/* * Copyright (C) 2010 Andreas Steffen * Copyright (C) 2010 HSR 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 "eap_ttls_peer.h" #include "eap_ttls_avp.h" #include #include #include #include typedef struct private_eap_ttls_peer_t private_eap_ttls_peer_t; /** * Private data of an eap_ttls_peer_t object. */ struct private_eap_ttls_peer_t { /** * Public eap_ttls_peer_t interface. */ eap_ttls_peer_t public; /** * Server identity */ identification_t *server; /** * Peer identity */ identification_t *peer; /** * Current EAP-TTLS state */ bool start_phase2; /** * Current phase 2 EAP method */ eap_method_t *method; /** * Pending outbound EAP message */ eap_payload_t *out; /** * AVP handler */ eap_ttls_avp_t *avp; }; METHOD(tls_application_t, process, status_t, private_eap_ttls_peer_t *this, bio_reader_t *reader) { chunk_t avp_data = chunk_empty; chunk_t eap_data = chunk_empty; status_t status; payload_t *payload; eap_payload_t *in; eap_packet_t *pkt; eap_code_t code; eap_type_t type, received_type; u_int32_t vendor, received_vendor; u_int16_t eap_len; size_t eap_pos = 0; bool concatenated = FALSE; do { status = this->avp->process(this->avp, reader, &avp_data); switch (status) { case SUCCESS: break; case NEED_MORE: DBG1(DBG_IKE, "need more AVP data"); return NEED_MORE; case FAILED: default: return FAILED; } if (eap_data.len == 0) { if (avp_data.len < 4) { DBG1(DBG_IKE, "AVP size to small to contain EAP header"); chunk_free(&avp_data); return FAILED; } pkt = (eap_packet_t*)avp_data.ptr; eap_len = untoh16(&pkt->length); if (eap_len <= avp_data.len) { /* standard: EAP packet contained in a single AVP */ eap_data = avp_data; break; } else if (avp_data.len == MAX_RADIUS_ATTRIBUTE_SIZE) { /* non-standard: EAP packet segmented into multiple AVPs */ eap_data = chunk_alloc(eap_len); concatenated = TRUE; } else { DBG1(DBG_IKE, "non-radius segmentation of EAP packet into AVPs"); chunk_free(&avp_data); return FAILED; } } if (avp_data.len > eap_data.len - eap_pos) { DBG1(DBG_IKE, "AVP size to large to fit into EAP packet"); chunk_free(&avp_data); chunk_free(&eap_data); return FAILED; } memcpy(eap_data.ptr + eap_pos, avp_data.ptr, avp_data.len); eap_pos += avp_data.len; chunk_free(&avp_data); } while (eap_pos < eap_data.len); in = eap_payload_create_data(eap_data); chunk_free(&eap_data); payload = (payload_t*)in; if (payload->verify(payload) != SUCCESS) { in->destroy(in); return FAILED; } code = in->get_code(in); received_type = in->get_type(in, &received_vendor); DBG1(DBG_IKE, "received tunneled EAP-TTLS AVP%s [EAP/%N/%N]", concatenated ? "s" : "", eap_code_short_names, code, eap_type_short_names, received_type); if (code != EAP_REQUEST) { DBG1(DBG_IKE, "%N expected", eap_code_names, EAP_REQUEST); in->destroy(in); return FAILED; } /* yet another phase2 authentication? */ if (this->method) { type = this->method->get_type(this->method, &vendor); if (type != received_type || vendor != received_vendor) { this->method->destroy(this->method); this->method = NULL; } } if (this->method == NULL) { if (received_vendor) { DBG1(DBG_IKE, "server requested vendor specific EAP method %d-%d " "(id 0x%02X)", received_type, received_vendor, in->get_identifier(in)); } else { DBG1(DBG_IKE, "server requested %N authentication (id 0x%02X)", eap_type_names, received_type, in->get_identifier(in)); } this->method = charon->eap->create_instance(charon->eap, received_type, received_vendor, EAP_PEER, this->server, this->peer); if (!this->method) { DBG1(DBG_IKE, "EAP method not supported"); this->out = eap_payload_create_nak(in->get_identifier(in), 0, 0, in->is_expanded(in)); in->destroy(in); return NEED_MORE; } type = this->method->get_type(this->method, &vendor); this->start_phase2 = FALSE; } status = this->method->process(this->method, in, &this->out); in->destroy(in); switch (status) { case SUCCESS: this->method->destroy(this->method); this->method = NULL; /* fall through to NEED_MORE */ case NEED_MORE: return NEED_MORE; case FAILED: default: if (vendor) { DBG1(DBG_IKE, "vendor specific EAP method %d-%d failed", type, vendor); } else { DBG1(DBG_IKE, "%N method failed", eap_type_names, type); } return FAILED; } } METHOD(tls_application_t, build, status_t, private_eap_ttls_peer_t *this, bio_writer_t *writer) { chunk_t data; eap_code_t code; eap_type_t type; u_int32_t vendor; if (this->method == NULL && this->start_phase2) { /* generate an EAP Identity response */ this->method = charon->eap->create_instance(charon->eap, EAP_IDENTITY, 0, EAP_PEER, this->server, this->peer); if (this->method == NULL) { DBG1(DBG_IKE, "EAP_IDENTITY method not available"); return FAILED; } this->method->process(this->method, NULL, &this->out); this->method->destroy(this->method); this->method = NULL; this->start_phase2 = FALSE; } if (this->out) { code = this->out->get_code(this->out); type = this->out->get_type(this->out, &vendor); DBG1(DBG_IKE, "sending tunneled EAP-TTLS AVP [EAP/%N/%N]", eap_code_short_names, code, eap_type_short_names, type); /* get the raw EAP message data */ data = this->out->get_data(this->out); this->avp->build(this->avp, writer, data); this->out->destroy(this->out); this->out = NULL; } return INVALID_STATE; } METHOD(tls_application_t, destroy, void, private_eap_ttls_peer_t *this) { this->server->destroy(this->server); this->peer->destroy(this->peer); DESTROY_IF(this->method); DESTROY_IF(this->out); this->avp->destroy(this->avp); free(this); } /** * See header */ eap_ttls_peer_t *eap_ttls_peer_create(identification_t *server, identification_t *peer) { private_eap_ttls_peer_t *this; INIT(this, .public = { .application = { .process = _process, .build = _build, .destroy = _destroy, }, }, .server = server->clone(server), .peer = peer->clone(peer), .start_phase2 = TRUE, .avp = eap_ttls_avp_create(), ); return &this->public; }