/* * Copyright (C) 2011 Tobias Brunner * Hochschule fuer Technik Rapperswil * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. See . * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. */ #include "pkcs11_dh.h" #include #include #include #include #include "pkcs11_manager.h" typedef struct private_pkcs11_dh_t private_pkcs11_dh_t; /** * Private data of an pkcs11_dh_t object. */ struct private_pkcs11_dh_t { /** * Public pkcs11_dh_t interface */ pkcs11_dh_t public; /** * PKCS#11 library */ pkcs11_library_t *lib; /** * Session handle for this objct */ CK_SESSION_HANDLE session; /** * Diffie Hellman group number. */ u_int16_t group; /** * Handle for own private value */ CK_OBJECT_HANDLE pri_key; /** * Own public value */ chunk_t pub_key; /** * Shared secret */ chunk_t secret; /** * Mechanism to use to generate a key pair */ CK_MECHANISM_TYPE mech_key; /** * Mechanism to use to derive a shared secret */ CK_MECHANISM_TYPE mech_derive; }; /** * Derive a DH/ECDH shared secret. * * If this succeeds the shared secret is stored in this->secret. */ static void derive_secret(private_pkcs11_dh_t *this, chunk_t other) { CK_OBJECT_CLASS klass = CKO_SECRET_KEY; CK_KEY_TYPE type = CKK_GENERIC_SECRET; CK_ATTRIBUTE attr[] = { { CKA_CLASS, &klass, sizeof(klass) }, { CKA_KEY_TYPE, &type, sizeof(type) }, }; CK_MECHANISM mech = { this->mech_derive, other.ptr, other.len, }; CK_OBJECT_HANDLE secret; CK_RV rv; rv = this->lib->f->C_DeriveKey(this->session, &mech, this->pri_key, attr, countof(attr), &secret); if (rv != CKR_OK) { DBG1(DBG_CFG, "C_DeriveKey() error: %N", ck_rv_names, rv); return; } if (!this->lib->get_ck_attribute(this->lib, this->session, secret, CKA_VALUE, &this->secret)) { chunk_free(&this->secret); return; } } METHOD(diffie_hellman_t, set_other_public_value, void, private_pkcs11_dh_t *this, chunk_t value) { switch (this->group) { case ECP_192_BIT: case ECP_224_BIT: case ECP_256_BIT: case ECP_384_BIT: case ECP_521_BIT: { /* we expect the public value to just be the concatenated x and y * coordinates, so we tag the value as an uncompressed ECPoint */ chunk_t tag = chunk_from_chars(0x04); chunk_t pubkey = chunk_cata("cc", tag, value); CK_ECDH1_DERIVE_PARAMS params = { CKD_NULL, 0, NULL, pubkey.len, pubkey.ptr, }; if (!lib->settings->get_bool(lib->settings, "libstrongswan.ecp_x_coordinate_only", TRUE)) { /* we only get the x coordinate back */ return; } value = chunk_from_thing(params); break; } default: break; } derive_secret(this, value); } METHOD(diffie_hellman_t, get_my_public_value, void, private_pkcs11_dh_t *this, chunk_t *value) { *value = chunk_clone(this->pub_key); } METHOD(diffie_hellman_t, get_shared_secret, status_t, private_pkcs11_dh_t *this, chunk_t *secret) { if (!this->secret.ptr) { return FAILED; } *secret = chunk_clone(this->secret); return SUCCESS; } METHOD(diffie_hellman_t, get_dh_group, diffie_hellman_group_t, private_pkcs11_dh_t *this) { return this->group; } METHOD(diffie_hellman_t, destroy, void, private_pkcs11_dh_t *this) { this->lib->f->C_CloseSession(this->session); chunk_clear(&this->pub_key); chunk_clear(&this->secret); free(this); } /** * Generate a DH/ECDH key pair. * * If this succeeds, this->pri_key has a handle to the private key and * this->pub_key stores the public key. */ static bool generate_key_pair(private_pkcs11_dh_t *this, CK_ATTRIBUTE_PTR pub, int pub_len, CK_ATTRIBUTE_PTR pri, int pri_len, CK_ATTRIBUTE_TYPE attr) { CK_MECHANISM mech = { this->mech_key, NULL, 0, }; CK_OBJECT_HANDLE pub_key; CK_RV rv; rv = this->lib->f->C_GenerateKeyPair(this->session, &mech, pub, pub_len, pri, pri_len, &pub_key, &this->pri_key); if (rv != CKR_OK) { DBG1(DBG_CFG, "C_GenerateKeyPair() error: %N", ck_rv_names, rv); return FALSE; } if (!this->lib->get_ck_attribute(this->lib, this->session, pub_key, attr, &this->pub_key)) { chunk_free(&this->pub_key); return FALSE; } return TRUE; } /** * Generate DH key pair. */ static bool generate_key_pair_modp(private_pkcs11_dh_t *this, size_t exp_len, chunk_t g, chunk_t p) { CK_BBOOL ck_true = CK_TRUE; CK_ATTRIBUTE pub_attr[] = { { CKA_DERIVE, &ck_true, sizeof(ck_true) }, { CKA_PRIME, p.ptr, p.len }, { CKA_BASE, g.ptr, g.len }, }; CK_ULONG bits = exp_len * 8; CK_ATTRIBUTE pri_attr[] = { { CKA_DERIVE, &ck_true, sizeof(ck_true) }, { CKA_VALUE_BITS, &bits, sizeof(bits) }, }; return generate_key_pair(this, pub_attr, countof(pub_attr), pri_attr, countof(pri_attr), CKA_VALUE); } /** * Generate ECDH key pair. */ static bool generate_key_pair_ecp(private_pkcs11_dh_t *this, chunk_t ecparams) { CK_BBOOL ck_true = CK_TRUE; CK_ATTRIBUTE pub_attr[] = { { CKA_DERIVE, &ck_true, sizeof(ck_true) }, { CKA_EC_PARAMS, ecparams.ptr, ecparams.len }, }; CK_ATTRIBUTE pri_attr[] = { { CKA_DERIVE, &ck_true, sizeof(ck_true) }, }; chunk_t pub_key; if (!generate_key_pair(this, pub_attr, countof(pub_attr), pri_attr, countof(pri_attr), CKA_EC_POINT)) { return FALSE; } if (this->pub_key.len <= 0 || this->pub_key.ptr[0] != 0x04) { /* we currently only support the point in uncompressed form which * looks like this: 0x04 || x || y */ chunk_clear(&this->pub_key); return FALSE; } pub_key = chunk_clone(chunk_skip(this->pub_key, 1)); chunk_clear(&this->pub_key); this->pub_key = pub_key; return TRUE; } /** * Find a token we can use for DH/ECDH algorithm */ static pkcs11_library_t *find_token(private_pkcs11_dh_t *this, CK_SESSION_HANDLE *session) { enumerator_t *tokens, *mechs; pkcs11_manager_t *manager; pkcs11_library_t *current, *found = NULL; CK_MECHANISM_TYPE type; CK_SLOT_ID slot; manager = lib->get(lib, "pkcs11-manager"); if (!manager) { return NULL; } tokens = manager->create_token_enumerator(manager); while (tokens->enumerate(tokens, ¤t, &slot)) { mechs = current->create_mechanism_enumerator(current, slot); while (mechs->enumerate(mechs, &type, NULL)) { /* we assume we can generate key pairs if the derive mechanism * is supported */ if (type == this->mech_derive) { if (current->f->C_OpenSession(slot, CKF_SERIAL_SESSION, NULL, NULL, session) == CKR_OK) { found = current; break; } } } mechs->destroy(mechs); if (found) { break; } } tokens->destroy(tokens); return found; } /** * Generic internal constructor */ static private_pkcs11_dh_t *create_generic(diffie_hellman_group_t group, CK_MECHANISM_TYPE key, CK_MECHANISM_TYPE derive) { private_pkcs11_dh_t *this; INIT(this, .public = { .dh = { .get_shared_secret = _get_shared_secret, .set_other_public_value = _set_other_public_value, .get_my_public_value = _get_my_public_value, .get_dh_group = _get_dh_group, .destroy = _destroy, }, }, .group = group, .mech_key = key, .mech_derive = derive, ); this->lib = find_token(this, &this->session); if (!this->lib) { free(this); return NULL; } return this; } static pkcs11_dh_t *create_ecp(diffie_hellman_group_t group, chunk_t ecparam) { private_pkcs11_dh_t *this = create_generic(group, CKM_EC_KEY_PAIR_GEN, CKM_ECDH1_DERIVE); if (this) { if (generate_key_pair_ecp(this, ecparam)) { chunk_free(&ecparam); return &this->public; } chunk_free(&ecparam); free(this); } return NULL; } /** * Constructor for MODP DH */ static pkcs11_dh_t *create_modp(diffie_hellman_group_t group, size_t exp_len, chunk_t g, chunk_t p) { private_pkcs11_dh_t *this = create_generic(group, CKM_DH_PKCS_KEY_PAIR_GEN, CKM_DH_PKCS_DERIVE); if (this) { if (generate_key_pair_modp(this, exp_len, g, p)) { return &this->public; } free(this); } return NULL; } /** * Lookup the EC params for the given group. */ static chunk_t ecparams_lookup(diffie_hellman_group_t group) { switch (group) { case ECP_192_BIT: return asn1_build_known_oid(OID_PRIME192V1); case ECP_224_BIT: return asn1_build_known_oid(OID_SECT224R1); case ECP_256_BIT: return asn1_build_known_oid(OID_PRIME256V1); case ECP_384_BIT: return asn1_build_known_oid(OID_SECT384R1); case ECP_521_BIT: return asn1_build_known_oid(OID_SECT521R1); default: break; } return chunk_empty; } /** * Described in header. */ pkcs11_dh_t *pkcs11_dh_create(diffie_hellman_group_t group, chunk_t g, chunk_t p) { switch (group) { case MODP_CUSTOM: { return create_modp(group, p.len, g, p); } case ECP_192_BIT: case ECP_224_BIT: case ECP_256_BIT: case ECP_384_BIT: case ECP_521_BIT: { chunk_t params = ecparams_lookup(group); if (params.ptr) { return create_ecp(group, params); } break; } default: { diffie_hellman_params_t *params = diffie_hellman_get_params(group); if (params) { return create_modp(group, params->exp_len, params->generator, params->prime); } break; } } return NULL; }