#include #ifdef __rtems__ #include #include "rtems-bsd-racoon-namespace.h" #endif /* __rtems__ */ /* $NetBSD: algorithm.c,v 1.8 2006/10/06 12:02:27 manu Exp $ */ /* Id: algorithm.c,v 1.15 2006/05/23 20:23:09 manubsd Exp */ /* * Copyright (C) 1995, 1996, 1997, and 1998 WIDE Project. * 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 project 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 PROJECT 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 PROJECT 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. */ #include "config.h" #include #include #include #include "var.h" #include "misc.h" #include "vmbuf.h" #include "plog.h" #include "debug.h" #include "crypto_openssl.h" #include "dhgroup.h" #include "algorithm.h" #include "oakley.h" #include "isakmp_var.h" #include "isakmp.h" #include "ipsec_doi.h" #include "gcmalloc.h" static struct hash_algorithm oakley_hashdef[] = { { "md5", algtype_md5, OAKLEY_ATTR_HASH_ALG_MD5, eay_md5_init, eay_md5_update, eay_md5_final, eay_md5_hashlen, eay_md5_one, }, { "sha1", algtype_sha1, OAKLEY_ATTR_HASH_ALG_SHA, eay_sha1_init, eay_sha1_update, eay_sha1_final, eay_sha1_hashlen, eay_sha1_one, }, #ifdef WITH_SHA2 { "sha2_256", algtype_sha2_256, OAKLEY_ATTR_HASH_ALG_SHA2_256, eay_sha2_256_init, eay_sha2_256_update, eay_sha2_256_final, eay_sha2_256_hashlen, eay_sha2_256_one, }, { "sha2_384", algtype_sha2_384, OAKLEY_ATTR_HASH_ALG_SHA2_384, eay_sha2_384_init, eay_sha2_384_update, eay_sha2_384_final, eay_sha2_384_hashlen, eay_sha2_384_one, }, { "sha2_512", algtype_sha2_512, OAKLEY_ATTR_HASH_ALG_SHA2_512, eay_sha2_512_init, eay_sha2_512_update, eay_sha2_512_final, eay_sha2_512_hashlen, eay_sha2_512_one, }, #endif }; static struct hmac_algorithm oakley_hmacdef[] = { { "hmac_md5", algtype_md5, OAKLEY_ATTR_HASH_ALG_MD5, eay_hmacmd5_init, eay_hmacmd5_update, eay_hmacmd5_final, NULL, eay_hmacmd5_one, }, { "hmac_sha1", algtype_sha1, OAKLEY_ATTR_HASH_ALG_SHA, eay_hmacsha1_init, eay_hmacsha1_update, eay_hmacsha1_final, NULL, eay_hmacsha1_one, }, #ifdef WITH_SHA2 { "hmac_sha2_256", algtype_sha2_256, OAKLEY_ATTR_HASH_ALG_SHA2_256, eay_hmacsha2_256_init, eay_hmacsha2_256_update, eay_hmacsha2_256_final, NULL, eay_hmacsha2_256_one, }, { "hmac_sha2_384", algtype_sha2_384, OAKLEY_ATTR_HASH_ALG_SHA2_384, eay_hmacsha2_384_init, eay_hmacsha2_384_update, eay_hmacsha2_384_final, NULL, eay_hmacsha2_384_one, }, { "hmac_sha2_512", algtype_sha2_512, OAKLEY_ATTR_HASH_ALG_SHA2_512, eay_hmacsha2_512_init, eay_hmacsha2_512_update, eay_hmacsha2_512_final, NULL, eay_hmacsha2_512_one, }, #endif }; static struct enc_algorithm oakley_encdef[] = { { "des", algtype_des, OAKLEY_ATTR_ENC_ALG_DES, 8, eay_des_encrypt, eay_des_decrypt, eay_des_weakkey, eay_des_keylen, }, #ifdef HAVE_OPENSSL_IDEA_H { "idea", algtype_idea, OAKLEY_ATTR_ENC_ALG_IDEA, 8, eay_idea_encrypt, eay_idea_decrypt, eay_idea_weakkey, eay_idea_keylen, }, #endif { "blowfish", algtype_blowfish, OAKLEY_ATTR_ENC_ALG_BLOWFISH, 8, eay_bf_encrypt, eay_bf_decrypt, eay_bf_weakkey, eay_bf_keylen, }, #ifdef HAVE_OPENSSL_RC5_H { "rc5", algtype_rc5, OAKLEY_ATTR_ENC_ALG_RC5, 8, eay_rc5_encrypt, eay_rc5_decrypt, eay_rc5_weakkey, eay_rc5_keylen, }, #endif { "3des", algtype_3des, OAKLEY_ATTR_ENC_ALG_3DES, 8, eay_3des_encrypt, eay_3des_decrypt, eay_3des_weakkey, eay_3des_keylen, }, { "cast", algtype_cast128, OAKLEY_ATTR_ENC_ALG_CAST, 8, eay_cast_encrypt, eay_cast_decrypt, eay_cast_weakkey, eay_cast_keylen, }, { "aes", algtype_aes, OAKLEY_ATTR_ENC_ALG_AES, 16, eay_aes_encrypt, eay_aes_decrypt, eay_aes_weakkey, eay_aes_keylen, }, #ifdef HAVE_OPENSSL_CAMELLIA_H { "camellia", algtype_camellia, OAKLEY_ATTR_ENC_ALG_CAMELLIA, 16, eay_camellia_encrypt, eay_camellia_decrypt, eay_camellia_weakkey, eay_camellia_keylen, }, #endif }; static struct enc_algorithm ipsec_encdef[] = { { "des-iv64", algtype_des_iv64, IPSECDOI_ESP_DES_IV64, 8, NULL, NULL, NULL, eay_des_keylen, }, { "des", algtype_des, IPSECDOI_ESP_DES, 8, NULL, NULL, NULL, eay_des_keylen, }, { "3des", algtype_3des, IPSECDOI_ESP_3DES, 8, NULL, NULL, NULL, eay_3des_keylen, }, #ifdef HAVE_OPENSSL_RC5_H { "rc5", algtype_rc5, IPSECDOI_ESP_RC5, 8, NULL, NULL, NULL, eay_rc5_keylen, }, #endif { "cast", algtype_cast128, IPSECDOI_ESP_CAST, 8, NULL, NULL, NULL, eay_cast_keylen, }, { "blowfish", algtype_blowfish, IPSECDOI_ESP_BLOWFISH, 8, NULL, NULL, NULL, eay_bf_keylen, }, { "des-iv32", algtype_des_iv32, IPSECDOI_ESP_DES_IV32, 8, NULL, NULL, NULL, eay_des_keylen, }, { "null", algtype_null_enc, IPSECDOI_ESP_NULL, 8, NULL, NULL, NULL, eay_null_keylen, }, { "aes", algtype_aes, IPSECDOI_ESP_AES, 16, NULL, NULL, NULL, eay_aes_keylen, }, { "twofish", algtype_twofish, IPSECDOI_ESP_TWOFISH, 16, NULL, NULL, NULL, eay_twofish_keylen, }, #ifdef HAVE_OPENSSL_IDEA_H { "3idea", algtype_3idea, IPSECDOI_ESP_3IDEA, 8, NULL, NULL, NULL, NULL, }, { "idea", algtype_idea, IPSECDOI_ESP_IDEA, 8, NULL, NULL, NULL, NULL, }, #endif { "rc4", algtype_rc4, IPSECDOI_ESP_RC4, 8, NULL, NULL, NULL, NULL, }, #ifdef HAVE_OPENSSL_CAMELLIA_H { "camellia", algtype_camellia, IPSECDOI_ESP_CAMELLIA, 16, NULL, NULL, NULL, eay_camellia_keylen, }, #endif }; static struct hmac_algorithm ipsec_hmacdef[] = { { "md5", algtype_hmac_md5, IPSECDOI_ATTR_AUTH_HMAC_MD5, NULL, NULL, NULL, eay_md5_hashlen, NULL, }, { "sha1", algtype_hmac_sha1, IPSECDOI_ATTR_AUTH_HMAC_SHA1, NULL, NULL, NULL, eay_sha1_hashlen, NULL, }, { "kpdk", algtype_kpdk, IPSECDOI_ATTR_AUTH_KPDK, NULL, NULL, NULL, eay_kpdk_hashlen, NULL, }, { "null", algtype_non_auth, IPSECDOI_ATTR_AUTH_NONE, NULL, NULL, NULL, eay_null_hashlen, NULL, }, #ifdef WITH_SHA2 { "hmac_sha2_256", algtype_hmac_sha2_256,IPSECDOI_ATTR_AUTH_HMAC_SHA2_256, NULL, NULL, NULL, eay_sha2_256_hashlen, NULL, }, { "hmac_sha2_384", algtype_hmac_sha2_384,IPSECDOI_ATTR_AUTH_HMAC_SHA2_384, NULL, NULL, NULL, eay_sha2_384_hashlen, NULL, }, { "hmac_sha2_512", algtype_hmac_sha2_512,IPSECDOI_ATTR_AUTH_HMAC_SHA2_512, NULL, NULL, NULL, eay_sha2_512_hashlen, NULL, }, #endif }; static struct misc_algorithm ipsec_compdef[] = { { "oui", algtype_oui, IPSECDOI_IPCOMP_OUI, }, { "deflate", algtype_deflate, IPSECDOI_IPCOMP_DEFLATE, }, { "lzs", algtype_lzs, IPSECDOI_IPCOMP_LZS, }, }; /* * In case of asymetric modes (hybrid xauth), what's racoon mode of * operations ; it seems that the proposal should always use the * initiator half (unless a server initiates a connection, which is * not handled, and probably not useful). */ static struct misc_algorithm oakley_authdef[] = { { "pre_shared_key", algtype_psk, OAKLEY_ATTR_AUTH_METHOD_PSKEY, }, { "dsssig", algtype_dsssig, OAKLEY_ATTR_AUTH_METHOD_DSSSIG, }, { "rsasig", algtype_rsasig, OAKLEY_ATTR_AUTH_METHOD_RSASIG, }, { "rsaenc", algtype_rsaenc, OAKLEY_ATTR_AUTH_METHOD_RSAENC, }, { "rsarev", algtype_rsarev, OAKLEY_ATTR_AUTH_METHOD_RSAREV, }, { "gssapi_krb", algtype_gssapikrb, OAKLEY_ATTR_AUTH_METHOD_GSSAPI_KRB, }, #ifdef ENABLE_HYBRID { "hybrid_rsa_server", algtype_hybrid_rsa_s, OAKLEY_ATTR_AUTH_METHOD_HYBRID_RSA_R, }, { "hybrid_dss_server", algtype_hybrid_dss_s, OAKLEY_ATTR_AUTH_METHOD_HYBRID_DSS_R, }, { "xauth_psk_server", algtype_xauth_psk_s, OAKLEY_ATTR_AUTH_METHOD_XAUTH_PSKEY_R, }, { "xauth_rsa_server", algtype_xauth_rsa_s, OAKLEY_ATTR_AUTH_METHOD_XAUTH_RSASIG_R, }, { "hybrid_rsa_client", algtype_hybrid_rsa_c, OAKLEY_ATTR_AUTH_METHOD_HYBRID_RSA_I, }, { "hybrid_dss_client", algtype_hybrid_dss_c, OAKLEY_ATTR_AUTH_METHOD_HYBRID_DSS_I, }, { "xauth_psk_client", algtype_xauth_psk_c, OAKLEY_ATTR_AUTH_METHOD_XAUTH_PSKEY_I, }, { "xauth_rsa_client", algtype_xauth_rsa_c, OAKLEY_ATTR_AUTH_METHOD_XAUTH_RSASIG_I, }, #endif }; static struct dh_algorithm oakley_dhdef[] = { { "modp768", algtype_modp768, OAKLEY_ATTR_GRP_DESC_MODP768, &dh_modp768, }, { "modp1024", algtype_modp1024, OAKLEY_ATTR_GRP_DESC_MODP1024, &dh_modp1024, }, { "modp1536", algtype_modp1536, OAKLEY_ATTR_GRP_DESC_MODP1536, &dh_modp1536, }, { "modp2048", algtype_modp2048, OAKLEY_ATTR_GRP_DESC_MODP2048, &dh_modp2048, }, { "modp3072", algtype_modp3072, OAKLEY_ATTR_GRP_DESC_MODP3072, &dh_modp3072, }, { "modp4096", algtype_modp4096, OAKLEY_ATTR_GRP_DESC_MODP4096, &dh_modp4096, }, { "modp6144", algtype_modp6144, OAKLEY_ATTR_GRP_DESC_MODP6144, &dh_modp6144, }, { "modp8192", algtype_modp8192, OAKLEY_ATTR_GRP_DESC_MODP8192, &dh_modp8192, }, }; static struct hash_algorithm *alg_oakley_hashdef __P((int)); static struct hmac_algorithm *alg_oakley_hmacdef __P((int)); static struct enc_algorithm *alg_oakley_encdef __P((int)); static struct enc_algorithm *alg_ipsec_encdef __P((int)); static struct hmac_algorithm *alg_ipsec_hmacdef __P((int)); static struct dh_algorithm *alg_oakley_dhdef __P((int)); /* oakley hash algorithm */ static struct hash_algorithm * alg_oakley_hashdef(doi) int doi; { int i; for (i = 0; i < ARRAYLEN(oakley_hashdef); i++) if (doi == oakley_hashdef[i].doi) { plog(LLV_DEBUG, LOCATION, NULL, "hash(%s)\n", oakley_hashdef[i].name); return &oakley_hashdef[i]; } return NULL; } int alg_oakley_hashdef_ok(doi) int doi; { struct hash_algorithm *f; f = alg_oakley_hashdef(doi); if (f == NULL) return 0; return 1; } int alg_oakley_hashdef_doi(type) int type; { int i, res = -1; for (i = 0; i < ARRAYLEN(oakley_hashdef); i++) if (type == oakley_hashdef[i].type) { res = oakley_hashdef[i].doi; break; } return res; } int alg_oakley_hashdef_hashlen(doi) int doi; { struct hash_algorithm *f; f = alg_oakley_hashdef(doi); if (f == NULL || f->hashlen == NULL) return 0; return (f->hashlen)(); } const char * alg_oakley_hashdef_name (doi) int doi; { struct hash_algorithm *f; f = alg_oakley_hashdef(doi); if (f == NULL) return "*UNKNOWN*"; return f->name; } vchar_t * alg_oakley_hashdef_one(doi, buf) int doi; vchar_t *buf; { struct hash_algorithm *f; f = alg_oakley_hashdef(doi); if (f == NULL || f->hashlen == NULL) return NULL; return (f->one)(buf); } /* oakley hmac algorithm */ static struct hmac_algorithm * alg_oakley_hmacdef(doi) int doi; { int i; for (i = 0; i < ARRAYLEN(oakley_hmacdef); i++) if (doi == oakley_hmacdef[i].doi) { plog(LLV_DEBUG, LOCATION, NULL, "hmac(%s)\n", oakley_hmacdef[i].name); return &oakley_hmacdef[i]; } return NULL; } int alg_oakley_hmacdef_doi(type) int type; { int i, res = -1; for (i = 0; i < ARRAYLEN(oakley_hmacdef); i++) if (type == oakley_hmacdef[i].type) { res = oakley_hmacdef[i].doi; break; } return res; } vchar_t * alg_oakley_hmacdef_one(doi, key, buf) int doi; vchar_t *key, *buf; { struct hmac_algorithm *f; vchar_t *res; #ifdef ENABLE_STATS struct timeval start, end; #endif f = alg_oakley_hmacdef(doi); if (f == NULL || f->one == NULL) return NULL; #ifdef ENABLE_STATS gettimeofday(&start, NULL); #endif res = (f->one)(key, buf); #ifdef ENABLE_STATS gettimeofday(&end, NULL); syslog(LOG_NOTICE, "%s(%s size=%zu): %8.6f", __func__, f->name, buf->l, timedelta(&start, &end)); #endif return res; } /* oakley encryption algorithm */ static struct enc_algorithm * alg_oakley_encdef(doi) int doi; { int i; for (i = 0; i < ARRAYLEN(oakley_encdef); i++) if (doi == oakley_encdef[i].doi) { plog(LLV_DEBUG, LOCATION, NULL, "encryption(%s)\n", oakley_encdef[i].name); return &oakley_encdef[i]; } return NULL; } int alg_oakley_encdef_ok(doi) int doi; { struct enc_algorithm *f; f = alg_oakley_encdef(doi); if (f == NULL) return 0; return 1; } int alg_oakley_encdef_doi(type) int type; { int i, res = -1; for (i = 0; i < ARRAYLEN(oakley_encdef); i++) if (type == oakley_encdef[i].type) { res = oakley_encdef[i].doi; break; } return res; } int alg_oakley_encdef_keylen(doi, len) int doi, len; { struct enc_algorithm *f; f = alg_oakley_encdef(doi); if (f == NULL || f->keylen == NULL) return -1; return (f->keylen)(len); } int alg_oakley_encdef_blocklen(doi) int doi; { struct enc_algorithm *f; f = alg_oakley_encdef(doi); if (f == NULL) return -1; return f->blocklen; } const char * alg_oakley_encdef_name (doi) int doi; { struct enc_algorithm *f; f = alg_oakley_encdef(doi); if (f == NULL) return "*UNKNOWN*"; return f->name; } vchar_t * alg_oakley_encdef_decrypt(doi, buf, key, iv) int doi; vchar_t *buf, *key, *iv; { vchar_t *res; struct enc_algorithm *f; #ifdef ENABLE_STATS struct timeval start, end; #endif f = alg_oakley_encdef(doi); if (f == NULL || f->decrypt == NULL) return NULL; #ifdef ENABLE_STATS gettimeofday(&start, NULL); #endif res = (f->decrypt)(buf, key, iv); #ifdef ENABLE_STATS gettimeofday(&end, NULL); syslog(LOG_NOTICE, "%s(%s klen=%zu size=%zu): %8.6f", __func__, f->name, key->l << 3, buf->l, timedelta(&start, &end)); #endif return res; } vchar_t * alg_oakley_encdef_encrypt(doi, buf, key, iv) int doi; vchar_t *buf, *key, *iv; { vchar_t *res; struct enc_algorithm *f; #ifdef ENABLE_STATS struct timeval start, end; #endif f = alg_oakley_encdef(doi); if (f == NULL || f->encrypt == NULL) return NULL; #ifdef ENABLE_STATS gettimeofday(&start, NULL); #endif res = (f->encrypt)(buf, key, iv); #ifdef ENABLE_STATS gettimeofday(&end, NULL); syslog(LOG_NOTICE, "%s(%s klen=%zu size=%zu): %8.6f", __func__, f->name, key->l << 3, buf->l, timedelta(&start, &end)); #endif return res; } /* ipsec encryption algorithm */ static struct enc_algorithm * alg_ipsec_encdef(doi) int doi; { int i; for (i = 0; i < ARRAYLEN(ipsec_encdef); i++) if (doi == ipsec_encdef[i].doi) { plog(LLV_DEBUG, LOCATION, NULL, "encryption(%s)\n", ipsec_encdef[i].name); return &ipsec_encdef[i]; } return NULL; } int alg_ipsec_encdef_doi(type) int type; { int i, res = -1; for (i = 0; i < ARRAYLEN(ipsec_encdef); i++) if (type == ipsec_encdef[i].type) { res = ipsec_encdef[i].doi; break; } return res; } int alg_ipsec_encdef_keylen(doi, len) int doi, len; { struct enc_algorithm *f; f = alg_ipsec_encdef(doi); if (f == NULL || f->keylen == NULL) return -1; return (f->keylen)(len); } /* ipsec hmac algorithm */ static struct hmac_algorithm * alg_ipsec_hmacdef(doi) int doi; { int i; for (i = 0; i < ARRAYLEN(ipsec_hmacdef); i++) if (doi == ipsec_hmacdef[i].doi) { plog(LLV_DEBUG, LOCATION, NULL, "hmac(%s)\n", ipsec_hmacdef[i].name); return &ipsec_hmacdef[i]; } return NULL; } int alg_ipsec_hmacdef_doi(type) int type; { int i, res = -1; for (i = 0; i < ARRAYLEN(ipsec_hmacdef); i++) if (type == ipsec_hmacdef[i].type) { res = ipsec_hmacdef[i].doi; break; } return res; } int alg_ipsec_hmacdef_hashlen(doi) int doi; { struct hmac_algorithm *f; f = alg_ipsec_hmacdef(doi); if (f == NULL || f->hashlen == NULL) return -1; return (f->hashlen)(); } /* ip compression */ int alg_ipsec_compdef_doi(type) int type; { int i, res = -1; for (i = 0; i < ARRAYLEN(ipsec_compdef); i++) if (type == ipsec_compdef[i].type) { res = ipsec_compdef[i].doi; break; } return res; } /* dh algorithm */ static struct dh_algorithm * alg_oakley_dhdef(doi) int doi; { int i; for (i = 0; i < ARRAYLEN(oakley_dhdef); i++) if (doi == oakley_dhdef[i].doi) { plog(LLV_DEBUG, LOCATION, NULL, "hmac(%s)\n", oakley_dhdef[i].name); return &oakley_dhdef[i]; } return NULL; } int alg_oakley_dhdef_ok(doi) int doi; { struct dh_algorithm *f; f = alg_oakley_dhdef(doi); if (f == NULL) return 0; return 1; } int alg_oakley_dhdef_doi(type) int type; { int i, res = -1; for (i = 0; i < ARRAYLEN(oakley_dhdef); i++) if (type == oakley_dhdef[i].type) { res = oakley_dhdef[i].doi; break; } return res; } struct dhgroup * alg_oakley_dhdef_group(doi) int doi; { struct dh_algorithm *f; f = alg_oakley_dhdef(doi); if (f == NULL || f->dhgroup == NULL) return NULL; return f->dhgroup; } const char * alg_oakley_dhdef_name (doi) int doi; { struct dh_algorithm *f; f = alg_oakley_dhdef(doi); if (f == NULL) return "*UNKNOWN*"; return f->name; } /* authentication method */ int alg_oakley_authdef_doi(type) int type; { int i, res = -1; for (i = 0; i < ARRAYLEN(oakley_authdef); i++) if (type == oakley_authdef[i].type) { res = oakley_authdef[i].doi; break; } return res; } const char * alg_oakley_authdef_name (doi) int doi; { int i; for (i = 0; i < ARRAYLEN(oakley_authdef); i++) if (doi == oakley_authdef[i].doi) { return oakley_authdef[i].name; } return "*UNKNOWN*"; } /* * give the default key length * OUT: -1: NG * 0: fixed key cipher, key length not allowed * positive: default key length */ int default_keylen(class, type) int class, type; { switch (class) { case algclass_isakmp_enc: case algclass_ipsec_enc: break; default: return 0; } switch (type) { case algtype_blowfish: case algtype_rc5: case algtype_cast128: case algtype_aes: case algtype_twofish: case algtype_camellia: return 128; default: return 0; } } /* * check key length * OUT: -1: NG * 0: OK */ int check_keylen(class, type, len) int class, type, len; { int badrange; switch (class) { case algclass_isakmp_enc: case algclass_ipsec_enc: break; default: /* unknown class, punt */ plog(LLV_ERROR, LOCATION, NULL, "unknown algclass %d\n", class); return -1; } /* key length must be multiple of 8 bytes - RFC2451 2.2 */ switch (type) { case algtype_blowfish: case algtype_rc5: case algtype_cast128: case algtype_aes: case algtype_twofish: case algtype_camellia: if (len % 8 != 0) { plog(LLV_ERROR, LOCATION, NULL, "key length %d is not multiple of 8\n", len); return -1; } break; } /* key length range */ badrange = 0; switch (type) { case algtype_blowfish: if (len < 40 || 448 < len) badrange++; break; case algtype_rc5: if (len < 40 || 2040 < len) badrange++; break; case algtype_cast128: if (len < 40 || 128 < len) badrange++; break; case algtype_aes: if (!(len == 128 || len == 192 || len == 256)) badrange++; break; case algtype_twofish: if (len < 40 || 256 < len) badrange++; break; case algtype_camellia: if (!(len == 128 || len == 192 || len == 256)) badrange++; break; default: if (len) { plog(LLV_ERROR, LOCATION, NULL, "key length is not allowed"); return -1; } break; } if (badrange) { plog(LLV_ERROR, LOCATION, NULL, "key length out of range\n"); return -1; } return 0; } /* * convert algorithm type to DOI value. * OUT -1 : NG * other: converted. */ int algtype2doi(class, type) int class, type; { int res = -1; switch (class) { case algclass_ipsec_enc: res = alg_ipsec_encdef_doi(type); break; case algclass_ipsec_auth: res = alg_ipsec_hmacdef_doi(type); break; case algclass_ipsec_comp: res = alg_ipsec_compdef_doi(type); break; case algclass_isakmp_enc: res = alg_oakley_encdef_doi(type); break; case algclass_isakmp_hash: res = alg_oakley_hashdef_doi(type); break; case algclass_isakmp_dh: res = alg_oakley_dhdef_doi(type); break; case algclass_isakmp_ameth: res = alg_oakley_authdef_doi(type); break; } return res; } /* * convert algorithm class to DOI value. * OUT -1 : NG * other: converted. */ int algclass2doi(class) int class; { switch (class) { case algclass_ipsec_enc: return IPSECDOI_PROTO_IPSEC_ESP; case algclass_ipsec_auth: return IPSECDOI_ATTR_AUTH; case algclass_ipsec_comp: return IPSECDOI_PROTO_IPCOMP; case algclass_isakmp_enc: return OAKLEY_ATTR_ENC_ALG; case algclass_isakmp_hash: return OAKLEY_ATTR_HASH_ALG; case algclass_isakmp_dh: return OAKLEY_ATTR_GRP_DESC; case algclass_isakmp_ameth: return OAKLEY_ATTR_AUTH_METHOD; default: return -1; } /*NOTREACHED*/ return -1; } #ifdef __rtems__ #include "rtems-bsd-racoon-algorithm-data.h" #endif /* __rtems__ */