/* * Copyright (C) 2014 Martin Willi * Copyright (C) 2014 revosec AG * * Copyright (C) 2016 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. */ /* * Copyright (C) 2014 Timo Teräs * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #define _GNU_SOURCE #include #include #include "command.h" #include /** * Free hashtable with contained strings */ static void free_hashtable(hashtable_t *hashtable) { enumerator_t *enumerator; char *str; enumerator = hashtable->create_enumerator(hashtable); while (enumerator->enumerate(enumerator, NULL, &str)) { free(str); } enumerator->destroy(enumerator); hashtable->destroy(hashtable); } CALLBACK(sa_values, int, hashtable_t *sa, vici_res_t *res, char *name, void *value, int len) { chunk_t chunk; char *str; chunk = chunk_create(value, len); if (chunk_printable(chunk, NULL, ' ')) { if (asprintf(&str, "%.*s", len, value) >= 0) { free(sa->put(sa, name, str)); } } return 0; } CALLBACK(sa_list, int, hashtable_t *sa, vici_res_t *res, char *name, void *value, int len) { chunk_t chunk; char *str; chunk = chunk_create(value, len); if (chunk_printable(chunk, NULL, ' ')) { str = sa->get(sa, name); if (asprintf(&str, "%s%s%.*s", str ?: "", str ? " " : "", len, value) >= 0) { free(sa->put(sa, name, str)); } } return 0; } CALLBACK(child_sas, int, hashtable_t *ike, vici_res_t *res, char *name) { hashtable_t *child; int ret; child = hashtable_create(hashtable_hash_str, hashtable_equals_str, 1); ret = vici_parse_cb(res, NULL, sa_values, sa_list, child); if (ret == 0) { printf(" %s: #%s, reqid %s, %s, %s%s, %s:", child->get(child, "name"), child->get(child, "uniqueid"), child->get(child, "reqid"), child->get(child, "state"), child->get(child, "mode"), child->get(child, "encap") ? "-in-UDP" : "", child->get(child, "protocol")); if (child->get(child, "encr-alg")) { printf("%s", child->get(child, "encr-alg")); if (child->get(child, "encr-keysize")) { printf("-%s", child->get(child, "encr-keysize")); } } if (child->get(child, "integ-alg")) { if (child->get(child, "encr-alg")) { printf("/"); } printf("%s", child->get(child, "integ-alg")); if (child->get(child, "integ-keysize")) { printf("-%s", child->get(child, "integ-keysize")); } } if (child->get(child, "prf-alg")) { printf("/%s", child->get(child, "prf-alg")); } if (child->get(child, "dh-group")) { printf("/%s", child->get(child, "dh-group")); } if (child->get(child, "esn")) { printf("/ESN"); } printf("\n"); printf(" installed %ss ago", child->get(child, "install-time")); if (child->get(child, "rekey-time")) { printf(", rekeying in %ss", child->get(child, "rekey-time")); } if (child->get(child, "life-time")) { printf(", expires in %ss", child->get(child, "life-time")); } printf("\n"); printf(" in %s%s%s", child->get(child, "spi-in"), child->get(child, "cpi-in") ? "/" : "", child->get(child, "cpi-in") ?: ""); if (child->get(child, "mark-in") || child->get(child, "if-id-in")) { printf(" ("); if (child->get(child, "mark-in")) { printf("0x%s", child->get(child, "mark-in")); if (child->get(child, "mark-mask-in")) { printf("/0x%s", child->get(child, "mark-mask-in")); } } else { printf("-"); } if (child->get(child, "if-id-in")) { printf("|0x%s", child->get(child, "if-id-in")); } printf(")"); } printf(", %6s bytes, %5s packets", child->get(child, "bytes-in"), child->get(child, "packets-in")); if (child->get(child, "use-in")) { printf(", %5ss ago", child->get(child, "use-in")); } printf("\n"); printf(" out %s%s%s", child->get(child, "spi-out"), child->get(child, "cpi-out") ? "/" : "", child->get(child, "cpi-out") ?: ""); if (child->get(child, "mark-out") || child->get(child, "if-id-out")) { printf(" ("); if (child->get(child, "mark-out")) { printf("0x%s", child->get(child, "mark-out")); if (child->get(child, "mark-mask-out")) { printf("/0x%s", child->get(child, "mark-mask-out")); } } else { printf("-"); } if (child->get(child, "if-id-out")) { printf("|0x%s", child->get(child, "if-id-out")); } printf(")"); } printf(", %6s bytes, %5s packets", child->get(child, "bytes-out"), child->get(child, "packets-out")); if (child->get(child, "use-out")) { printf(", %5ss ago", child->get(child, "use-out")); } printf("\n"); printf(" local %s\n", child->get(child, "local-ts")); printf(" remote %s\n", child->get(child, "remote-ts")); } free_hashtable(child); return ret; } CALLBACK(ike_sa, int, hashtable_t *ike, vici_res_t *res, char *name) { if (streq(name, "child-sas")) { bool is_initiator = streq(ike->get(ike, "initiator"), "yes"); printf("%s: #%s, %s, IKEv%s, %s_i%s %s_r%s\n", ike->get(ike, "name"), ike->get(ike, "uniqueid"), ike->get(ike, "state"), ike->get(ike, "version"), ike->get(ike, "initiator-spi"), is_initiator ? "*" : "", ike->get(ike, "responder-spi"), is_initiator ? "" : "*"); printf(" local '%s' @ %s[%s]", ike->get(ike, "local-id"), ike->get(ike, "local-host"), ike->get(ike, "local-port")); if (ike->get(ike, "local-vips")) { printf(" [%s]", ike->get(ike, "local-vips")); } printf("\n"); printf(" remote '%s' @ %s[%s]", ike->get(ike, "remote-id"), ike->get(ike, "remote-host"), ike->get(ike, "remote-port")); if (ike->get(ike, "remote-eap-id")) { printf(" EAP: '%s'", ike->get(ike, "remote-eap-id")); } if (ike->get(ike, "remote-xauth-id")) { printf(" XAuth: '%s'", ike->get(ike, "remote-xauth-id")); } if (ike->get(ike, "remote-vips")) { printf(" [%s]", ike->get(ike, "remote-vips")); } printf("\n"); if (ike->get(ike, "encr-alg")) { printf(" %s", ike->get(ike, "encr-alg")); if (ike->get(ike, "encr-keysize")) { printf("-%s", ike->get(ike, "encr-keysize")); } if (ike->get(ike, "integ-alg")) { printf("/%s", ike->get(ike, "integ-alg")); } if (ike->get(ike, "integ-keysize")) { printf("-%s", ike->get(ike, "integ-keysize")); } printf("/%s", ike->get(ike, "prf-alg")); printf("/%s", ike->get(ike, "dh-group")); if (streq(ike->get(ike, "ppk"), "yes")) { printf("/PPK"); } printf("\n"); } if (ike->get(ike, "established")) { printf(" established %ss ago", ike->get(ike, "established")); if (ike->get(ike, "rekey-time")) { printf(", rekeying in %ss", ike->get(ike, "rekey-time")); } if (ike->get(ike, "reauth-time")) { printf(", reauth in %ss", ike->get(ike, "reauth-time")); } if (ike->get(ike, "life-time")) { printf(", expires in %ss", ike->get(ike, "life-time")); } printf("\n"); } if (ike->get(ike, "tasks-queued")) { printf(" queued: %s\n", ike->get(ike, "tasks-queued")); } if (ike->get(ike, "tasks-active")) { printf(" active: %s\n", ike->get(ike, "tasks-active")); } if (ike->get(ike, "tasks-passive")) { printf(" passive: %s\n", ike->get(ike, "tasks-passive")); } return vici_parse_cb(res, child_sas, NULL, NULL, ike); } return 0; } CALLBACK(ike_sas, int, void *null, vici_res_t *res, char *name) { hashtable_t *ike; int ret; ike = hashtable_create(hashtable_hash_str, hashtable_equals_str, 1); ike->put(ike, "name", strdup(name)); ret = vici_parse_cb(res, ike_sa, sa_values, sa_list, ike); free_hashtable(ike); return ret; } CALLBACK(list_cb, void, command_format_options_t *format, char *name, vici_res_t *res) { char buf[256]; if (*format & COMMAND_FORMAT_RAW) { snprintf(buf, sizeof(buf), "%s event", name); vici_dump(res, buf, *format & COMMAND_FORMAT_PRETTY, stdout); } else { if (vici_parse_cb(res, ike_sas, NULL, NULL, NULL) != 0) { fprintf(stderr, "parsing SA event failed: %s\n", strerror(errno)); } } } static int list_sas(vici_conn_t *conn) { vici_req_t *req; vici_res_t *res; bool noblock = FALSE; command_format_options_t format = COMMAND_FORMAT_NONE; char *arg, *ike = NULL; int ike_id = 0, ret; while (TRUE) { switch (command_getopt(&arg)) { case 'h': return command_usage(NULL); case 'i': ike = arg; continue; case 'I': ike_id = atoi(arg); continue; case 'n': noblock = TRUE; continue; case 'P': format |= COMMAND_FORMAT_PRETTY; /* fall through to raw */ case 'r': format |= COMMAND_FORMAT_RAW; continue; case EOF: break; default: return command_usage("invalid --list-sas option"); } break; } if (vici_register(conn, "list-sa", list_cb, &format) != 0) { ret = errno; fprintf(stderr, "registering for SAs failed: %s\n", strerror(errno)); return ret; } req = vici_begin("list-sas"); if (ike) { vici_add_key_valuef(req, "ike", "%s", ike); } if (ike_id) { vici_add_key_valuef(req, "ike-id", "%d", ike_id); } if (noblock) { vici_add_key_valuef(req, "noblock", "yes"); } res = vici_submit(req, conn); if (!res) { ret = errno; fprintf(stderr, "list-sas request failed: %s\n", strerror(errno)); return ret; } if (format & COMMAND_FORMAT_RAW) { vici_dump(res, "list-sas reply", format & COMMAND_FORMAT_PRETTY, stdout); } vici_free_res(res); return 0; } static int monitor_sas(vici_conn_t *conn) { command_format_options_t format = COMMAND_FORMAT_NONE; char *arg; while (TRUE) { switch (command_getopt(&arg)) { case 'h': return command_usage(NULL); case 'P': format |= COMMAND_FORMAT_PRETTY; /* fall through to raw */ case 'r': format |= COMMAND_FORMAT_RAW; continue; case EOF: break; default: return command_usage("invalid --monitor-sa option"); } break; } if (vici_register(conn, "ike-updown", list_cb, &format) != 0) { fprintf(stderr, "registering for IKE_SAs failed: %s\n", strerror(errno)); return errno; } if (vici_register(conn, "child-updown", list_cb, &format) != 0) { fprintf(stderr, "registering for CHILD_SAs failed: %s\n", strerror(errno)); return errno; } wait_sigint(); fprintf(stderr, "disconnecting...\n"); return 0; } /** * Register the command. */ static void __attribute__ ((constructor))reg() { command_register((command_t) { list_sas, 'l', "list-sas", "list currently active IKE_SAs", {"[--raw|--pretty]"}, { {"help", 'h', 0, "show usage information"}, {"ike", 'i', 1, "filter IKE_SAs by name"}, {"ike-id", 'I', 1, "filter IKE_SAs by unique identifier"}, {"noblock", 'n', 0, "don't wait for IKE_SAs in use"}, {"raw", 'r', 0, "dump raw response message"}, {"pretty", 'P', 0, "dump raw response message in pretty print"}, } }); } static void __attribute__ ((constructor))reg_monitor_sa() { command_register((command_t) { monitor_sas, 'm', "monitor-sa", "monitor for IKE_SA and CHILD_SA changes", {"[--raw|--pretty]"}, { {"help", 'h', 0, "show usage information"}, {"raw", 'r', 0, "dump raw response message"}, {"pretty", 'P', 0, "dump raw response message in pretty print"}, } }); }