/* * Copyright (C) 2012 Tobias Brunner * Copyright (C) 2005-2010 Martin Willi * Copyright (C) 2005 Jan Hutter * 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 "proposal_substructure.h" #include #include #include #include #include /** * IKEv2 Value for a proposal payload. */ #define PROPOSAL_TYPE_VALUE 2 typedef struct private_proposal_substructure_t private_proposal_substructure_t; /** * Private data of an proposal_substructure_t object. */ struct private_proposal_substructure_t { /** * Public proposal_substructure_t interface. */ proposal_substructure_t public; /** * Next payload type. */ u_int8_t next_payload; /** * reserved byte */ u_int8_t reserved; /** * Length of this payload. */ u_int16_t proposal_length; /** * Proposal number. */ u_int8_t proposal_number; /** * Protocol ID. */ u_int8_t protocol_id; /** * SPI size of the following SPI. */ u_int8_t spi_size; /** * Number of transforms. */ u_int8_t transforms_count; /** * SPI is stored as chunk. */ chunk_t spi; /** * Transforms are stored in a linked_list_t. */ linked_list_t *transforms; /** * Type of this payload, PLV2_PROPOSAL_SUBSTRUCTURE or PLV1_PROPOSAL_SUBSTRUCTURE */ payload_type_t type; }; /** * Encoding rules for a IKEv1 Proposal substructure. */ static encoding_rule_t encodings_v1[] = { /* 1 Byte next payload type, stored in the field next_payload */ { U_INT_8, offsetof(private_proposal_substructure_t, next_payload) }, /* 1 Reserved Byte */ { RESERVED_BYTE, offsetof(private_proposal_substructure_t, reserved) }, /* Length of the whole proposal substructure payload*/ { PAYLOAD_LENGTH, offsetof(private_proposal_substructure_t, proposal_length) }, /* proposal number is a number of 8 bit */ { U_INT_8, offsetof(private_proposal_substructure_t, proposal_number) }, /* protocol ID is a number of 8 bit */ { U_INT_8, offsetof(private_proposal_substructure_t, protocol_id) }, /* SPI Size has its own type */ { SPI_SIZE, offsetof(private_proposal_substructure_t, spi_size) }, /* Number of transforms is a number of 8 bit */ { U_INT_8, offsetof(private_proposal_substructure_t, transforms_count) }, /* SPI is a chunk of variable size*/ { SPI, offsetof(private_proposal_substructure_t, spi) }, /* Transforms are stored in a transform substructure list */ { PAYLOAD_LIST + PLV1_TRANSFORM_SUBSTRUCTURE, offsetof(private_proposal_substructure_t, transforms) }, }; /** * Encoding rules for a IKEv2 Proposal substructure. */ static encoding_rule_t encodings_v2[] = { /* 1 Byte next payload type, stored in the field next_payload */ { U_INT_8, offsetof(private_proposal_substructure_t, next_payload) }, /* 1 Reserved Byte */ { RESERVED_BYTE, offsetof(private_proposal_substructure_t, reserved) }, /* Length of the whole proposal substructure payload*/ { PAYLOAD_LENGTH, offsetof(private_proposal_substructure_t, proposal_length) }, /* proposal number is a number of 8 bit */ { U_INT_8, offsetof(private_proposal_substructure_t, proposal_number) }, /* protocol ID is a number of 8 bit */ { U_INT_8, offsetof(private_proposal_substructure_t, protocol_id) }, /* SPI Size has its own type */ { SPI_SIZE, offsetof(private_proposal_substructure_t, spi_size) }, /* Number of transforms is a number of 8 bit */ { U_INT_8, offsetof(private_proposal_substructure_t, transforms_count) }, /* SPI is a chunk of variable size*/ { SPI, offsetof(private_proposal_substructure_t, spi) }, /* Transforms are stored in a transform substructure list */ { PAYLOAD_LIST + PLV2_TRANSFORM_SUBSTRUCTURE, offsetof(private_proposal_substructure_t, transforms) }, }; /* 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ ! 0 (last) or 2 ! RESERVED ! Proposal Length ! +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ ! Proposal # ! Protocol ID ! SPI Size !# of Transforms! +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ ~ SPI (variable) ~ +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ ! ! ~ ~ ! ! +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ */ /** * Encryption. */ typedef enum { IKEV1_ENCR_DES_CBC = 1, IKEV1_ENCR_IDEA_CBC = 2, IKEV1_ENCR_BLOWFISH_CBC = 3, IKEV1_ENCR_RC5_R16_B64_CBC = 4, IKEV1_ENCR_3DES_CBC = 5, IKEV1_ENCR_CAST_CBC = 6, IKEV1_ENCR_AES_CBC = 7, IKEV1_ENCR_CAMELLIA_CBC = 8, /* FreeS/WAN proprietary */ IKEV1_ENCR_SERPENT_CBC = 65004, IKEV1_ENCR_TWOFISH_CBC = 65005, } ikev1_encryption_t; /** * IKEv1 hash. */ typedef enum { IKEV1_HASH_MD5 = 1, IKEV1_HASH_SHA1 = 2, IKEV1_HASH_TIGER = 3, IKEV1_HASH_SHA2_256 = 4, IKEV1_HASH_SHA2_384 = 5, IKEV1_HASH_SHA2_512 = 6, } ikev1_hash_t; /** * IKEv1 Transform ID IKE. */ typedef enum { IKEV1_TRANSID_KEY_IKE = 1, } ikev1_ike_transid_t; /** * IKEv1 Transform ID ESP encryption algorithm. */ typedef enum { IKEV1_ESP_ENCR_DES_IV64 = 1, IKEV1_ESP_ENCR_DES = 2, IKEV1_ESP_ENCR_3DES = 3, IKEV1_ESP_ENCR_RC5 = 4, IKEV1_ESP_ENCR_IDEA = 5, IKEV1_ESP_ENCR_CAST = 6, IKEV1_ESP_ENCR_BLOWFISH = 7, IKEV1_ESP_ENCR_3IDEA = 8, IKEV1_ESP_ENCR_DES_IV32 = 9, IKEV1_ESP_ENCR_RC4 = 10, IKEV1_ESP_ENCR_NULL = 11, IKEV1_ESP_ENCR_AES_CBC = 12, IKEV1_ESP_ENCR_AES_CTR = 13, IKEV1_ESP_ENCR_AES_CCM_8 = 14, IKEV1_ESP_ENCR_AES_CCM_12 = 15, IKEV1_ESP_ENCR_AES_CCM_16 = 16, IKEV1_ESP_ENCR_AES_GCM_8 = 18, IKEV1_ESP_ENCR_AES_GCM_12 = 19, IKEV1_ESP_ENCR_AES_GCM_16 = 20, IKEV1_ESP_ENCR_SEED_CBC = 21, IKEV1_ESP_ENCR_CAMELLIA = 22, IKEV1_ESP_ENCR_NULL_AUTH_AES_GMAC = 23, /* FreeS/WAN proprietary */ IKEV1_ESP_ENCR_SERPENT = 252, IKEV1_ESP_ENCR_TWOFISH = 253, } ikev1_esp_encr_transid_t; /** * IKEv1 Transform ID ESP authentication algorithm. */ typedef enum { IKEV1_ESP_AUTH_HMAC_MD5 = 1, IKEV1_ESP_AUTH_HMAC_SHA = 2, IKEV1_ESP_AUTH_DES_MAC = 3, IKEV1_ESP_AUTH_KPDK = 4, IKEV1_ESP_AUTH_HMAC_SHA2_256 = 5, IKEV1_ESP_AUTH_HMAC_SHA2_384 = 6, IKEV1_ESP_AUTH_HMAC_SHA2_512 = 7, IKEV1_ESP_AUTH_HMAC_RIPEMD = 8, IKEV1_ESP_AUTH_AES_XCBC_MAC = 9, IKEV1_ESP_AUTH_SIG_RSA = 10, IKEV1_ESP_AUTH_AES_128_GMAC = 11, IKEV1_ESP_AUTH_AES_192_GMAC = 12, IKEV1_ESP_AUTH_AES_256_GMAC = 13, } ikev1_esp_auth_transid_it; /** * IKEv1 Transform ID AH authentication algorithm. */ typedef enum { IKEV1_AH_HMAC_MD5 = 2, IKEV1_AH_HMAC_SHA = 3, IKEV1_AH_DES_MAC = 4, IKEV1_AH_HMAC_SHA2_256 = 5, IKEV1_AH_HMAC_SHA2_384 = 6, IKEV1_AH_HMAC_SHA2_512 = 7, IKEV1_AH_RIPEMD = 8, IKEV1_AH_AES_XCBC_MAC = 9, IKEV1_AH_RSA = 10, IKEV1_AH_AES_128_GMAC = 11, IKEV1_AH_AES_192_GMAC = 12, IKEV1_AH_AES_256_GMAC = 13, } ikev1_ah_transid_t; /** * IKEv1 ESP Encapsulation mode. */ typedef enum { IKEV1_ENCAP_TUNNEL = 1, IKEV1_ENCAP_TRANSPORT = 2, IKEV1_ENCAP_UDP_TUNNEL = 3, IKEV1_ENCAP_UDP_TRANSPORT = 4, IKEV1_ENCAP_UDP_TUNNEL_DRAFT_00_03 = 61443, IKEV1_ENCAP_UDP_TRANSPORT_DRAFT_00_03 = 61444, } ikev1_esp_encap_t; /** * IKEv1 Life duration types. */ typedef enum { IKEV1_LIFE_TYPE_SECONDS = 1, IKEV1_LIFE_TYPE_KILOBYTES = 2, } ikev1_life_type_t; /** * IKEv1 authentication methods */ typedef enum { IKEV1_AUTH_PSK = 1, IKEV1_AUTH_DSS_SIG = 2, IKEV1_AUTH_RSA_SIG = 3, IKEV1_AUTH_RSA_ENC = 4, IKEV1_AUTH_RSA_ENC_REV = 5, IKEV1_AUTH_ECDSA_256 = 9, IKEV1_AUTH_ECDSA_384 = 10, IKEV1_AUTH_ECDSA_521 = 11, /* XAuth Modes */ IKEV1_AUTH_XAUTH_INIT_PSK = 65001, IKEV1_AUTH_XAUTH_RESP_PSK = 65002, IKEV1_AUTH_XAUTH_INIT_DSS = 65003, IKEV1_AUTH_XAUTH_RESP_DSS = 65004, IKEV1_AUTH_XAUTH_INIT_RSA = 65005, IKEV1_AUTH_XAUTH_RESP_RSA = 65006, IKEV1_AUTH_XAUTH_INIT_RSA_ENC = 65007, IKEV1_AUTH_XAUTH_RESP_RSA_ENC = 65008, IKEV1_AUTH_XAUTH_INIT_RSA_ENC_REV = 65009, IKEV1_AUTH_XAUTH_RESP_RSA_ENC_REV = 65010, /* Hybrid Modes */ IKEV1_AUTH_HYBRID_INIT_RSA = 64221, IKEV1_AUTH_HYBRID_RESP_RSA = 64222, IKEV1_AUTH_HYBRID_INIT_DSS = 64223, IKEV1_AUTH_HYBRID_RESP_DSS = 64224, } ikev1_auth_method_t; /** * IKEv1 IPComp transform IDs */ typedef enum { IKEV1_IPCOMP_OUI = 1, IKEV1_IPCOMP_DEFLATE = 2, IKEV1_IPCOMP_LZS = 3, } ikev1_ipcomp_transform_t; METHOD(payload_t, verify, status_t, private_proposal_substructure_t *this) { status_t status = SUCCESS; enumerator_t *enumerator; payload_t *current; if (this->next_payload != PL_NONE && this->next_payload != 2) { /* must be 0 or 2 */ DBG1(DBG_ENC, "inconsistent next payload"); return FAILED; } if (this->transforms_count != this->transforms->get_count(this->transforms)) { /* must be the same! */ DBG1(DBG_ENC, "transform count invalid"); return FAILED; } switch (this->protocol_id) { case PROTO_IPCOMP: if (this->spi.len != 2) { DBG1(DBG_ENC, "invalid CPI length in IPCOMP proposal"); return FAILED; } break; case PROTO_AH: case PROTO_ESP: if (this->spi.len != 4) { DBG1(DBG_ENC, "invalid SPI length in %N proposal", protocol_id_names, this->protocol_id); return FAILED; } break; case PROTO_IKE: if (this->type == PLV1_PROPOSAL_SUBSTRUCTURE) { if (this->spi.len <= 16) { /* according to RFC 2409, section 3.5 anything between * 0 and 16 is fine */ break; } } else if (this->spi.len == 0 || this->spi.len == 8) { break; } DBG1(DBG_ENC, "invalid SPI length in IKE proposal"); return FAILED; default: break; } enumerator = this->transforms->create_enumerator(this->transforms); while (enumerator->enumerate(enumerator, ¤t)) { status = current->verify(current); if (status != SUCCESS) { DBG1(DBG_ENC, "TRANSFORM_SUBSTRUCTURE verification failed"); break; } } enumerator->destroy(enumerator); /* proposal number is checked in SA payload */ return status; } METHOD(payload_t, get_encoding_rules, int, private_proposal_substructure_t *this, encoding_rule_t **rules) { if (this->type == PLV2_PROPOSAL_SUBSTRUCTURE) { *rules = encodings_v2; return countof(encodings_v2); } *rules = encodings_v1; return countof(encodings_v1); } METHOD(payload_t, get_header_length, int, private_proposal_substructure_t *this) { return 8 + this->spi_size; } METHOD(payload_t, get_type, payload_type_t, private_proposal_substructure_t *this) { return this->type; } METHOD(payload_t, get_next_type, payload_type_t, private_proposal_substructure_t *this) { return this->next_payload; } METHOD(payload_t, set_next_type, void, private_proposal_substructure_t *this, payload_type_t type) { } /** * (re-)compute the length of the payload. */ static void compute_length(private_proposal_substructure_t *this) { enumerator_t *enumerator; payload_t *transform; this->transforms_count = 0; this->proposal_length = get_header_length(this); enumerator = this->transforms->create_enumerator(this->transforms); while (enumerator->enumerate(enumerator, &transform)) { this->proposal_length += transform->get_length(transform); this->transforms_count++; } enumerator->destroy(enumerator); } METHOD(payload_t, get_length, size_t, private_proposal_substructure_t *this) { return this->proposal_length; } /** * Add a transform substructure to the proposal */ static void add_transform_substructure(private_proposal_substructure_t *this, transform_substructure_t *transform) { if (this->transforms->get_count(this->transforms) > 0) { transform_substructure_t *last; this->transforms->get_last(this->transforms, (void **)&last); last->set_is_last_transform(last, FALSE); } transform->set_is_last_transform(transform,TRUE); this->transforms->insert_last(this->transforms, transform); compute_length(this); } METHOD(proposal_substructure_t, set_is_last_proposal, void, private_proposal_substructure_t *this, bool is_last) { this->next_payload = is_last ? 0 : PROPOSAL_TYPE_VALUE; } METHOD(proposal_substructure_t, set_proposal_number, void, private_proposal_substructure_t *this,u_int8_t proposal_number) { this->proposal_number = proposal_number; } METHOD(proposal_substructure_t, get_proposal_number, u_int8_t, private_proposal_substructure_t *this) { return this->proposal_number; } METHOD(proposal_substructure_t, set_protocol_id, void, private_proposal_substructure_t *this,u_int8_t protocol_id) { this->protocol_id = protocol_id; } METHOD(proposal_substructure_t, get_protocol_id, u_int8_t, private_proposal_substructure_t *this) { return this->protocol_id; } METHOD(proposal_substructure_t, set_spi, void, private_proposal_substructure_t *this, chunk_t spi) { free(this->spi.ptr); this->spi = chunk_clone(spi); this->spi_size = spi.len; compute_length(this); } METHOD(proposal_substructure_t, get_spi, chunk_t, private_proposal_substructure_t *this) { return this->spi; } METHOD(proposal_substructure_t, get_cpi, bool, private_proposal_substructure_t *this, u_int16_t *cpi) { transform_substructure_t *transform; enumerator_t *enumerator; if (this->protocol_id != PROTO_IPCOMP) { return FALSE; } enumerator = this->transforms->create_enumerator(this->transforms); while (enumerator->enumerate(enumerator, &transform)) { if (transform->get_transform_id(transform) == IKEV1_IPCOMP_DEFLATE) { if (cpi) { *cpi = *((u_int16_t*)this->spi.ptr); } enumerator->destroy(enumerator); return TRUE; } } enumerator->destroy(enumerator); return FALSE; } /** * Add a transform to a proposal for IKEv2 */ static void add_to_proposal_v2(proposal_t *proposal, transform_substructure_t *transform) { transform_attribute_t *tattr; enumerator_t *enumerator; u_int16_t key_length = 0; enumerator = transform->create_attribute_enumerator(transform); while (enumerator->enumerate(enumerator, &tattr)) { if (tattr->get_attribute_type(tattr) == TATTR_IKEV2_KEY_LENGTH) { key_length = tattr->get_value(tattr); break; } } enumerator->destroy(enumerator); proposal->add_algorithm(proposal, transform->get_transform_type_or_number(transform), transform->get_transform_id(transform), key_length); } /** * Map IKEv1 to IKEv2 algorithms */ typedef struct { u_int16_t ikev1; u_int16_t ikev2; } algo_map_t; /** * Encryption algorithm mapping */ static algo_map_t map_encr[] = { { IKEV1_ENCR_DES_CBC, ENCR_DES }, { IKEV1_ENCR_IDEA_CBC, ENCR_IDEA }, { IKEV1_ENCR_BLOWFISH_CBC, ENCR_BLOWFISH }, { IKEV1_ENCR_3DES_CBC, ENCR_3DES }, { IKEV1_ENCR_CAST_CBC, ENCR_CAST }, { IKEV1_ENCR_AES_CBC, ENCR_AES_CBC }, { IKEV1_ENCR_CAMELLIA_CBC, ENCR_CAMELLIA_CBC }, { IKEV1_ENCR_SERPENT_CBC, ENCR_SERPENT_CBC }, { IKEV1_ENCR_TWOFISH_CBC, ENCR_TWOFISH_CBC }, }; /** * Integrity algorithm mapping */ static algo_map_t map_integ[] = { { IKEV1_HASH_MD5, AUTH_HMAC_MD5_96 }, { IKEV1_HASH_SHA1, AUTH_HMAC_SHA1_96 }, { IKEV1_HASH_SHA2_256, AUTH_HMAC_SHA2_256_128 }, { IKEV1_HASH_SHA2_384, AUTH_HMAC_SHA2_384_192 }, { IKEV1_HASH_SHA2_512, AUTH_HMAC_SHA2_512_256 }, }; /** * PRF algorithm mapping */ static algo_map_t map_prf[] = { { IKEV1_HASH_MD5, PRF_HMAC_MD5 }, { IKEV1_HASH_SHA1, PRF_HMAC_SHA1 }, { IKEV1_HASH_SHA2_256, PRF_HMAC_SHA2_256 }, { IKEV1_HASH_SHA2_384, PRF_HMAC_SHA2_384 }, { IKEV1_HASH_SHA2_512, PRF_HMAC_SHA2_512 }, }; /** * ESP encryption algorithm mapping */ static algo_map_t map_esp_encr[] = { { IKEV1_ESP_ENCR_DES_IV64, ENCR_DES_IV64 }, { IKEV1_ESP_ENCR_DES, ENCR_DES }, { IKEV1_ESP_ENCR_3DES, ENCR_3DES }, { IKEV1_ESP_ENCR_RC5, ENCR_RC5 }, { IKEV1_ESP_ENCR_IDEA, ENCR_IDEA }, { IKEV1_ESP_ENCR_CAST, ENCR_CAST }, { IKEV1_ESP_ENCR_BLOWFISH, ENCR_BLOWFISH }, { IKEV1_ESP_ENCR_3IDEA, ENCR_3IDEA }, { IKEV1_ESP_ENCR_DES_IV32, ENCR_DES_IV32 }, { IKEV1_ESP_ENCR_NULL, ENCR_NULL }, { IKEV1_ESP_ENCR_AES_CBC, ENCR_AES_CBC }, { IKEV1_ESP_ENCR_AES_CTR, ENCR_AES_CTR }, { IKEV1_ESP_ENCR_AES_CCM_8, ENCR_AES_CCM_ICV8 }, { IKEV1_ESP_ENCR_AES_CCM_12, ENCR_AES_CCM_ICV12 }, { IKEV1_ESP_ENCR_AES_CCM_16, ENCR_AES_CCM_ICV16 }, { IKEV1_ESP_ENCR_AES_GCM_8, ENCR_AES_GCM_ICV8 }, { IKEV1_ESP_ENCR_AES_GCM_12, ENCR_AES_GCM_ICV12 }, { IKEV1_ESP_ENCR_AES_GCM_16, ENCR_AES_GCM_ICV16 }, { IKEV1_ESP_ENCR_CAMELLIA, ENCR_CAMELLIA_CBC }, { IKEV1_ESP_ENCR_NULL_AUTH_AES_GMAC, ENCR_NULL_AUTH_AES_GMAC }, { IKEV1_ESP_ENCR_SERPENT, ENCR_SERPENT_CBC }, { IKEV1_ESP_ENCR_TWOFISH, ENCR_TWOFISH_CBC }, }; /** * ESP authentication algorithm mapping */ static algo_map_t map_esp_auth[] = { { IKEV1_ESP_AUTH_HMAC_MD5, AUTH_HMAC_MD5_96 }, { IKEV1_ESP_AUTH_HMAC_SHA, AUTH_HMAC_SHA1_96 }, { IKEV1_ESP_AUTH_DES_MAC, AUTH_DES_MAC }, { IKEV1_ESP_AUTH_KPDK, AUTH_KPDK_MD5 }, { IKEV1_ESP_AUTH_HMAC_SHA2_256, AUTH_HMAC_SHA2_256_128 }, { IKEV1_ESP_AUTH_HMAC_SHA2_384, AUTH_HMAC_SHA2_384_192 }, { IKEV1_ESP_AUTH_HMAC_SHA2_512, AUTH_HMAC_SHA2_512_256 }, { IKEV1_ESP_AUTH_AES_XCBC_MAC, AUTH_AES_XCBC_96 }, { IKEV1_ESP_AUTH_AES_128_GMAC, AUTH_AES_128_GMAC }, { IKEV1_ESP_AUTH_AES_192_GMAC, AUTH_AES_192_GMAC }, { IKEV1_ESP_AUTH_AES_256_GMAC, AUTH_AES_256_GMAC }, }; /** * AH authentication algorithm mapping */ static algo_map_t map_ah[] = { { IKEV1_AH_HMAC_MD5, AUTH_HMAC_MD5_96 }, { IKEV1_AH_HMAC_SHA, AUTH_HMAC_SHA1_96 }, { IKEV1_AH_DES_MAC, AUTH_DES_MAC }, { IKEV1_AH_HMAC_SHA2_256, AUTH_HMAC_SHA2_256_128 }, { IKEV1_AH_HMAC_SHA2_384, AUTH_HMAC_SHA2_384_192 }, { IKEV1_AH_HMAC_SHA2_512, AUTH_HMAC_SHA2_512_256 }, { IKEV1_AH_AES_XCBC_MAC, AUTH_AES_XCBC_96 }, { IKEV1_AH_AES_128_GMAC, AUTH_AES_128_GMAC }, { IKEV1_AH_AES_192_GMAC, AUTH_AES_192_GMAC }, { IKEV1_AH_AES_256_GMAC, AUTH_AES_256_GMAC }, }; /** * Get IKEv2 algorithm from IKEv1 identifier */ static u_int16_t get_alg_from_ikev1(transform_type_t type, u_int16_t value) { algo_map_t *map; u_int16_t def; int i, count; switch (type) { case ENCRYPTION_ALGORITHM: map = map_encr; count = countof(map_encr); def = ENCR_UNDEFINED; break; case INTEGRITY_ALGORITHM: map = map_integ; count = countof(map_integ); def = AUTH_UNDEFINED; break; case PSEUDO_RANDOM_FUNCTION: map = map_prf; count = countof(map_prf); def = PRF_UNDEFINED; break; default: return 0; } for (i = 0; i < count; i++) { if (map[i].ikev1 == value) { return map[i].ikev2; } } return def; } /** * Get IKEv1 algorithm from IKEv2 identifier */ static u_int16_t get_ikev1_from_alg(transform_type_t type, u_int16_t value) { algo_map_t *map; int i, count; switch (type) { case ENCRYPTION_ALGORITHM: map = map_encr; count = countof(map_encr); break; case INTEGRITY_ALGORITHM: map = map_integ; count = countof(map_integ); break; case PSEUDO_RANDOM_FUNCTION: map = map_prf; count = countof(map_prf); break; default: return 0; } for (i = 0; i < count; i++) { if (map[i].ikev2 == value) { return map[i].ikev1; } } return 0; } /** * Get IKEv2 algorithm from IKEv1 ESP transaction ID */ static u_int16_t get_alg_from_ikev1_transid(protocol_id_t proto, transform_type_t type, u_int16_t value) { algo_map_t *map; u_int16_t def; int i, count; switch (type) { case ENCRYPTION_ALGORITHM: map = map_esp_encr; count = countof(map_esp_encr); def = ENCR_UNDEFINED; break; case INTEGRITY_ALGORITHM: if (proto == PROTO_ESP) { map = map_esp_auth; count = countof(map_esp_auth); } else { map = map_ah; count = countof(map_ah); } def = AUTH_UNDEFINED; break; default: return 0; } for (i = 0; i < count; i++) { if (map[i].ikev1 == value) { return map[i].ikev2; } } return def; } /** * Get IKEv1 ESP/AH transaction ID from IKEv2 identifier */ static u_int16_t get_ikev1_transid_from_alg(protocol_id_t proto, transform_type_t type, u_int16_t value) { algo_map_t *map; int i, count; switch (type) { case ENCRYPTION_ALGORITHM: map = map_esp_encr; count = countof(map_esp_encr); break; case INTEGRITY_ALGORITHM: if (proto == PROTO_ESP) { map = map_esp_auth; count = countof(map_esp_auth); } else { map = map_ah; count = countof(map_ah); } break; default: return 0; } for (i = 0; i < count; i++) { if (map[i].ikev2 == value) { return map[i].ikev1; } } return 0; } /** * Get IKEv1 authentication attribute from auth_method_t */ static u_int16_t get_ikev1_auth(auth_method_t method) { switch (method) { case AUTH_RSA: return IKEV1_AUTH_RSA_SIG; case AUTH_DSS: return IKEV1_AUTH_DSS_SIG; case AUTH_XAUTH_INIT_PSK: return IKEV1_AUTH_XAUTH_INIT_PSK; case AUTH_XAUTH_RESP_PSK: return IKEV1_AUTH_XAUTH_RESP_PSK; case AUTH_XAUTH_INIT_RSA: return IKEV1_AUTH_XAUTH_INIT_RSA; case AUTH_XAUTH_RESP_RSA: return IKEV1_AUTH_XAUTH_RESP_RSA; case AUTH_HYBRID_INIT_RSA: return IKEV1_AUTH_HYBRID_INIT_RSA; case AUTH_HYBRID_RESP_RSA: return IKEV1_AUTH_HYBRID_RESP_RSA; case AUTH_ECDSA_256: return IKEV1_AUTH_ECDSA_256; case AUTH_ECDSA_384: return IKEV1_AUTH_ECDSA_384; case AUTH_ECDSA_521: return IKEV1_AUTH_ECDSA_521; case AUTH_PSK: default: return IKEV1_AUTH_PSK; } } /** * Get IKEv1 encapsulation mode */ static u_int16_t get_ikev1_mode(ipsec_mode_t mode, encap_t udp) { switch (mode) { case MODE_TUNNEL: switch (udp) { case ENCAP_UDP: return IKEV1_ENCAP_UDP_TUNNEL; case ENCAP_UDP_DRAFT_00_03: return IKEV1_ENCAP_UDP_TUNNEL_DRAFT_00_03; default: return IKEV1_ENCAP_TUNNEL; } case MODE_TRANSPORT: switch (udp) { case ENCAP_UDP: return IKEV1_ENCAP_UDP_TRANSPORT; case ENCAP_UDP_DRAFT_00_03: return IKEV1_ENCAP_UDP_TRANSPORT_DRAFT_00_03; default: return IKEV1_ENCAP_TRANSPORT; } default: return IKEV1_ENCAP_TUNNEL; } } /** * Add an IKE transform to a proposal for IKEv1 */ static void add_to_proposal_v1_ike(proposal_t *proposal, transform_substructure_t *transform) { transform_attribute_type_t type; transform_attribute_t *tattr; enumerator_t *enumerator; u_int16_t value, key_length = 0; u_int16_t encr = ENCR_UNDEFINED; enumerator = transform->create_attribute_enumerator(transform); while (enumerator->enumerate(enumerator, &tattr)) { type = tattr->get_attribute_type(tattr); value = tattr->get_value(tattr); switch (type) { case TATTR_PH1_ENCRYPTION_ALGORITHM: encr = get_alg_from_ikev1(ENCRYPTION_ALGORITHM, value); break; case TATTR_PH1_KEY_LENGTH: key_length = value; break; case TATTR_PH1_HASH_ALGORITHM: proposal->add_algorithm(proposal, INTEGRITY_ALGORITHM, get_alg_from_ikev1(INTEGRITY_ALGORITHM, value), 0); proposal->add_algorithm(proposal, PSEUDO_RANDOM_FUNCTION, get_alg_from_ikev1(PSEUDO_RANDOM_FUNCTION, value), 0); break; case TATTR_PH1_GROUP: proposal->add_algorithm(proposal, DIFFIE_HELLMAN_GROUP, value, 0); break; default: break; } } enumerator->destroy(enumerator); if (encr != ENCR_UNDEFINED) { proposal->add_algorithm(proposal, ENCRYPTION_ALGORITHM, encr, key_length); } } /** * Add an ESP/AH transform to a proposal for IKEv1 */ static void add_to_proposal_v1(proposal_t *proposal, transform_substructure_t *transform, protocol_id_t proto) { transform_attribute_type_t type; transform_attribute_t *tattr; enumerator_t *enumerator; u_int16_t encr, value, key_length = 0; enumerator = transform->create_attribute_enumerator(transform); while (enumerator->enumerate(enumerator, &tattr)) { type = tattr->get_attribute_type(tattr); value = tattr->get_value(tattr); switch (type) { case TATTR_PH2_KEY_LENGTH: key_length = value; break; case TATTR_PH2_AUTH_ALGORITHM: proposal->add_algorithm(proposal, INTEGRITY_ALGORITHM, get_alg_from_ikev1_transid(proto, INTEGRITY_ALGORITHM, value), 0); break; case TATTR_PH2_GROUP: proposal->add_algorithm(proposal, DIFFIE_HELLMAN_GROUP, value, 0); break; default: break; } } enumerator->destroy(enumerator); /* TODO-IKEv1: handle ESN attribute */ proposal->add_algorithm(proposal, EXTENDED_SEQUENCE_NUMBERS, NO_EXT_SEQ_NUMBERS, 0); if (proto == PROTO_ESP) { encr = get_alg_from_ikev1_transid(proto, ENCRYPTION_ALGORITHM, transform->get_transform_id(transform)); if (encr) { proposal->add_algorithm(proposal, ENCRYPTION_ALGORITHM, encr, key_length); } } } METHOD(proposal_substructure_t, get_proposals, void, private_proposal_substructure_t *this, linked_list_t *proposals) { transform_substructure_t *transform; enumerator_t *enumerator; proposal_t *proposal = NULL; u_int64_t spi = 0; switch (this->spi.len) { case 4: spi = *((u_int32_t*)this->spi.ptr); break; case 8: spi = *((u_int64_t*)this->spi.ptr); break; default: break; } enumerator = this->transforms->create_enumerator(this->transforms); while (enumerator->enumerate(enumerator, &transform)) { if (!proposal) { proposal = proposal_create(this->protocol_id, this->proposal_number); proposal->set_spi(proposal, spi); proposals->insert_last(proposals, proposal); } if (this->type == PLV2_PROPOSAL_SUBSTRUCTURE) { add_to_proposal_v2(proposal, transform); } else { switch (this->protocol_id) { case PROTO_IKE: add_to_proposal_v1_ike(proposal, transform); break; case PROTO_ESP: case PROTO_AH: add_to_proposal_v1(proposal, transform, this->protocol_id); break; default: break; } /* create a new proposal for each transform in IKEv1 */ proposal = NULL; } } enumerator->destroy(enumerator); } METHOD(proposal_substructure_t, create_substructure_enumerator, enumerator_t*, private_proposal_substructure_t *this) { return this->transforms->create_enumerator(this->transforms); } /** * Get an attribute from any transform, 0 if not found */ static u_int64_t get_attr(private_proposal_substructure_t *this, transform_attribute_type_t type) { enumerator_t *transforms, *attributes; transform_substructure_t *transform; transform_attribute_t *attr; transforms = this->transforms->create_enumerator(this->transforms); while (transforms->enumerate(transforms, &transform)) { attributes = transform->create_attribute_enumerator(transform); while (attributes->enumerate(attributes, &attr)) { if (attr->get_attribute_type(attr) == type) { attributes->destroy(attributes); transforms->destroy(transforms); return attr->get_value(attr); } } attributes->destroy(attributes); } transforms->destroy(transforms); return 0; } /** * Look up a lifetime duration of a given kind in all transforms */ static u_int64_t get_life_duration(private_proposal_substructure_t *this, transform_attribute_type_t type_attr, ikev1_life_type_t type, transform_attribute_type_t dur_attr) { enumerator_t *transforms, *attributes; transform_substructure_t *transform; transform_attribute_t *attr; transforms = this->transforms->create_enumerator(this->transforms); while (transforms->enumerate(transforms, &transform)) { attributes = transform->create_attribute_enumerator(transform); while (attributes->enumerate(attributes, &attr)) { if (attr->get_attribute_type(attr) == type_attr && attr->get_value(attr) == type) { /* got type attribute, look for duration following next */ while (attributes->enumerate(attributes, &attr)) { if (attr->get_attribute_type(attr) == dur_attr) { attributes->destroy(attributes); transforms->destroy(transforms); return attr->get_value(attr); } } } } attributes->destroy(attributes); } transforms->destroy(transforms); return 0; } METHOD(proposal_substructure_t, get_lifetime, u_int32_t, private_proposal_substructure_t *this) { u_int32_t duration; switch (this->protocol_id) { case PROTO_IKE: return get_life_duration(this, TATTR_PH1_LIFE_TYPE, IKEV1_LIFE_TYPE_SECONDS, TATTR_PH1_LIFE_DURATION); case PROTO_ESP: case PROTO_AH: duration = get_life_duration(this, TATTR_PH2_SA_LIFE_TYPE, IKEV1_LIFE_TYPE_SECONDS, TATTR_PH2_SA_LIFE_DURATION); if (!duration) { /* default to 8 hours, RFC 2407 */ return 28800; } return duration; default: return 0; } } METHOD(proposal_substructure_t, get_lifebytes, u_int64_t, private_proposal_substructure_t *this) { switch (this->protocol_id) { case PROTO_ESP: case PROTO_AH: return 1000 * get_life_duration(this, TATTR_PH2_SA_LIFE_TYPE, IKEV1_LIFE_TYPE_KILOBYTES, TATTR_PH2_SA_LIFE_DURATION); case PROTO_IKE: default: return 0; } } METHOD(proposal_substructure_t, get_auth_method, auth_method_t, private_proposal_substructure_t *this) { switch (get_attr(this, TATTR_PH1_AUTH_METHOD)) { case IKEV1_AUTH_PSK: return AUTH_PSK; case IKEV1_AUTH_RSA_SIG: return AUTH_RSA; case IKEV1_AUTH_DSS_SIG: return AUTH_DSS; case IKEV1_AUTH_XAUTH_INIT_PSK: return AUTH_XAUTH_INIT_PSK; case IKEV1_AUTH_XAUTH_RESP_PSK: return AUTH_XAUTH_RESP_PSK; case IKEV1_AUTH_XAUTH_INIT_RSA: return AUTH_XAUTH_INIT_RSA; case IKEV1_AUTH_XAUTH_RESP_RSA: return AUTH_XAUTH_RESP_RSA; case IKEV1_AUTH_HYBRID_INIT_RSA: return AUTH_HYBRID_INIT_RSA; case IKEV1_AUTH_HYBRID_RESP_RSA: return AUTH_HYBRID_RESP_RSA; case IKEV1_AUTH_ECDSA_256: return AUTH_ECDSA_256; case IKEV1_AUTH_ECDSA_384: return AUTH_ECDSA_384; case IKEV1_AUTH_ECDSA_521: return AUTH_ECDSA_521; default: return AUTH_NONE; } } METHOD(proposal_substructure_t, get_encap_mode, ipsec_mode_t, private_proposal_substructure_t *this, bool *udp) { *udp = FALSE; switch (get_attr(this, TATTR_PH2_ENCAP_MODE)) { case IKEV1_ENCAP_TRANSPORT: return MODE_TRANSPORT; case IKEV1_ENCAP_TUNNEL: return MODE_TUNNEL; case IKEV1_ENCAP_UDP_TRANSPORT: case IKEV1_ENCAP_UDP_TRANSPORT_DRAFT_00_03: *udp = TRUE; return MODE_TRANSPORT; case IKEV1_ENCAP_UDP_TUNNEL: case IKEV1_ENCAP_UDP_TUNNEL_DRAFT_00_03: *udp = TRUE; return MODE_TUNNEL; default: /* default to TUNNEL, RFC 2407 says implementation specific */ return MODE_TUNNEL; } } METHOD2(payload_t, proposal_substructure_t, destroy, void, private_proposal_substructure_t *this) { this->transforms->destroy_offset(this->transforms, offsetof(payload_t, destroy)); chunk_free(&this->spi); free(this); } /* * Described in header. */ proposal_substructure_t *proposal_substructure_create(payload_type_t type) { private_proposal_substructure_t *this; INIT(this, .public = { .payload_interface = { .verify = _verify, .get_encoding_rules = _get_encoding_rules, .get_header_length = _get_header_length, .get_length = _get_length, .get_next_type = _get_next_type, .set_next_type = _set_next_type, .get_type = _get_type, .destroy = _destroy, }, .set_proposal_number = _set_proposal_number, .get_proposal_number = _get_proposal_number, .set_protocol_id = _set_protocol_id, .get_protocol_id = _get_protocol_id, .set_is_last_proposal = _set_is_last_proposal, .get_proposals = _get_proposals, .create_substructure_enumerator = _create_substructure_enumerator, .set_spi = _set_spi, .get_spi = _get_spi, .get_cpi = _get_cpi, .get_lifetime = _get_lifetime, .get_lifebytes = _get_lifebytes, .get_auth_method = _get_auth_method, .get_encap_mode = _get_encap_mode, .destroy = _destroy, }, .next_payload = PL_NONE, .transforms = linked_list_create(), .type = type, ); compute_length(this); return &this->public; } /** * Add an IKEv1 IKE proposal to the substructure */ static void set_from_proposal_v1_ike(private_proposal_substructure_t *this, proposal_t *proposal, u_int32_t lifetime, auth_method_t method, int number) { transform_substructure_t *transform; u_int16_t alg, key_size; enumerator_t *enumerator; transform = transform_substructure_create_type(PLV1_TRANSFORM_SUBSTRUCTURE, number, IKEV1_TRANSID_KEY_IKE); enumerator = proposal->create_enumerator(proposal, ENCRYPTION_ALGORITHM); while (enumerator->enumerate(enumerator, &alg, &key_size)) { alg = get_ikev1_from_alg(ENCRYPTION_ALGORITHM, alg); if (alg) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH1_ENCRYPTION_ALGORITHM, alg)); if (key_size) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH1_KEY_LENGTH, key_size)); } break; } } enumerator->destroy(enumerator); /* encode the integrity algorithm as hash and assume use the same PRF */ enumerator = proposal->create_enumerator(proposal, INTEGRITY_ALGORITHM); while (enumerator->enumerate(enumerator, &alg, &key_size)) { alg = get_ikev1_from_alg(INTEGRITY_ALGORITHM, alg); if (alg) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH1_HASH_ALGORITHM, alg)); break; } } enumerator->destroy(enumerator); enumerator = proposal->create_enumerator(proposal, DIFFIE_HELLMAN_GROUP); if (enumerator->enumerate(enumerator, &alg, &key_size)) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH1_GROUP, alg)); } enumerator->destroy(enumerator); transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH1_AUTH_METHOD, get_ikev1_auth(method))); transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH1_LIFE_TYPE, IKEV1_LIFE_TYPE_SECONDS)); transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH1_LIFE_DURATION, lifetime)); add_transform_substructure(this, transform); } /** * Add an IKEv1 ESP/AH proposal to the substructure */ static void set_from_proposal_v1(private_proposal_substructure_t *this, proposal_t *proposal, u_int32_t lifetime, u_int64_t lifebytes, ipsec_mode_t mode, encap_t udp, int number) { transform_substructure_t *transform = NULL; u_int16_t alg, key_size; enumerator_t *enumerator; protocol_id_t proto; proto = proposal->get_protocol(proposal); enumerator = proposal->create_enumerator(proposal, ENCRYPTION_ALGORITHM); if (enumerator->enumerate(enumerator, &alg, &key_size)) { alg = get_ikev1_transid_from_alg(proto, ENCRYPTION_ALGORITHM, alg); if (alg) { transform = transform_substructure_create_type( PLV1_TRANSFORM_SUBSTRUCTURE, number, alg); if (key_size) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_KEY_LENGTH, key_size)); } } } enumerator->destroy(enumerator); enumerator = proposal->create_enumerator(proposal, INTEGRITY_ALGORITHM); if (enumerator->enumerate(enumerator, &alg, &key_size)) { alg = get_ikev1_transid_from_alg(proto, INTEGRITY_ALGORITHM, alg); if (alg) { if (!transform) { transform = transform_substructure_create_type( PLV1_TRANSFORM_SUBSTRUCTURE, number, alg); } transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_AUTH_ALGORITHM, alg)); } } enumerator->destroy(enumerator); if (!transform) { return; } enumerator = proposal->create_enumerator(proposal, DIFFIE_HELLMAN_GROUP); if (enumerator->enumerate(enumerator, &alg, &key_size)) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_GROUP, alg)); } enumerator->destroy(enumerator); transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_ENCAP_MODE, get_ikev1_mode(mode, udp))); if (lifetime) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_SA_LIFE_TYPE, IKEV1_LIFE_TYPE_SECONDS)); transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_SA_LIFE_DURATION, lifetime)); } if (lifebytes) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_SA_LIFE_TYPE, IKEV1_LIFE_TYPE_KILOBYTES)); transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_SA_LIFE_DURATION, lifebytes / 1000)); } add_transform_substructure(this, transform); } /** * Add an IKEv2 proposal to the substructure */ static void set_from_proposal_v2(private_proposal_substructure_t *this, proposal_t *proposal) { transform_substructure_t *transform; u_int16_t alg, key_size; enumerator_t *enumerator; /* encryption algorithm is only available in ESP */ enumerator = proposal->create_enumerator(proposal, ENCRYPTION_ALGORITHM); while (enumerator->enumerate(enumerator, &alg, &key_size)) { transform = transform_substructure_create_type(PLV2_TRANSFORM_SUBSTRUCTURE, ENCRYPTION_ALGORITHM, alg); if (key_size) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV2_TRANSFORM_ATTRIBUTE, TATTR_IKEV2_KEY_LENGTH, key_size)); } add_transform_substructure(this, transform); } enumerator->destroy(enumerator); /* integrity algorithms */ enumerator = proposal->create_enumerator(proposal, INTEGRITY_ALGORITHM); while (enumerator->enumerate(enumerator, &alg, &key_size)) { transform = transform_substructure_create_type(PLV2_TRANSFORM_SUBSTRUCTURE, INTEGRITY_ALGORITHM, alg); add_transform_substructure(this, transform); } enumerator->destroy(enumerator); /* prf algorithms */ enumerator = proposal->create_enumerator(proposal, PSEUDO_RANDOM_FUNCTION); while (enumerator->enumerate(enumerator, &alg, &key_size)) { transform = transform_substructure_create_type(PLV2_TRANSFORM_SUBSTRUCTURE, PSEUDO_RANDOM_FUNCTION, alg); add_transform_substructure(this, transform); } enumerator->destroy(enumerator); /* dh groups */ enumerator = proposal->create_enumerator(proposal, DIFFIE_HELLMAN_GROUP); while (enumerator->enumerate(enumerator, &alg, NULL)) { transform = transform_substructure_create_type(PLV2_TRANSFORM_SUBSTRUCTURE, DIFFIE_HELLMAN_GROUP, alg); add_transform_substructure(this, transform); } enumerator->destroy(enumerator); /* extended sequence numbers */ enumerator = proposal->create_enumerator(proposal, EXTENDED_SEQUENCE_NUMBERS); while (enumerator->enumerate(enumerator, &alg, NULL)) { transform = transform_substructure_create_type(PLV2_TRANSFORM_SUBSTRUCTURE, EXTENDED_SEQUENCE_NUMBERS, alg); add_transform_substructure(this, transform); } enumerator->destroy(enumerator); } /** * Set SPI and other data from proposal, compute length */ static void set_data(private_proposal_substructure_t *this, proposal_t *proposal) { u_int64_t spi64; u_int32_t spi32; /* add SPI, if necessary */ switch (proposal->get_protocol(proposal)) { case PROTO_AH: case PROTO_ESP: spi32 = proposal->get_spi(proposal); this->spi = chunk_clone(chunk_from_thing(spi32)); this->spi_size = this->spi.len; break; case PROTO_IKE: spi64 = proposal->get_spi(proposal); if (spi64) { /* IKE only uses SPIS when rekeying, but on initial setup */ this->spi = chunk_clone(chunk_from_thing(spi64)); this->spi_size = this->spi.len; } break; default: break; } this->proposal_number = proposal->get_number(proposal); this->protocol_id = proposal->get_protocol(proposal); compute_length(this); } /* * Described in header. */ proposal_substructure_t *proposal_substructure_create_from_proposal_v2( proposal_t *proposal) { private_proposal_substructure_t *this; this = (private_proposal_substructure_t*) proposal_substructure_create(PLV2_SECURITY_ASSOCIATION); set_from_proposal_v2(this, proposal); set_data(this, proposal); return &this->public; } /** * See header. */ proposal_substructure_t *proposal_substructure_create_from_proposal_v1( proposal_t *proposal, u_int32_t lifetime, u_int64_t lifebytes, auth_method_t auth, ipsec_mode_t mode, encap_t udp) { private_proposal_substructure_t *this; this = (private_proposal_substructure_t*) proposal_substructure_create(PLV1_PROPOSAL_SUBSTRUCTURE); switch (proposal->get_protocol(proposal)) { case PROTO_IKE: set_from_proposal_v1_ike(this, proposal, lifetime, auth, 1); break; case PROTO_ESP: case PROTO_AH: set_from_proposal_v1(this, proposal, lifetime, lifebytes, mode, udp, 1); break; default: break; } set_data(this, proposal); return &this->public; } /** * See header. */ proposal_substructure_t *proposal_substructure_create_from_proposals_v1( linked_list_t *proposals, u_int32_t lifetime, u_int64_t lifebytes, auth_method_t auth, ipsec_mode_t mode, encap_t udp) { private_proposal_substructure_t *this = NULL; enumerator_t *enumerator; proposal_t *proposal; int number = 0; enumerator = proposals->create_enumerator(proposals); while (enumerator->enumerate(enumerator, &proposal)) { if (!this) { this = (private_proposal_substructure_t*) proposal_substructure_create_from_proposal_v1( proposal, lifetime, lifebytes, auth, mode, udp); ++number; } else { switch (proposal->get_protocol(proposal)) { case PROTO_IKE: set_from_proposal_v1_ike(this, proposal, lifetime, auth, ++number); break; case PROTO_ESP: case PROTO_AH: set_from_proposal_v1(this, proposal, lifetime, lifebytes, mode, udp, ++number); break; default: break; } } } enumerator->destroy(enumerator); return &this->public; } /** * See header. */ proposal_substructure_t *proposal_substructure_create_for_ipcomp_v1( u_int32_t lifetime, u_int64_t lifebytes, u_int16_t cpi, ipsec_mode_t mode, encap_t udp, u_int8_t proposal_number) { private_proposal_substructure_t *this; transform_substructure_t *transform; this = (private_proposal_substructure_t*) proposal_substructure_create(PLV1_PROPOSAL_SUBSTRUCTURE); /* we currently support DEFLATE only */ transform = transform_substructure_create_type(PLV1_TRANSFORM_SUBSTRUCTURE, 1, IKEV1_IPCOMP_DEFLATE); transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_ENCAP_MODE, get_ikev1_mode(mode, udp))); if (lifetime) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_SA_LIFE_TYPE, IKEV1_LIFE_TYPE_SECONDS)); transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_SA_LIFE_DURATION, lifetime)); } if (lifebytes) { transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_SA_LIFE_TYPE, IKEV1_LIFE_TYPE_KILOBYTES)); transform->add_transform_attribute(transform, transform_attribute_create_value(PLV1_TRANSFORM_ATTRIBUTE, TATTR_PH2_SA_LIFE_DURATION, lifebytes / 1000)); } add_transform_substructure(this, transform); this->spi = chunk_clone(chunk_from_thing(cpi)); this->spi_size = this->spi.len; this->protocol_id = PROTO_IPCOMP; this->proposal_number = proposal_number; compute_length(this); return &this->public; }