/* * 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("$Id$") USES_APPLE_DEPRECATED_API /* OpenSSL API has been deprecated by Apple */ #include "eap_peap.h" static int setup_fake_request(REQUEST *request, REQUEST *fake, peap_tunnel_t *t); /* * Send protected EAP-Failure * * Result-TLV = Failure */ static int eappeap_failure(eap_handler_t *handler, tls_session_t *tls_session) { uint8_t tlv_packet[11]; REQUEST *request = handler->request; RDEBUG2("FAILURE"); tlv_packet[0] = PW_EAP_REQUEST; tlv_packet[1] = handler->eap_ds->response->id +1; tlv_packet[2] = 0; tlv_packet[3] = 11; /* length of this packet */ tlv_packet[4] = PW_EAP_TLV; tlv_packet[5] = 0x80; tlv_packet[6] = EAP_TLV_ACK_RESULT; tlv_packet[7] = 0; tlv_packet[8] = 2; /* length of the data portion */ tlv_packet[9] = 0; tlv_packet[10] = EAP_TLV_FAILURE; (tls_session->record_plus)(&tls_session->clean_in, tlv_packet, 11); /* * FIXME: Check the return code. */ tls_handshake_send(request, tls_session); return 1; } /* * Send protected EAP-Success * * Result-TLV = Success */ static int eappeap_success(eap_handler_t *handler, tls_session_t *tls_session) { uint8_t tlv_packet[11]; REQUEST *request = handler->request; RDEBUG2("SUCCESS"); tlv_packet[0] = PW_EAP_REQUEST; tlv_packet[1] = handler->eap_ds->response->id +1; tlv_packet[2] = 0; tlv_packet[3] = 11; /* length of this packet */ tlv_packet[4] = PW_EAP_TLV; tlv_packet[5] = 0x80; /* mandatory AVP */ tlv_packet[6] = EAP_TLV_ACK_RESULT; tlv_packet[7] = 0; tlv_packet[8] = 2; /* length of the data portion */ tlv_packet[9] = 0; tlv_packet[10] = EAP_TLV_SUCCESS; (tls_session->record_plus)(&tls_session->clean_in, tlv_packet, 11); /* * FIXME: Check the return code. */ tls_handshake_send(request, tls_session); return 1; } static int eappeap_identity(eap_handler_t *handler, tls_session_t *tls_session) { eap_packet_raw_t eap_packet; eap_packet.code = PW_EAP_REQUEST; eap_packet.id = handler->eap_ds->response->id + 1; eap_packet.length[0] = 0; eap_packet.length[1] = EAP_HEADER_LEN + 1; eap_packet.data[0] = PW_EAP_IDENTITY; (tls_session->record_plus)(&tls_session->clean_in, &eap_packet, sizeof(eap_packet)); tls_handshake_send(handler->request, tls_session); (tls_session->record_init)(&tls_session->clean_in); return 1; } /* * Send an MS SoH request */ static int eappeap_soh(eap_handler_t *handler, tls_session_t *tls_session) { uint8_t tlv_packet[20]; tlv_packet[0] = 254; /* extended type */ tlv_packet[1] = 0; tlv_packet[2] = 0x01; /* ms vendor */ tlv_packet[3] = 0x37; tlv_packet[4] = 0; /* ms soh eap */ tlv_packet[5] = 0; tlv_packet[6] = 0; tlv_packet[7] = 0x21; tlv_packet[8] = 0; /* vendor-spec tlv */ tlv_packet[9] = 7; tlv_packet[10] = 0; tlv_packet[11] = 8; /* payload len */ tlv_packet[12] = 0; /* ms vendor */ tlv_packet[13] = 0; tlv_packet[14] = 0x01; tlv_packet[15] = 0x37; tlv_packet[16] = 0; tlv_packet[17] = 2; tlv_packet[18] = 0; tlv_packet[19] = 0; (tls_session->record_plus)(&tls_session->clean_in, tlv_packet, 20); tls_handshake_send(handler->request, tls_session); return 1; } static void eapsoh_verify(REQUEST *request, RADIUS_PACKET *packet, uint8_t const *data, unsigned int data_len) { VALUE_PAIR *vp; uint8_t eap_method_base; uint32_t eap_vendor; uint32_t eap_method; int rv; vp = fr_pair_make(packet, &packet->vps, "SoH-Supported", "no", T_OP_EQ); if (data && data[0] == PW_EAP_NAK) { RDEBUG("SoH - client NAKed"); return; } if (!data || data_len < 8) { RDEBUG("SoH - eap payload too short"); return; } eap_method_base = *data++; if (eap_method_base != 254) { RDEBUG("SoH - response is not extended EAP: %i", eap_method_base); return; } eap_vendor = soh_pull_be_24(data); data += 3; if (eap_vendor != 0x137) { RDEBUG("SoH - extended eap vendor %08x is not Microsoft", eap_vendor); return; } eap_method = soh_pull_be_32(data); data += 4; if (eap_method != 0x21) { RDEBUG("SoH - response eap type %08x is not EAP-SoH", eap_method); return; } rv = soh_verify(request, data, data_len - 8); if (rv<0) { RDEBUG("SoH - error decoding payload: %s", fr_strerror()); } else { vp->vp_integer = 1; } } /* * Verify the tunneled EAP message. */ static int eapmessage_verify(REQUEST *request, uint8_t const *data, unsigned int data_len, int peap_version) { eap_packet_raw_t const *eap_packet = (eap_packet_raw_t const *) data; eap_type_t eap_method; /* * Hack for now. */ if (peap_version == 1) return 1; /* * No data, OR only 1 byte of EAP type. */ if (!data || (data_len == 0) || ((data_len <= 1) && (data[0] != PW_EAP_IDENTITY))) { return 0; } eap_method = *data; switch (eap_method) { case PW_EAP_IDENTITY: if (data_len == 1) { RDEBUG2("Identity - "); return 1; } RDEBUG2("Identity - %*s", data_len - 1, data + 1); return 1; /* * If the first byte of the packet is * EAP-Response, and the EAP data is a TLV, * then it looks OK... */ case PW_EAP_RESPONSE: if (eap_packet->data[0] == PW_EAP_TLV) { RDEBUG2("Received EAP-TLV response"); return 1; } RDEBUG2("Received unexpected EAP-Response, rejecting the session."); break; /* * We normally do Microsoft MS-CHAPv2 (26), versus * Cisco MS-CHAPv2 (29). */ case PW_EAP_MSCHAPV2: default: RDEBUG2("EAP method %s (%d)", eap_type2name(eap_method), eap_method); return 1; } return 0; } /* * Convert a pseudo-EAP packet to a list of VALUE_PAIR's. */ static VALUE_PAIR *eap2vp(UNUSED REQUEST *request, RADIUS_PACKET *packet, EAP_DS *eap_ds, uint8_t const *data, size_t data_len, int peap_version) { size_t total; uint8_t *p; VALUE_PAIR *vp = NULL, *head = NULL; vp_cursor_t cursor; if (data_len > 65535) return NULL; /* paranoia */ vp = fr_pair_afrom_num(packet, PW_EAP_MESSAGE, 0); if (!vp) { return NULL; } total = data_len; if (total > 249) total = 249; if (peap_version == 0) { /* * Hand-build an EAP packet from the crap in PEAP version 0. */ vp->vp_length = EAP_HEADER_LEN + total; vp->vp_octets = p = talloc_array(vp, uint8_t, vp->vp_length); p[0] = PW_EAP_RESPONSE; p[1] = eap_ds->response->id; p[2] = (data_len + EAP_HEADER_LEN) >> 8; p[3] = (data_len + EAP_HEADER_LEN) & 0xff; memcpy(p + EAP_HEADER_LEN, data, total); } else { /* peapv1 */ vp->vp_length = total; vp->vp_octets = p = talloc_array(vp, uint8_t, vp->vp_length); memcpy(p, data, total); } fr_cursor_init(&cursor, &head); fr_cursor_insert(&cursor, vp); while (total < data_len) { vp = fr_pair_afrom_num(packet, PW_EAP_MESSAGE, 0); if (!vp) { fr_pair_list_free(&head); return NULL; } fr_pair_value_memcpy(vp, data + total, (data_len - total)); total += vp->vp_length; fr_cursor_insert(&cursor, vp); } return head; } /* * Convert a list of VALUE_PAIR's to an EAP packet, through the * simple expedient of dumping the EAP message */ static int vp2eap(REQUEST *request, tls_session_t *tls_session, VALUE_PAIR *vp) { rad_assert(vp != NULL); VALUE_PAIR *this; vp_cursor_t cursor; size_t header = EAP_HEADER_LEN; if (tls_session->peap_flag > 0) header = 0; /* * Skip the id, code, and length. Just write the EAP * type & data to the client. */ #ifndef NDEBUG if ((rad_debug_lvl > 2) && fr_log_fp) { size_t i, total, start = header; total = 0; for (this = fr_cursor_init(&cursor, &vp); this; this = fr_cursor_next(&cursor)) { for (i = start; i < vp->vp_length; i++) { if ((total & 0x0f) == 0) { fprintf(fr_log_fp, " PEAP tunnel data out %04x: ", (int) total); } fprintf(fr_log_fp, "%02x ", vp->vp_octets[i]); if ((total & 0x0f) == 0x0f) { fprintf(fr_log_fp, "\n"); } total++; } start = 0; } if ((total & 0x0f) != 0) { fprintf(fr_log_fp, "\n"); } } #endif /* * Send the EAP data in the first attribute, WITHOUT the * header. */ (tls_session->record_plus)(&tls_session->clean_in, vp->vp_octets + header, vp->vp_length - header); /* * Send the rest of the EAP data, but skipping the first VP. */ fr_cursor_init(&cursor, &vp); for (this = fr_cursor_next(&cursor); this; this = fr_cursor_next(&cursor)) { (tls_session->record_plus)(&tls_session->clean_in, this->vp_octets, this->vp_length); } tls_handshake_send(request, tls_session); return 1; } /* * See if there's a TLV in the response. */ static int eappeap_check_tlv(REQUEST *request, uint8_t const *data, size_t data_len) { eap_packet_raw_t const *eap_packet = (eap_packet_raw_t const *) data; if (data_len < 11) return 0; /* * Look for success or failure. */ if ((eap_packet->code == PW_EAP_RESPONSE) && (eap_packet->data[0] == PW_EAP_TLV)) { if (data[10] == EAP_TLV_SUCCESS) { return 1; } if (data[10] == EAP_TLV_FAILURE) { RDEBUG2("Client rejected our response. The password is probably incorrect"); return 0; } } RDEBUG("Unknown TLV %02x", data[10]); return 0; } /* * Use a reply packet to determine what to do. */ static rlm_rcode_t CC_HINT(nonnull) process_reply(eap_handler_t *handler, tls_session_t *tls_session, REQUEST *request, RADIUS_PACKET *reply) { rlm_rcode_t rcode = RLM_MODULE_REJECT; VALUE_PAIR *vp; peap_tunnel_t *t = tls_session->opaque; if ((rad_debug_lvl > 0) && fr_log_fp) { RDEBUG("Got tunneled reply RADIUS code %d", reply->code); rdebug_pair_list(L_DBG_LVL_1, request, reply->vps, NULL); } switch (reply->code) { case PW_CODE_ACCESS_ACCEPT: RDEBUG2("Tunneled authentication was successful"); tls_session->authentication_success = true; t->status = PEAP_STATUS_SENT_TLV_SUCCESS; eappeap_success(handler, tls_session); rcode = RLM_MODULE_HANDLED; /* * If we've been told to use the attributes from * the reply, then do so. * * WARNING: This may leak information about the * tunneled user! */ if (t->use_tunneled_reply) { RDEBUG2("Saving tunneled attributes for later"); /* * Clean up the tunneled reply. */ fr_pair_delete_by_num(&reply->vps, PW_PROXY_STATE, 0, TAG_ANY); fr_pair_delete_by_num(&reply->vps, PW_EAP_MESSAGE, 0, TAG_ANY); fr_pair_delete_by_num(&reply->vps, PW_MESSAGE_AUTHENTICATOR, 0, TAG_ANY); /* * Delete MPPE keys & encryption policy. We don't * want these here. */ fr_pair_delete_by_num(&reply->vps, 7, VENDORPEC_MICROSOFT, TAG_ANY); fr_pair_delete_by_num(&reply->vps, 8, VENDORPEC_MICROSOFT, TAG_ANY); fr_pair_delete_by_num(&reply->vps, 16, VENDORPEC_MICROSOFT, TAG_ANY); fr_pair_delete_by_num(&reply->vps, 17, VENDORPEC_MICROSOFT, TAG_ANY); fr_pair_list_free(&t->accept_vps); /* for proxying MS-CHAP2 */ fr_pair_list_mcopy_by_num(t, &t->accept_vps, &reply->vps, 0, 0, TAG_ANY); rad_assert(!reply->vps); } break; case PW_CODE_ACCESS_REJECT: RDEBUG2("Tunneled authentication was rejected"); t->status = PEAP_STATUS_SENT_TLV_FAILURE; eappeap_failure(handler, tls_session); rcode = RLM_MODULE_HANDLED; break; case PW_CODE_ACCESS_CHALLENGE: RDEBUG2("Got tunneled Access-Challenge"); /* * Keep the State attribute, if necessary. * * Get rid of the old State, too. */ fr_pair_list_free(&t->state); fr_pair_list_mcopy_by_num(t, &t->state, &reply->vps, PW_STATE, 0, TAG_ANY); /* * PEAP takes only EAP-Message attributes inside * of the tunnel. Any Reply-Message in the * Access-Challenge is ignored. */ vp = NULL; fr_pair_list_mcopy_by_num(t, &vp, &reply->vps, PW_EAP_MESSAGE, 0, TAG_ANY); /* * Handle EAP-MSCHAP-V2, where Access-Accept's * from the home server may contain MS-CHAP2-Success, * which the module turns into challenges, so that * the client may respond to the challenge with * an "ack" packet. */ if (t->home_access_accept && t->use_tunneled_reply) { RDEBUG2("Saving tunneled attributes for later"); /* * Clean up the tunneled reply. */ fr_pair_delete_by_num(&reply->vps, PW_PROXY_STATE, 0, TAG_ANY); fr_pair_delete_by_num(&reply->vps, PW_MESSAGE_AUTHENTICATOR, 0, TAG_ANY); rad_assert(!t->accept_vps); fr_pair_list_mcopy_by_num(t, &t->accept_vps, &reply->vps, 0, 0, TAG_ANY); rad_assert(!reply->vps); } /* * Handle the ACK, by tunneling any necessary reply * VP's back to the client. */ if (vp) { vp2eap(request, tls_session, vp); fr_pair_list_free(&vp); } rcode = RLM_MODULE_HANDLED; break; default: RDEBUG2("Unknown RADIUS packet type %d: rejecting tunneled user", reply->code); rcode = RLM_MODULE_REJECT; break; } return rcode; } #ifdef WITH_PROXY /* * Do post-proxy processing, */ static int CC_HINT(nonnull) eappeap_postproxy(eap_handler_t *handler, void *data) { int rcode; tls_session_t *tls_session = (tls_session_t *) data; REQUEST *fake, *request = handler->request; RDEBUG2("Passing reply from proxy back into the tunnel"); /* * If there was a fake request associated with the proxied * request, do more processing of it. */ fake = (REQUEST *) request_data_get(handler->request, handler->request->proxy, REQUEST_DATA_EAP_MSCHAP_TUNNEL_CALLBACK); /* * Do the callback, if it exists, and if it was a success. */ if (fake && (handler->request->proxy_reply->code == PW_CODE_ACCESS_ACCEPT)) { peap_tunnel_t *t = tls_session->opaque; t->home_access_accept = true; /* * Terrible hacks. */ rad_assert(!fake->packet); fake->packet = talloc_steal(fake, request->proxy); fake->packet->src_ipaddr = request->packet->src_ipaddr; request->proxy = NULL; rad_assert(!fake->reply); fake->reply = talloc_steal(fake, request->proxy_reply); request->proxy_reply = NULL; if ((rad_debug_lvl > 0) && fr_log_fp) { fprintf(fr_log_fp, "server %s {\n", fake->server); } fake->reply->code = PW_CODE_ACCESS_ACCEPT; /* * Perform a post-auth stage, which will get the EAP * handler, too... */ fake->options &= ~RAD_REQUEST_OPTION_PROXY_EAP; RDEBUG2("Passing reply back for EAP-MS-CHAP-V2"); process_post_proxy(0, fake); /* * FIXME: If rcode returns fail, do something * intelligent... */ rcode = rad_postauth(fake); if ((rad_debug_lvl > 0) && fr_log_fp) { fprintf(fr_log_fp, "} # server %s\n", fake->server); RDEBUG("Final reply from tunneled session code %d", fake->reply->code); rdebug_pair_list(L_DBG_LVL_1, request, fake->reply->vps, NULL); } /* * Terrible hacks. */ request->proxy = talloc_steal(request, fake->packet); fake->packet = NULL; request->proxy_reply = talloc_steal(request, fake->reply); fake->reply = NULL; /* * And we're done with this request. */ switch (rcode) { case RLM_MODULE_FAIL: talloc_free(fake); eaptls_fail(handler, 0); return 0; default: /* Don't Do Anything */ RDEBUG2("Got reply %d", request->proxy_reply->code); break; } } talloc_free(fake); /* robust if !fake */ /* * If there was no EAP-Message in the reply packet, then * we know that we're supposed to re-run the "authenticate" * stage, in order to get the right kind of handling... */ /* * Process the reply from the home server. */ rcode = process_reply(handler, tls_session, handler->request, handler->request->proxy_reply); /* * The proxy code uses the reply from the home server as * the basis for the reply to the NAS. We don't want that, * so we toss it, after we've had our way with it. */ fr_pair_list_free(&handler->request->proxy_reply->vps); switch (rcode) { case RLM_MODULE_REJECT: RDEBUG2("Reply was rejected"); eaptls_fail(handler, 0); return 0; case RLM_MODULE_HANDLED: RDEBUG2("Reply was handled"); eaptls_request(handler->eap_ds, tls_session); request->proxy_reply->code = PW_CODE_ACCESS_CHALLENGE; return 1; case RLM_MODULE_OK: RDEBUG2("Reply was OK"); /* * Success: Automatically return MPPE keys. */ return eaptls_success(handler, 0); default: RDEBUG2("Reply was unknown"); break; } eaptls_fail(handler, 0); return 0; } #endif static char const *peap_state(peap_tunnel_t *t) { switch (t->status) { case PEAP_STATUS_TUNNEL_ESTABLISHED: return "TUNNEL ESTABLISHED"; case PEAP_STATUS_WAIT_FOR_SOH_RESPONSE: return "WAITING FOR SOH RESPONSE"; case PEAP_STATUS_INNER_IDENTITY_REQ_SENT: return "WAITING FOR INNER IDENTITY"; case PEAP_STATUS_SENT_TLV_SUCCESS: return "send tlv success"; case PEAP_STATUS_SENT_TLV_FAILURE: return "send tlv failure"; case PEAP_STATUS_PHASE2_INIT: return "phase2_init"; case PEAP_STATUS_PHASE2: return "phase2"; default: break; } return "?"; } static void print_tunneled_data(uint8_t const *data, size_t data_len) { size_t i; if ((rad_debug_lvl > 2) && fr_log_fp) { for (i = 0; i < data_len; i++) { if ((i & 0x0f) == 0) fprintf(fr_log_fp, " PEAP tunnel data in %02x: ", (int) i); fprintf(fr_log_fp, "%02x ", data[i]); if ((i & 0x0f) == 0x0f) fprintf(fr_log_fp, "\n"); } if ((data_len & 0x0f) != 0) fprintf(fr_log_fp, "\n"); } } /* * Process the pseudo-EAP contents of the tunneled data. */ rlm_rcode_t eappeap_process(eap_handler_t *handler, tls_session_t *tls_session, int auth_type_eap) { peap_tunnel_t *t = tls_session->opaque; REQUEST *fake; VALUE_PAIR *vp; rlm_rcode_t rcode = RLM_MODULE_REJECT; uint8_t const *data; unsigned int data_len; size_t header = 0; REQUEST *request = handler->request; EAP_DS *eap_ds = handler->eap_ds; /* * Just look at the buffer directly, without doing * record_minus. This lets us avoid another data copy. */ data_len = tls_session->clean_out.used; tls_session->clean_out.used = 0; data = tls_session->clean_out.data; RDEBUG2("PEAP state %s", peap_state(t)); if ((t->status != PEAP_STATUS_TUNNEL_ESTABLISHED) && !eapmessage_verify(request, data, data_len, tls_session->peap_flag)) { REDEBUG("Tunneled data is invalid"); if (rad_debug_lvl > 2) print_tunneled_data(data, data_len); return RLM_MODULE_REJECT; } if (tls_session->peap_flag > 0) header = EAP_HEADER_LEN; switch (t->status) { case PEAP_STATUS_TUNNEL_ESTABLISHED: /* FIXME: should be no data in the buffer here, check & assert? */ if (SSL_session_reused(tls_session->ssl)) { RDEBUG2("Skipping Phase2 because of session resumption"); t->session_resumption_state = PEAP_RESUMPTION_YES; if (t->soh) { t->status = PEAP_STATUS_WAIT_FOR_SOH_RESPONSE; RDEBUG2("Requesting SoH from client"); eappeap_soh(handler, tls_session); return RLM_MODULE_HANDLED; } /* we're good, send success TLV */ t->status = PEAP_STATUS_SENT_TLV_SUCCESS; eappeap_success(handler, tls_session); } else { /* send an identity request */ t->session_resumption_state = PEAP_RESUMPTION_NO; t->status = PEAP_STATUS_INNER_IDENTITY_REQ_SENT; tls_session->session_not_resumed = true; eappeap_identity(handler, tls_session); } return RLM_MODULE_HANDLED; case PEAP_STATUS_INNER_IDENTITY_REQ_SENT: /* we're expecting an identity response */ if (data[header] != PW_EAP_IDENTITY) { REDEBUG("Expected EAP-Identity, got something else"); return RLM_MODULE_REJECT; } /* * Save it for later. */ t->username = fr_pair_make(t, NULL, "User-Name", NULL, T_OP_EQ); rad_assert(t->username != NULL); fr_pair_value_bstrncpy(t->username, data + header + 1, data_len - header - 1); RDEBUG("Got inner identity '%s'", t->username->vp_strvalue); if (t->soh) { t->status = PEAP_STATUS_WAIT_FOR_SOH_RESPONSE; RDEBUG2("Requesting SoH from client"); eappeap_soh(handler, tls_session); return RLM_MODULE_HANDLED; } t->status = PEAP_STATUS_PHASE2_INIT; break; case PEAP_STATUS_WAIT_FOR_SOH_RESPONSE: fake = request_alloc_fake(request); rad_assert(!fake->packet->vps); eapsoh_verify(fake, fake->packet, data + header, data_len - header); setup_fake_request(request, fake, t); if (t->soh_virtual_server) { fake->server = t->soh_virtual_server; } RDEBUG("Sending SoH request to server %s", fake->server ? fake->server : "NULL"); rad_virtual_server(fake); if (fake->reply->code != PW_CODE_ACCESS_ACCEPT) { RDEBUG2("SoH was rejected"); talloc_free(fake); t->status = PEAP_STATUS_SENT_TLV_FAILURE; eappeap_failure(handler, tls_session); return RLM_MODULE_HANDLED; } /* save the SoH VPs */ rad_assert(!t->soh_reply_vps); fr_pair_list_mcopy_by_num(t, &t->soh_reply_vps, &fake->reply->vps, 0, 0, TAG_ANY); rad_assert(!fake->reply->vps); talloc_free(fake); if (t->session_resumption_state == PEAP_RESUMPTION_YES) { /* we're good, send success TLV */ t->status = PEAP_STATUS_SENT_TLV_SUCCESS; eappeap_success(handler, tls_session); return RLM_MODULE_HANDLED; } t->status = PEAP_STATUS_PHASE2_INIT; break; /* * If we authenticated the user, then it's OK. */ case PEAP_STATUS_SENT_TLV_SUCCESS: if (eappeap_check_tlv(request, data + header, data_len - header)) { RDEBUG2("Success"); return RLM_MODULE_OK; } /* * Otherwise, the client rejected the session * resumption. If the session is being re-used, * we need to do a full authentication. * * We do this by sending an EAP-Identity request * inside of the PEAP tunnel. */ if (t->session_resumption_state == PEAP_RESUMPTION_YES) { RDEBUG2("Client rejected session resumption. Re-starting full authentication"); /* * Mark session resumption status. */ t->status = PEAP_STATUS_INNER_IDENTITY_REQ_SENT; t->session_resumption_state = PEAP_RESUMPTION_NO; eappeap_identity(handler, tls_session); return RLM_MODULE_HANDLED; } REDEBUG("We sent a success, but the client did not agree"); return RLM_MODULE_REJECT; /* * Supplicant ACKs our failure. */ case PEAP_STATUS_SENT_TLV_FAILURE: RINDENT(); REDEBUG("The users session was previously rejected: returning reject (again.)"); RDEBUG("This means you need to read the PREVIOUS messages in the debug output"); RDEBUG("to find out the reason why the user was rejected"); RDEBUG("Look for \"reject\" or \"fail\". Those earlier messages will tell you"); RDEBUG("what went wrong, and how to fix the problem"); REXDENT(); return RLM_MODULE_REJECT; case PEAP_STATUS_PHASE2_INIT: RDEBUG("In state machine in phase2 init?"); case PEAP_STATUS_PHASE2: break; default: REDEBUG("Unhandled state in peap"); return RLM_MODULE_REJECT; } fake = request_alloc_fake(request); rad_assert(!fake->packet->vps); switch (t->status) { /* * If we're in PHASE2_INIT, the phase2 method hasn't been * sent an Identity packet yet; do so from the stored * username and this will kick off the phase2 eap method */ case PEAP_STATUS_PHASE2_INIT: { size_t len = t->username->vp_length + EAP_HEADER_LEN + 1; uint8_t *q; t->status = PEAP_STATUS_PHASE2; vp = fr_pair_afrom_num(fake->packet, PW_EAP_MESSAGE, 0); vp->vp_length = len; vp->vp_octets = q = talloc_array(vp, uint8_t, vp->vp_length); q[0] = PW_EAP_RESPONSE; q[1] = eap_ds->response->id; q[2] = (len >> 8) & 0xff; q[3] = len & 0xff; q[4] = PW_EAP_IDENTITY; memcpy(q + EAP_HEADER_LEN + 1, t->username->vp_strvalue, t->username->vp_length); fr_pair_add(&fake->packet->vps, vp); if (t->default_method != 0) { RDEBUG2("Setting default EAP type for tunneled EAP session"); vp = fr_pair_make(fake, &fake->config, "EAP-Type", "0", T_OP_EQ); vp->vp_integer = t->default_method; } break; } case PEAP_STATUS_PHASE2: fake->packet->vps = eap2vp(request, fake->packet, eap_ds, data, data_len, tls_session->peap_flag); if (!fake->packet->vps) { talloc_free(fake); RDEBUG2("Unable to convert tunneled EAP packet to internal server data structures"); return RLM_MODULE_REJECT; } break; default: REDEBUG("Invalid state change in PEAP"); return RLM_MODULE_REJECT; } RDEBUG2("Got tunneled request"); rdebug_pair_list(L_DBG_LVL_2, request, fake->packet->vps, NULL); /* * Update other items in the REQUEST data structure. */ if (!t->username) { /* * There's no User-Name in the tunneled session, * so we add one here, by pulling it out of the * EAP-Identity packet. */ if ((data[header] == PW_EAP_IDENTITY) && (data_len > (1 + header))) { t->username = fr_pair_make(t, NULL, "User-Name", NULL, T_OP_EQ); rad_assert(t->username != NULL); fr_pair_value_bstrncpy(t->username, data + header + 1, data_len - header - 1); RDEBUG2("Got tunneled identity of %s", t->username->vp_strvalue); /* * If there's a default EAP type, * set it here. */ if (t->default_method != 0) { RDEBUG2("Setting default EAP type for tunneled EAP session"); vp = fr_pair_make(fake, &fake->config, "EAP-Type", "0", T_OP_EQ); vp->vp_integer = t->default_method; } } } /* else there WAS a t->username */ setup_fake_request(request, fake, t); if ((vp = fr_pair_find_by_num(request->config, PW_VIRTUAL_SERVER, 0, TAG_ANY)) != NULL) { fake->server = vp->vp_strvalue; } else if (t->virtual_server) { fake->server = t->virtual_server; } /* else fake->server == request->server */ if (fake->server) { RDEBUG2("Sending tunneled request to %s", fake->server); } else { RDEBUG2("Sending tunnelled request"); } rdebug_pair_list(L_DBG_LVL_2, request, fake->packet->vps, NULL); /* * Call authentication recursively, which will * do PAP, CHAP, MS-CHAP, etc. */ rad_virtual_server(fake); /* * Note that we don't do *anything* with the reply * attributes. */ RDEBUG2("Got tunneled reply code %d", fake->reply->code); rdebug_pair_list(L_DBG_LVL_2, request, fake->reply->vps, NULL); /* * Decide what to do with the reply. */ switch (fake->reply->code) { case 0: /* No reply code, must be proxied... */ #ifdef WITH_PROXY vp = fr_pair_find_by_num(fake->config, PW_PROXY_TO_REALM, 0, TAG_ANY); if (vp) { eap_tunnel_data_t *tunnel; bool proxy_as_eap = t->proxy_tunneled_request_as_eap; VALUE_PAIR *flag = fr_pair_find_by_num(fake->config, PW_PROXY_TUNNELED_REQUEST_AS_EAP, 0, TAG_ANY); if (flag) proxy_as_eap = flag->vp_integer; /* * The tunneled request was NOT handled, * it has to be proxied. This means that * the "authenticate" stage was never * performed. * * If we are told to NOT proxy the * tunneled request as EAP, then this * means that we've got to decode it, * which means that we MUST run the * "authenticate" portion by hand, here. * * Once the tunneled EAP session is ALMOST * done, THEN we proxy it... */ if (!proxy_as_eap) { fake->options |= RAD_REQUEST_OPTION_PROXY_EAP; /* * Hmm... should we check for * Auth-Type & EAP-Message here? */ if (!auth_type_eap) { RERROR("You must set 'inner_eap_module' in the 'peap' configuration"); RERROR("This is required in order to proxy the inner EAP session."); rcode = RLM_MODULE_REJECT; goto done; } /* * Run the EAP authentication. */ RDEBUG2("Calling authenticate in order to initiate tunneled EAP session"); rcode = process_authenticate(auth_type_eap, fake); if (rcode == RLM_MODULE_OK) { /* * Authentication succeeded! Rah! */ fake->reply->code = PW_CODE_ACCESS_ACCEPT; goto do_process; } if (rcode != RLM_MODULE_HANDLED) { RDEBUG("Can't handle the return code %d", rcode); rcode = RLM_MODULE_REJECT; goto done; } /* * The module decided it wasn't * done. Handle it like normal. */ if ((fake->options & RAD_REQUEST_OPTION_PROXY_EAP) == 0) { RDEBUG2("Cancelling proxy to realm %s until the tunneled EAP session " "has been established", vp->vp_strvalue); goto do_process; } /* * The module has decoded the * EAP-Message into another set * of attributes. */ fr_pair_delete_by_num(&fake->packet->vps, PW_EAP_MESSAGE, 0, TAG_ANY); } RDEBUG2("Tunnelled authentication will be proxied to %s", vp->vp_strvalue); /* * Tell the original request that it's going * to be proxied. */ fr_pair_list_mcopy_by_num(request, &request->config, &fake->config, PW_PROXY_TO_REALM, 0, TAG_ANY); /* * Seed the proxy packet with the * tunneled request. */ rad_assert(!request->proxy); request->proxy = talloc_steal(request, fake->packet); memset(&request->proxy->src_ipaddr, 0, sizeof(request->proxy->src_ipaddr)); memset(&request->proxy->dst_ipaddr, 0, sizeof(request->proxy->dst_ipaddr)); request->proxy->src_port = 0; request->proxy->dst_port = 0; fake->packet = NULL; rad_free(&fake->reply); fake->reply = NULL; /* * Set up the callbacks for the tunnel */ tunnel = talloc_zero(request, eap_tunnel_data_t); tunnel->tls_session = tls_session; tunnel->callback = eappeap_postproxy; /* * Associate the callback with the request. */ rcode = request_data_add(request, request->proxy, REQUEST_DATA_EAP_TUNNEL_CALLBACK, tunnel, false); rad_assert(rcode == 0); /* * We're not proxying it as EAP, so we've got * to do the callback later. */ if ((fake->options & RAD_REQUEST_OPTION_PROXY_EAP) != 0) { RDEBUG2("Remembering to do EAP-MS-CHAP-V2 post-proxy"); /* * rlm_eap.c has taken care of associating * the handler with the fake request. * * So we associate the fake request with * this request. */ rcode = request_data_add(request, request->proxy, REQUEST_DATA_EAP_MSCHAP_TUNNEL_CALLBACK, fake, true); rad_assert(rcode == 0); /* * Do NOT free the fake request! */ return RLM_MODULE_UPDATED; } /* * Didn't authenticate the packet, but * we're proxying it. */ rcode = RLM_MODULE_UPDATED; } else #endif /* WITH_PROXY */ { REDEBUG("Unknown RADIUS packet type %d: rejecting tunneled user", fake->reply->code); rcode = RLM_MODULE_REJECT; } break; default: #ifdef WITH_PROXY do_process: #endif rcode = process_reply(handler, tls_session, request, fake->reply); break; } #ifdef WITH_PROXY done: #endif talloc_free(fake); return rcode; } static int CC_HINT(nonnull) setup_fake_request(REQUEST *request, REQUEST *fake, peap_tunnel_t *t) { VALUE_PAIR *vp; /* * Tell the request that it's a fake one. */ fr_pair_make(fake->packet, &fake->packet->vps, "Freeradius-Proxied-To", "127.0.0.1", T_OP_EQ); if (t->username) { vp = fr_pair_list_copy(fake->packet, t->username); fr_pair_add(&fake->packet->vps, vp); fake->username = vp; RDEBUG2("Setting User-Name to %s", fake->username->vp_strvalue); } else { RDEBUG2("No tunnel username (SSL resumption?)"); } /* * Add the State attribute, too, if it exists. */ if (t->state) { vp = fr_pair_list_copy(fake->packet, t->state); if (vp) fr_pair_add(&fake->packet->vps, vp); } /* * If this is set, we copy SOME of the request attributes * from outside of the tunnel to inside of the tunnel. * * We copy ONLY those attributes which do NOT already * exist in the tunneled request. * * This code is copied from ../rlm_eap_ttls/ttls.c */ if (t->copy_request_to_tunnel) { VALUE_PAIR *copy; vp_cursor_t cursor; for (vp = fr_cursor_init(&cursor, &request->packet->vps); vp; vp = fr_cursor_next(&cursor)) { /* * The attribute is a server-side thingy, * don't copy it. */ if ((vp->da->attr > 255) && (((vp->da->attr >> 16) & 0xffff) == 0)) { continue; } /* * The outside attribute is already in the * tunnel, don't copy it. * * This works for BOTH attributes which * are originally in the tunneled request, * AND attributes which are copied there * from below. */ if (fr_pair_find_by_da(fake->packet->vps, vp->da, TAG_ANY)) continue; /* * Some attributes are handled specially. */ if (!vp->da->vendor) switch (vp->da->attr) { /* * NEVER copy Message-Authenticator, * EAP-Message, or State. They're * only for outside of the tunnel. */ case PW_USER_NAME: case PW_USER_PASSWORD: case PW_CHAP_PASSWORD: case PW_CHAP_CHALLENGE: case PW_PROXY_STATE: case PW_MESSAGE_AUTHENTICATOR: case PW_EAP_MESSAGE: case PW_STATE: continue; /* * By default, copy it over. */ default: break; } /* * Don't copy from the head, we've already * checked it. */ copy = fr_pair_list_copy_by_num(fake->packet, vp, vp->da->attr, vp->da->vendor, TAG_ANY); fr_pair_add(&fake->packet->vps, copy); } } return 0; }