/* * rlm_eap_peap.c contains the interfaces that are called from eap * * Version: $Id$ * * 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. * * 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA * * Copyright 2003 Alan DeKok * Copyright 2006 The FreeRADIUS server project */ RCSID("$Id$") #include "eap_peap.h" typedef struct rlm_eap_peap_t { char const *tls_conf_name; //!< TLS configuration. fr_tls_server_conf_t *tls_conf; char const *default_method_name; //!< Default tunneled EAP type. int default_method; char const *inner_eap_module; //!< module name for inner EAP int auth_type_eap; bool use_tunneled_reply; //!< Use the reply attributes from the tunneled session in //!< the non-tunneled reply to the client. bool copy_request_to_tunnel; //!< Use SOME of the request attributes from outside of the //!< tunneled session in the tunneled request. #ifdef WITH_PROXY bool proxy_tunneled_request_as_eap; //!< Proxy tunneled session as EAP, or as de-capsulated //!< protocol. #endif char const *virtual_server; //!< Virtual server for inner tunnel session. bool soh; //!< Do we do SoH request? char const *soh_virtual_server; bool req_client_cert; //!< Do we do require a client cert? } rlm_eap_peap_t; static CONF_PARSER module_config[] = { { "tls", FR_CONF_OFFSET(PW_TYPE_STRING, rlm_eap_peap_t, tls_conf_name), NULL }, { "default_eap_type", FR_CONF_OFFSET(PW_TYPE_STRING, rlm_eap_peap_t, default_method_name), "mschapv2" }, { "inner_eap_module", FR_CONF_OFFSET(PW_TYPE_STRING, rlm_eap_peap_t, inner_eap_module), NULL }, { "copy_request_to_tunnel", FR_CONF_OFFSET(PW_TYPE_BOOLEAN, rlm_eap_peap_t, copy_request_to_tunnel), "no" }, { "use_tunneled_reply", FR_CONF_OFFSET(PW_TYPE_BOOLEAN, rlm_eap_peap_t, use_tunneled_reply), "no" }, #ifdef WITH_PROXY { "proxy_tunneled_request_as_eap", FR_CONF_OFFSET(PW_TYPE_BOOLEAN, rlm_eap_peap_t, proxy_tunneled_request_as_eap), "yes" }, #endif { "virtual_server", FR_CONF_OFFSET(PW_TYPE_STRING, rlm_eap_peap_t, virtual_server), NULL }, { "soh", FR_CONF_OFFSET(PW_TYPE_BOOLEAN, rlm_eap_peap_t, soh), "no" }, { "require_client_cert", FR_CONF_OFFSET(PW_TYPE_BOOLEAN, rlm_eap_peap_t, req_client_cert), "no" }, { "soh_virtual_server", FR_CONF_OFFSET(PW_TYPE_STRING, rlm_eap_peap_t, soh_virtual_server), NULL }, CONF_PARSER_TERMINATOR }; /* * Attach the module. */ static int mod_instantiate(CONF_SECTION *cs, void **instance) { rlm_eap_peap_t *inst; DICT_VALUE const *dv; *instance = inst = talloc_zero(cs, rlm_eap_peap_t); if (!inst) return -1; /* * Parse the configuration attributes. */ if (cf_section_parse(cs, inst, module_config) < 0) { return -1; } if (!inst->virtual_server) { ERROR("rlm_eap_peap: A 'virtual_server' MUST be defined for security"); return -1; } /* * Convert the name to an integer, to make it easier to * handle. */ inst->default_method = eap_name2type(inst->default_method_name); if (inst->default_method < 0) { ERROR("rlm_eap_peap: Unknown EAP type %s", inst->default_method_name); return -1; } /* * Read tls configuration, either from group given by 'tls' * option, or from the eap-tls configuration. */ inst->tls_conf = eaptls_conf_parse(cs, "tls"); if (!inst->tls_conf) { ERROR("rlm_eap_peap: Failed initializing SSL context"); return -1; } /* * Don't expose this if we don't need it. */ if (!inst->inner_eap_module) inst->inner_eap_module = "eap"; dv = dict_valbyname(PW_AUTH_TYPE, 0, inst->inner_eap_module); if (!dv) { WARN("Failed to find 'Auth-Type %s' section in virtual server %s. The server cannot proxy inner-tunnel EAP packets.", inst->inner_eap_module, inst->virtual_server); } else { inst->auth_type_eap = dv->value; } return 0; } /* * Allocate the PEAP per-session data */ static peap_tunnel_t *peap_alloc(TALLOC_CTX *ctx, rlm_eap_peap_t *inst) { peap_tunnel_t *t; t = talloc_zero(ctx, peap_tunnel_t); t->default_method = inst->default_method; t->copy_request_to_tunnel = inst->copy_request_to_tunnel; t->use_tunneled_reply = inst->use_tunneled_reply; #ifdef WITH_PROXY t->proxy_tunneled_request_as_eap = inst->proxy_tunneled_request_as_eap; #endif t->virtual_server = inst->virtual_server; t->soh = inst->soh; t->soh_virtual_server = inst->soh_virtual_server; t->session_resumption_state = PEAP_RESUMPTION_MAYBE; return t; } /* * Send an initial eap-tls request to the peer, using the libeap functions. */ static int mod_session_init(void *type_arg, eap_handler_t *handler) { int status; tls_session_t *ssn; rlm_eap_peap_t *inst; VALUE_PAIR *vp; bool client_cert; REQUEST *request = handler->request; inst = type_arg; handler->tls = true; /* * Check if we need a client certificate. */ /* * EAP-TLS-Require-Client-Cert attribute will override * the require_client_cert configuration option. */ vp = fr_pair_find_by_num(handler->request->config, PW_EAP_TLS_REQUIRE_CLIENT_CERT, 0, TAG_ANY); if (vp) { client_cert = vp->vp_integer ? true : false; } else { client_cert = inst->req_client_cert; } /* * Allow TLS 1.3, it works. */ ssn = eaptls_session(handler, inst->tls_conf, client_cert, true); if (!ssn) { return 0; } handler->opaque = ((void *)ssn); /* * Set the label to a fixed string. For TLS 1.3, the * label is the same for all TLS-based EAP methods. If * the client is using TLS 1.3, then eaptls_success() * will over-ride this label with the correct label for * TLS 1.3. */ ssn->label = "client EAP encryption"; /* * As it is a poorly designed protocol, PEAP uses * bits in the TLS header to indicate PEAP * version numbers. For now, we only support * PEAP version 0, so it doesn't matter too much. * However, if we support later versions of PEAP, * we will need this flag to indicate which * version we're currently dealing with. */ ssn->peap_flag = 0x00; /* * PEAP version 0 requires 'include_length = no', * so rather than hoping the user figures it out, * we force it here. */ ssn->length_flag = false; /* * TLS session initialization is over. Now handle TLS * related handshaking or application data. */ status = eaptls_start(handler->eap_ds, ssn->peap_flag); if ((status == FR_TLS_INVALID) || (status == FR_TLS_FAIL)) { REDEBUG("[eaptls start] = %s", fr_int2str(fr_tls_status_table, status, "")); } else { RDEBUG3("[eaptls start] = %s", fr_int2str(fr_tls_status_table, status, "")); } if (status == 0) return 0; /* * The next stage to process the packet. */ handler->stage = PROCESS; return 1; } /* * Do authentication, by letting EAP-TLS do most of the work. */ static int mod_process(void *arg, eap_handler_t *handler) { int rcode; int ret = 0; fr_tls_status_t status; rlm_eap_peap_t *inst = (rlm_eap_peap_t *) arg; tls_session_t *tls_session = (tls_session_t *) handler->opaque; peap_tunnel_t *peap = tls_session->opaque; REQUEST *request = handler->request; /* * Session resumption requires the storage of data, so * allocate it if it doesn't already exist. */ if (!tls_session->opaque) { peap = tls_session->opaque = peap_alloc(tls_session, inst); } /* * Negotiate PEAP versions down. */ if ((handler->eap_ds->response->type.data[0] & 0x03) < tls_session->peap_flag) { tls_session->peap_flag = handler->eap_ds->response->type.data[0] & 0x03; } status = eaptls_process(handler); if ((status == FR_TLS_INVALID) || (status == FR_TLS_FAIL)) { REDEBUG("[eaptls process] = %s", fr_int2str(fr_tls_status_table, status, "")); } else { RDEBUG3("[eaptls process] = %s", fr_int2str(fr_tls_status_table, status, "")); } /* * Make request available to any SSL callbacks */ SSL_set_ex_data(tls_session->ssl, FR_TLS_EX_INDEX_REQUEST, request); switch (status) { /* * EAP-TLS handshake was successful, tell the * client to keep talking. * * If this was EAP-TLS, we would just return * an EAP-TLS-Success packet here. */ case FR_TLS_SUCCESS: peap->status = PEAP_STATUS_TUNNEL_ESTABLISHED; break; /* * The TLS code is still working on the TLS * exchange, and it's a valid TLS request. * do nothing. */ case FR_TLS_HANDLED: /* * FIXME: If the SSL session is established, grab the state * and EAP id from the inner tunnel, and update it with * the expected EAP id! */ ret = 1; goto done; /* * Handshake is done, proceed with decoding tunneled * data. */ case FR_TLS_OK: /* * TLSv1.3 makes application data immediately avaliable */ if (tls_session->is_init_finished && (peap->status == PEAP_STATUS_INVALID)) peap->status = PEAP_STATUS_TUNNEL_ESTABLISHED; break; /* * Anything else: fail. */ default: ret = 0; goto done; } /* * Session is established, proceed with decoding * tunneled data. */ RDEBUG2("Session established. Decoding tunneled attributes"); /* * We may need PEAP data associated with the session, so * allocate it here, if it wasn't already alloacted. */ if (!tls_session->opaque) { tls_session->opaque = peap_alloc(tls_session, inst); } /* * Process the PEAP portion of the request. */ rcode = eappeap_process(handler, tls_session, inst->auth_type_eap); switch (rcode) { case RLM_MODULE_REJECT: eaptls_fail(handler, 0); ret = 0; goto done; case RLM_MODULE_HANDLED: eaptls_request(handler->eap_ds, tls_session); ret = 1; goto done; case RLM_MODULE_OK: /* * Move the saved VP's from the Access-Accept to * our Access-Accept. */ peap = tls_session->opaque; if (peap->soh_reply_vps) { RDEBUG2("Using saved attributes from the SoH reply"); rdebug_pair_list(L_DBG_LVL_2, request, peap->soh_reply_vps, NULL); fr_pair_list_mcopy_by_num(handler->request->reply, &handler->request->reply->vps, &peap->soh_reply_vps, 0, 0, TAG_ANY); } if (peap->accept_vps) { RDEBUG2("Using saved attributes from the original Access-Accept"); rdebug_pair_list(L_DBG_LVL_2, request, peap->accept_vps, NULL); fr_pair_list_mcopy_by_num(handler->request->reply, &handler->request->reply->vps, &peap->accept_vps, 0, 0, TAG_ANY); } else if (peap->use_tunneled_reply) { RDEBUG2("No saved attributes in the original Access-Accept"); } /* * Success: Automatically return MPPE keys. */ ret = eaptls_success(handler, 0); goto done; /* * No response packet, MUST be proxying it. * The main EAP module will take care of discovering * that the request now has a "proxy" packet, and * will proxy it, rather than returning an EAP packet. */ case RLM_MODULE_UPDATED: #ifdef WITH_PROXY rad_assert(handler->request->proxy != NULL); #endif ret = 1; goto done; default: break; } eaptls_fail(handler, 0); done: SSL_set_ex_data(tls_session->ssl, FR_TLS_EX_INDEX_REQUEST, NULL); return ret; } /* * The module name should be the only globally exported symbol. * That is, everything else should be 'static'. */ extern rlm_eap_module_t rlm_eap_peap; rlm_eap_module_t rlm_eap_peap = { .name = "eap_peap", .instantiate = mod_instantiate, /* Create new submodule instance */ .session_init = mod_session_init, /* Initialise a new EAP session */ .process = mod_process /* Process next round of EAP method */ };