/* * Copyright (c) 2006 - 2007 Kungliga Tekniska Högskolan * (Royal Institute of Technology, Stockholm, Sweden). * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include /** * @page page_dh DH - Diffie-Hellman key exchange * * Diffie-Hellman key exchange is a protocol that allows two parties * to establish a shared secret key. * * Include and example how to use DH_new() and friends here. * * See the library functions here: @ref hcrypto_dh */ /** * Create a new DH object using DH_new_method(NULL), see DH_new_method(). * * @return a newly allocated DH object. * * @ingroup hcrypto_dh */ DH * DH_new(void) { return DH_new_method(NULL); } /** * Create a new DH object from the given engine, if the NULL is used, * the default engine is used. Free the DH object with DH_free(). * * @param engine The engine to use to allocate the DH object. * * @return a newly allocated DH object. * * @ingroup hcrypto_dh */ DH * DH_new_method(ENGINE *engine) { DH *dh; dh = calloc(1, sizeof(*dh)); if (dh == NULL) return NULL; dh->references = 1; if (engine) { ENGINE_up_ref(engine); dh->engine = engine; } else { dh->engine = ENGINE_get_default_DH(); } if (dh->engine) { dh->meth = ENGINE_get_DH(dh->engine); if (dh->meth == NULL) { ENGINE_finish(engine); free(dh); return 0; } } if (dh->meth == NULL) dh->meth = DH_get_default_method(); (*dh->meth->init)(dh); return dh; } /** * Free a DH object and release related resources, like ENGINE, that * the object was using. * * @param dh object to be freed. * * @ingroup hcrypto_dh */ void DH_free(DH *dh) { if (dh->references <= 0) abort(); if (--dh->references > 0) return; (*dh->meth->finish)(dh); if (dh->engine) ENGINE_finish(dh->engine); #define free_if(f) if (f) { BN_free(f); } free_if(dh->p); free_if(dh->g); free_if(dh->pub_key); free_if(dh->priv_key); free_if(dh->q); free_if(dh->j); free_if(dh->counter); #undef free_if memset(dh, 0, sizeof(*dh)); free(dh); } /** * Add a reference to the DH object. The object should be free with * DH_free() to drop the reference. * * @param dh the object to increase the reference count too. * * @return the updated reference count, can't safely be used except * for debug printing. * * @ingroup hcrypto_dh */ int DH_up_ref(DH *dh) { return ++dh->references; } /** * The maximum output size of the DH_compute_key() function. * * @param dh The DH object to get the size from. * * @return the maximum size in bytes of the out data. * * @ingroup hcrypto_dh */ int DH_size(const DH *dh) { return BN_num_bytes(dh->p); } /** * Set the data index idx in the DH object to data. * * @param dh DH object. * @param idx index to set the data for. * @param data data to store for the index idx. * * @return 1 on success. * * @ingroup hcrypto_dh */ int DH_set_ex_data(DH *dh, int idx, void *data) { dh->ex_data.sk = data; return 1; } /** * Get the data for index idx in the DH object. * * @param dh DH object. * @param idx index to get the data for. * * @return the object store in index idx * * @ingroup hcrypto_dh */ void * DH_get_ex_data(DH *dh, int idx) { return dh->ex_data.sk; } /** * Generate DH parameters for the DH object give parameters. * * @param dh The DH object to generate parameters for. * @param prime_len length of the prime * @param generator generator, g * @param cb Callback parameters to show progress, can be NULL. * * @return the maximum size in bytes of the out data. * * @ingroup hcrypto_dh */ int DH_generate_parameters_ex(DH *dh, int prime_len, int generator, BN_GENCB *cb) { if (dh->meth->generate_params) return dh->meth->generate_params(dh, prime_len, generator, cb); return 0; } /** * Check that the public key is sane. * * @param dh the local peer DH parameters. * @param pub_key the remote peer public key parameters. * @param codes return that the failures of the pub_key are. * * @return 1 on success, 0 on failure and *codes is set the the * combined fail check for the public key * * @ingroup hcrypto_dh */ int DH_check_pubkey(const DH *dh, const BIGNUM *pub_key, int *codes) { BIGNUM *bn = NULL, *sum = NULL; int ret = 0; *codes = 0; /** * Checks that the function performs are: * - pub_key is not negative */ if (BN_is_negative(pub_key)) goto out; /** * - pub_key > 1 and pub_key < p - 1, * to avoid small subgroups attack. */ bn = BN_new(); if (bn == NULL) goto out; if (!BN_set_word(bn, 1)) goto out; if (BN_cmp(bn, pub_key) >= 0) *codes |= DH_CHECK_PUBKEY_TOO_SMALL; sum = BN_new(); if (sum == NULL) goto out; BN_uadd(sum, pub_key, bn); if (BN_cmp(sum, dh->p) >= 0) *codes |= DH_CHECK_PUBKEY_TOO_LARGE; /** * - if g == 2, pub_key have more then one bit set, * if bits set is 1, log_2(pub_key) is trival */ if (!BN_set_word(bn, 2)) goto out; if (BN_cmp(bn, dh->g) == 0) { unsigned i, n = BN_num_bits(pub_key); unsigned bits = 0; for (i = 0; i <= n; i++) if (BN_is_bit_set(pub_key, i)) bits++; if (bits < 2) { *codes |= DH_CHECK_PUBKEY_TOO_SMALL; goto out; } } ret = 1; out: if (bn) BN_free(bn); if (sum) BN_free(sum); return ret; } /** * Generate a new DH private-public key pair. The dh parameter must be * allocted first with DH_new(). dh->p and dp->g must be set. * * @param dh dh parameter. * * @return 1 on success. * * @ingroup hcrypto_dh */ int DH_generate_key(DH *dh) { return dh->meth->generate_key(dh); } /** * Complute the shared secret key. * * @param shared_key the resulting shared key, need to be at least * DH_size() large. * @param peer_pub_key the peer's public key. * @param dh the dh key pair. * * @return 1 on success. * * @ingroup hcrypto_dh */ int DH_compute_key(unsigned char *shared_key, const BIGNUM *peer_pub_key, DH *dh) { int codes; /** * Checks that the pubkey passed in is valid using * DH_check_pubkey(). */ if (!DH_check_pubkey(dh, peer_pub_key, &codes) || codes != 0) return -1; return dh->meth->compute_key(shared_key, peer_pub_key, dh); } /** * Set a new method for the DH keypair. * * @param dh dh parameter. * @param method the new method for the DH parameter. * * @return 1 on success. * * @ingroup hcrypto_dh */ int DH_set_method(DH *dh, const DH_METHOD *method) { (*dh->meth->finish)(dh); if (dh->engine) { ENGINE_finish(dh->engine); dh->engine = NULL; } dh->meth = method; (*dh->meth->init)(dh); return 1; } /* * */ static int dh_null_generate_key(DH *dh) { return 0; } static int dh_null_compute_key(unsigned char *shared,const BIGNUM *pub, DH *dh) { return 0; } static int dh_null_init(DH *dh) { return 1; } static int dh_null_finish(DH *dh) { return 1; } static int dh_null_generate_params(DH *dh, int prime_num, int len, BN_GENCB *cb) { return 0; } static const DH_METHOD dh_null_method = { "hcrypto null DH", dh_null_generate_key, dh_null_compute_key, NULL, dh_null_init, dh_null_finish, 0, NULL, dh_null_generate_params }; extern const DH_METHOD _hc_dh_ltm_method; static const DH_METHOD *dh_default_method = &_hc_dh_ltm_method; /** * Return the dummy DH implementation. * * @return pointer to a DH_METHOD. * * @ingroup hcrypto_dh */ const DH_METHOD * DH_null_method(void) { return &dh_null_method; } /** * Set the default DH implementation. * * @param meth pointer to a DH_METHOD. * * @ingroup hcrypto_dh */ void DH_set_default_method(const DH_METHOD *meth) { dh_default_method = meth; } /** * Return the default DH implementation. * * @return pointer to a DH_METHOD. * * @ingroup hcrypto_dh */ const DH_METHOD * DH_get_default_method(void) { return dh_default_method; } /* * */ static int bn2heim_int(BIGNUM *bn, heim_integer *integer) { integer->length = BN_num_bytes(bn); integer->data = malloc(integer->length); if (integer->data == NULL) { integer->length = 0; return ENOMEM; } BN_bn2bin(bn, integer->data); integer->negative = BN_is_negative(bn); return 0; } /** * */ int i2d_DHparams(DH *dh, unsigned char **pp) { DHParameter data; size_t size; int ret; memset(&data, 0, sizeof(data)); if (bn2heim_int(dh->p, &data.prime) || bn2heim_int(dh->g, &data.base)) { free_DHParameter(&data); return -1; } if (pp == NULL) { size = length_DHParameter(&data); free_DHParameter(&data); } else { void *p; size_t len; ASN1_MALLOC_ENCODE(DHParameter, p, len, &data, &size, ret); free_DHParameter(&data); if (ret) return -1; if (len != size) abort(); memcpy(*pp, p, size); free(p); *pp += size; } return size; }