/* * Copyright (C) 2011-2012 Andreas Steffen * 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 "imv_scanner_state.h" #include #include #include #include #include #include #include #include #include #include #include /* IMV definitions */ static const char imv_name[] = "Scanner"; static pen_type_t msg_types[] = { { PEN_ITA, PA_SUBTYPE_ITA_SCANNER } }; static imv_agent_t *imv_scanner; typedef struct port_range_t port_range_t; struct port_range_t { u_int16_t start, stop; }; /** * Default port policy * * TRUE: all server ports on the TNC client must be closed * FALSE: any server port on the TNC client is allowed to be open */ static bool closed_port_policy = TRUE; /** * List of TCP and UDP port ranges * * TRUE: server ports on the TNC client that are allowed to be open * FALSE: server ports on the TNC client that must be closed */ static linked_list_t *tcp_ports, *udp_ports; /** * Get a TCP or UDP port list from strongswan.conf */ static linked_list_t* get_port_list(char *label) { char key[40], *value; linked_list_t *list; chunk_t port_list, port_item, port_start; port_range_t *port_range; list = linked_list_create(); snprintf(key, sizeof(key), "libimcv.plugins.imv-scanner.%s_ports", label); value = lib->settings->get_str(lib->settings, key, NULL); if (!value) { DBG1(DBG_IMV, "%s not defined", key); return list; } port_list = chunk_create(value, strlen(value)); DBG2(DBG_IMV, "list of %s ports that %s:", label, closed_port_policy ? "are allowed to be open" : "must be closed"); while (eat_whitespace(&port_list)) { if (!extract_token(&port_item, ' ', &port_list)) { /* reached last port item */ port_item = port_list; port_list = chunk_empty; } port_range = malloc_thing(port_range_t); port_range->start = atoi(port_item.ptr); if (extract_token(&port_start, '-', &port_item) && port_item.len) { port_range->stop = atoi(port_item.ptr); } else { port_range->stop = port_range->start; } DBG2(DBG_IMV, "%5u - %5u", port_range->start, port_range->stop); list->insert_last(list, port_range); } return list; } /* * see section 3.8.1 of TCG TNC IF-IMV Specification 1.3 */ TNC_Result TNC_IMV_Initialize(TNC_IMVID imv_id, TNC_Version min_version, TNC_Version max_version, TNC_Version *actual_version) { if (imv_scanner) { DBG1(DBG_IMV, "IMV \"%s\" has already been initialized", imv_name); return TNC_RESULT_ALREADY_INITIALIZED; } imv_scanner = imv_agent_create(imv_name, msg_types, 1, imv_id, actual_version); if (!imv_scanner) { return TNC_RESULT_FATAL; } if (min_version > TNC_IFIMV_VERSION_1 || max_version < TNC_IFIMV_VERSION_1) { DBG1(DBG_IMV, "no common IF-IMV version"); return TNC_RESULT_NO_COMMON_VERSION; } /* set the default port policy to closed (TRUE) or open (FALSE) */ closed_port_policy = lib->settings->get_bool(lib->settings, "libimcv.plugins.imv-scanner.closed_port_policy", TRUE); DBG2(DBG_IMV, "default port policy is %s ports", closed_port_policy ? "closed" : "open"); /* get the list of open|closed ports */ tcp_ports = get_port_list("tcp"); udp_ports = get_port_list("udp"); return TNC_RESULT_SUCCESS; } /** * see section 3.8.2 of TCG TNC IF-IMV Specification 1.3 */ TNC_Result TNC_IMV_NotifyConnectionChange(TNC_IMVID imv_id, TNC_ConnectionID connection_id, TNC_ConnectionState new_state) { imv_state_t *state; if (!imv_scanner) { DBG1(DBG_IMV, "IMV \"%s\" has not been initialized", imv_name); return TNC_RESULT_NOT_INITIALIZED; } switch (new_state) { case TNC_CONNECTION_STATE_CREATE: state = imv_scanner_state_create(connection_id); return imv_scanner->create_state(imv_scanner, state); case TNC_CONNECTION_STATE_DELETE: return imv_scanner->delete_state(imv_scanner, connection_id); default: return imv_scanner->change_state(imv_scanner, connection_id, new_state, NULL); } } static TNC_Result receive_message(imv_state_t *state, imv_msg_t *in_msg) { imv_msg_t *out_msg; enumerator_t *enumerator; pa_tnc_attr_t *attr; pen_type_t type; TNC_Result result; bool fatal_error = FALSE; /* parse received PA-TNC message and handle local and remote errors */ result = in_msg->receive(in_msg, &fatal_error); if (result != TNC_RESULT_SUCCESS) { return result; } /* analyze PA-TNC attributes */ enumerator = in_msg->create_attribute_enumerator(in_msg); while (enumerator->enumerate(enumerator, &attr)) { type = attr->get_type(attr); if (type.vendor_id == PEN_IETF && type.type == IETF_ATTR_PORT_FILTER) { ietf_attr_port_filter_t *attr_port_filter; enumerator_t *enumerator; u_int8_t protocol; u_int16_t port; char buf[BUF_LEN], *pos = buf; size_t len = BUF_LEN; bool blocked, compliant = TRUE; attr_port_filter = (ietf_attr_port_filter_t*)attr; enumerator = attr_port_filter->create_port_enumerator(attr_port_filter); while (enumerator->enumerate(enumerator, &blocked, &protocol, &port)) { enumerator_t *e; port_range_t *port_range; bool passed, found = FALSE; int written = 0; if (blocked) { /* ignore closed ports */ continue; } e = (protocol == IPPROTO_TCP) ? tcp_ports->create_enumerator(tcp_ports) : udp_ports->create_enumerator(udp_ports); while (e->enumerate(e, &port_range)) { if (port >= port_range->start && port <= port_range->stop) { found = TRUE; break; } } e->destroy(e); passed = (closed_port_policy == found); DBG2(DBG_IMV, "%s port %5u %s: %s", (protocol == IPPROTO_TCP) ? "tcp" : "udp", port, blocked ? "closed" : "open", passed ? "ok" : "fatal"); if (!passed) { compliant = FALSE; written = snprintf(pos, len, " %s/%u", (protocol == IPPROTO_TCP) ? "tcp" : "udp", port); if (written < 0 || written >= len) { break; } pos += written; len -= written; } } enumerator->destroy(enumerator); if (compliant) { state->set_recommendation(state, TNC_IMV_ACTION_RECOMMENDATION_ALLOW, TNC_IMV_EVALUATION_RESULT_COMPLIANT); } else { imv_scanner_state_t *imv_scanner_state; imv_scanner_state = (imv_scanner_state_t*)state; imv_scanner_state->set_violating_ports(imv_scanner_state, buf); state->set_recommendation(state, TNC_IMV_ACTION_RECOMMENDATION_NO_ACCESS, TNC_IMV_EVALUATION_RESULT_NONCOMPLIANT_MAJOR); } } } enumerator->destroy(enumerator); if (fatal_error) { state->set_recommendation(state, TNC_IMV_ACTION_RECOMMENDATION_NO_RECOMMENDATION, TNC_IMV_EVALUATION_RESULT_ERROR); } out_msg = imv_msg_create_as_reply(in_msg); result = out_msg->send_assessment(out_msg); out_msg->destroy(out_msg); if (result != TNC_RESULT_SUCCESS) { return result; } return imv_scanner->provide_recommendation(imv_scanner, state); } /** * see section 3.8.4 of TCG TNC IF-IMV Specification 1.3 */ TNC_Result TNC_IMV_ReceiveMessage(TNC_IMVID imv_id, TNC_ConnectionID connection_id, TNC_BufferReference msg, TNC_UInt32 msg_len, TNC_MessageType msg_type) { imv_state_t *state; imv_msg_t *in_msg; TNC_Result result; if (!imv_scanner) { DBG1(DBG_IMV, "IMV \"%s\" has not been initialized", imv_name); return TNC_RESULT_NOT_INITIALIZED; } if (!imv_scanner->get_state(imv_scanner, connection_id, &state)) { return TNC_RESULT_FATAL; } in_msg = imv_msg_create_from_data(imv_scanner, state, connection_id, msg_type, chunk_create(msg, msg_len)); result = receive_message(state, in_msg); in_msg->destroy(in_msg); return result; } /** * see section 3.8.6 of TCG TNC IF-IMV Specification 1.3 */ TNC_Result TNC_IMV_ReceiveMessageLong(TNC_IMVID imv_id, TNC_ConnectionID connection_id, TNC_UInt32 msg_flags, TNC_BufferReference msg, TNC_UInt32 msg_len, TNC_VendorID msg_vid, TNC_MessageSubtype msg_subtype, TNC_UInt32 src_imc_id, TNC_UInt32 dst_imv_id) { imv_state_t *state; imv_msg_t *in_msg; TNC_Result result; if (!imv_scanner) { DBG1(DBG_IMV, "IMV \"%s\" has not been initialized", imv_name); return TNC_RESULT_NOT_INITIALIZED; } if (!imv_scanner->get_state(imv_scanner, connection_id, &state)) { return TNC_RESULT_FATAL; } in_msg = imv_msg_create_from_long_data(imv_scanner, state, connection_id, src_imc_id, dst_imv_id, msg_vid, msg_subtype, chunk_create(msg, msg_len)); result =receive_message(state, in_msg); in_msg->destroy(in_msg); return result; } /** * see section 3.8.7 of TCG TNC IF-IMV Specification 1.3 */ TNC_Result TNC_IMV_SolicitRecommendation(TNC_IMVID imv_id, TNC_ConnectionID connection_id) { imv_state_t *state; if (!imv_scanner) { DBG1(DBG_IMV, "IMV \"%s\" has not been initialized", imv_name); return TNC_RESULT_NOT_INITIALIZED; } if (!imv_scanner->get_state(imv_scanner, connection_id, &state)) { return TNC_RESULT_FATAL; } return imv_scanner->provide_recommendation(imv_scanner, state); } /** * see section 3.8.8 of TCG TNC IF-IMV Specification 1.3 */ TNC_Result TNC_IMV_BatchEnding(TNC_IMVID imv_id, TNC_ConnectionID connection_id) { if (!imv_scanner) { DBG1(DBG_IMV, "IMV \"%s\" has not been initialized", imv_name); return TNC_RESULT_NOT_INITIALIZED; } return TNC_RESULT_SUCCESS; } /** * see section 3.8.9 of TCG TNC IF-IMV Specification 1.3 */ TNC_Result TNC_IMV_Terminate(TNC_IMVID imv_id) { if (!imv_scanner) { DBG1(DBG_IMV, "IMV \"%s\" has not been initialized", imv_name); return TNC_RESULT_NOT_INITIALIZED; } tcp_ports->destroy_function(tcp_ports, free); udp_ports->destroy_function(udp_ports, free); imv_scanner->destroy(imv_scanner); imv_scanner = NULL; return TNC_RESULT_SUCCESS; } /** * see section 4.2.8.1 of TCG TNC IF-IMV Specification 1.3 */ TNC_Result TNC_IMV_ProvideBindFunction(TNC_IMVID imv_id, TNC_TNCS_BindFunctionPointer bind_function) { if (!imv_scanner) { DBG1(DBG_IMV, "IMV \"%s\" has not been initialized", imv_name); return TNC_RESULT_NOT_INITIALIZED; } return imv_scanner->bind_functions(imv_scanner, bind_function); }