/* crypto interfaces * Copyright (C) 1998-2001 D. Hugh Redelmeier * Copyright (C) 2007-2009 Andreas Steffen - 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 #include "constants.h" #include "defs.h" #include "crypto.h" #include "log.h" static struct encrypt_desc encrypt_desc_3des = { algo_type: IKE_ALG_ENCRYPT, algo_id: OAKLEY_3DES_CBC, algo_next: NULL, enc_blocksize: DES_BLOCK_SIZE, keydeflen: DES_BLOCK_SIZE * 3 * BITS_PER_BYTE, keyminlen: DES_BLOCK_SIZE * 3 * BITS_PER_BYTE, keymaxlen: DES_BLOCK_SIZE * 3 * BITS_PER_BYTE, }; #define AES_KEY_MIN_LEN 128 #define AES_KEY_DEF_LEN 128 #define AES_KEY_MAX_LEN 256 static struct encrypt_desc encrypt_desc_aes = { algo_type: IKE_ALG_ENCRYPT, algo_id: OAKLEY_AES_CBC, algo_next: NULL, enc_blocksize: AES_BLOCK_SIZE, keyminlen: AES_KEY_MIN_LEN, keydeflen: AES_KEY_DEF_LEN, keymaxlen: AES_KEY_MAX_LEN, }; #define CAMELLIA_KEY_MIN_LEN 128 #define CAMELLIA_KEY_DEF_LEN 128 #define CAMELLIA_KEY_MAX_LEN 256 static struct encrypt_desc encrypt_desc_camellia = { algo_type: IKE_ALG_ENCRYPT, algo_id: OAKLEY_CAMELLIA_CBC, algo_next: NULL, enc_blocksize: CAMELLIA_BLOCK_SIZE, keyminlen: CAMELLIA_KEY_MIN_LEN, keydeflen: CAMELLIA_KEY_DEF_LEN, keymaxlen: CAMELLIA_KEY_MAX_LEN, }; #define BLOWFISH_KEY_MIN_LEN 128 #define BLOWFISH_KEY_MAX_LEN 448 static struct encrypt_desc encrypt_desc_blowfish = { algo_type: IKE_ALG_ENCRYPT, algo_id: OAKLEY_BLOWFISH_CBC, algo_next: NULL, enc_blocksize: BLOWFISH_BLOCK_SIZE, keyminlen: BLOWFISH_KEY_MIN_LEN, keydeflen: BLOWFISH_KEY_MIN_LEN, keymaxlen: BLOWFISH_KEY_MAX_LEN, }; #define SERPENT_KEY_MIN_LEN 128 #define SERPENT_KEY_DEF_LEN 128 #define SERPENT_KEY_MAX_LEN 256 static struct encrypt_desc encrypt_desc_serpent = { algo_type: IKE_ALG_ENCRYPT, algo_id: OAKLEY_SERPENT_CBC, algo_next: NULL, enc_blocksize: SERPENT_BLOCK_SIZE, keyminlen: SERPENT_KEY_MIN_LEN, keydeflen: SERPENT_KEY_DEF_LEN, keymaxlen: SERPENT_KEY_MAX_LEN, }; #define TWOFISH_KEY_MIN_LEN 128 #define TWOFISH_KEY_DEF_LEN 128 #define TWOFISH_KEY_MAX_LEN 256 static struct encrypt_desc encrypt_desc_twofish = { algo_type: IKE_ALG_ENCRYPT, algo_id: OAKLEY_TWOFISH_CBC, algo_next: NULL, enc_blocksize: TWOFISH_BLOCK_SIZE, keydeflen: TWOFISH_KEY_MIN_LEN, keyminlen: TWOFISH_KEY_DEF_LEN, keymaxlen: TWOFISH_KEY_MAX_LEN, }; static struct encrypt_desc encrypt_desc_twofish_ssh = { algo_type: IKE_ALG_ENCRYPT, algo_id: OAKLEY_TWOFISH_CBC_SSH, algo_next: NULL, enc_blocksize: TWOFISH_BLOCK_SIZE, keydeflen: TWOFISH_KEY_MIN_LEN, keyminlen: TWOFISH_KEY_DEF_LEN, keymaxlen: TWOFISH_KEY_MAX_LEN, }; static struct hash_desc hash_desc_md5 = { algo_type: IKE_ALG_HASH, algo_id: OAKLEY_MD5, algo_next: NULL, hash_digest_size: HASH_SIZE_MD5, }; static struct hash_desc hash_desc_sha1 = { algo_type: IKE_ALG_HASH, algo_id: OAKLEY_SHA, algo_next: NULL, hash_digest_size: HASH_SIZE_SHA1, }; static struct hash_desc hash_desc_sha2_256 = { algo_type: IKE_ALG_HASH, algo_id: OAKLEY_SHA2_256, algo_next: NULL, hash_digest_size: HASH_SIZE_SHA256, }; static struct hash_desc hash_desc_sha2_384 = { algo_type: IKE_ALG_HASH, algo_id: OAKLEY_SHA2_384, algo_next: NULL, hash_digest_size: HASH_SIZE_SHA384, }; static struct hash_desc hash_desc_sha2_512 = { algo_type: IKE_ALG_HASH, algo_id: OAKLEY_SHA2_512, algo_next: NULL, hash_digest_size: HASH_SIZE_SHA512, }; const struct dh_desc unset_group = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_NONE, algo_next: NULL, ke_size: 0 }; static struct dh_desc dh_desc_modp_1024 = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_1024_BIT, algo_next: NULL, ke_size: 1024 / BITS_PER_BYTE }; static struct dh_desc dh_desc_modp_1536 = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_1536_BIT, algo_next: NULL, ke_size: 1536 / BITS_PER_BYTE }; static struct dh_desc dh_desc_modp_2048 = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_2048_BIT, algo_next: NULL, ke_size: 2048 / BITS_PER_BYTE }; static struct dh_desc dh_desc_modp_3072 = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_3072_BIT, algo_next: NULL, ke_size: 3072 / BITS_PER_BYTE }; static struct dh_desc dh_desc_modp_4096 = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_4096_BIT, algo_next: NULL, ke_size: 4096 / BITS_PER_BYTE }; static struct dh_desc dh_desc_modp_6144 = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_6144_BIT, algo_next: NULL, ke_size: 6144 / BITS_PER_BYTE }; static struct dh_desc dh_desc_modp_8192 = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_8192_BIT, algo_next: NULL, ke_size: 8192 / BITS_PER_BYTE }; static struct dh_desc dh_desc_ecp_256 = { algo_type: IKE_ALG_DH_GROUP, algo_id: ECP_256_BIT, algo_next: NULL, ke_size: 2*256 / BITS_PER_BYTE }; static struct dh_desc dh_desc_ecp_384 = { algo_type: IKE_ALG_DH_GROUP, algo_id: ECP_384_BIT, algo_next: NULL, ke_size: 2*384 / BITS_PER_BYTE }; static struct dh_desc dh_desc_ecp_521 = { algo_type: IKE_ALG_DH_GROUP, algo_id: ECP_521_BIT, algo_next: NULL, ke_size: 2*528 / BITS_PER_BYTE }; static struct dh_desc dh_desc_modp_1024_160 = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_1024_160, algo_next: NULL, ke_size: 1024 / BITS_PER_BYTE }; static struct dh_desc dh_desc_modp_2048_224 = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_2048_224, algo_next: NULL, ke_size: 2048 / BITS_PER_BYTE }; static struct dh_desc dh_desc_modp_2048_256 = { algo_type: IKE_ALG_DH_GROUP, algo_id: MODP_2048_256, algo_next: NULL, ke_size: 2048 / BITS_PER_BYTE }; static struct dh_desc dh_desc_ecp_192 = { algo_type: IKE_ALG_DH_GROUP, algo_id: ECP_192_BIT, algo_next: NULL, ke_size: 2*192 / BITS_PER_BYTE }; static struct dh_desc dh_desc_ecp_224 = { algo_type: IKE_ALG_DH_GROUP, algo_id: ECP_224_BIT, algo_next: NULL, ke_size: 2*224 / BITS_PER_BYTE }; bool init_crypto(void) { enumerator_t *enumerator; encryption_algorithm_t encryption_alg; hash_algorithm_t hash_alg; diffie_hellman_group_t dh_group; bool no_md5 = TRUE; bool no_sha1 = TRUE; enumerator = lib->crypto->create_hasher_enumerator(lib->crypto); while (enumerator->enumerate(enumerator, &hash_alg)) { const struct hash_desc *desc; switch (hash_alg) { case HASH_SHA1: desc = &hash_desc_sha1; no_sha1 = FALSE; break; case HASH_SHA256: desc = &hash_desc_sha2_256; break; case HASH_SHA384: desc = &hash_desc_sha2_384; break; case HASH_SHA512: desc = &hash_desc_sha2_512; break; case HASH_MD5: desc = &hash_desc_md5; no_md5 = FALSE; break; default: continue; } ike_alg_add((struct ike_alg *)desc); } enumerator->destroy(enumerator); if (no_sha1 || no_md5) { plog("pluto cannot run without a %s%s%s hasher", (no_sha1) ? "SHA-1" : "", (no_sha1 && no_md5) ? " and " : "", (no_md5) ? "MD5" : ""); return FALSE; } enumerator = lib->crypto->create_crypter_enumerator(lib->crypto); while (enumerator->enumerate(enumerator, &encryption_alg)) { const struct encrypt_desc *desc; switch (encryption_alg) { case ENCR_3DES: desc = &encrypt_desc_3des; break; case ENCR_BLOWFISH: desc = &encrypt_desc_blowfish; break; case ENCR_AES_CBC: desc = &encrypt_desc_aes; break; case ENCR_CAMELLIA_CBC: desc = &encrypt_desc_camellia; break; case ENCR_TWOFISH_CBC: desc = &encrypt_desc_twofish; ike_alg_add((struct ike_alg *)&encrypt_desc_twofish_ssh); break; case ENCR_SERPENT_CBC: desc = &encrypt_desc_serpent; break; default: continue; } ike_alg_add((struct ike_alg *)desc); } enumerator->destroy(enumerator); enumerator = lib->crypto->create_dh_enumerator(lib->crypto); while (enumerator->enumerate(enumerator, &dh_group)) { const struct dh_desc *desc; switch (dh_group) { case MODP_1024_BIT: desc = &dh_desc_modp_1024; break; case MODP_1536_BIT: desc = &dh_desc_modp_1536; break; case MODP_2048_BIT: desc = &dh_desc_modp_2048; break; case MODP_3072_BIT: desc = &dh_desc_modp_3072; break; case MODP_4096_BIT: desc = &dh_desc_modp_4096; break; case MODP_6144_BIT: desc = &dh_desc_modp_6144; break; case MODP_8192_BIT: desc = &dh_desc_modp_8192; break; case ECP_256_BIT: desc = &dh_desc_ecp_256; break; case ECP_384_BIT: desc = &dh_desc_ecp_384; break; case ECP_521_BIT: desc = &dh_desc_ecp_521; break; case MODP_1024_160: desc = &dh_desc_modp_1024_160; break; case MODP_2048_224: desc = &dh_desc_modp_2048_224; break; case MODP_2048_256: desc = &dh_desc_modp_2048_256; break; case ECP_192_BIT: desc = &dh_desc_ecp_192; break; case ECP_224_BIT: desc = &dh_desc_ecp_224; break; default: continue; } ike_alg_add((struct ike_alg *)desc); } enumerator->destroy(enumerator); return TRUE; } void free_crypto(void) { /* currently nothing to do */ } /** * Converts IKEv1 encryption algorithm name to crypter name */ encryption_algorithm_t oakley_to_encryption_algorithm(int alg) { switch (alg) { case OAKLEY_DES_CBC: return ENCR_DES; case OAKLEY_IDEA_CBC: return ENCR_IDEA; case OAKLEY_BLOWFISH_CBC: return ENCR_BLOWFISH; case OAKLEY_RC5_R16_B64_CBC: return ENCR_RC5; case OAKLEY_3DES_CBC: return ENCR_3DES; case OAKLEY_CAST_CBC: return ENCR_CAST; case OAKLEY_AES_CBC: return ENCR_AES_CBC; case OAKLEY_CAMELLIA_CBC: return ENCR_CAMELLIA_CBC; case OAKLEY_SERPENT_CBC: return ENCR_SERPENT_CBC; case OAKLEY_TWOFISH_CBC: case OAKLEY_TWOFISH_CBC_SSH: return ENCR_TWOFISH_CBC; default: return ENCR_UNDEFINED; } } /** * Converts IKEv1 hash algorithm name to hasher name */ hash_algorithm_t oakley_to_hash_algorithm(int alg) { switch (alg) { case OAKLEY_MD5: return HASH_MD5; case OAKLEY_SHA: return HASH_SHA1; case OAKLEY_SHA2_256: return HASH_SHA256; case OAKLEY_SHA2_384: return HASH_SHA384; case OAKLEY_SHA2_512: return HASH_SHA512; default: return HASH_UNKNOWN; } } /** * Converts IKEv1 hash algorithm name to IKEv2 prf name */ pseudo_random_function_t oakley_to_prf(int alg) { switch (alg) { case OAKLEY_MD5: return PRF_HMAC_MD5; case OAKLEY_SHA: return PRF_HMAC_SHA1; case OAKLEY_SHA2_256: return PRF_HMAC_SHA2_256; case OAKLEY_SHA2_384: return PRF_HMAC_SHA2_384; case OAKLEY_SHA2_512: return PRF_HMAC_SHA2_512; default: return PRF_UNDEFINED; } } /** * Maps IKEv1 authentication method to IKEv2 signature scheme */ signature_scheme_t oakley_to_signature_scheme(int method) { switch (method) { case OAKLEY_RSA_SIG: case XAUTHInitRSA: case XAUTHRespRSA: return SIGN_RSA_EMSA_PKCS1_NULL; case OAKLEY_ECDSA_256: case OAKLEY_ECDSA_384: case OAKLEY_ECDSA_521: return SIGN_ECDSA_WITH_NULL; default: return SIGN_UNKNOWN; } } /** * Converts IKEv2 encryption to IKEv1 encryption algorithm */ int oakley_from_encryption_algorithm(encryption_algorithm_t alg) { switch (alg) { case ENCR_DES: return OAKLEY_DES_CBC; case ENCR_3DES: return OAKLEY_3DES_CBC; case ENCR_RC5: return OAKLEY_RC5_R16_B64_CBC; case ENCR_IDEA: return OAKLEY_IDEA_CBC; case ENCR_CAST: return OAKLEY_CAST_CBC; case ENCR_BLOWFISH: return OAKLEY_BLOWFISH_CBC; case ENCR_AES_CBC: return OAKLEY_AES_CBC; case ENCR_CAMELLIA_CBC: return OAKLEY_CAMELLIA_CBC; case ENCR_SERPENT_CBC: return OAKLEY_SERPENT_CBC; case ENCR_TWOFISH_CBC: return OAKLEY_TWOFISH_CBC; default: return 0; } } /** * Converts IKEv2 integrity to IKEv1 hash algorithm */ int oakley_from_integrity_algorithm(integrity_algorithm_t alg) { switch (alg) { case AUTH_HMAC_MD5_96: return OAKLEY_MD5; case AUTH_HMAC_SHA1_96: return OAKLEY_SHA; case AUTH_HMAC_SHA2_256_128: return OAKLEY_SHA2_256; case AUTH_HMAC_SHA2_384_192: return OAKLEY_SHA2_384; case AUTH_HMAC_SHA2_512_256: return OAKLEY_SHA2_512; default: return 0; } } /** * Converts IKEv2 encryption to IKEv1 ESP encryption algorithm */ int esp_from_encryption_algorithm(encryption_algorithm_t alg) { switch (alg) { case ENCR_DES: return ESP_DES; case ENCR_3DES: return ESP_3DES; case ENCR_RC5: return ESP_RC5; case ENCR_IDEA: return ESP_IDEA; case ENCR_CAST: return ESP_CAST; case ENCR_BLOWFISH: return ESP_BLOWFISH; case ENCR_NULL: return ESP_NULL; case ENCR_AES_CBC: return ESP_AES; case ENCR_AES_CTR: return ESP_AES_CTR; case ENCR_AES_CCM_ICV8: return ESP_AES_CCM_8; case ENCR_AES_CCM_ICV12: return ESP_AES_CCM_12; case ENCR_AES_CCM_ICV16: return ESP_AES_CCM_16; case ENCR_AES_GCM_ICV8: return ESP_AES_GCM_8; case ENCR_AES_GCM_ICV12: return ESP_AES_GCM_12; case ENCR_AES_GCM_ICV16: return ESP_AES_GCM_16; case ENCR_CAMELLIA_CBC: return ESP_CAMELLIA; case ENCR_NULL_AUTH_AES_GMAC: return ESP_AES_GMAC; case ENCR_SERPENT_CBC: return ESP_SERPENT; case ENCR_TWOFISH_CBC: return ESP_TWOFISH; default: return 0; } } /** * Converts IKEv2 integrity to IKEv1 ESP authentication algorithm */ int esp_from_integrity_algorithm(integrity_algorithm_t alg) { switch (alg) { case AUTH_HMAC_MD5_96: return AUTH_ALGORITHM_HMAC_MD5; case AUTH_HMAC_SHA1_96: return AUTH_ALGORITHM_HMAC_SHA1; case AUTH_AES_XCBC_96: return AUTH_ALGORITHM_AES_XCBC_MAC; case AUTH_HMAC_SHA2_256_96: return AUTH_ALGORITHM_HMAC_SHA2_256_96; case AUTH_HMAC_SHA2_256_128: return AUTH_ALGORITHM_HMAC_SHA2_256; case AUTH_HMAC_SHA2_384_192: return AUTH_ALGORITHM_HMAC_SHA2_384; case AUTH_HMAC_SHA2_512_256: return AUTH_ALGORITHM_HMAC_SHA2_512; case AUTH_AES_128_GMAC: return AUTH_ALGORITHM_AES_128_GMAC; case AUTH_AES_192_GMAC: return AUTH_ALGORITHM_AES_192_GMAC; case AUTH_AES_256_GMAC: return AUTH_ALGORITHM_AES_256_GMAC; default: return 0; } }