signature, even though we may decide not to
- * use it.
- */
- ret = 1;
- ERR_set_mark();
- keytype = (sinf->keytype != NULL
- ? sinf->keytype
- : (sinf->sig_name != NULL
- ? sinf->sig_name
- : sinf->sigalg_name));
- keymgmt = EVP_KEYMGMT_fetch(ctx->libctx, keytype, ctx->propq);
- if (keymgmt != NULL) {
- /*
- * We have successfully fetched the algorithm - however if the provider
- * doesn't match this one then we ignore it.
- *
- * Note: We're cheating a little here. Technically if the same algorithm
- * is available from more than one provider then it is undefined which
- * implementation you will get back. Theoretically this could be
- * different every time...we assume here that you'll always get the
- * same one back if you repeat the exact same fetch. Is this a reasonable
- * assumption to make (in which case perhaps we should document this
- * behaviour)?
- */
- if (EVP_KEYMGMT_get0_provider(keymgmt) == provider) {
- /*
- * We have a match - so we could use this signature;
- * Check proper object registration first, though.
- * Don't care about return value as this may have been
- * done within providers or previous calls to
- * add_provider_sigalgs.
- */
- OBJ_create(sinf->sigalg_oid, sinf->sigalg_name, NULL);
- /* sanity check: Without successful registration don't use alg */
- if ((OBJ_txt2nid(sinf->sigalg_name) == NID_undef) ||
- (OBJ_nid2obj(OBJ_txt2nid(sinf->sigalg_name)) == NULL)) {
- ERR_raise(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT);
- goto err;
- }
- if (sinf->sig_name != NULL)
- OBJ_create(sinf->sig_oid, sinf->sig_name, NULL);
- if (sinf->keytype != NULL)
- OBJ_create(sinf->keytype_oid, sinf->keytype, NULL);
- if (sinf->hash_name != NULL)
- OBJ_create(sinf->hash_oid, sinf->hash_name, NULL);
- OBJ_add_sigid(OBJ_txt2nid(sinf->sigalg_name),
- (sinf->hash_name != NULL
- ? OBJ_txt2nid(sinf->hash_name)
- : NID_undef),
- OBJ_txt2nid(keytype));
- ctx->sigalg_list_len++;
- sinf = NULL;
- }
- EVP_KEYMGMT_free(keymgmt);
- }
- ERR_pop_to_mark();
- err:
- if (sinf != NULL) {
- OPENSSL_free(sinf->name);
- sinf->name = NULL;
- OPENSSL_free(sinf->sigalg_name);
- sinf->sigalg_name = NULL;
- OPENSSL_free(sinf->sigalg_oid);
- sinf->sigalg_oid = NULL;
- OPENSSL_free(sinf->sig_name);
- sinf->sig_name = NULL;
- OPENSSL_free(sinf->sig_oid);
- sinf->sig_oid = NULL;
- OPENSSL_free(sinf->hash_name);
- sinf->hash_name = NULL;
- OPENSSL_free(sinf->hash_oid);
- sinf->hash_oid = NULL;
- OPENSSL_free(sinf->keytype);
- sinf->keytype = NULL;
- OPENSSL_free(sinf->keytype_oid);
- sinf->keytype_oid = NULL;
- }
- return ret;
- }
- static int discover_provider_sigalgs(OSSL_PROVIDER *provider, void *vctx)
- {
- struct provider_ctx_data_st pgd;
- pgd.ctx = vctx;
- pgd.provider = provider;
- OSSL_PROVIDER_get_capabilities(provider, "TLS-SIGALG",
- add_provider_sigalgs, &pgd);
- /*
- * Always OK, even if provider doesn't support the capability:
- * Reconsider testing retval when legacy sigalgs are also loaded this way.
- */
- return 1;
- }
- int ssl_load_sigalgs(SSL_CTX *ctx)
- {
- size_t i;
- SSL_CERT_LOOKUP lu;
- if (!OSSL_PROVIDER_do_all(ctx->libctx, discover_provider_sigalgs, ctx))
- return 0;
- /* now populate ctx->ssl_cert_info */
- if (ctx->sigalg_list_len > 0) {
- OPENSSL_free(ctx->ssl_cert_info);
- ctx->ssl_cert_info = OPENSSL_zalloc(sizeof(lu) * ctx->sigalg_list_len);
- if (ctx->ssl_cert_info == NULL)
- return 0;
- for(i = 0; i < ctx->sigalg_list_len; i++) {
- ctx->ssl_cert_info[i].nid = OBJ_txt2nid(ctx->sigalg_list[i].sigalg_name);
- ctx->ssl_cert_info[i].amask = SSL_aANY;
- }
- }
- /*
- * For now, leave it at this: legacy sigalgs stay in their own
- * data structures until "legacy cleanup" occurs.
- */
- return 1;
- }
- static uint16_t tls1_group_name2id(SSL_CTX *ctx, const char *name)
- {
- size_t i;
- for (i = 0; i < ctx->group_list_len; i++) {
- if (strcmp(ctx->group_list[i].tlsname, name) == 0
- || strcmp(ctx->group_list[i].realname, name) == 0)
- return ctx->group_list[i].group_id;
- }
- return 0;
- }
- const TLS_GROUP_INFO *tls1_group_id_lookup(SSL_CTX *ctx, uint16_t group_id)
- {
- size_t i;
- for (i = 0; i < ctx->group_list_len; i++) {
- if (ctx->group_list[i].group_id == group_id)
- return &ctx->group_list[i];
- }
- return NULL;
- }
- const char *tls1_group_id2name(SSL_CTX *ctx, uint16_t group_id)
- {
- const TLS_GROUP_INFO *tls_group_info = tls1_group_id_lookup(ctx, group_id);
- if (tls_group_info == NULL)
- return NULL;
- return tls_group_info->tlsname;
- }
- int tls1_group_id2nid(uint16_t group_id, int include_unknown)
- {
- size_t i;
- if (group_id == 0)
- return NID_undef;
- /*
- * Return well known Group NIDs - for backwards compatibility. This won't
- * work for groups we don't know about.
- */
- for (i = 0; i < OSSL_NELEM(nid_to_group); i++)
- {
- if (nid_to_group[i].group_id == group_id)
- return nid_to_group[i].nid;
- }
- if (!include_unknown)
- return NID_undef;
- return TLSEXT_nid_unknown | (int)group_id;
- }
- uint16_t tls1_nid2group_id(int nid)
- {
- size_t i;
- /*
- * Return well known Group ids - for backwards compatibility. This won't
- * work for groups we don't know about.
- */
- for (i = 0; i < OSSL_NELEM(nid_to_group); i++)
- {
- if (nid_to_group[i].nid == nid)
- return nid_to_group[i].group_id;
- }
- return 0;
- }
- /*
- * Set *pgroups to the supported groups list and *pgroupslen to
- * the number of groups supported.
- */
- void tls1_get_supported_groups(SSL_CONNECTION *s, const uint16_t **pgroups,
- size_t *pgroupslen)
- {
- SSL_CTX *sctx = SSL_CONNECTION_GET_CTX(s);
- /* For Suite B mode only include P-256, P-384 */
- switch (tls1_suiteb(s)) {
- case SSL_CERT_FLAG_SUITEB_128_LOS:
- *pgroups = suiteb_curves;
- *pgroupslen = OSSL_NELEM(suiteb_curves);
- break;
- case SSL_CERT_FLAG_SUITEB_128_LOS_ONLY:
- *pgroups = suiteb_curves;
- *pgroupslen = 1;
- break;
- case SSL_CERT_FLAG_SUITEB_192_LOS:
- *pgroups = suiteb_curves + 1;
- *pgroupslen = 1;
- break;
- default:
- if (s->ext.supportedgroups == NULL) {
- *pgroups = sctx->ext.supported_groups_default;
- *pgroupslen = sctx->ext.supported_groups_default_len;
- } else {
- *pgroups = s->ext.supportedgroups;
- *pgroupslen = s->ext.supportedgroups_len;
- }
- break;
- }
- }
- int tls_valid_group(SSL_CONNECTION *s, uint16_t group_id,
- int minversion, int maxversion,
- int isec, int *okfortls13)
- {
- const TLS_GROUP_INFO *ginfo = tls1_group_id_lookup(SSL_CONNECTION_GET_CTX(s),
- group_id);
- int ret;
- int group_minversion, group_maxversion;
- if (okfortls13 != NULL)
- *okfortls13 = 0;
- if (ginfo == NULL)
- return 0;
- group_minversion = SSL_CONNECTION_IS_DTLS(s) ? ginfo->mindtls : ginfo->mintls;
- group_maxversion = SSL_CONNECTION_IS_DTLS(s) ? ginfo->maxdtls : ginfo->maxtls;
- if (group_minversion < 0 || group_maxversion < 0)
- return 0;
- if (group_maxversion == 0)
- ret = 1;
- else
- ret = (ssl_version_cmp(s, minversion, group_maxversion) <= 0);
- if (group_minversion > 0)
- ret &= (ssl_version_cmp(s, maxversion, group_minversion) >= 0);
- if (!SSL_CONNECTION_IS_DTLS(s)) {
- if (ret && okfortls13 != NULL && maxversion == TLS1_3_VERSION)
- *okfortls13 = (group_maxversion == 0)
- || (group_maxversion >= TLS1_3_VERSION);
- }
- ret &= !isec
- || strcmp(ginfo->algorithm, "EC") == 0
- || strcmp(ginfo->algorithm, "X25519") == 0
- || strcmp(ginfo->algorithm, "X448") == 0;
- return ret;
- }
- /* See if group is allowed by security callback */
- int tls_group_allowed(SSL_CONNECTION *s, uint16_t group, int op)
- {
- const TLS_GROUP_INFO *ginfo = tls1_group_id_lookup(SSL_CONNECTION_GET_CTX(s),
- group);
- unsigned char gtmp[2];
- if (ginfo == NULL)
- return 0;
- gtmp[0] = group >> 8;
- gtmp[1] = group & 0xff;
- return ssl_security(s, op, ginfo->secbits,
- tls1_group_id2nid(ginfo->group_id, 0), (void *)gtmp);
- }
- /* Return 1 if "id" is in "list" */
- static int tls1_in_list(uint16_t id, const uint16_t *list, size_t listlen)
- {
- size_t i;
- for (i = 0; i < listlen; i++)
- if (list[i] == id)
- return 1;
- return 0;
- }
- /*-
- * For nmatch >= 0, return the id of the |nmatch|th shared group or 0
- * if there is no match.
- * For nmatch == -1, return number of matches
- * For nmatch == -2, return the id of the group to use for
- * a tmp key, or 0 if there is no match.
- */
- uint16_t tls1_shared_group(SSL_CONNECTION *s, int nmatch)
- {
- const uint16_t *pref, *supp;
- size_t num_pref, num_supp, i;
- int k;
- SSL_CTX *ctx = SSL_CONNECTION_GET_CTX(s);
- /* Can't do anything on client side */
- if (s->server == 0)
- return 0;
- if (nmatch == -2) {
- if (tls1_suiteb(s)) {
- /*
- * For Suite B ciphersuite determines curve: we already know
- * these are acceptable due to previous checks.
- */
- unsigned long cid = s->s3.tmp.new_cipher->id;
- if (cid == TLS1_CK_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256)
- return OSSL_TLS_GROUP_ID_secp256r1;
- if (cid == TLS1_CK_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384)
- return OSSL_TLS_GROUP_ID_secp384r1;
- /* Should never happen */
- return 0;
- }
- /* If not Suite B just return first preference shared curve */
- nmatch = 0;
- }
- /*
- * If server preference set, our groups are the preference order
- * otherwise peer decides.
- */
- if (s->options & SSL_OP_CIPHER_SERVER_PREFERENCE) {
- tls1_get_supported_groups(s, &pref, &num_pref);
- tls1_get_peer_groups(s, &supp, &num_supp);
- } else {
- tls1_get_peer_groups(s, &pref, &num_pref);
- tls1_get_supported_groups(s, &supp, &num_supp);
- }
- for (k = 0, i = 0; i < num_pref; i++) {
- uint16_t id = pref[i];
- const TLS_GROUP_INFO *inf;
- int minversion, maxversion;
- if (!tls1_in_list(id, supp, num_supp)
- || !tls_group_allowed(s, id, SSL_SECOP_CURVE_SHARED))
- continue;
- inf = tls1_group_id_lookup(ctx, id);
- if (!ossl_assert(inf != NULL))
- return 0;
- minversion = SSL_CONNECTION_IS_DTLS(s)
- ? inf->mindtls : inf->mintls;
- maxversion = SSL_CONNECTION_IS_DTLS(s)
- ? inf->maxdtls : inf->maxtls;
- if (maxversion == -1)
- continue;
- if ((minversion != 0 && ssl_version_cmp(s, s->version, minversion) < 0)
- || (maxversion != 0
- && ssl_version_cmp(s, s->version, maxversion) > 0))
- continue;
- if (nmatch == k)
- return id;
- k++;
- }
- if (nmatch == -1)
- return k;
- /* Out of range (nmatch > k). */
- return 0;
- }
- int tls1_set_groups(uint16_t **pext, size_t *pextlen,
- int *groups, size_t ngroups)
- {
- uint16_t *glist;
- size_t i;
- /*
- * Bitmap of groups included to detect duplicates: two variables are added
- * to detect duplicates as some values are more than 32.
- */
- unsigned long *dup_list = NULL;
- unsigned long dup_list_egrp = 0;
- unsigned long dup_list_dhgrp = 0;
- if (ngroups == 0) {
- ERR_raise(ERR_LIB_SSL, SSL_R_BAD_LENGTH);
- return 0;
- }
- if ((glist = OPENSSL_malloc(ngroups * sizeof(*glist))) == NULL)
- return 0;
- for (i = 0; i < ngroups; i++) {
- unsigned long idmask;
- uint16_t id;
- id = tls1_nid2group_id(groups[i]);
- if ((id & 0x00FF) >= (sizeof(unsigned long) * 8))
- goto err;
- idmask = 1L << (id & 0x00FF);
- dup_list = (id < 0x100) ? &dup_list_egrp : &dup_list_dhgrp;
- if (!id || ((*dup_list) & idmask))
- goto err;
- *dup_list |= idmask;
- glist[i] = id;
- }
- OPENSSL_free(*pext);
- *pext = glist;
- *pextlen = ngroups;
- return 1;
- err:
- OPENSSL_free(glist);
- return 0;
- }
- # define GROUPLIST_INCREMENT 40
- # define GROUP_NAME_BUFFER_LENGTH 64
- typedef struct {
- SSL_CTX *ctx;
- size_t gidcnt;
- size_t gidmax;
- uint16_t *gid_arr;
- } gid_cb_st;
- static int gid_cb(const char *elem, int len, void *arg)
- {
- gid_cb_st *garg = arg;
- size_t i;
- uint16_t gid = 0;
- char etmp[GROUP_NAME_BUFFER_LENGTH];
- int ignore_unknown = 0;
- if (elem == NULL)
- return 0;
- if (elem[0] == '?') {
- ignore_unknown = 1;
- ++elem;
- --len;
- }
- if (garg->gidcnt == garg->gidmax) {
- uint16_t *tmp =
- OPENSSL_realloc(garg->gid_arr,
- (garg->gidmax + GROUPLIST_INCREMENT) * sizeof(*garg->gid_arr));
- if (tmp == NULL)
- return 0;
- garg->gidmax += GROUPLIST_INCREMENT;
- garg->gid_arr = tmp;
- }
- if (len > (int)(sizeof(etmp) - 1))
- return 0;
- memcpy(etmp, elem, len);
- etmp[len] = 0;
- gid = tls1_group_name2id(garg->ctx, etmp);
- if (gid == 0) {
- /* Unknown group - ignore, if ignore_unknown */
- return ignore_unknown;
- }
- for (i = 0; i < garg->gidcnt; i++)
- if (garg->gid_arr[i] == gid) {
- /* Duplicate group - ignore */
- return 1;
- }
- garg->gid_arr[garg->gidcnt++] = gid;
- return 1;
- }
- /* Set groups based on a colon separated list */
- int tls1_set_groups_list(SSL_CTX *ctx, uint16_t **pext, size_t *pextlen,
- const char *str)
- {
- gid_cb_st gcb;
- uint16_t *tmparr;
- int ret = 0;
- gcb.gidcnt = 0;
- gcb.gidmax = GROUPLIST_INCREMENT;
- gcb.gid_arr = OPENSSL_malloc(gcb.gidmax * sizeof(*gcb.gid_arr));
- if (gcb.gid_arr == NULL)
- return 0;
- gcb.ctx = ctx;
- if (!CONF_parse_list(str, ':', 1, gid_cb, &gcb))
- goto end;
- if (gcb.gidcnt == 0) {
- ERR_raise_data(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT,
- "No valid groups in '%s'", str);
- goto end;
- }
- if (pext == NULL) {
- ret = 1;
- goto end;
- }
- /*
- * gid_cb ensurse there are no duplicates so we can just go ahead and set
- * the result
- */
- tmparr = OPENSSL_memdup(gcb.gid_arr, gcb.gidcnt * sizeof(*tmparr));
- if (tmparr == NULL)
- goto end;
- OPENSSL_free(*pext);
- *pext = tmparr;
- *pextlen = gcb.gidcnt;
- ret = 1;
- end:
- OPENSSL_free(gcb.gid_arr);
- return ret;
- }
- /* Check a group id matches preferences */
- int tls1_check_group_id(SSL_CONNECTION *s, uint16_t group_id,
- int check_own_groups)
- {
- const uint16_t *groups;
- size_t groups_len;
- if (group_id == 0)
- return 0;
- /* Check for Suite B compliance */
- if (tls1_suiteb(s) && s->s3.tmp.new_cipher != NULL) {
- unsigned long cid = s->s3.tmp.new_cipher->id;
- if (cid == TLS1_CK_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256) {
- if (group_id != OSSL_TLS_GROUP_ID_secp256r1)
- return 0;
- } else if (cid == TLS1_CK_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384) {
- if (group_id != OSSL_TLS_GROUP_ID_secp384r1)
- return 0;
- } else {
- /* Should never happen */
- return 0;
- }
- }
- if (check_own_groups) {
- /* Check group is one of our preferences */
- tls1_get_supported_groups(s, &groups, &groups_len);
- if (!tls1_in_list(group_id, groups, groups_len))
- return 0;
- }
- if (!tls_group_allowed(s, group_id, SSL_SECOP_CURVE_CHECK))
- return 0;
- /* For clients, nothing more to check */
- if (!s->server)
- return 1;
- /* Check group is one of peers preferences */
- tls1_get_peer_groups(s, &groups, &groups_len);
- /*
- * RFC 4492 does not require the supported elliptic curves extension
- * so if it is not sent we can just choose any curve.
- * It is invalid to send an empty list in the supported groups
- * extension, so groups_len == 0 always means no extension.
- */
- if (groups_len == 0)
- return 1;
- return tls1_in_list(group_id, groups, groups_len);
- }
- void tls1_get_formatlist(SSL_CONNECTION *s, const unsigned char **pformats,
- size_t *num_formats)
- {
- /*
- * If we have a custom point format list use it otherwise use default
- */
- if (s->ext.ecpointformats) {
- *pformats = s->ext.ecpointformats;
- *num_formats = s->ext.ecpointformats_len;
- } else {
- *pformats = ecformats_default;
- /* For Suite B we don't support char2 fields */
- if (tls1_suiteb(s))
- *num_formats = sizeof(ecformats_default) - 1;
- else
- *num_formats = sizeof(ecformats_default);
- }
- }
- /* Check a key is compatible with compression extension */
- static int tls1_check_pkey_comp(SSL_CONNECTION *s, EVP_PKEY *pkey)
- {
- unsigned char comp_id;
- size_t i;
- int point_conv;
- /* If not an EC key nothing to check */
- if (!EVP_PKEY_is_a(pkey, "EC"))
- return 1;
- /* Get required compression id */
- point_conv = EVP_PKEY_get_ec_point_conv_form(pkey);
- if (point_conv == 0)
- return 0;
- if (point_conv == POINT_CONVERSION_UNCOMPRESSED) {
- comp_id = TLSEXT_ECPOINTFORMAT_uncompressed;
- } else if (SSL_CONNECTION_IS_TLS13(s)) {
- /*
- * ec_point_formats extension is not used in TLSv1.3 so we ignore
- * this check.
- */
- return 1;
- } else {
- int field_type = EVP_PKEY_get_field_type(pkey);
- if (field_type == NID_X9_62_prime_field)
- comp_id = TLSEXT_ECPOINTFORMAT_ansiX962_compressed_prime;
- else if (field_type == NID_X9_62_characteristic_two_field)
- comp_id = TLSEXT_ECPOINTFORMAT_ansiX962_compressed_char2;
- else
- return 0;
- }
- /*
- * If point formats extension present check it, otherwise everything is
- * supported (see RFC4492).
- */
- if (s->ext.peer_ecpointformats == NULL)
- return 1;
- for (i = 0; i < s->ext.peer_ecpointformats_len; i++) {
- if (s->ext.peer_ecpointformats[i] == comp_id)
- return 1;
- }
- return 0;
- }
- /* Return group id of a key */
- static uint16_t tls1_get_group_id(EVP_PKEY *pkey)
- {
- int curve_nid = ssl_get_EC_curve_nid(pkey);
- if (curve_nid == NID_undef)
- return 0;
- return tls1_nid2group_id(curve_nid);
- }
- /*
- * Check cert parameters compatible with extensions: currently just checks EC
- * certificates have compatible curves and compression.
- */
- static int tls1_check_cert_param(SSL_CONNECTION *s, X509 *x, int check_ee_md)
- {
- uint16_t group_id;
- EVP_PKEY *pkey;
- pkey = X509_get0_pubkey(x);
- if (pkey == NULL)
- return 0;
- /* If not EC nothing to do */
- if (!EVP_PKEY_is_a(pkey, "EC"))
- return 1;
- /* Check compression */
- if (!tls1_check_pkey_comp(s, pkey))
- return 0;
- group_id = tls1_get_group_id(pkey);
- /*
- * For a server we allow the certificate to not be in our list of supported
- * groups.
- */
- if (!tls1_check_group_id(s, group_id, !s->server))
- return 0;
- /*
- * Special case for suite B. We *MUST* sign using SHA256+P-256 or
- * SHA384+P-384.
- */
- if (check_ee_md && tls1_suiteb(s)) {
- int check_md;
- size_t i;
- /* Check to see we have necessary signing algorithm */
- if (group_id == OSSL_TLS_GROUP_ID_secp256r1)
- check_md = NID_ecdsa_with_SHA256;
- else if (group_id == OSSL_TLS_GROUP_ID_secp384r1)
- check_md = NID_ecdsa_with_SHA384;
- else
- return 0; /* Should never happen */
- for (i = 0; i < s->shared_sigalgslen; i++) {
- if (check_md == s->shared_sigalgs[i]->sigandhash)
- return 1;
- }
- return 0;
- }
- return 1;
- }
- /*
- * tls1_check_ec_tmp_key - Check EC temporary key compatibility
- * @s: SSL connection
- * @cid: Cipher ID we're considering using
- *
- * Checks that the kECDHE cipher suite we're considering using
- * is compatible with the client extensions.
- *
- * Returns 0 when the cipher can't be used or 1 when it can.
- */
- int tls1_check_ec_tmp_key(SSL_CONNECTION *s, unsigned long cid)
- {
- /* If not Suite B just need a shared group */
- if (!tls1_suiteb(s))
- return tls1_shared_group(s, 0) != 0;
- /*
- * If Suite B, AES128 MUST use P-256 and AES256 MUST use P-384, no other
- * curves permitted.
- */
- if (cid == TLS1_CK_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256)
- return tls1_check_group_id(s, OSSL_TLS_GROUP_ID_secp256r1, 1);
- if (cid == TLS1_CK_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384)
- return tls1_check_group_id(s, OSSL_TLS_GROUP_ID_secp384r1, 1);
- return 0;
- }
- /* Default sigalg schemes */
- static const uint16_t tls12_sigalgs[] = {
- TLSEXT_SIGALG_ecdsa_secp256r1_sha256,
- TLSEXT_SIGALG_ecdsa_secp384r1_sha384,
- TLSEXT_SIGALG_ecdsa_secp521r1_sha512,
- TLSEXT_SIGALG_ed25519,
- TLSEXT_SIGALG_ed448,
- TLSEXT_SIGALG_ecdsa_brainpoolP256r1_sha256,
- TLSEXT_SIGALG_ecdsa_brainpoolP384r1_sha384,
- TLSEXT_SIGALG_ecdsa_brainpoolP512r1_sha512,
- TLSEXT_SIGALG_rsa_pss_pss_sha256,
- TLSEXT_SIGALG_rsa_pss_pss_sha384,
- TLSEXT_SIGALG_rsa_pss_pss_sha512,
- TLSEXT_SIGALG_rsa_pss_rsae_sha256,
- TLSEXT_SIGALG_rsa_pss_rsae_sha384,
- TLSEXT_SIGALG_rsa_pss_rsae_sha512,
- TLSEXT_SIGALG_rsa_pkcs1_sha256,
- TLSEXT_SIGALG_rsa_pkcs1_sha384,
- TLSEXT_SIGALG_rsa_pkcs1_sha512,
- TLSEXT_SIGALG_ecdsa_sha224,
- TLSEXT_SIGALG_ecdsa_sha1,
- TLSEXT_SIGALG_rsa_pkcs1_sha224,
- TLSEXT_SIGALG_rsa_pkcs1_sha1,
- TLSEXT_SIGALG_dsa_sha224,
- TLSEXT_SIGALG_dsa_sha1,
- TLSEXT_SIGALG_dsa_sha256,
- TLSEXT_SIGALG_dsa_sha384,
- TLSEXT_SIGALG_dsa_sha512,
- #ifndef OPENSSL_NO_GOST
- TLSEXT_SIGALG_gostr34102012_256_intrinsic,
- TLSEXT_SIGALG_gostr34102012_512_intrinsic,
- TLSEXT_SIGALG_gostr34102012_256_gostr34112012_256,
- TLSEXT_SIGALG_gostr34102012_512_gostr34112012_512,
- TLSEXT_SIGALG_gostr34102001_gostr3411,
- #endif
- };
- static const uint16_t suiteb_sigalgs[] = {
- TLSEXT_SIGALG_ecdsa_secp256r1_sha256,
- TLSEXT_SIGALG_ecdsa_secp384r1_sha384
- };
- static const SIGALG_LOOKUP sigalg_lookup_tbl[] = {
- {"ecdsa_secp256r1_sha256", TLSEXT_SIGALG_ecdsa_secp256r1_sha256,
- NID_sha256, SSL_MD_SHA256_IDX, EVP_PKEY_EC, SSL_PKEY_ECC,
- NID_ecdsa_with_SHA256, NID_X9_62_prime256v1, 1},
- {"ecdsa_secp384r1_sha384", TLSEXT_SIGALG_ecdsa_secp384r1_sha384,
- NID_sha384, SSL_MD_SHA384_IDX, EVP_PKEY_EC, SSL_PKEY_ECC,
- NID_ecdsa_with_SHA384, NID_secp384r1, 1},
- {"ecdsa_secp521r1_sha512", TLSEXT_SIGALG_ecdsa_secp521r1_sha512,
- NID_sha512, SSL_MD_SHA512_IDX, EVP_PKEY_EC, SSL_PKEY_ECC,
- NID_ecdsa_with_SHA512, NID_secp521r1, 1},
- {"ed25519", TLSEXT_SIGALG_ed25519,
- NID_undef, -1, EVP_PKEY_ED25519, SSL_PKEY_ED25519,
- NID_undef, NID_undef, 1},
- {"ed448", TLSEXT_SIGALG_ed448,
- NID_undef, -1, EVP_PKEY_ED448, SSL_PKEY_ED448,
- NID_undef, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_ecdsa_sha224,
- NID_sha224, SSL_MD_SHA224_IDX, EVP_PKEY_EC, SSL_PKEY_ECC,
- NID_ecdsa_with_SHA224, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_ecdsa_sha1,
- NID_sha1, SSL_MD_SHA1_IDX, EVP_PKEY_EC, SSL_PKEY_ECC,
- NID_ecdsa_with_SHA1, NID_undef, 1},
- {"ecdsa_brainpoolP256r1_sha256", TLSEXT_SIGALG_ecdsa_brainpoolP256r1_sha256,
- NID_sha256, SSL_MD_SHA256_IDX, EVP_PKEY_EC, SSL_PKEY_ECC,
- NID_ecdsa_with_SHA256, NID_brainpoolP256r1, 1},
- {"ecdsa_brainpoolP384r1_sha384", TLSEXT_SIGALG_ecdsa_brainpoolP384r1_sha384,
- NID_sha384, SSL_MD_SHA384_IDX, EVP_PKEY_EC, SSL_PKEY_ECC,
- NID_ecdsa_with_SHA384, NID_brainpoolP384r1, 1},
- {"ecdsa_brainpoolP512r1_sha512", TLSEXT_SIGALG_ecdsa_brainpoolP512r1_sha512,
- NID_sha512, SSL_MD_SHA512_IDX, EVP_PKEY_EC, SSL_PKEY_ECC,
- NID_ecdsa_with_SHA512, NID_brainpoolP512r1, 1},
- {"rsa_pss_rsae_sha256", TLSEXT_SIGALG_rsa_pss_rsae_sha256,
- NID_sha256, SSL_MD_SHA256_IDX, EVP_PKEY_RSA_PSS, SSL_PKEY_RSA,
- NID_undef, NID_undef, 1},
- {"rsa_pss_rsae_sha384", TLSEXT_SIGALG_rsa_pss_rsae_sha384,
- NID_sha384, SSL_MD_SHA384_IDX, EVP_PKEY_RSA_PSS, SSL_PKEY_RSA,
- NID_undef, NID_undef, 1},
- {"rsa_pss_rsae_sha512", TLSEXT_SIGALG_rsa_pss_rsae_sha512,
- NID_sha512, SSL_MD_SHA512_IDX, EVP_PKEY_RSA_PSS, SSL_PKEY_RSA,
- NID_undef, NID_undef, 1},
- {"rsa_pss_pss_sha256", TLSEXT_SIGALG_rsa_pss_pss_sha256,
- NID_sha256, SSL_MD_SHA256_IDX, EVP_PKEY_RSA_PSS, SSL_PKEY_RSA_PSS_SIGN,
- NID_undef, NID_undef, 1},
- {"rsa_pss_pss_sha384", TLSEXT_SIGALG_rsa_pss_pss_sha384,
- NID_sha384, SSL_MD_SHA384_IDX, EVP_PKEY_RSA_PSS, SSL_PKEY_RSA_PSS_SIGN,
- NID_undef, NID_undef, 1},
- {"rsa_pss_pss_sha512", TLSEXT_SIGALG_rsa_pss_pss_sha512,
- NID_sha512, SSL_MD_SHA512_IDX, EVP_PKEY_RSA_PSS, SSL_PKEY_RSA_PSS_SIGN,
- NID_undef, NID_undef, 1},
- {"rsa_pkcs1_sha256", TLSEXT_SIGALG_rsa_pkcs1_sha256,
- NID_sha256, SSL_MD_SHA256_IDX, EVP_PKEY_RSA, SSL_PKEY_RSA,
- NID_sha256WithRSAEncryption, NID_undef, 1},
- {"rsa_pkcs1_sha384", TLSEXT_SIGALG_rsa_pkcs1_sha384,
- NID_sha384, SSL_MD_SHA384_IDX, EVP_PKEY_RSA, SSL_PKEY_RSA,
- NID_sha384WithRSAEncryption, NID_undef, 1},
- {"rsa_pkcs1_sha512", TLSEXT_SIGALG_rsa_pkcs1_sha512,
- NID_sha512, SSL_MD_SHA512_IDX, EVP_PKEY_RSA, SSL_PKEY_RSA,
- NID_sha512WithRSAEncryption, NID_undef, 1},
- {"rsa_pkcs1_sha224", TLSEXT_SIGALG_rsa_pkcs1_sha224,
- NID_sha224, SSL_MD_SHA224_IDX, EVP_PKEY_RSA, SSL_PKEY_RSA,
- NID_sha224WithRSAEncryption, NID_undef, 1},
- {"rsa_pkcs1_sha1", TLSEXT_SIGALG_rsa_pkcs1_sha1,
- NID_sha1, SSL_MD_SHA1_IDX, EVP_PKEY_RSA, SSL_PKEY_RSA,
- NID_sha1WithRSAEncryption, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_dsa_sha256,
- NID_sha256, SSL_MD_SHA256_IDX, EVP_PKEY_DSA, SSL_PKEY_DSA_SIGN,
- NID_dsa_with_SHA256, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_dsa_sha384,
- NID_sha384, SSL_MD_SHA384_IDX, EVP_PKEY_DSA, SSL_PKEY_DSA_SIGN,
- NID_undef, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_dsa_sha512,
- NID_sha512, SSL_MD_SHA512_IDX, EVP_PKEY_DSA, SSL_PKEY_DSA_SIGN,
- NID_undef, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_dsa_sha224,
- NID_sha224, SSL_MD_SHA224_IDX, EVP_PKEY_DSA, SSL_PKEY_DSA_SIGN,
- NID_undef, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_dsa_sha1,
- NID_sha1, SSL_MD_SHA1_IDX, EVP_PKEY_DSA, SSL_PKEY_DSA_SIGN,
- NID_dsaWithSHA1, NID_undef, 1},
- #ifndef OPENSSL_NO_GOST
- {NULL, TLSEXT_SIGALG_gostr34102012_256_intrinsic,
- NID_id_GostR3411_2012_256, SSL_MD_GOST12_256_IDX,
- NID_id_GostR3410_2012_256, SSL_PKEY_GOST12_256,
- NID_undef, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_gostr34102012_512_intrinsic,
- NID_id_GostR3411_2012_512, SSL_MD_GOST12_512_IDX,
- NID_id_GostR3410_2012_512, SSL_PKEY_GOST12_512,
- NID_undef, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_gostr34102012_256_gostr34112012_256,
- NID_id_GostR3411_2012_256, SSL_MD_GOST12_256_IDX,
- NID_id_GostR3410_2012_256, SSL_PKEY_GOST12_256,
- NID_undef, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_gostr34102012_512_gostr34112012_512,
- NID_id_GostR3411_2012_512, SSL_MD_GOST12_512_IDX,
- NID_id_GostR3410_2012_512, SSL_PKEY_GOST12_512,
- NID_undef, NID_undef, 1},
- {NULL, TLSEXT_SIGALG_gostr34102001_gostr3411,
- NID_id_GostR3411_94, SSL_MD_GOST94_IDX,
- NID_id_GostR3410_2001, SSL_PKEY_GOST01,
- NID_undef, NID_undef, 1}
- #endif
- };
- /* Legacy sigalgs for TLS < 1.2 RSA TLS signatures */
- static const SIGALG_LOOKUP legacy_rsa_sigalg = {
- "rsa_pkcs1_md5_sha1", 0,
- NID_md5_sha1, SSL_MD_MD5_SHA1_IDX,
- EVP_PKEY_RSA, SSL_PKEY_RSA,
- NID_undef, NID_undef, 1
- };
- /*
- * Default signature algorithm values used if signature algorithms not present.
- * From RFC5246. Note: order must match certificate index order.
- */
- static const uint16_t tls_default_sigalg[] = {
- TLSEXT_SIGALG_rsa_pkcs1_sha1, /* SSL_PKEY_RSA */
- 0, /* SSL_PKEY_RSA_PSS_SIGN */
- TLSEXT_SIGALG_dsa_sha1, /* SSL_PKEY_DSA_SIGN */
- TLSEXT_SIGALG_ecdsa_sha1, /* SSL_PKEY_ECC */
- TLSEXT_SIGALG_gostr34102001_gostr3411, /* SSL_PKEY_GOST01 */
- TLSEXT_SIGALG_gostr34102012_256_intrinsic, /* SSL_PKEY_GOST12_256 */
- TLSEXT_SIGALG_gostr34102012_512_intrinsic, /* SSL_PKEY_GOST12_512 */
- 0, /* SSL_PKEY_ED25519 */
- 0, /* SSL_PKEY_ED448 */
- };
- int ssl_setup_sigalgs(SSL_CTX *ctx)
- {
- size_t i, cache_idx, sigalgs_len;
- const SIGALG_LOOKUP *lu;
- SIGALG_LOOKUP *cache = NULL;
- uint16_t *tls12_sigalgs_list = NULL;
- EVP_PKEY *tmpkey = EVP_PKEY_new();
- int ret = 0;
- if (ctx == NULL)
- goto err;
- sigalgs_len = OSSL_NELEM(sigalg_lookup_tbl) + ctx->sigalg_list_len;
- cache = OPENSSL_malloc(sizeof(const SIGALG_LOOKUP) * sigalgs_len);
- if (cache == NULL || tmpkey == NULL)
- goto err;
- tls12_sigalgs_list = OPENSSL_malloc(sizeof(uint16_t) * sigalgs_len);
- if (tls12_sigalgs_list == NULL)
- goto err;
- ERR_set_mark();
- /* First fill cache and tls12_sigalgs list from legacy algorithm list */
- for (i = 0, lu = sigalg_lookup_tbl;
- i < OSSL_NELEM(sigalg_lookup_tbl); lu++, i++) {
- EVP_PKEY_CTX *pctx;
- cache[i] = *lu;
- tls12_sigalgs_list[i] = tls12_sigalgs[i];
- /*
- * Check hash is available.
- * This test is not perfect. A provider could have support
- * for a signature scheme, but not a particular hash. However the hash
- * could be available from some other loaded provider. In that case it
- * could be that the signature is available, and the hash is available
- * independently - but not as a combination. We ignore this for now.
- */
- if (lu->hash != NID_undef
- && ctx->ssl_digest_methods[lu->hash_idx] == NULL) {
- cache[i].enabled = 0;
- continue;
- }
- if (!EVP_PKEY_set_type(tmpkey, lu->sig)) {
- cache[i].enabled = 0;
- continue;
- }
- pctx = EVP_PKEY_CTX_new_from_pkey(ctx->libctx, tmpkey, ctx->propq);
- /* If unable to create pctx we assume the sig algorithm is unavailable */
- if (pctx == NULL)
- cache[i].enabled = 0;
- EVP_PKEY_CTX_free(pctx);
- }
- /* Now complete cache and tls12_sigalgs list with provider sig information */
- cache_idx = OSSL_NELEM(sigalg_lookup_tbl);
- for (i = 0; i < ctx->sigalg_list_len; i++) {
- TLS_SIGALG_INFO si = ctx->sigalg_list[i];
- cache[cache_idx].name = si.name;
- cache[cache_idx].sigalg = si.code_point;
- tls12_sigalgs_list[cache_idx] = si.code_point;
- cache[cache_idx].hash = si.hash_name?OBJ_txt2nid(si.hash_name):NID_undef;
- cache[cache_idx].hash_idx = ssl_get_md_idx(cache[cache_idx].hash);
- cache[cache_idx].sig = OBJ_txt2nid(si.sigalg_name);
- cache[cache_idx].sig_idx = i + SSL_PKEY_NUM;
- cache[cache_idx].sigandhash = OBJ_txt2nid(si.sigalg_name);
- cache[cache_idx].curve = NID_undef;
- /* all provided sigalgs are enabled by load */
- cache[cache_idx].enabled = 1;
- cache_idx++;
- }
- ERR_pop_to_mark();
- ctx->sigalg_lookup_cache = cache;
- ctx->tls12_sigalgs = tls12_sigalgs_list;
- ctx->tls12_sigalgs_len = sigalgs_len;
- cache = NULL;
- tls12_sigalgs_list = NULL;
- ret = 1;
- err:
- OPENSSL_free(cache);
- OPENSSL_free(tls12_sigalgs_list);
- EVP_PKEY_free(tmpkey);
- return ret;
- }
- /* Lookup TLS signature algorithm */
- static const SIGALG_LOOKUP *tls1_lookup_sigalg(const SSL_CONNECTION *s,
- uint16_t sigalg)
- {
- size_t i;
- const SIGALG_LOOKUP *lu;
- for (i = 0, lu = SSL_CONNECTION_GET_CTX(s)->sigalg_lookup_cache;
- i < SSL_CONNECTION_GET_CTX(s)->tls12_sigalgs_len;
- lu++, i++) {
- if (lu->sigalg == sigalg) {
- if (!lu->enabled)
- return NULL;
- return lu;
- }
- }
- return NULL;
- }
- /* Lookup hash: return 0 if invalid or not enabled */
- int tls1_lookup_md(SSL_CTX *ctx, const SIGALG_LOOKUP *lu, const EVP_MD **pmd)
- {
- const EVP_MD *md;
- if (lu == NULL)
- return 0;
- /* lu->hash == NID_undef means no associated digest */
- if (lu->hash == NID_undef) {
- md = NULL;
- } else {
- md = ssl_md(ctx, lu->hash_idx);
- if (md == NULL)
- return 0;
- }
- if (pmd)
- *pmd = md;
- return 1;
- }
- /*
- * Check if key is large enough to generate RSA-PSS signature.
- *
- * The key must greater than or equal to 2 * hash length + 2.
- * SHA512 has a hash length of 64 bytes, which is incompatible
- * with a 128 byte (1024 bit) key.
- */
- #define RSA_PSS_MINIMUM_KEY_SIZE(md) (2 * EVP_MD_get_size(md) + 2)
- static int rsa_pss_check_min_key_size(SSL_CTX *ctx, const EVP_PKEY *pkey,
- const SIGALG_LOOKUP *lu)
- {
- const EVP_MD *md;
- if (pkey == NULL)
- return 0;
- if (!tls1_lookup_md(ctx, lu, &md) || md == NULL)
- return 0;
- if (EVP_MD_get_size(md) <= 0)
- return 0;
- if (EVP_PKEY_get_size(pkey) < RSA_PSS_MINIMUM_KEY_SIZE(md))
- return 0;
- return 1;
- }
- /*
- * Returns a signature algorithm when the peer did not send a list of supported
- * signature algorithms. The signature algorithm is fixed for the certificate
- * type. |idx| is a certificate type index (SSL_PKEY_*). When |idx| is -1 the
- * certificate type from |s| will be used.
- * Returns the signature algorithm to use, or NULL on error.
- */
- static const SIGALG_LOOKUP *tls1_get_legacy_sigalg(const SSL_CONNECTION *s,
- int idx)
- {
- if (idx == -1) {
- if (s->server) {
- size_t i;
- /* Work out index corresponding to ciphersuite */
- for (i = 0; i < s->ssl_pkey_num; i++) {
- const SSL_CERT_LOOKUP *clu
- = ssl_cert_lookup_by_idx(i, SSL_CONNECTION_GET_CTX(s));
- if (clu == NULL)
- continue;
- if (clu->amask & s->s3.tmp.new_cipher->algorithm_auth) {
- idx = i;
- break;
- }
- }
- /*
- * Some GOST ciphersuites allow more than one signature algorithms
- * */
- if (idx == SSL_PKEY_GOST01 && s->s3.tmp.new_cipher->algorithm_auth != SSL_aGOST01) {
- int real_idx;
- for (real_idx = SSL_PKEY_GOST12_512; real_idx >= SSL_PKEY_GOST01;
- real_idx--) {
- if (s->cert->pkeys[real_idx].privatekey != NULL) {
- idx = real_idx;
- break;
- }
- }
- }
- /*
- * As both SSL_PKEY_GOST12_512 and SSL_PKEY_GOST12_256 indices can be used
- * with new (aGOST12-only) ciphersuites, we should find out which one is available really.
- */
- else if (idx == SSL_PKEY_GOST12_256) {
- int real_idx;
- for (real_idx = SSL_PKEY_GOST12_512; real_idx >= SSL_PKEY_GOST12_256;
- real_idx--) {
- if (s->cert->pkeys[real_idx].privatekey != NULL) {
- idx = real_idx;
- break;
- }
- }
- }
- } else {
- idx = s->cert->key - s->cert->pkeys;
- }
- }
- if (idx < 0 || idx >= (int)OSSL_NELEM(tls_default_sigalg))
- return NULL;
- if (SSL_USE_SIGALGS(s) || idx != SSL_PKEY_RSA) {
- const SIGALG_LOOKUP *lu = tls1_lookup_sigalg(s, tls_default_sigalg[idx]);
- if (lu == NULL)
- return NULL;
- if (!tls1_lookup_md(SSL_CONNECTION_GET_CTX(s), lu, NULL))
- return NULL;
- if (!tls12_sigalg_allowed(s, SSL_SECOP_SIGALG_SUPPORTED, lu))
- return NULL;
- return lu;
- }
- if (!tls12_sigalg_allowed(s, SSL_SECOP_SIGALG_SUPPORTED, &legacy_rsa_sigalg))
- return NULL;
- return &legacy_rsa_sigalg;
- }
- /* Set peer sigalg based key type */
- int tls1_set_peer_legacy_sigalg(SSL_CONNECTION *s, const EVP_PKEY *pkey)
- {
- size_t idx;
- const SIGALG_LOOKUP *lu;
- if (ssl_cert_lookup_by_pkey(pkey, &idx, SSL_CONNECTION_GET_CTX(s)) == NULL)
- return 0;
- lu = tls1_get_legacy_sigalg(s, idx);
- if (lu == NULL)
- return 0;
- s->s3.tmp.peer_sigalg = lu;
- return 1;
- }
- size_t tls12_get_psigalgs(SSL_CONNECTION *s, int sent, const uint16_t **psigs)
- {
- /*
- * If Suite B mode use Suite B sigalgs only, ignore any other
- * preferences.
- */
- switch (tls1_suiteb(s)) {
- case SSL_CERT_FLAG_SUITEB_128_LOS:
- *psigs = suiteb_sigalgs;
- return OSSL_NELEM(suiteb_sigalgs);
- case SSL_CERT_FLAG_SUITEB_128_LOS_ONLY:
- *psigs = suiteb_sigalgs;
- return 1;
- case SSL_CERT_FLAG_SUITEB_192_LOS:
- *psigs = suiteb_sigalgs + 1;
- return 1;
- }
- /*
- * We use client_sigalgs (if not NULL) if we're a server
- * and sending a certificate request or if we're a client and
- * determining which shared algorithm to use.
- */
- if ((s->server == sent) && s->cert->client_sigalgs != NULL) {
- *psigs = s->cert->client_sigalgs;
- return s->cert->client_sigalgslen;
- } else if (s->cert->conf_sigalgs) {
- *psigs = s->cert->conf_sigalgs;
- return s->cert->conf_sigalgslen;
- } else {
- *psigs = SSL_CONNECTION_GET_CTX(s)->tls12_sigalgs;
- return SSL_CONNECTION_GET_CTX(s)->tls12_sigalgs_len;
- }
- }
- /*
- * Called by servers only. Checks that we have a sig alg that supports the
- * specified EC curve.
- */
- int tls_check_sigalg_curve(const SSL_CONNECTION *s, int curve)
- {
- const uint16_t *sigs;
- size_t siglen, i;
- if (s->cert->conf_sigalgs) {
- sigs = s->cert->conf_sigalgs;
- siglen = s->cert->conf_sigalgslen;
- } else {
- sigs = SSL_CONNECTION_GET_CTX(s)->tls12_sigalgs;
- siglen = SSL_CONNECTION_GET_CTX(s)->tls12_sigalgs_len;
- }
- for (i = 0; i < siglen; i++) {
- const SIGALG_LOOKUP *lu = tls1_lookup_sigalg(s, sigs[i]);
- if (lu == NULL)
- continue;
- if (lu->sig == EVP_PKEY_EC
- && lu->curve != NID_undef
- && curve == lu->curve)
- return 1;
- }
- return 0;
- }
- /*
- * Return the number of security bits for the signature algorithm, or 0 on
- * error.
- */
- static int sigalg_security_bits(SSL_CTX *ctx, const SIGALG_LOOKUP *lu)
- {
- const EVP_MD *md = NULL;
- int secbits = 0;
- if (!tls1_lookup_md(ctx, lu, &md))
- return 0;
- if (md != NULL)
- {
- int md_type = EVP_MD_get_type(md);
- /* Security bits: half digest bits */
- secbits = EVP_MD_get_size(md) * 4;
- if (secbits <= 0)
- return 0;
- /*
- * SHA1 and MD5 are known to be broken. Reduce security bits so that
- * they're no longer accepted at security level 1. The real values don't
- * really matter as long as they're lower than 80, which is our
- * security level 1.
- * https://eprint.iacr.org/2020/014 puts a chosen-prefix attack for
- * SHA1 at 2^63.4 and MD5+SHA1 at 2^67.2
- * https://documents.epfl.ch/users/l/le/lenstra/public/papers/lat.pdf
- * puts a chosen-prefix attack for MD5 at 2^39.
- */
- if (md_type == NID_sha1)
- secbits = 64;
- else if (md_type == NID_md5_sha1)
- secbits = 67;
- else if (md_type == NID_md5)
- secbits = 39;
- } else {
- /* Values from https://tools.ietf.org/html/rfc8032#section-8.5 */
- if (lu->sigalg == TLSEXT_SIGALG_ed25519)
- secbits = 128;
- else if (lu->sigalg == TLSEXT_SIGALG_ed448)
- secbits = 224;
- }
- /*
- * For provider-based sigalgs we have secbits information available
- * in the (provider-loaded) sigalg_list structure
- */
- if ((secbits == 0) && (lu->sig_idx >= SSL_PKEY_NUM)
- && ((lu->sig_idx - SSL_PKEY_NUM) < (int)ctx->sigalg_list_len)) {
- secbits = ctx->sigalg_list[lu->sig_idx - SSL_PKEY_NUM].secbits;
- }
- return secbits;
- }
- /*
- * Check signature algorithm is consistent with sent supported signature
- * algorithms and if so set relevant digest and signature scheme in
- * s.
- */
- int tls12_check_peer_sigalg(SSL_CONNECTION *s, uint16_t sig, EVP_PKEY *pkey)
- {
- const uint16_t *sent_sigs;
- const EVP_MD *md = NULL;
- char sigalgstr[2];
- size_t sent_sigslen, i, cidx;
- int pkeyid = -1;
- const SIGALG_LOOKUP *lu;
- int secbits = 0;
- pkeyid = EVP_PKEY_get_id(pkey);
- if (SSL_CONNECTION_IS_TLS13(s)) {
- /* Disallow DSA for TLS 1.3 */
- if (pkeyid == EVP_PKEY_DSA) {
- SSLfatal(s, SSL_AD_ILLEGAL_PARAMETER, SSL_R_WRONG_SIGNATURE_TYPE);
- return 0;
- }
- /* Only allow PSS for TLS 1.3 */
- if (pkeyid == EVP_PKEY_RSA)
- pkeyid = EVP_PKEY_RSA_PSS;
- }
- lu = tls1_lookup_sigalg(s, sig);
- /* if this sigalg is loaded, set so far unknown pkeyid to its sig NID */
- if ((pkeyid == EVP_PKEY_KEYMGMT) && (lu != NULL))
- pkeyid = lu->sig;
- /* Should never happen */
- if (pkeyid == -1)
- return -1;
- /*
- * Check sigalgs is known. Disallow SHA1/SHA224 with TLS 1.3. Check key type
- * is consistent with signature: RSA keys can be used for RSA-PSS
- */
- if (lu == NULL
- || (SSL_CONNECTION_IS_TLS13(s)
- && (lu->hash == NID_sha1 || lu->hash == NID_sha224))
- || (pkeyid != lu->sig
- && (lu->sig != EVP_PKEY_RSA_PSS || pkeyid != EVP_PKEY_RSA))) {
- SSLfatal(s, SSL_AD_ILLEGAL_PARAMETER, SSL_R_WRONG_SIGNATURE_TYPE);
- return 0;
- }
- /* Check the sigalg is consistent with the key OID */
- if (!ssl_cert_lookup_by_nid(
- (pkeyid == EVP_PKEY_RSA_PSS) ? EVP_PKEY_get_id(pkey) : pkeyid,
- &cidx, SSL_CONNECTION_GET_CTX(s))
- || lu->sig_idx != (int)cidx) {
- SSLfatal(s, SSL_AD_ILLEGAL_PARAMETER, SSL_R_WRONG_SIGNATURE_TYPE);
- return 0;
- }
- if (pkeyid == EVP_PKEY_EC) {
- /* Check point compression is permitted */
- if (!tls1_check_pkey_comp(s, pkey)) {
- SSLfatal(s, SSL_AD_ILLEGAL_PARAMETER,
- SSL_R_ILLEGAL_POINT_COMPRESSION);
- return 0;
- }
- /* For TLS 1.3 or Suite B check curve matches signature algorithm */
- if (SSL_CONNECTION_IS_TLS13(s) || tls1_suiteb(s)) {
- int curve = ssl_get_EC_curve_nid(pkey);
- if (lu->curve != NID_undef && curve != lu->curve) {
- SSLfatal(s, SSL_AD_ILLEGAL_PARAMETER, SSL_R_WRONG_CURVE);
- return 0;
- }
- }
- if (!SSL_CONNECTION_IS_TLS13(s)) {
- /* Check curve matches extensions */
- if (!tls1_check_group_id(s, tls1_get_group_id(pkey), 1)) {
- SSLfatal(s, SSL_AD_ILLEGAL_PARAMETER, SSL_R_WRONG_CURVE);
- return 0;
- }
- if (tls1_suiteb(s)) {
- /* Check sigalg matches a permissible Suite B value */
- if (sig != TLSEXT_SIGALG_ecdsa_secp256r1_sha256
- && sig != TLSEXT_SIGALG_ecdsa_secp384r1_sha384) {
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE,
- SSL_R_WRONG_SIGNATURE_TYPE);
- return 0;
- }
- }
- }
- } else if (tls1_suiteb(s)) {
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE, SSL_R_WRONG_SIGNATURE_TYPE);
- return 0;
- }
- /* Check signature matches a type we sent */
- sent_sigslen = tls12_get_psigalgs(s, 1, &sent_sigs);
- for (i = 0; i < sent_sigslen; i++, sent_sigs++) {
- if (sig == *sent_sigs)
- break;
- }
- /* Allow fallback to SHA1 if not strict mode */
- if (i == sent_sigslen && (lu->hash != NID_sha1
- || s->cert->cert_flags & SSL_CERT_FLAGS_CHECK_TLS_STRICT)) {
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE, SSL_R_WRONG_SIGNATURE_TYPE);
- return 0;
- }
- if (!tls1_lookup_md(SSL_CONNECTION_GET_CTX(s), lu, &md)) {
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE, SSL_R_UNKNOWN_DIGEST);
- return 0;
- }
- /*
- * Make sure security callback allows algorithm. For historical
- * reasons we have to pass the sigalg as a two byte char array.
- */
- sigalgstr[0] = (sig >> 8) & 0xff;
- sigalgstr[1] = sig & 0xff;
- secbits = sigalg_security_bits(SSL_CONNECTION_GET_CTX(s), lu);
- if (secbits == 0 ||
- !ssl_security(s, SSL_SECOP_SIGALG_CHECK, secbits,
- md != NULL ? EVP_MD_get_type(md) : NID_undef,
- (void *)sigalgstr)) {
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE, SSL_R_WRONG_SIGNATURE_TYPE);
- return 0;
- }
- /* Store the sigalg the peer uses */
- s->s3.tmp.peer_sigalg = lu;
- return 1;
- }
- int SSL_get_peer_signature_type_nid(const SSL *s, int *pnid)
- {
- const SSL_CONNECTION *sc = SSL_CONNECTION_FROM_CONST_SSL(s);
- if (sc == NULL)
- return 0;
- if (sc->s3.tmp.peer_sigalg == NULL)
- return 0;
- *pnid = sc->s3.tmp.peer_sigalg->sig;
- return 1;
- }
- int SSL_get_signature_type_nid(const SSL *s, int *pnid)
- {
- const SSL_CONNECTION *sc = SSL_CONNECTION_FROM_CONST_SSL(s);
- if (sc == NULL)
- return 0;
- if (sc->s3.tmp.sigalg == NULL)
- return 0;
- *pnid = sc->s3.tmp.sigalg->sig;
- return 1;
- }
- /*
- * Set a mask of disabled algorithms: an algorithm is disabled if it isn't
- * supported, doesn't appear in supported signature algorithms, isn't supported
- * by the enabled protocol versions or by the security level.
- *
- * This function should only be used for checking which ciphers are supported
- * by the client.
- *
- * Call ssl_cipher_disabled() to check that it's enabled or not.
- */
- int ssl_set_client_disabled(SSL_CONNECTION *s)
- {
- s->s3.tmp.mask_a = 0;
- s->s3.tmp.mask_k = 0;
- ssl_set_sig_mask(&s->s3.tmp.mask_a, s, SSL_SECOP_SIGALG_MASK);
- if (ssl_get_min_max_version(s, &s->s3.tmp.min_ver,
- &s->s3.tmp.max_ver, NULL) != 0)
- return 0;
- #ifndef OPENSSL_NO_PSK
- /* with PSK there must be client callback set */
- if (!s->psk_client_callback) {
- s->s3.tmp.mask_a |= SSL_aPSK;
- s->s3.tmp.mask_k |= SSL_PSK;
- }
- #endif /* OPENSSL_NO_PSK */
- #ifndef OPENSSL_NO_SRP
- if (!(s->srp_ctx.srp_Mask & SSL_kSRP)) {
- s->s3.tmp.mask_a |= SSL_aSRP;
- s->s3.tmp.mask_k |= SSL_kSRP;
- }
- #endif
- return 1;
- }
- /*
- * ssl_cipher_disabled - check that a cipher is disabled or not
- * @s: SSL connection that you want to use the cipher on
- * @c: cipher to check
- * @op: Security check that you want to do
- * @ecdhe: If set to 1 then TLSv1 ECDHE ciphers are also allowed in SSLv3
- *
- * Returns 1 when it's disabled, 0 when enabled.
- */
- int ssl_cipher_disabled(const SSL_CONNECTION *s, const SSL_CIPHER *c,
- int op, int ecdhe)
- {
- int minversion = SSL_CONNECTION_IS_DTLS(s) ? c->min_dtls : c->min_tls;
- int maxversion = SSL_CONNECTION_IS_DTLS(s) ? c->max_dtls : c->max_tls;
- if (c->algorithm_mkey & s->s3.tmp.mask_k
- || c->algorithm_auth & s->s3.tmp.mask_a)
- return 1;
- if (s->s3.tmp.max_ver == 0)
- return 1;
- if (SSL_IS_QUIC_HANDSHAKE(s))
- /* For QUIC, only allow these ciphersuites. */
- switch (SSL_CIPHER_get_id(c)) {
- case TLS1_3_CK_AES_128_GCM_SHA256:
- case TLS1_3_CK_AES_256_GCM_SHA384:
- case TLS1_3_CK_CHACHA20_POLY1305_SHA256:
- break;
- default:
- return 1;
- }
- /*
- * For historical reasons we will allow ECHDE to be selected by a server
- * in SSLv3 if we are a client
- */
- if (minversion == TLS1_VERSION
- && ecdhe
- && (c->algorithm_mkey & (SSL_kECDHE | SSL_kECDHEPSK)) != 0)
- minversion = SSL3_VERSION;
- if (ssl_version_cmp(s, minversion, s->s3.tmp.max_ver) > 0
- || ssl_version_cmp(s, maxversion, s->s3.tmp.min_ver) < 0)
- return 1;
- return !ssl_security(s, op, c->strength_bits, 0, (void *)c);
- }
- int tls_use_ticket(SSL_CONNECTION *s)
- {
- if ((s->options & SSL_OP_NO_TICKET))
- return 0;
- return ssl_security(s, SSL_SECOP_TICKET, 0, 0, NULL);
- }
- int tls1_set_server_sigalgs(SSL_CONNECTION *s)
- {
- size_t i;
- /* Clear any shared signature algorithms */
- OPENSSL_free(s->shared_sigalgs);
- s->shared_sigalgs = NULL;
- s->shared_sigalgslen = 0;
- /* Clear certificate validity flags */
- if (s->s3.tmp.valid_flags)
- memset(s->s3.tmp.valid_flags, 0, s->ssl_pkey_num * sizeof(uint32_t));
- else
- s->s3.tmp.valid_flags = OPENSSL_zalloc(s->ssl_pkey_num * sizeof(uint32_t));
- if (s->s3.tmp.valid_flags == NULL)
- return 0;
- /*
- * If peer sent no signature algorithms check to see if we support
- * the default algorithm for each certificate type
- */
- if (s->s3.tmp.peer_cert_sigalgs == NULL
- && s->s3.tmp.peer_sigalgs == NULL) {
- const uint16_t *sent_sigs;
- size_t sent_sigslen = tls12_get_psigalgs(s, 1, &sent_sigs);
- for (i = 0; i < s->ssl_pkey_num; i++) {
- const SIGALG_LOOKUP *lu = tls1_get_legacy_sigalg(s, i);
- size_t j;
- if (lu == NULL)
- continue;
- /* Check default matches a type we sent */
- for (j = 0; j < sent_sigslen; j++) {
- if (lu->sigalg == sent_sigs[j]) {
- s->s3.tmp.valid_flags[i] = CERT_PKEY_SIGN;
- break;
- }
- }
- }
- return 1;
- }
- if (!tls1_process_sigalgs(s)) {
- SSLfatal(s, SSL_AD_INTERNAL_ERROR, ERR_R_INTERNAL_ERROR);
- return 0;
- }
- if (s->shared_sigalgs != NULL)
- return 1;
- /* Fatal error if no shared signature algorithms */
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE,
- SSL_R_NO_SHARED_SIGNATURE_ALGORITHMS);
- return 0;
- }
- /*-
- * Gets the ticket information supplied by the client if any.
- *
- * hello: The parsed ClientHello data
- * ret: (output) on return, if a ticket was decrypted, then this is set to
- * point to the resulting session.
- */
- SSL_TICKET_STATUS tls_get_ticket_from_client(SSL_CONNECTION *s,
- CLIENTHELLO_MSG *hello,
- SSL_SESSION **ret)
- {
- size_t size;
- RAW_EXTENSION *ticketext;
- *ret = NULL;
- s->ext.ticket_expected = 0;
- /*
- * If tickets disabled or not supported by the protocol version
- * (e.g. TLSv1.3) behave as if no ticket present to permit stateful
- * resumption.
- */
- if (s->version <= SSL3_VERSION || !tls_use_ticket(s))
- return SSL_TICKET_NONE;
- ticketext = &hello->pre_proc_exts[TLSEXT_IDX_session_ticket];
- if (!ticketext->present)
- return SSL_TICKET_NONE;
- size = PACKET_remaining(&ticketext->data);
- return tls_decrypt_ticket(s, PACKET_data(&ticketext->data), size,
- hello->session_id, hello->session_id_len, ret);
- }
- /*-
- * tls_decrypt_ticket attempts to decrypt a session ticket.
- *
- * If s->tls_session_secret_cb is set and we're not doing TLSv1.3 then we are
- * expecting a pre-shared key ciphersuite, in which case we have no use for
- * session tickets and one will never be decrypted, nor will
- * s->ext.ticket_expected be set to 1.
- *
- * Side effects:
- * Sets s->ext.ticket_expected to 1 if the server will have to issue
- * a new session ticket to the client because the client indicated support
- * (and s->tls_session_secret_cb is NULL) but the client either doesn't have
- * a session ticket or we couldn't use the one it gave us, or if
- * s->ctx->ext.ticket_key_cb asked to renew the client's ticket.
- * Otherwise, s->ext.ticket_expected is set to 0.
- *
- * etick: points to the body of the session ticket extension.
- * eticklen: the length of the session tickets extension.
- * sess_id: points at the session ID.
- * sesslen: the length of the session ID.
- * psess: (output) on return, if a ticket was decrypted, then this is set to
- * point to the resulting session.
- */
- SSL_TICKET_STATUS tls_decrypt_ticket(SSL_CONNECTION *s,
- const unsigned char *etick,
- size_t eticklen,
- const unsigned char *sess_id,
- size_t sesslen, SSL_SESSION **psess)
- {
- SSL_SESSION *sess = NULL;
- unsigned char *sdec;
- const unsigned char *p;
- int slen, ivlen, renew_ticket = 0, declen;
- SSL_TICKET_STATUS ret = SSL_TICKET_FATAL_ERR_OTHER;
- size_t mlen;
- unsigned char tick_hmac[EVP_MAX_MD_SIZE];
- SSL_HMAC *hctx = NULL;
- EVP_CIPHER_CTX *ctx = NULL;
- SSL_CTX *tctx = s->session_ctx;
- SSL_CTX *sctx = SSL_CONNECTION_GET_CTX(s);
- if (eticklen == 0) {
- /*
- * The client will accept a ticket but doesn't currently have
- * one (TLSv1.2 and below), or treated as a fatal error in TLSv1.3
- */
- ret = SSL_TICKET_EMPTY;
- goto end;
- }
- if (!SSL_CONNECTION_IS_TLS13(s) && s->ext.session_secret_cb) {
- /*
- * Indicate that the ticket couldn't be decrypted rather than
- * generating the session from ticket now, trigger
- * abbreviated handshake based on external mechanism to
- * calculate the master secret later.
- */
- ret = SSL_TICKET_NO_DECRYPT;
- goto end;
- }
- /* Need at least keyname + iv */
- if (eticklen < TLSEXT_KEYNAME_LENGTH + EVP_MAX_IV_LENGTH) {
- ret = SSL_TICKET_NO_DECRYPT;
- goto end;
- }
- /* Initialize session ticket encryption and HMAC contexts */
- hctx = ssl_hmac_new(tctx);
- if (hctx == NULL) {
- ret = SSL_TICKET_FATAL_ERR_MALLOC;
- goto end;
- }
- ctx = EVP_CIPHER_CTX_new();
- if (ctx == NULL) {
- ret = SSL_TICKET_FATAL_ERR_MALLOC;
- goto end;
- }
- #ifndef OPENSSL_NO_DEPRECATED_3_0
- if (tctx->ext.ticket_key_evp_cb != NULL || tctx->ext.ticket_key_cb != NULL)
- #else
- if (tctx->ext.ticket_key_evp_cb != NULL)
- #endif
- {
- unsigned char *nctick = (unsigned char *)etick;
- int rv = 0;
- if (tctx->ext.ticket_key_evp_cb != NULL)
- rv = tctx->ext.ticket_key_evp_cb(SSL_CONNECTION_GET_SSL(s), nctick,
- nctick + TLSEXT_KEYNAME_LENGTH,
- ctx,
- ssl_hmac_get0_EVP_MAC_CTX(hctx),
- 0);
- #ifndef OPENSSL_NO_DEPRECATED_3_0
- else if (tctx->ext.ticket_key_cb != NULL)
- /* if 0 is returned, write an empty ticket */
- rv = tctx->ext.ticket_key_cb(SSL_CONNECTION_GET_SSL(s), nctick,
- nctick + TLSEXT_KEYNAME_LENGTH,
- ctx, ssl_hmac_get0_HMAC_CTX(hctx), 0);
- #endif
- if (rv < 0) {
- ret = SSL_TICKET_FATAL_ERR_OTHER;
- goto end;
- }
- if (rv == 0) {
- ret = SSL_TICKET_NO_DECRYPT;
- goto end;
- }
- if (rv == 2)
- renew_ticket = 1;
- } else {
- EVP_CIPHER *aes256cbc = NULL;
- /* Check key name matches */
- if (memcmp(etick, tctx->ext.tick_key_name,
- TLSEXT_KEYNAME_LENGTH) != 0) {
- ret = SSL_TICKET_NO_DECRYPT;
- goto end;
- }
- aes256cbc = EVP_CIPHER_fetch(sctx->libctx, "AES-256-CBC",
- sctx->propq);
- if (aes256cbc == NULL
- || ssl_hmac_init(hctx, tctx->ext.secure->tick_hmac_key,
- sizeof(tctx->ext.secure->tick_hmac_key),
- "SHA256") <= 0
- || EVP_DecryptInit_ex(ctx, aes256cbc, NULL,
- tctx->ext.secure->tick_aes_key,
- etick + TLSEXT_KEYNAME_LENGTH) <= 0) {
- EVP_CIPHER_free(aes256cbc);
- ret = SSL_TICKET_FATAL_ERR_OTHER;
- goto end;
- }
- EVP_CIPHER_free(aes256cbc);
- if (SSL_CONNECTION_IS_TLS13(s))
- renew_ticket = 1;
- }
- /*
- * Attempt to process session ticket, first conduct sanity and integrity
- * checks on ticket.
- */
- mlen = ssl_hmac_size(hctx);
- if (mlen == 0) {
- ret = SSL_TICKET_FATAL_ERR_OTHER;
- goto end;
- }
- ivlen = EVP_CIPHER_CTX_get_iv_length(ctx);
- if (ivlen < 0) {
- ret = SSL_TICKET_FATAL_ERR_OTHER;
- goto end;
- }
- /* Sanity check ticket length: must exceed keyname + IV + HMAC */
- if (eticklen <= TLSEXT_KEYNAME_LENGTH + ivlen + mlen) {
- ret = SSL_TICKET_NO_DECRYPT;
- goto end;
- }
- eticklen -= mlen;
- /* Check HMAC of encrypted ticket */
- if (ssl_hmac_update(hctx, etick, eticklen) <= 0
- || ssl_hmac_final(hctx, tick_hmac, NULL, sizeof(tick_hmac)) <= 0) {
- ret = SSL_TICKET_FATAL_ERR_OTHER;
- goto end;
- }
- if (CRYPTO_memcmp(tick_hmac, etick + eticklen, mlen)) {
- ret = SSL_TICKET_NO_DECRYPT;
- goto end;
- }
- /* Attempt to decrypt session data */
- /* Move p after IV to start of encrypted ticket, update length */
- p = etick + TLSEXT_KEYNAME_LENGTH + ivlen;
- eticklen -= TLSEXT_KEYNAME_LENGTH + ivlen;
- sdec = OPENSSL_malloc(eticklen);
- if (sdec == NULL || EVP_DecryptUpdate(ctx, sdec, &slen, p,
- (int)eticklen) <= 0) {
- OPENSSL_free(sdec);
- ret = SSL_TICKET_FATAL_ERR_OTHER;
- goto end;
- }
- if (EVP_DecryptFinal(ctx, sdec + slen, &declen) <= 0) {
- OPENSSL_free(sdec);
- ret = SSL_TICKET_NO_DECRYPT;
- goto end;
- }
- slen += declen;
- p = sdec;
- sess = d2i_SSL_SESSION_ex(NULL, &p, slen, sctx->libctx, sctx->propq);
- slen -= p - sdec;
- OPENSSL_free(sdec);
- if (sess) {
- /* Some additional consistency checks */
- if (slen != 0) {
- SSL_SESSION_free(sess);
- sess = NULL;
- ret = SSL_TICKET_NO_DECRYPT;
- goto end;
- }
- /*
- * The session ID, if non-empty, is used by some clients to detect
- * that the ticket has been accepted. So we copy it to the session
- * structure. If it is empty set length to zero as required by
- * standard.
- */
- if (sesslen) {
- memcpy(sess->session_id, sess_id, sesslen);
- sess->session_id_length = sesslen;
- }
- if (renew_ticket)
- ret = SSL_TICKET_SUCCESS_RENEW;
- else
- ret = SSL_TICKET_SUCCESS;
- goto end;
- }
- ERR_clear_error();
- /*
- * For session parse failure, indicate that we need to send a new ticket.
- */
- ret = SSL_TICKET_NO_DECRYPT;
- end:
- EVP_CIPHER_CTX_free(ctx);
- ssl_hmac_free(hctx);
- /*
- * If set, the decrypt_ticket_cb() is called unless a fatal error was
- * detected above. The callback is responsible for checking |ret| before it
- * performs any action
- */
- if (s->session_ctx->decrypt_ticket_cb != NULL
- && (ret == SSL_TICKET_EMPTY
- || ret == SSL_TICKET_NO_DECRYPT
- || ret == SSL_TICKET_SUCCESS
- || ret == SSL_TICKET_SUCCESS_RENEW)) {
- size_t keyname_len = eticklen;
- int retcb;
- if (keyname_len > TLSEXT_KEYNAME_LENGTH)
- keyname_len = TLSEXT_KEYNAME_LENGTH;
- retcb = s->session_ctx->decrypt_ticket_cb(SSL_CONNECTION_GET_SSL(s),
- sess, etick, keyname_len,
- ret,
- s->session_ctx->ticket_cb_data);
- switch (retcb) {
- case SSL_TICKET_RETURN_ABORT:
- ret = SSL_TICKET_FATAL_ERR_OTHER;
- break;
- case SSL_TICKET_RETURN_IGNORE:
- ret = SSL_TICKET_NONE;
- SSL_SESSION_free(sess);
- sess = NULL;
- break;
- case SSL_TICKET_RETURN_IGNORE_RENEW:
- if (ret != SSL_TICKET_EMPTY && ret != SSL_TICKET_NO_DECRYPT)
- ret = SSL_TICKET_NO_DECRYPT;
- /* else the value of |ret| will already do the right thing */
- SSL_SESSION_free(sess);
- sess = NULL;
- break;
- case SSL_TICKET_RETURN_USE:
- case SSL_TICKET_RETURN_USE_RENEW:
- if (ret != SSL_TICKET_SUCCESS
- && ret != SSL_TICKET_SUCCESS_RENEW)
- ret = SSL_TICKET_FATAL_ERR_OTHER;
- else if (retcb == SSL_TICKET_RETURN_USE)
- ret = SSL_TICKET_SUCCESS;
- else
- ret = SSL_TICKET_SUCCESS_RENEW;
- break;
- default:
- ret = SSL_TICKET_FATAL_ERR_OTHER;
- }
- }
- if (s->ext.session_secret_cb == NULL || SSL_CONNECTION_IS_TLS13(s)) {
- switch (ret) {
- case SSL_TICKET_NO_DECRYPT:
- case SSL_TICKET_SUCCESS_RENEW:
- case SSL_TICKET_EMPTY:
- s->ext.ticket_expected = 1;
- }
- }
- *psess = sess;
- return ret;
- }
- /* Check to see if a signature algorithm is allowed */
- static int tls12_sigalg_allowed(const SSL_CONNECTION *s, int op,
- const SIGALG_LOOKUP *lu)
- {
- unsigned char sigalgstr[2];
- int secbits;
- if (lu == NULL || !lu->enabled)
- return 0;
- /* DSA is not allowed in TLS 1.3 */
- if (SSL_CONNECTION_IS_TLS13(s) && lu->sig == EVP_PKEY_DSA)
- return 0;
- /*
- * At some point we should fully axe DSA/etc. in ClientHello as per TLS 1.3
- * spec
- */
- if (!s->server && !SSL_CONNECTION_IS_DTLS(s)
- && s->s3.tmp.min_ver >= TLS1_3_VERSION
- && (lu->sig == EVP_PKEY_DSA || lu->hash_idx == SSL_MD_SHA1_IDX
- || lu->hash_idx == SSL_MD_MD5_IDX
- || lu->hash_idx == SSL_MD_SHA224_IDX))
- return 0;
- /* See if public key algorithm allowed */
- if (ssl_cert_is_disabled(SSL_CONNECTION_GET_CTX(s), lu->sig_idx))
- return 0;
- if (lu->sig == NID_id_GostR3410_2012_256
- || lu->sig == NID_id_GostR3410_2012_512
- || lu->sig == NID_id_GostR3410_2001) {
- /* We never allow GOST sig algs on the server with TLSv1.3 */
- if (s->server && SSL_CONNECTION_IS_TLS13(s))
- return 0;
- if (!s->server
- && SSL_CONNECTION_GET_SSL(s)->method->version == TLS_ANY_VERSION
- && s->s3.tmp.max_ver >= TLS1_3_VERSION) {
- int i, num;
- STACK_OF(SSL_CIPHER) *sk;
- /*
- * We're a client that could negotiate TLSv1.3. We only allow GOST
- * sig algs if we could negotiate TLSv1.2 or below and we have GOST
- * ciphersuites enabled.
- */
- if (s->s3.tmp.min_ver >= TLS1_3_VERSION)
- return 0;
- sk = SSL_get_ciphers(SSL_CONNECTION_GET_SSL(s));
- num = sk != NULL ? sk_SSL_CIPHER_num(sk) : 0;
- for (i = 0; i < num; i++) {
- const SSL_CIPHER *c;
- c = sk_SSL_CIPHER_value(sk, i);
- /* Skip disabled ciphers */
- if (ssl_cipher_disabled(s, c, SSL_SECOP_CIPHER_SUPPORTED, 0))
- continue;
- if ((c->algorithm_mkey & (SSL_kGOST | SSL_kGOST18)) != 0)
- break;
- }
- if (i == num)
- return 0;
- }
- }
- /* Finally see if security callback allows it */
- secbits = sigalg_security_bits(SSL_CONNECTION_GET_CTX(s), lu);
- sigalgstr[0] = (lu->sigalg >> 8) & 0xff;
- sigalgstr[1] = lu->sigalg & 0xff;
- return ssl_security(s, op, secbits, lu->hash, (void *)sigalgstr);
- }
- /*
- * Get a mask of disabled public key algorithms based on supported signature
- * algorithms. For example if no signature algorithm supports RSA then RSA is
- * disabled.
- */
- void ssl_set_sig_mask(uint32_t *pmask_a, SSL_CONNECTION *s, int op)
- {
- const uint16_t *sigalgs;
- size_t i, sigalgslen;
- uint32_t disabled_mask = SSL_aRSA | SSL_aDSS | SSL_aECDSA;
- /*
- * Go through all signature algorithms seeing if we support any
- * in disabled_mask.
- */
- sigalgslen = tls12_get_psigalgs(s, 1, &sigalgs);
- for (i = 0; i < sigalgslen; i++, sigalgs++) {
- const SIGALG_LOOKUP *lu = tls1_lookup_sigalg(s, *sigalgs);
- const SSL_CERT_LOOKUP *clu;
- if (lu == NULL)
- continue;
- clu = ssl_cert_lookup_by_idx(lu->sig_idx,
- SSL_CONNECTION_GET_CTX(s));
- if (clu == NULL)
- continue;
- /* If algorithm is disabled see if we can enable it */
- if ((clu->amask & disabled_mask) != 0
- && tls12_sigalg_allowed(s, op, lu))
- disabled_mask &= ~clu->amask;
- }
- *pmask_a |= disabled_mask;
- }
- int tls12_copy_sigalgs(SSL_CONNECTION *s, WPACKET *pkt,
- const uint16_t *psig, size_t psiglen)
- {
- size_t i;
- int rv = 0;
- for (i = 0; i < psiglen; i++, psig++) {
- const SIGALG_LOOKUP *lu = tls1_lookup_sigalg(s, *psig);
- if (lu == NULL
- || !tls12_sigalg_allowed(s, SSL_SECOP_SIGALG_SUPPORTED, lu))
- continue;
- if (!WPACKET_put_bytes_u16(pkt, *psig))
- return 0;
- /*
- * If TLS 1.3 must have at least one valid TLS 1.3 message
- * signing algorithm: i.e. neither RSA nor SHA1/SHA224
- */
- if (rv == 0 && (!SSL_CONNECTION_IS_TLS13(s)
- || (lu->sig != EVP_PKEY_RSA
- && lu->hash != NID_sha1
- && lu->hash != NID_sha224)))
- rv = 1;
- }
- if (rv == 0)
- ERR_raise(ERR_LIB_SSL, SSL_R_NO_SUITABLE_SIGNATURE_ALGORITHM);
- return rv;
- }
- /* Given preference and allowed sigalgs set shared sigalgs */
- static size_t tls12_shared_sigalgs(SSL_CONNECTION *s,
- const SIGALG_LOOKUP **shsig,
- const uint16_t *pref, size_t preflen,
- const uint16_t *allow, size_t allowlen)
- {
- const uint16_t *ptmp, *atmp;
- size_t i, j, nmatch = 0;
- for (i = 0, ptmp = pref; i < preflen; i++, ptmp++) {
- const SIGALG_LOOKUP *lu = tls1_lookup_sigalg(s, *ptmp);
- /* Skip disabled hashes or signature algorithms */
- if (lu == NULL
- || !tls12_sigalg_allowed(s, SSL_SECOP_SIGALG_SHARED, lu))
- continue;
- for (j = 0, atmp = allow; j < allowlen; j++, atmp++) {
- if (*ptmp == *atmp) {
- nmatch++;
- if (shsig)
- *shsig++ = lu;
- break;
- }
- }
- }
- return nmatch;
- }
- /* Set shared signature algorithms for SSL structures */
- static int tls1_set_shared_sigalgs(SSL_CONNECTION *s)
- {
- const uint16_t *pref, *allow, *conf;
- size_t preflen, allowlen, conflen;
- size_t nmatch;
- const SIGALG_LOOKUP **salgs = NULL;
- CERT *c = s->cert;
- unsigned int is_suiteb = tls1_suiteb(s);
- OPENSSL_free(s->shared_sigalgs);
- s->shared_sigalgs = NULL;
- s->shared_sigalgslen = 0;
- /* If client use client signature algorithms if not NULL */
- if (!s->server && c->client_sigalgs && !is_suiteb) {
- conf = c->client_sigalgs;
- conflen = c->client_sigalgslen;
- } else if (c->conf_sigalgs && !is_suiteb) {
- conf = c->conf_sigalgs;
- conflen = c->conf_sigalgslen;
- } else
- conflen = tls12_get_psigalgs(s, 0, &conf);
- if (s->options & SSL_OP_CIPHER_SERVER_PREFERENCE || is_suiteb) {
- pref = conf;
- preflen = conflen;
- allow = s->s3.tmp.peer_sigalgs;
- allowlen = s->s3.tmp.peer_sigalgslen;
- } else {
- allow = conf;
- allowlen = conflen;
- pref = s->s3.tmp.peer_sigalgs;
- preflen = s->s3.tmp.peer_sigalgslen;
- }
- nmatch = tls12_shared_sigalgs(s, NULL, pref, preflen, allow, allowlen);
- if (nmatch) {
- if ((salgs = OPENSSL_malloc(nmatch * sizeof(*salgs))) == NULL)
- return 0;
- nmatch = tls12_shared_sigalgs(s, salgs, pref, preflen, allow, allowlen);
- } else {
- salgs = NULL;
- }
- s->shared_sigalgs = salgs;
- s->shared_sigalgslen = nmatch;
- return 1;
- }
- int tls1_save_u16(PACKET *pkt, uint16_t **pdest, size_t *pdestlen)
- {
- unsigned int stmp;
- size_t size, i;
- uint16_t *buf;
- size = PACKET_remaining(pkt);
- /* Invalid data length */
- if (size == 0 || (size & 1) != 0)
- return 0;
- size >>= 1;
- if ((buf = OPENSSL_malloc(size * sizeof(*buf))) == NULL)
- return 0;
- for (i = 0; i < size && PACKET_get_net_2(pkt, &stmp); i++)
- buf[i] = stmp;
- if (i != size) {
- OPENSSL_free(buf);
- return 0;
- }
- OPENSSL_free(*pdest);
- *pdest = buf;
- *pdestlen = size;
- return 1;
- }
- int tls1_save_sigalgs(SSL_CONNECTION *s, PACKET *pkt, int cert)
- {
- /* Extension ignored for inappropriate versions */
- if (!SSL_USE_SIGALGS(s))
- return 1;
- /* Should never happen */
- if (s->cert == NULL)
- return 0;
- if (cert)
- return tls1_save_u16(pkt, &s->s3.tmp.peer_cert_sigalgs,
- &s->s3.tmp.peer_cert_sigalgslen);
- else
- return tls1_save_u16(pkt, &s->s3.tmp.peer_sigalgs,
- &s->s3.tmp.peer_sigalgslen);
- }
- /* Set preferred digest for each key type */
- int tls1_process_sigalgs(SSL_CONNECTION *s)
- {
- size_t i;
- uint32_t *pvalid = s->s3.tmp.valid_flags;
- if (!tls1_set_shared_sigalgs(s))
- return 0;
- for (i = 0; i < s->ssl_pkey_num; i++)
- pvalid[i] = 0;
- for (i = 0; i < s->shared_sigalgslen; i++) {
- const SIGALG_LOOKUP *sigptr = s->shared_sigalgs[i];
- int idx = sigptr->sig_idx;
- /* Ignore PKCS1 based sig algs in TLSv1.3 */
- if (SSL_CONNECTION_IS_TLS13(s) && sigptr->sig == EVP_PKEY_RSA)
- continue;
- /* If not disabled indicate we can explicitly sign */
- if (pvalid[idx] == 0
- && !ssl_cert_is_disabled(SSL_CONNECTION_GET_CTX(s), idx))
- pvalid[idx] = CERT_PKEY_EXPLICIT_SIGN | CERT_PKEY_SIGN;
- }
- return 1;
- }
- int SSL_get_sigalgs(SSL *s, int idx,
- int *psign, int *phash, int *psignhash,
- unsigned char *rsig, unsigned char *rhash)
- {
- uint16_t *psig;
- size_t numsigalgs;
- SSL_CONNECTION *sc = SSL_CONNECTION_FROM_SSL(s);
- if (sc == NULL)
- return 0;
- psig = sc->s3.tmp.peer_sigalgs;
- numsigalgs = sc->s3.tmp.peer_sigalgslen;
- if (psig == NULL || numsigalgs > INT_MAX)
- return 0;
- if (idx >= 0) {
- const SIGALG_LOOKUP *lu;
- if (idx >= (int)numsigalgs)
- return 0;
- psig += idx;
- if (rhash != NULL)
- *rhash = (unsigned char)((*psig >> 8) & 0xff);
- if (rsig != NULL)
- *rsig = (unsigned char)(*psig & 0xff);
- lu = tls1_lookup_sigalg(sc, *psig);
- if (psign != NULL)
- *psign = lu != NULL ? lu->sig : NID_undef;
- if (phash != NULL)
- *phash = lu != NULL ? lu->hash : NID_undef;
- if (psignhash != NULL)
- *psignhash = lu != NULL ? lu->sigandhash : NID_undef;
- }
- return (int)numsigalgs;
- }
- int SSL_get_shared_sigalgs(SSL *s, int idx,
- int *psign, int *phash, int *psignhash,
- unsigned char *rsig, unsigned char *rhash)
- {
- const SIGALG_LOOKUP *shsigalgs;
- SSL_CONNECTION *sc = SSL_CONNECTION_FROM_SSL(s);
- if (sc == NULL)
- return 0;
- if (sc->shared_sigalgs == NULL
- || idx < 0
- || idx >= (int)sc->shared_sigalgslen
- || sc->shared_sigalgslen > INT_MAX)
- return 0;
- shsigalgs = sc->shared_sigalgs[idx];
- if (phash != NULL)
- *phash = shsigalgs->hash;
- if (psign != NULL)
- *psign = shsigalgs->sig;
- if (psignhash != NULL)
- *psignhash = shsigalgs->sigandhash;
- if (rsig != NULL)
- *rsig = (unsigned char)(shsigalgs->sigalg & 0xff);
- if (rhash != NULL)
- *rhash = (unsigned char)((shsigalgs->sigalg >> 8) & 0xff);
- return (int)sc->shared_sigalgslen;
- }
- /* Maximum possible number of unique entries in sigalgs array */
- #define TLS_MAX_SIGALGCNT (OSSL_NELEM(sigalg_lookup_tbl) * 2)
- typedef struct {
- size_t sigalgcnt;
- /* TLSEXT_SIGALG_XXX values */
- uint16_t sigalgs[TLS_MAX_SIGALGCNT];
- SSL_CTX *ctx;
- } sig_cb_st;
- static void get_sigorhash(int *psig, int *phash, const char *str)
- {
- if (strcmp(str, "RSA") == 0) {
- *psig = EVP_PKEY_RSA;
- } else if (strcmp(str, "RSA-PSS") == 0 || strcmp(str, "PSS") == 0) {
- *psig = EVP_PKEY_RSA_PSS;
- } else if (strcmp(str, "DSA") == 0) {
- *psig = EVP_PKEY_DSA;
- } else if (strcmp(str, "ECDSA") == 0) {
- *psig = EVP_PKEY_EC;
- } else {
- *phash = OBJ_sn2nid(str);
- if (*phash == NID_undef)
- *phash = OBJ_ln2nid(str);
- }
- }
- /* Maximum length of a signature algorithm string component */
- #define TLS_MAX_SIGSTRING_LEN 40
- static int sig_cb(const char *elem, int len, void *arg)
- {
- sig_cb_st *sarg = arg;
- size_t i = 0;
- const SIGALG_LOOKUP *s;
- char etmp[TLS_MAX_SIGSTRING_LEN], *p;
- int sig_alg = NID_undef, hash_alg = NID_undef;
- int ignore_unknown = 0;
- if (elem == NULL)
- return 0;
- if (elem[0] == '?') {
- ignore_unknown = 1;
- ++elem;
- --len;
- }
- if (sarg->sigalgcnt == TLS_MAX_SIGALGCNT)
- return 0;
- if (len > (int)(sizeof(etmp) - 1))
- return 0;
- memcpy(etmp, elem, len);
- etmp[len] = 0;
- p = strchr(etmp, '+');
- /*
- * We only allow SignatureSchemes listed in the sigalg_lookup_tbl;
- * if there's no '+' in the provided name, look for the new-style combined
- * name. If not, match both sig+hash to find the needed SIGALG_LOOKUP.
- * Just sig+hash is not unique since TLS 1.3 adds rsa_pss_pss_* and
- * rsa_pss_rsae_* that differ only by public key OID; in such cases
- * we will pick the _rsae_ variant, by virtue of them appearing earlier
- * in the table.
- */
- if (p == NULL) {
- /* Load provider sigalgs */
- if (sarg->ctx != NULL) {
- /* Check if a provider supports the sigalg */
- for (i = 0; i < sarg->ctx->sigalg_list_len; i++) {
- if (sarg->ctx->sigalg_list[i].sigalg_name != NULL
- && strcmp(etmp,
- sarg->ctx->sigalg_list[i].sigalg_name) == 0) {
- sarg->sigalgs[sarg->sigalgcnt++] =
- sarg->ctx->sigalg_list[i].code_point;
- break;
- }
- }
- }
- /* Check the built-in sigalgs */
- if (sarg->ctx == NULL || i == sarg->ctx->sigalg_list_len) {
- for (i = 0, s = sigalg_lookup_tbl;
- i < OSSL_NELEM(sigalg_lookup_tbl); i++, s++) {
- if (s->name != NULL && strcmp(etmp, s->name) == 0) {
- sarg->sigalgs[sarg->sigalgcnt++] = s->sigalg;
- break;
- }
- }
- if (i == OSSL_NELEM(sigalg_lookup_tbl)) {
- /* Ignore unknown algorithms if ignore_unknown */
- return ignore_unknown;
- }
- }
- } else {
- *p = 0;
- p++;
- if (*p == 0)
- return 0;
- get_sigorhash(&sig_alg, &hash_alg, etmp);
- get_sigorhash(&sig_alg, &hash_alg, p);
- if (sig_alg == NID_undef || hash_alg == NID_undef) {
- /* Ignore unknown algorithms if ignore_unknown */
- return ignore_unknown;
- }
- for (i = 0, s = sigalg_lookup_tbl; i < OSSL_NELEM(sigalg_lookup_tbl);
- i++, s++) {
- if (s->hash == hash_alg && s->sig == sig_alg) {
- sarg->sigalgs[sarg->sigalgcnt++] = s->sigalg;
- break;
- }
- }
- if (i == OSSL_NELEM(sigalg_lookup_tbl)) {
- /* Ignore unknown algorithms if ignore_unknown */
- return ignore_unknown;
- }
- }
- /* Ignore duplicates */
- for (i = 0; i < sarg->sigalgcnt - 1; i++) {
- if (sarg->sigalgs[i] == sarg->sigalgs[sarg->sigalgcnt - 1]) {
- sarg->sigalgcnt--;
- return 1;
- }
- }
- return 1;
- }
- /*
- * Set supported signature algorithms based on a colon separated list of the
- * form sig+hash e.g. RSA+SHA512:DSA+SHA512
- */
- int tls1_set_sigalgs_list(SSL_CTX *ctx, CERT *c, const char *str, int client)
- {
- sig_cb_st sig;
- sig.sigalgcnt = 0;
- if (ctx != NULL && ssl_load_sigalgs(ctx)) {
- sig.ctx = ctx;
- }
- if (!CONF_parse_list(str, ':', 1, sig_cb, &sig))
- return 0;
- if (sig.sigalgcnt == 0) {
- ERR_raise_data(ERR_LIB_SSL, ERR_R_PASSED_INVALID_ARGUMENT,
- "No valid signature algorithms in '%s'", str);
- return 0;
- }
- if (c == NULL)
- return 1;
- return tls1_set_raw_sigalgs(c, sig.sigalgs, sig.sigalgcnt, client);
- }
- int tls1_set_raw_sigalgs(CERT *c, const uint16_t *psigs, size_t salglen,
- int client)
- {
- uint16_t *sigalgs;
- if ((sigalgs = OPENSSL_malloc(salglen * sizeof(*sigalgs))) == NULL)
- return 0;
- memcpy(sigalgs, psigs, salglen * sizeof(*sigalgs));
- if (client) {
- OPENSSL_free(c->client_sigalgs);
- c->client_sigalgs = sigalgs;
- c->client_sigalgslen = salglen;
- } else {
- OPENSSL_free(c->conf_sigalgs);
- c->conf_sigalgs = sigalgs;
- c->conf_sigalgslen = salglen;
- }
- return 1;
- }
- int tls1_set_sigalgs(CERT *c, const int *psig_nids, size_t salglen, int client)
- {
- uint16_t *sigalgs, *sptr;
- size_t i;
- if (salglen & 1)
- return 0;
- if ((sigalgs = OPENSSL_malloc((salglen / 2) * sizeof(*sigalgs))) == NULL)
- return 0;
- for (i = 0, sptr = sigalgs; i < salglen; i += 2) {
- size_t j;
- const SIGALG_LOOKUP *curr;
- int md_id = *psig_nids++;
- int sig_id = *psig_nids++;
- for (j = 0, curr = sigalg_lookup_tbl; j < OSSL_NELEM(sigalg_lookup_tbl);
- j++, curr++) {
- if (curr->hash == md_id && curr->sig == sig_id) {
- *sptr++ = curr->sigalg;
- break;
- }
- }
- if (j == OSSL_NELEM(sigalg_lookup_tbl))
- goto err;
- }
- if (client) {
- OPENSSL_free(c->client_sigalgs);
- c->client_sigalgs = sigalgs;
- c->client_sigalgslen = salglen / 2;
- } else {
- OPENSSL_free(c->conf_sigalgs);
- c->conf_sigalgs = sigalgs;
- c->conf_sigalgslen = salglen / 2;
- }
- return 1;
- err:
- OPENSSL_free(sigalgs);
- return 0;
- }
- static int tls1_check_sig_alg(SSL_CONNECTION *s, X509 *x, int default_nid)
- {
- int sig_nid, use_pc_sigalgs = 0;
- size_t i;
- const SIGALG_LOOKUP *sigalg;
- size_t sigalgslen;
- if (default_nid == -1)
- return 1;
- sig_nid = X509_get_signature_nid(x);
- if (default_nid)
- return sig_nid == default_nid ? 1 : 0;
- if (SSL_CONNECTION_IS_TLS13(s) && s->s3.tmp.peer_cert_sigalgs != NULL) {
- /*
- * If we're in TLSv1.3 then we only get here if we're checking the
- * chain. If the peer has specified peer_cert_sigalgs then we use them
- * otherwise we default to normal sigalgs.
- */
- sigalgslen = s->s3.tmp.peer_cert_sigalgslen;
- use_pc_sigalgs = 1;
- } else {
- sigalgslen = s->shared_sigalgslen;
- }
- for (i = 0; i < sigalgslen; i++) {
- sigalg = use_pc_sigalgs
- ? tls1_lookup_sigalg(s, s->s3.tmp.peer_cert_sigalgs[i])
- : s->shared_sigalgs[i];
- if (sigalg != NULL && sig_nid == sigalg->sigandhash)
- return 1;
- }
- return 0;
- }
- /* Check to see if a certificate issuer name matches list of CA names */
- static int ssl_check_ca_name(STACK_OF(X509_NAME) *names, X509 *x)
- {
- const X509_NAME *nm;
- int i;
- nm = X509_get_issuer_name(x);
- for (i = 0; i < sk_X509_NAME_num(names); i++) {
- if (!X509_NAME_cmp(nm, sk_X509_NAME_value(names, i)))
- return 1;
- }
- return 0;
- }
- /*
- * Check certificate chain is consistent with TLS extensions and is usable by
- * server. This servers two purposes: it allows users to check chains before
- * passing them to the server and it allows the server to check chains before
- * attempting to use them.
- */
- /* Flags which need to be set for a certificate when strict mode not set */
- #define CERT_PKEY_VALID_FLAGS \
- (CERT_PKEY_EE_SIGNATURE|CERT_PKEY_EE_PARAM)
- /* Strict mode flags */
- #define CERT_PKEY_STRICT_FLAGS \
- (CERT_PKEY_VALID_FLAGS|CERT_PKEY_CA_SIGNATURE|CERT_PKEY_CA_PARAM \
- | CERT_PKEY_ISSUER_NAME|CERT_PKEY_CERT_TYPE)
- int tls1_check_chain(SSL_CONNECTION *s, X509 *x, EVP_PKEY *pk,
- STACK_OF(X509) *chain, int idx)
- {
- int i;
- int rv = 0;
- int check_flags = 0, strict_mode;
- CERT_PKEY *cpk = NULL;
- CERT *c = s->cert;
- uint32_t *pvalid;
- unsigned int suiteb_flags = tls1_suiteb(s);
- /*
- * Meaning of idx:
- * idx == -1 means SSL_check_chain() invocation
- * idx == -2 means checking client certificate chains
- * idx >= 0 means checking SSL_PKEY index
- *
- * For RPK, where there may be no cert, we ignore -1
- */
- if (idx != -1) {
- if (idx == -2) {
- cpk = c->key;
- idx = (int)(cpk - c->pkeys);
- } else
- cpk = c->pkeys + idx;
- pvalid = s->s3.tmp.valid_flags + idx;
- x = cpk->x509;
- pk = cpk->privatekey;
- chain = cpk->chain;
- strict_mode = c->cert_flags & SSL_CERT_FLAGS_CHECK_TLS_STRICT;
- if (tls12_rpk_and_privkey(s, idx)) {
- if (EVP_PKEY_is_a(pk, "EC") && !tls1_check_pkey_comp(s, pk))
- return 0;
- *pvalid = rv = CERT_PKEY_RPK;
- return rv;
- }
- /* If no cert or key, forget it */
- if (x == NULL || pk == NULL)
- goto end;
- } else {
- size_t certidx;
- if (x == NULL || pk == NULL)
- return 0;
- if (ssl_cert_lookup_by_pkey(pk, &certidx,
- SSL_CONNECTION_GET_CTX(s)) == NULL)
- return 0;
- idx = certidx;
- pvalid = s->s3.tmp.valid_flags + idx;
- if (c->cert_flags & SSL_CERT_FLAGS_CHECK_TLS_STRICT)
- check_flags = CERT_PKEY_STRICT_FLAGS;
- else
- check_flags = CERT_PKEY_VALID_FLAGS;
- strict_mode = 1;
- }
- if (suiteb_flags) {
- int ok;
- if (check_flags)
- check_flags |= CERT_PKEY_SUITEB;
- ok = X509_chain_check_suiteb(NULL, x, chain, suiteb_flags);
- if (ok == X509_V_OK)
- rv |= CERT_PKEY_SUITEB;
- else if (!check_flags)
- goto end;
- }
- /*
- * Check all signature algorithms are consistent with signature
- * algorithms extension if TLS 1.2 or later and strict mode.
- */
- if (TLS1_get_version(SSL_CONNECTION_GET_SSL(s)) >= TLS1_2_VERSION
- && strict_mode) {
- int default_nid;
- int rsign = 0;
- if (s->s3.tmp.peer_cert_sigalgs != NULL
- || s->s3.tmp.peer_sigalgs != NULL) {
- default_nid = 0;
- /* If no sigalgs extension use defaults from RFC5246 */
- } else {
- switch (idx) {
- case SSL_PKEY_RSA:
- rsign = EVP_PKEY_RSA;
- default_nid = NID_sha1WithRSAEncryption;
- break;
- case SSL_PKEY_DSA_SIGN:
- rsign = EVP_PKEY_DSA;
- default_nid = NID_dsaWithSHA1;
- break;
- case SSL_PKEY_ECC:
- rsign = EVP_PKEY_EC;
- default_nid = NID_ecdsa_with_SHA1;
- break;
- case SSL_PKEY_GOST01:
- rsign = NID_id_GostR3410_2001;
- default_nid = NID_id_GostR3411_94_with_GostR3410_2001;
- break;
- case SSL_PKEY_GOST12_256:
- rsign = NID_id_GostR3410_2012_256;
- default_nid = NID_id_tc26_signwithdigest_gost3410_2012_256;
- break;
- case SSL_PKEY_GOST12_512:
- rsign = NID_id_GostR3410_2012_512;
- default_nid = NID_id_tc26_signwithdigest_gost3410_2012_512;
- break;
- default:
- default_nid = -1;
- break;
- }
- }
- /*
- * If peer sent no signature algorithms extension and we have set
- * preferred signature algorithms check we support sha1.
- */
- if (default_nid > 0 && c->conf_sigalgs) {
- size_t j;
- const uint16_t *p = c->conf_sigalgs;
- for (j = 0; j < c->conf_sigalgslen; j++, p++) {
- const SIGALG_LOOKUP *lu = tls1_lookup_sigalg(s, *p);
- if (lu != NULL && lu->hash == NID_sha1 && lu->sig == rsign)
- break;
- }
- if (j == c->conf_sigalgslen) {
- if (check_flags)
- goto skip_sigs;
- else
- goto end;
- }
- }
- /* Check signature algorithm of each cert in chain */
- if (SSL_CONNECTION_IS_TLS13(s)) {
- /*
- * We only get here if the application has called SSL_check_chain(),
- * so check_flags is always set.
- */
- if (find_sig_alg(s, x, pk) != NULL)
- rv |= CERT_PKEY_EE_SIGNATURE;
- } else if (!tls1_check_sig_alg(s, x, default_nid)) {
- if (!check_flags)
- goto end;
- } else
- rv |= CERT_PKEY_EE_SIGNATURE;
- rv |= CERT_PKEY_CA_SIGNATURE;
- for (i = 0; i < sk_X509_num(chain); i++) {
- if (!tls1_check_sig_alg(s, sk_X509_value(chain, i), default_nid)) {
- if (check_flags) {
- rv &= ~CERT_PKEY_CA_SIGNATURE;
- break;
- } else
- goto end;
- }
- }
- }
- /* Else not TLS 1.2, so mark EE and CA signing algorithms OK */
- else if (check_flags)
- rv |= CERT_PKEY_EE_SIGNATURE | CERT_PKEY_CA_SIGNATURE;
- skip_sigs:
- /* Check cert parameters are consistent */
- if (tls1_check_cert_param(s, x, 1))
- rv |= CERT_PKEY_EE_PARAM;
- else if (!check_flags)
- goto end;
- if (!s->server)
- rv |= CERT_PKEY_CA_PARAM;
- /* In strict mode check rest of chain too */
- else if (strict_mode) {
- rv |= CERT_PKEY_CA_PARAM;
- for (i = 0; i < sk_X509_num(chain); i++) {
- X509 *ca = sk_X509_value(chain, i);
- if (!tls1_check_cert_param(s, ca, 0)) {
- if (check_flags) {
- rv &= ~CERT_PKEY_CA_PARAM;
- break;
- } else
- goto end;
- }
- }
- }
- if (!s->server && strict_mode) {
- STACK_OF(X509_NAME) *ca_dn;
- int check_type = 0;
- if (EVP_PKEY_is_a(pk, "RSA"))
- check_type = TLS_CT_RSA_SIGN;
- else if (EVP_PKEY_is_a(pk, "DSA"))
- check_type = TLS_CT_DSS_SIGN;
- else if (EVP_PKEY_is_a(pk, "EC"))
- check_type = TLS_CT_ECDSA_SIGN;
- if (check_type) {
- const uint8_t *ctypes = s->s3.tmp.ctype;
- size_t j;
- for (j = 0; j < s->s3.tmp.ctype_len; j++, ctypes++) {
- if (*ctypes == check_type) {
- rv |= CERT_PKEY_CERT_TYPE;
- break;
- }
- }
- if (!(rv & CERT_PKEY_CERT_TYPE) && !check_flags)
- goto end;
- } else {
- rv |= CERT_PKEY_CERT_TYPE;
- }
- ca_dn = s->s3.tmp.peer_ca_names;
- if (ca_dn == NULL
- || sk_X509_NAME_num(ca_dn) == 0
- || ssl_check_ca_name(ca_dn, x))
- rv |= CERT_PKEY_ISSUER_NAME;
- else
- for (i = 0; i < sk_X509_num(chain); i++) {
- X509 *xtmp = sk_X509_value(chain, i);
- if (ssl_check_ca_name(ca_dn, xtmp)) {
- rv |= CERT_PKEY_ISSUER_NAME;
- break;
- }
- }
- if (!check_flags && !(rv & CERT_PKEY_ISSUER_NAME))
- goto end;
- } else
- rv |= CERT_PKEY_ISSUER_NAME | CERT_PKEY_CERT_TYPE;
- if (!check_flags || (rv & check_flags) == check_flags)
- rv |= CERT_PKEY_VALID;
- end:
- if (TLS1_get_version(SSL_CONNECTION_GET_SSL(s)) >= TLS1_2_VERSION)
- rv |= *pvalid & (CERT_PKEY_EXPLICIT_SIGN | CERT_PKEY_SIGN);
- else
- rv |= CERT_PKEY_SIGN | CERT_PKEY_EXPLICIT_SIGN;
- /*
- * When checking a CERT_PKEY structure all flags are irrelevant if the
- * chain is invalid.
- */
- if (!check_flags) {
- if (rv & CERT_PKEY_VALID) {
- *pvalid = rv;
- } else {
- /* Preserve sign and explicit sign flag, clear rest */
- *pvalid &= CERT_PKEY_EXPLICIT_SIGN | CERT_PKEY_SIGN;
- return 0;
- }
- }
- return rv;
- }
- /* Set validity of certificates in an SSL structure */
- void tls1_set_cert_validity(SSL_CONNECTION *s)
- {
- tls1_check_chain(s, NULL, NULL, NULL, SSL_PKEY_RSA);
- tls1_check_chain(s, NULL, NULL, NULL, SSL_PKEY_RSA_PSS_SIGN);
- tls1_check_chain(s, NULL, NULL, NULL, SSL_PKEY_DSA_SIGN);
- tls1_check_chain(s, NULL, NULL, NULL, SSL_PKEY_ECC);
- tls1_check_chain(s, NULL, NULL, NULL, SSL_PKEY_GOST01);
- tls1_check_chain(s, NULL, NULL, NULL, SSL_PKEY_GOST12_256);
- tls1_check_chain(s, NULL, NULL, NULL, SSL_PKEY_GOST12_512);
- tls1_check_chain(s, NULL, NULL, NULL, SSL_PKEY_ED25519);
- tls1_check_chain(s, NULL, NULL, NULL, SSL_PKEY_ED448);
- }
- /* User level utility function to check a chain is suitable */
- int SSL_check_chain(SSL *s, X509 *x, EVP_PKEY *pk, STACK_OF(X509) *chain)
- {
- SSL_CONNECTION *sc = SSL_CONNECTION_FROM_SSL(s);
- if (sc == NULL)
- return 0;
- return tls1_check_chain(sc, x, pk, chain, -1);
- }
- EVP_PKEY *ssl_get_auto_dh(SSL_CONNECTION *s)
- {
- EVP_PKEY *dhp = NULL;
- BIGNUM *p;
- int dh_secbits = 80, sec_level_bits;
- EVP_PKEY_CTX *pctx = NULL;
- OSSL_PARAM_BLD *tmpl = NULL;
- OSSL_PARAM *params = NULL;
- SSL_CTX *sctx = SSL_CONNECTION_GET_CTX(s);
- if (s->cert->dh_tmp_auto != 2) {
- if (s->s3.tmp.new_cipher->algorithm_auth & (SSL_aNULL | SSL_aPSK)) {
- if (s->s3.tmp.new_cipher->strength_bits == 256)
- dh_secbits = 128;
- else
- dh_secbits = 80;
- } else {
- if (s->s3.tmp.cert == NULL)
- return NULL;
- dh_secbits = EVP_PKEY_get_security_bits(s->s3.tmp.cert->privatekey);
- }
- }
- /* Do not pick a prime that is too weak for the current security level */
- sec_level_bits = ssl_get_security_level_bits(SSL_CONNECTION_GET_SSL(s),
- NULL, NULL);
- if (dh_secbits < sec_level_bits)
- dh_secbits = sec_level_bits;
- if (dh_secbits >= 192)
- p = BN_get_rfc3526_prime_8192(NULL);
- else if (dh_secbits >= 152)
- p = BN_get_rfc3526_prime_4096(NULL);
- else if (dh_secbits >= 128)
- p = BN_get_rfc3526_prime_3072(NULL);
- else if (dh_secbits >= 112)
- p = BN_get_rfc3526_prime_2048(NULL);
- else
- p = BN_get_rfc2409_prime_1024(NULL);
- if (p == NULL)
- goto err;
- pctx = EVP_PKEY_CTX_new_from_name(sctx->libctx, "DH", sctx->propq);
- if (pctx == NULL
- || EVP_PKEY_fromdata_init(pctx) != 1)
- goto err;
- tmpl = OSSL_PARAM_BLD_new();
- if (tmpl == NULL
- || !OSSL_PARAM_BLD_push_BN(tmpl, OSSL_PKEY_PARAM_FFC_P, p)
- || !OSSL_PARAM_BLD_push_uint(tmpl, OSSL_PKEY_PARAM_FFC_G, 2))
- goto err;
- params = OSSL_PARAM_BLD_to_param(tmpl);
- if (params == NULL
- || EVP_PKEY_fromdata(pctx, &dhp, EVP_PKEY_KEY_PARAMETERS, params) != 1)
- goto err;
- err:
- OSSL_PARAM_free(params);
- OSSL_PARAM_BLD_free(tmpl);
- EVP_PKEY_CTX_free(pctx);
- BN_free(p);
- return dhp;
- }
- static int ssl_security_cert_key(SSL_CONNECTION *s, SSL_CTX *ctx, X509 *x,
- int op)
- {
- int secbits = -1;
- EVP_PKEY *pkey = X509_get0_pubkey(x);
- if (pkey) {
- /*
- * If no parameters this will return -1 and fail using the default
- * security callback for any non-zero security level. This will
- * reject keys which omit parameters but this only affects DSA and
- * omission of parameters is never (?) done in practice.
- */
- secbits = EVP_PKEY_get_security_bits(pkey);
- }
- if (s != NULL)
- return ssl_security(s, op, secbits, 0, x);
- else
- return ssl_ctx_security(ctx, op, secbits, 0, x);
- }
- static int ssl_security_cert_sig(SSL_CONNECTION *s, SSL_CTX *ctx, X509 *x,
- int op)
- {
- /* Lookup signature algorithm digest */
- int secbits, nid, pknid;
- /* Don't check signature if self signed */
- if ((X509_get_extension_flags(x) & EXFLAG_SS) != 0)
- return 1;
- if (!X509_get_signature_info(x, &nid, &pknid, &secbits, NULL))
- secbits = -1;
- /* If digest NID not defined use signature NID */
- if (nid == NID_undef)
- nid = pknid;
- if (s != NULL)
- return ssl_security(s, op, secbits, nid, x);
- else
- return ssl_ctx_security(ctx, op, secbits, nid, x);
- }
- int ssl_security_cert(SSL_CONNECTION *s, SSL_CTX *ctx, X509 *x, int vfy,
- int is_ee)
- {
- if (vfy)
- vfy = SSL_SECOP_PEER;
- if (is_ee) {
- if (!ssl_security_cert_key(s, ctx, x, SSL_SECOP_EE_KEY | vfy))
- return SSL_R_EE_KEY_TOO_SMALL;
- } else {
- if (!ssl_security_cert_key(s, ctx, x, SSL_SECOP_CA_KEY | vfy))
- return SSL_R_CA_KEY_TOO_SMALL;
- }
- if (!ssl_security_cert_sig(s, ctx, x, SSL_SECOP_CA_MD | vfy))
- return SSL_R_CA_MD_TOO_WEAK;
- return 1;
- }
- /*
- * Check security of a chain, if |sk| includes the end entity certificate then
- * |x| is NULL. If |vfy| is 1 then we are verifying a peer chain and not sending
- * one to the peer. Return values: 1 if ok otherwise error code to use
- */
- int ssl_security_cert_chain(SSL_CONNECTION *s, STACK_OF(X509) *sk,
- X509 *x, int vfy)
- {
- int rv, start_idx, i;
- if (x == NULL) {
- x = sk_X509_value(sk, 0);
- if (x == NULL)
- return ERR_R_INTERNAL_ERROR;
- start_idx = 1;
- } else
- start_idx = 0;
- rv = ssl_security_cert(s, NULL, x, vfy, 1);
- if (rv != 1)
- return rv;
- for (i = start_idx; i < sk_X509_num(sk); i++) {
- x = sk_X509_value(sk, i);
- rv = ssl_security_cert(s, NULL, x, vfy, 0);
- if (rv != 1)
- return rv;
- }
- return 1;
- }
- /*
- * For TLS 1.2 servers check if we have a certificate which can be used
- * with the signature algorithm "lu" and return index of certificate.
- */
- static int tls12_get_cert_sigalg_idx(const SSL_CONNECTION *s,
- const SIGALG_LOOKUP *lu)
- {
- int sig_idx = lu->sig_idx;
- const SSL_CERT_LOOKUP *clu = ssl_cert_lookup_by_idx(sig_idx,
- SSL_CONNECTION_GET_CTX(s));
- /* If not recognised or not supported by cipher mask it is not suitable */
- if (clu == NULL
- || (clu->amask & s->s3.tmp.new_cipher->algorithm_auth) == 0
- || (clu->nid == EVP_PKEY_RSA_PSS
- && (s->s3.tmp.new_cipher->algorithm_mkey & SSL_kRSA) != 0))
- return -1;
- /* If doing RPK, the CERT_PKEY won't be "valid" */
- if (tls12_rpk_and_privkey(s, sig_idx))
- return s->s3.tmp.valid_flags[sig_idx] & CERT_PKEY_RPK ? sig_idx : -1;
- return s->s3.tmp.valid_flags[sig_idx] & CERT_PKEY_VALID ? sig_idx : -1;
- }
- /*
- * Checks the given cert against signature_algorithm_cert restrictions sent by
- * the peer (if any) as well as whether the hash from the sigalg is usable with
- * the key.
- * Returns true if the cert is usable and false otherwise.
- */
- static int check_cert_usable(SSL_CONNECTION *s, const SIGALG_LOOKUP *sig,
- X509 *x, EVP_PKEY *pkey)
- {
- const SIGALG_LOOKUP *lu;
- int mdnid, pknid, supported;
- size_t i;
- const char *mdname = NULL;
- SSL_CTX *sctx = SSL_CONNECTION_GET_CTX(s);
- /*
- * If the given EVP_PKEY cannot support signing with this digest,
- * the answer is simply 'no'.
- */
- if (sig->hash != NID_undef)
- mdname = OBJ_nid2sn(sig->hash);
- supported = EVP_PKEY_digestsign_supports_digest(pkey, sctx->libctx,
- mdname,
- sctx->propq);
- if (supported <= 0)
- return 0;
- /*
- * The TLS 1.3 signature_algorithms_cert extension places restrictions
- * on the sigalg with which the certificate was signed (by its issuer).
- */
- if (s->s3.tmp.peer_cert_sigalgs != NULL) {
- if (!X509_get_signature_info(x, &mdnid, &pknid, NULL, NULL))
- return 0;
- for (i = 0; i < s->s3.tmp.peer_cert_sigalgslen; i++) {
- lu = tls1_lookup_sigalg(s, s->s3.tmp.peer_cert_sigalgs[i]);
- if (lu == NULL)
- continue;
- /*
- * This does not differentiate between the
- * rsa_pss_pss_* and rsa_pss_rsae_* schemes since we do not
- * have a chain here that lets us look at the key OID in the
- * signing certificate.
- */
- if (mdnid == lu->hash && pknid == lu->sig)
- return 1;
- }
- return 0;
- }
- /*
- * Without signat_algorithms_cert, any certificate for which we have
- * a viable public key is permitted.
- */
- return 1;
- }
- /*
- * Returns true if |s| has a usable certificate configured for use
- * with signature scheme |sig|.
- * "Usable" includes a check for presence as well as applying
- * the signature_algorithm_cert restrictions sent by the peer (if any).
- * Returns false if no usable certificate is found.
- */
- static int has_usable_cert(SSL_CONNECTION *s, const SIGALG_LOOKUP *sig, int idx)
- {
- /* TLS 1.2 callers can override sig->sig_idx, but not TLS 1.3 callers. */
- if (idx == -1)
- idx = sig->sig_idx;
- if (!ssl_has_cert(s, idx))
- return 0;
- return check_cert_usable(s, sig, s->cert->pkeys[idx].x509,
- s->cert->pkeys[idx].privatekey);
- }
- /*
- * Returns true if the supplied cert |x| and key |pkey| is usable with the
- * specified signature scheme |sig|, or false otherwise.
- */
- static int is_cert_usable(SSL_CONNECTION *s, const SIGALG_LOOKUP *sig, X509 *x,
- EVP_PKEY *pkey)
- {
- size_t idx;
- if (ssl_cert_lookup_by_pkey(pkey, &idx, SSL_CONNECTION_GET_CTX(s)) == NULL)
- return 0;
- /* Check the key is consistent with the sig alg */
- if ((int)idx != sig->sig_idx)
- return 0;
- return check_cert_usable(s, sig, x, pkey);
- }
- /*
- * Find a signature scheme that works with the supplied certificate |x| and key
- * |pkey|. |x| and |pkey| may be NULL in which case we additionally look at our
- * available certs/keys to find one that works.
- */
- static const SIGALG_LOOKUP *find_sig_alg(SSL_CONNECTION *s, X509 *x,
- EVP_PKEY *pkey)
- {
- const SIGALG_LOOKUP *lu = NULL;
- size_t i;
- int curve = -1;
- EVP_PKEY *tmppkey;
- SSL_CTX *sctx = SSL_CONNECTION_GET_CTX(s);
- /* Look for a shared sigalgs matching possible certificates */
- for (i = 0; i < s->shared_sigalgslen; i++) {
- lu = s->shared_sigalgs[i];
- /* Skip SHA1, SHA224, DSA and RSA if not PSS */
- if (lu->hash == NID_sha1
- || lu->hash == NID_sha224
- || lu->sig == EVP_PKEY_DSA
- || lu->sig == EVP_PKEY_RSA)
- continue;
- /* Check that we have a cert, and signature_algorithms_cert */
- if (!tls1_lookup_md(sctx, lu, NULL))
- continue;
- if ((pkey == NULL && !has_usable_cert(s, lu, -1))
- || (pkey != NULL && !is_cert_usable(s, lu, x, pkey)))
- continue;
- tmppkey = (pkey != NULL) ? pkey
- : s->cert->pkeys[lu->sig_idx].privatekey;
- if (lu->sig == EVP_PKEY_EC) {
- if (curve == -1)
- curve = ssl_get_EC_curve_nid(tmppkey);
- if (lu->curve != NID_undef && curve != lu->curve)
- continue;
- } else if (lu->sig == EVP_PKEY_RSA_PSS) {
- /* validate that key is large enough for the signature algorithm */
- if (!rsa_pss_check_min_key_size(sctx, tmppkey, lu))
- continue;
- }
- break;
- }
- if (i == s->shared_sigalgslen)
- return NULL;
- return lu;
- }
- /*
- * Choose an appropriate signature algorithm based on available certificates
- * Sets chosen certificate and signature algorithm.
- *
- * For servers if we fail to find a required certificate it is a fatal error,
- * an appropriate error code is set and a TLS alert is sent.
- *
- * For clients fatalerrs is set to 0. If a certificate is not suitable it is not
- * a fatal error: we will either try another certificate or not present one
- * to the server. In this case no error is set.
- */
- int tls_choose_sigalg(SSL_CONNECTION *s, int fatalerrs)
- {
- const SIGALG_LOOKUP *lu = NULL;
- int sig_idx = -1;
- s->s3.tmp.cert = NULL;
- s->s3.tmp.sigalg = NULL;
- if (SSL_CONNECTION_IS_TLS13(s)) {
- lu = find_sig_alg(s, NULL, NULL);
- if (lu == NULL) {
- if (!fatalerrs)
- return 1;
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE,
- SSL_R_NO_SUITABLE_SIGNATURE_ALGORITHM);
- return 0;
- }
- } else {
- /* If ciphersuite doesn't require a cert nothing to do */
- if (!(s->s3.tmp.new_cipher->algorithm_auth & SSL_aCERT))
- return 1;
- if (!s->server && !ssl_has_cert(s, s->cert->key - s->cert->pkeys))
- return 1;
- if (SSL_USE_SIGALGS(s)) {
- size_t i;
- if (s->s3.tmp.peer_sigalgs != NULL) {
- int curve = -1;
- SSL_CTX *sctx = SSL_CONNECTION_GET_CTX(s);
- /* For Suite B need to match signature algorithm to curve */
- if (tls1_suiteb(s))
- curve = ssl_get_EC_curve_nid(s->cert->pkeys[SSL_PKEY_ECC]
- .privatekey);
- /*
- * Find highest preference signature algorithm matching
- * cert type
- */
- for (i = 0; i < s->shared_sigalgslen; i++) {
- lu = s->shared_sigalgs[i];
- if (s->server) {
- if ((sig_idx = tls12_get_cert_sigalg_idx(s, lu)) == -1)
- continue;
- } else {
- int cc_idx = s->cert->key - s->cert->pkeys;
- sig_idx = lu->sig_idx;
- if (cc_idx != sig_idx)
- continue;
- }
- /* Check that we have a cert, and sig_algs_cert */
- if (!has_usable_cert(s, lu, sig_idx))
- continue;
- if (lu->sig == EVP_PKEY_RSA_PSS) {
- /* validate that key is large enough for the signature algorithm */
- EVP_PKEY *pkey = s->cert->pkeys[sig_idx].privatekey;
- if (!rsa_pss_check_min_key_size(sctx, pkey, lu))
- continue;
- }
- if (curve == -1 || lu->curve == curve)
- break;
- }
- #ifndef OPENSSL_NO_GOST
- /*
- * Some Windows-based implementations do not send GOST algorithms indication
- * in supported_algorithms extension, so when we have GOST-based ciphersuite,
- * we have to assume GOST support.
- */
- if (i == s->shared_sigalgslen
- && (s->s3.tmp.new_cipher->algorithm_auth
- & (SSL_aGOST01 | SSL_aGOST12)) != 0) {
- if ((lu = tls1_get_legacy_sigalg(s, -1)) == NULL) {
- if (!fatalerrs)
- return 1;
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE,
- SSL_R_NO_SUITABLE_SIGNATURE_ALGORITHM);
- return 0;
- } else {
- i = 0;
- sig_idx = lu->sig_idx;
- }
- }
- #endif
- if (i == s->shared_sigalgslen) {
- if (!fatalerrs)
- return 1;
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE,
- SSL_R_NO_SUITABLE_SIGNATURE_ALGORITHM);
- return 0;
- }
- } else {
- /*
- * If we have no sigalg use defaults
- */
- const uint16_t *sent_sigs;
- size_t sent_sigslen;
- if ((lu = tls1_get_legacy_sigalg(s, -1)) == NULL) {
- if (!fatalerrs)
- return 1;
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE,
- SSL_R_NO_SUITABLE_SIGNATURE_ALGORITHM);
- return 0;
- }
- /* Check signature matches a type we sent */
- sent_sigslen = tls12_get_psigalgs(s, 1, &sent_sigs);
- for (i = 0; i < sent_sigslen; i++, sent_sigs++) {
- if (lu->sigalg == *sent_sigs
- && has_usable_cert(s, lu, lu->sig_idx))
- break;
- }
- if (i == sent_sigslen) {
- if (!fatalerrs)
- return 1;
- SSLfatal(s, SSL_AD_HANDSHAKE_FAILURE,
- SSL_R_WRONG_SIGNATURE_TYPE);
- return 0;
- }
- }
- } else {
- if ((lu = tls1_get_legacy_sigalg(s, -1)) == NULL) {
- if (!fatalerrs)
- return 1;
- SSLfatal(s, SSL_AD_INTERNAL_ERROR,
- SSL_R_NO_SUITABLE_SIGNATURE_ALGORITHM);
- return 0;
- }
- }
- }
- if (sig_idx == -1)
- sig_idx = lu->sig_idx;
- s->s3.tmp.cert = &s->cert->pkeys[sig_idx];
- s->cert->key = s->s3.tmp.cert;
- s->s3.tmp.sigalg = lu;
- return 1;
- }
- int SSL_CTX_set_tlsext_max_fragment_length(SSL_CTX *ctx, uint8_t mode)
- {
- if (mode != TLSEXT_max_fragment_length_DISABLED
- && !IS_MAX_FRAGMENT_LENGTH_EXT_VALID(mode)) {
- ERR_raise(ERR_LIB_SSL, SSL_R_SSL3_EXT_INVALID_MAX_FRAGMENT_LENGTH);
- return 0;
- }
- ctx->ext.max_fragment_len_mode = mode;
- return 1;
- }
- int SSL_set_tlsext_max_fragment_length(SSL *ssl, uint8_t mode)
- {
- SSL_CONNECTION *sc = SSL_CONNECTION_FROM_SSL(ssl);
- if (sc == NULL
- || (IS_QUIC(ssl) && mode != TLSEXT_max_fragment_length_DISABLED))
- return 0;
- if (mode != TLSEXT_max_fragment_length_DISABLED
- && !IS_MAX_FRAGMENT_LENGTH_EXT_VALID(mode)) {
- ERR_raise(ERR_LIB_SSL, SSL_R_SSL3_EXT_INVALID_MAX_FRAGMENT_LENGTH);
- return 0;
- }
- sc->ext.max_fragment_len_mode = mode;
- return 1;
- }
- uint8_t SSL_SESSION_get_max_fragment_length(const SSL_SESSION *session)
- {
- return session->ext.max_fragment_len_mode;
- }
- /*
- * Helper functions for HMAC access with legacy support included.
- */
- SSL_HMAC *ssl_hmac_new(const SSL_CTX *ctx)
- {
- SSL_HMAC *ret = OPENSSL_zalloc(sizeof(*ret));
- EVP_MAC *mac = NULL;
- if (ret == NULL)
- return NULL;
- #ifndef OPENSSL_NO_DEPRECATED_3_0
- if (ctx->ext.ticket_key_evp_cb == NULL
- && ctx->ext.ticket_key_cb != NULL) {
- if (!ssl_hmac_old_new(ret))
- goto err;
- return ret;
- }
- #endif
- mac = EVP_MAC_fetch(ctx->libctx, "HMAC", ctx->propq);
- if (mac == NULL || (ret->ctx = EVP_MAC_CTX_new(mac)) == NULL)
- goto err;
- EVP_MAC_free(mac);
- return ret;
- err:
- EVP_MAC_CTX_free(ret->ctx);
- EVP_MAC_free(mac);
- OPENSSL_free(ret);
- return NULL;
- }
- void ssl_hmac_free(SSL_HMAC *ctx)
- {
- if (ctx != NULL) {
- EVP_MAC_CTX_free(ctx->ctx);
- #ifndef OPENSSL_NO_DEPRECATED_3_0
- ssl_hmac_old_free(ctx);
- #endif
- OPENSSL_free(ctx);
- }
- }
- EVP_MAC_CTX *ssl_hmac_get0_EVP_MAC_CTX(SSL_HMAC *ctx)
- {
- return ctx->ctx;
- }
- int ssl_hmac_init(SSL_HMAC *ctx, void *key, size_t len, char *md)
- {
- OSSL_PARAM params[2], *p = params;
- if (ctx->ctx != NULL) {
- *p++ = OSSL_PARAM_construct_utf8_string(OSSL_MAC_PARAM_DIGEST, md, 0);
- *p = OSSL_PARAM_construct_end();
- if (EVP_MAC_init(ctx->ctx, key, len, params))
- return 1;
- }
- #ifndef OPENSSL_NO_DEPRECATED_3_0
- if (ctx->old_ctx != NULL)
- return ssl_hmac_old_init(ctx, key, len, md);
- #endif
- return 0;
- }
- int ssl_hmac_update(SSL_HMAC *ctx, const unsigned char *data, size_t len)
- {
- if (ctx->ctx != NULL)
- return EVP_MAC_update(ctx->ctx, data, len);
- #ifndef OPENSSL_NO_DEPRECATED_3_0
- if (ctx->old_ctx != NULL)
- return ssl_hmac_old_update(ctx, data, len);
- #endif
- return 0;
- }
- int ssl_hmac_final(SSL_HMAC *ctx, unsigned char *md, size_t *len,
- size_t max_size)
- {
- if (ctx->ctx != NULL)
- return EVP_MAC_final(ctx->ctx, md, len, max_size);
- #ifndef OPENSSL_NO_DEPRECATED_3_0
- if (ctx->old_ctx != NULL)
- return ssl_hmac_old_final(ctx, md, len);
- #endif
- return 0;
- }
- size_t ssl_hmac_size(const SSL_HMAC *ctx)
- {
- if (ctx->ctx != NULL)
- return EVP_MAC_CTX_get_mac_size(ctx->ctx);
- #ifndef OPENSSL_NO_DEPRECATED_3_0
- if (ctx->old_ctx != NULL)
- return ssl_hmac_old_size(ctx);
- #endif
- return 0;
- }
- int ssl_get_EC_curve_nid(const EVP_PKEY *pkey)
- {
- char gname[OSSL_MAX_NAME_SIZE];
- if (EVP_PKEY_get_group_name(pkey, gname, sizeof(gname), NULL) > 0)
- return OBJ_txt2nid(gname);
- return NID_undef;
- }
- __owur int tls13_set_encoded_pub_key(EVP_PKEY *pkey,
- const unsigned char *enckey,
- size_t enckeylen)
- {
- if (EVP_PKEY_is_a(pkey, "DH")) {
- int bits = EVP_PKEY_get_bits(pkey);
- if (bits <= 0 || enckeylen != (size_t)bits / 8)
- /* the encoded key must be padded to the length of the p */
- return 0;
- } else if (EVP_PKEY_is_a(pkey, "EC")) {
- if (enckeylen < 3 /* point format and at least 1 byte for x and y */
- || enckey[0] != 0x04)
- return 0;
- }
- return EVP_PKEY_set1_encoded_public_key(pkey, enckey, enckeylen);
- }
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