/* * handles left|rightfirewall and left|rightupdown parameters */ static void handle_firewall(const char *label, starter_end_t *end, starter_config_t *cfg) { if (end->firewall && (end->seen & LELEM(KW_FIREWALL - KW_END_FIRST))) { if (end->updown != NULL) { plog("# cannot have both %sfirewall and %supdown", label, label); cfg->err++; } else { end->updown = clone_str(firewall_defaults); end->firewall = FALSE; } } }
/** * nat_traversal_natoa_lookup() * * Look for NAT-OA in message */ void nat_traversal_natoa_lookup(struct msg_digest *md) { struct payload_digest *p; struct state *st = md->st; int i; ip_address ip; if (!st || !md->iface) { loglog(RC_LOG_SERIOUS, "NAT-Traversal: assert failed %s:%d", __FILE__, __LINE__); return; } /** Count NAT-OA **/ for (p = md->chain[ISAKMP_NEXT_NATOA_R], i=0; p != NULL; p = p->next, i++); #if 0 DBG_log("NAT-Traversal: received %d NAT-OA.", i); #endif if (i==0) { return; } else if (!(st->nat_traversal & LELEM(NAT_TRAVERSAL_NAT_BHND_PEER))) { loglog(RC_LOG_SERIOUS, "NAT-Traversal: received %d NAT-OA. " "ignored because peer is not NATed", i); return; } else if (i>1) { loglog(RC_LOG_SERIOUS, "NAT-Traversal: received %d NAT-OA. " "using first, ignoring others", i); } /** Take first **/ p = md->chain[ISAKMP_NEXT_NATOA_R]; DBG(DBG_PARSING, DBG_dump("NAT-OA:", p->pbs.start, pbs_room(&p->pbs)); );
size_t lswlog_enum_lset_short(struct lswlog *buf, enum_names *en, const char *separator, lset_t val) { unsigned int e; /* if nothing gets filled in, default to "none" rather than "" */ if (val == LEMPTY) { return lswlogs(buf, "none"); } size_t size = 0; const char *sep = ""; for (e = 0; val != 0; e++) { lset_t bit = LELEM(e); if (val & bit) { size += lswlogs(buf, sep); sep = separator; size += lswlog_enum_short(buf, en, e); val -= bit; } } return size; }
int main(int argc, char **argv) { #if 0 NSS_NoDB_Init("."); if (!test_aes_cbc(&algo_aes_cbc)) { printf("aes-cbc failed\n"); } if (!test_camellia_cbc(&algo_camellia_cbc)) { printf("camellia-cbc failed\n"); } if (!test_aes_ctr(&algo_aes_ctr)) { printf("aes-ctr failed\n"); } exit(0); #endif int lockfd; /* * We read the intentions for how to log from command line options * and the config file. Then we prepare to be able to log, but until * then log to stderr (better then nothing). Once we are ready to * actually do loggin according to the methods desired, we set the * variables for those methods */ bool log_to_stderr_desired = FALSE; bool log_to_file_desired = FALSE; { int i; /* MUST BE BEFORE ANY allocs */ for (i = 1; i < argc; ++i) { if (streq(argv[i], "--leak-detective")) leak_detective = TRUE; } } pluto_name = argv[0]; coredir = clone_str("/var/run/pluto", "coredir in main()"); pluto_vendorid = clone_str(ipsec_version_vendorid(), "vendorid in main()"); unsigned int keep_alive = 0; /* Overridden by virtual_private= in ipsec.conf */ char *virtual_private = NULL; libreswan_passert_fail = passert_fail; /* handle arguments */ for (;; ) { /* * Note: we don't like the way short options get parsed * by getopt_long, so we simply pass an empty string as * the list. It could be "hvdenp:l:s:" "NARXPECK". */ int longindex = -1; int c = getopt_long(argc, argv, "", long_opts, &longindex); const char *optname = NULL; err_t ugh = NULL; /* complaint from case */ unsigned long u = 0; /* scratch for case */ if (longindex != -1) { const char *optmeta; optname = long_opts[longindex].name; optmeta = optname + strlen(optname) + 1; /* after '\0' */ switch (optmeta[0]) { case '_': libreswan_log("warning: option \"--%s\" with '_' in its name is obsolete; use '-'", optname); break; case '>': libreswan_log("warning: option \"--%s\" is obsolete; use \"--%s\"", optname, optmeta + 1); break; case '!': libreswan_log("warning: option \"--%s\" is obsolete; ignored", optname); continue; /* ignore it! */ } } /* Note: "breaking" from case terminates loop */ switch (c) { case EOF: /* end of flags */ break; case 0: /* * Long option already handled by getopt_long. * Not currently used since we always set flag to NULL. */ continue; case ':': /* diagnostic already printed by getopt_long */ case '?': /* diagnostic already printed by getopt_long */ invocation_fail(NULL); break; case 'h': /* --help */ usage(); break; /* not actually reached */ case 'X': /* --leak-detective */ /* * This flag was already processed at the start of main() * because leak_detective must be immutable from before * the first alloc(). * If this option is specified, we must have already * set it at the start of main(), so assert it. */ passert(leak_detective); continue; case 'C': /* --coredir */ pfree(coredir); coredir = clone_str(optarg, "coredir via getopt"); continue; case 'V': /* --vendorid */ pfree(pluto_vendorid); coredir = clone_str(optarg, "pluto_vendorid via getopt"); continue; case 'S': /* --statsdir */ pfreeany(pluto_stats_binary); pluto_stats_binary = clone_str(optarg, "statsbin"); continue; case 'v': /* --version */ printf("%s%s\n", ipsec_version_string(), compile_time_interop_options); /* not exit_pluto because we are not initialized yet */ exit(0); break; /* not actually reached */ case 'j': /* --nhelpers */ if (streq(optarg, "-1")) { nhelpers = -1; } else { ugh = ttoulb(optarg, 0, 10, 1000, &u); if (ugh != NULL) break; nhelpers = u; } continue; case 'c': /* --seedbits */ pluto_nss_seedbits = atoi(optarg); if (pluto_nss_seedbits == 0) { printf("pluto: seedbits must be an integer > 0"); /* not exit_pluto because we are not initialized yet */ exit(PLUTO_EXIT_NSS_FAIL); } continue; #ifdef HAVE_LABELED_IPSEC case 'w': /* --secctx-attr-type */ ugh = ttoulb(optarg, 0, 0, 0xFFFF, &u); if (ugh != NULL) break; if (u != SECCTX && u != ECN_TUNNEL_or_old_SECCTX) { ugh = "must be a positive 32001 (default) or 10 (for backward compatibility)"; break; } secctx_attr_type = u; continue; #endif case 'd': /* --nofork*/ fork_desired = FALSE; continue; case 'e': /* --stderrlog */ log_to_stderr_desired = TRUE; continue; case 'g': /* --logfile */ pluto_log_file = optarg; log_to_file_desired = TRUE; continue; case 't': /* --log-no-time */ log_with_timestamp = FALSE; continue; case '7': /* --log-no-append */ log_append = FALSE; continue; case '8': /* --drop-oppo-null */ pluto_drop_oppo_null = TRUE; continue; case '9': /* --expire-bare-shunt <interval> */ ugh = ttoulb(optarg, 0, 10, 1000, &u); if (ugh != NULL) break; bare_shunt_interval = u; continue; case 'k': /* --use-klips */ kern_interface = USE_KLIPS; continue; case 'L': /* --listen ip_addr */ { ip_address lip; err_t e = ttoaddr(optarg, 0, AF_UNSPEC, &lip); if (e != NULL) { /* *??? should we continue on failure? * If not, use ugh mechanism. */ libreswan_log( "invalid listen argument ignored: %s\n", e); } else { pluto_listen = clone_str(optarg, "pluto_listen"); libreswan_log( "bind() will be filtered for %s\n", pluto_listen); } } continue; case 'M': /* --use-mast */ kern_interface = USE_MASTKLIPS; continue; case 'F': /* --use-bsdkame */ kern_interface = USE_BSDKAME; continue; case 'K': /* --use-netkey */ kern_interface = USE_NETKEY; continue; case 'n': /* --use-nostack */ kern_interface = NO_KERNEL; continue; case 'D': /* --force-busy */ pluto_ddos_mode = DDOS_FORCE_BUSY; continue; case 'U': /* --force-unlimited */ pluto_ddos_mode = DDOS_FORCE_UNLIMITED; continue; case 'Z': /* --curl-iface */ curl_iface = optarg; continue; case 'I': /* --curl-timeout */ ugh = ttoulb(optarg, 0, 10, 0xFFFF, &u); if (ugh != NULL) break; if (u <= 0) { ugh = "must not be < 1"; break; } curl_timeout = u; continue; case 'r': /* --strictcrlpolicy */ strict_crl_policy = TRUE; continue; case 'o': strict_ocsp_policy = TRUE; continue; case 'O': ocsp_enable = TRUE; continue; case 'Y': ocsp_default_uri = optarg; continue; case 'J': ocsp_trust_name = optarg; continue; case 'T': /* --ocsp_timeout <seconds> */ ugh = ttoulb(optarg, 0, 10, 0xFFFF, &u); if (ugh != NULL) break; if (u == 0) { ugh = "must not be 0"; break; } ocsp_timeout = u; continue; case 'x': /* --crlcheckinterval <seconds> */ ugh = ttoulb(optarg, 0, 10, TIME_T_MAX, &u); if (ugh != NULL) break; crl_check_interval = deltatime(u); continue; case 'u': /* --uniqueids */ uniqueIDs = TRUE; continue; case 'i': /* --interface <ifname|ifaddr> */ if (!use_interface(optarg)) { ugh = "too many --interface specifications"; break; } continue; /* * This option does not really work, as this is the "left" * site only, you also need --to --ikeport again later on * It will result in: yourport -> 500, still not bypassing * filters */ case 'p': /* --ikeport <portnumber> */ ugh = ttoulb(optarg, 0, 10, 0xFFFF, &u); if (ugh != NULL) break; if (u == 0) { ugh = "must not be 0"; break; } pluto_port = u; continue; case 'q': /* --natikeport <portnumber> */ ugh = ttoulb(optarg, 0, 10, 0xFFFF, &u); if (ugh != NULL) break; if (u == 0) { ugh = "must not be 0"; break; } pluto_nat_port = u; continue; case 'b': /* --ctlbase <path> */ /* * ??? work to be done here: * * snprintf returns the required space if there * isn't enough, not -1. * -1 indicates another kind of error. * * This appears to be the only place where the * ctlbase value is used yet it is set elsewhere. * (This isn't clear -- it may be OK.) */ ctlbase = optarg; if (snprintf(ctl_addr.sun_path, sizeof(ctl_addr.sun_path), "%s%s", ctlbase, CTL_SUFFIX) == -1) { ugh = "<path>" CTL_SUFFIX " too long for sun_path"; break; } if (snprintf(info_addr.sun_path, sizeof(info_addr.sun_path), "%s%s", ctlbase, INFO_SUFFIX) == -1) { ugh = "<path>" INFO_SUFFIX " too long for sun_path"; break; } if (snprintf(pluto_lock, sizeof(pluto_lock), "%s%s", ctlbase, LOCK_SUFFIX) == -1) { ugh = "<path>" LOCK_SUFFIX " must fit"; break; } continue; case 's': /* --secretsfile <secrets-file> */ lsw_conf_secretsfile(optarg); continue; case 'f': /* --ipsecdir <ipsec-dir> */ lsw_init_ipsecdir(optarg); continue; case 'N': /* --debug-none */ base_debugging = DBG_NONE; continue; case 'A': /* --debug-all */ base_debugging = DBG_ALL; continue; case 'P': /* --perpeerlogbase */ base_perpeer_logdir = optarg; continue; case 'l': /* --perpeerlog */ log_to_perpeer = TRUE; continue; case '2': /* --keep-alive <delay_secs> */ ugh = ttoulb(optarg, 0, 10, secs_per_day, &u); if (ugh != NULL) break; keep_alive = u; continue; case '5': /* --debug-nat-t */ base_debugging |= DBG_NATT; continue; case '6': /* --virtual-private */ virtual_private = optarg; continue; case 'z': /* --config */ { /* * Config struct to variables mapper. This will * overwrite all previously set options. Keep this * in the same order as long_opts[] is. */ struct starter_config *cfg = read_cfg_file(optarg); /* leak */ set_cfg_string(&pluto_log_file, cfg->setup.strings[KSF_PLUTOSTDERRLOG]); if (pluto_log_file != NULL) log_to_syslog = FALSE; /* plutofork= no longer supported via config file */ log_with_timestamp = cfg->setup.options[KBF_PLUTOSTDERRLOGTIME]; log_append = cfg->setup.options[KBF_PLUTOSTDERRLOGAPPEND]; pluto_drop_oppo_null = cfg->setup.options[KBF_DROP_OPPO_NULL]; pluto_ddos_mode = cfg->setup.options[KBF_DDOS_MODE]; if (cfg->setup.options[KBF_FORCEBUSY]) { /* force-busy is obsoleted, translate to ddos-mode= */ pluto_ddos_mode = cfg->setup.options[KBF_DDOS_MODE] = DDOS_FORCE_BUSY; } /* ddos-ike-threshold and max-halfopen-ike */ pluto_ddos_threshold = cfg->setup.options[KBF_DDOS_IKE_THRESHOLD]; pluto_max_halfopen = cfg->setup.options[KBF_MAX_HALFOPEN_IKE]; strict_crl_policy = cfg->setup.options[KBF_STRICTCRLPOLICY]; pluto_shunt_lifetime = deltatime(cfg->setup.options[KBF_SHUNTLIFETIME]); strict_ocsp_policy = cfg->setup.options[KBF_STRICTOCSPPOLICY]; ocsp_enable = cfg->setup.options[KBF_OCSPENABLE]; set_cfg_string(&ocsp_default_uri, cfg->setup.strings[KSF_OCSPURI]); ocsp_timeout = cfg->setup.options[KBF_OCSPTIMEOUT]; set_cfg_string(&ocsp_trust_name, cfg->setup.strings[KSF_OCSPTRUSTNAME]); crl_check_interval = deltatime( cfg->setup.options[KBF_CRLCHECKINTERVAL]); uniqueIDs = cfg->setup.options[KBF_UNIQUEIDS]; /* * We don't check interfaces= here because that part * has been dealt with in _stackmanager before we * started */ set_cfg_string(&pluto_listen, cfg->setup.strings[KSF_LISTEN]); /* --ikeport */ pluto_port = cfg->setup.options[KBF_IKEPORT]; /* --nflog-all */ /* only causes nflog nmber to show in ipsec status */ pluto_nflog_group = cfg->setup.options[KBF_NFLOG_ALL]; /* only causes nflog nmber to show in ipsec status */ pluto_xfrmlifetime = cfg->setup.options[KBF_XFRMLIFETIME]; /* no config option: ctlbase */ /* --secrets */ if (cfg->setup.strings[KSF_SECRETSFILE] && *cfg->setup.strings[KSF_SECRETSFILE]) { lsw_conf_secretsfile(cfg->setup.strings[KSF_SECRETSFILE]); } if (cfg->setup.strings[KSF_IPSECDIR] != NULL && *cfg->setup.strings[KSF_IPSECDIR] != 0) { /* --ipsecdir */ lsw_init_ipsecdir(cfg->setup.strings[KSF_IPSECDIR]); } /* --perpeerlog */ log_to_perpeer = cfg->setup.options[KBF_PERPEERLOG]; if (log_to_perpeer) { /* --perpeerlogbase */ if (cfg->setup.strings[KSF_PERPEERDIR]) { set_cfg_string(&base_perpeer_logdir, cfg->setup.strings[KSF_PERPEERDIR]); } else { base_perpeer_logdir = clone_str("/var/log/pluto/", "perpeer_logdir"); } } if (cfg->setup.strings[KSF_CURLIFACE]) { pfreeany(curl_iface); /* curl-iface= */ curl_iface = clone_str(cfg->setup.strings[KSF_CURLIFACE], "curl-iface= via --config"); } if (cfg->setup.options[KBF_CURLTIMEOUT]) curl_timeout = cfg->setup.options[KBF_CURLTIMEOUT]; if (cfg->setup.strings[KSF_DUMPDIR]) { pfree(coredir); /* dumpdir= */ coredir = clone_str(cfg->setup.strings[KSF_DUMPDIR], "coredir via --config"); } /* --vendorid */ if (cfg->setup.strings[KSF_MYVENDORID]) { pfree(pluto_vendorid); pluto_vendorid = clone_str(cfg->setup.strings[KSF_MYVENDORID], "pluto_vendorid via --config"); } /* no config option: pluto_adns_option */ if (cfg->setup.strings[KSF_STATSBINARY] != NULL) { if (access(cfg->setup.strings[KSF_STATSBINARY], X_OK) == 0) { pfreeany(pluto_stats_binary); /* statsbin= */ pluto_stats_binary = clone_str(cfg->setup.strings[KSF_STATSBINARY], "statsbin via --config"); libreswan_log("statsbinary set to %s", pluto_stats_binary); } else { libreswan_log("statsbinary= '%s' ignored - file does not exist or is not executable", pluto_stats_binary); } } pluto_nss_seedbits = cfg->setup.options[KBF_SEEDBITS]; pluto_nat_port = cfg->setup.options[KBF_NATIKEPORT]; keep_alive = cfg->setup.options[KBF_KEEPALIVE]; set_cfg_string(&virtual_private, cfg->setup.strings[KSF_VIRTUALPRIVATE]); nhelpers = cfg->setup.options[KBF_NHELPERS]; #ifdef HAVE_LABELED_IPSEC secctx_attr_type = cfg->setup.options[KBF_SECCTX]; #endif base_debugging = cfg->setup.options[KBF_PLUTODEBUG]; char *protostack = cfg->setup.strings[KSF_PROTOSTACK]; if (protostack == NULL || *protostack == '\0') { kern_interface = USE_NETKEY; } else if (streq(protostack, "none")) { kern_interface = NO_KERNEL; } else if (streq(protostack, "auto")) { libreswan_log( "The option protostack=auto is obsoleted, falling back to protostack=netkey\n"); kern_interface = USE_NETKEY; } else if (streq(protostack, "klips")) { kern_interface = USE_KLIPS; } else if (streq(protostack, "mast")) { kern_interface = USE_MASTKLIPS; } else if (streq(protostack, "netkey") || streq(protostack, "native")) { kern_interface = USE_NETKEY; } else if (streq(protostack, "bsd") || streq(protostack, "kame") || streq(protostack, "bsdkame")) { kern_interface = USE_BSDKAME; } else if (streq(protostack, "win2k")) { kern_interface = USE_WIN2K; } confread_free(cfg); continue; } default: if (DBG_OFFSET <= c && c < DBG_OFFSET + IMPAIR_roof_IX) { base_debugging |= LELEM(c - DBG_OFFSET); continue; } bad_case(c); } /* if ugh is set, bail with diagnostic */ if (ugh != NULL) { char mess[200]; if (longindex == -1) { snprintf(mess, sizeof(mess), "unknown option: %s", ugh); } else if (optarg == NULL) { snprintf(mess, sizeof(mess), "--%s option: %s", optname, ugh); } else { snprintf(mess, sizeof(mess), "--%s \"%s\" option: %s", optname, optarg, ugh); } invocation_fail(mess); } break; } if (optind != argc) invocation_fail("unexpected argument"); reset_debugging(); if (chdir(coredir) == -1) { int e = errno; libreswan_log("pluto: warning: chdir(\"%s\") to dumpdir failed (%d: %s)", coredir, e, strerror(e)); } oco = lsw_init_options(); lockfd = create_lock(); /* select between logging methods */ if (log_to_stderr_desired || log_to_file_desired) log_to_syslog = FALSE; if (!log_to_stderr_desired) log_to_stderr = FALSE; #if 0 if (kernel_ops->set_debug != NULL) (*kernel_ops->set_debug)(cur_debugging, DBG_log, DBG_log); #endif /* * create control socket. * We must create it before the parent process returns so that * there will be no race condition in using it. The easiest * place to do this is before the daemon fork. */ { err_t ugh = init_ctl_socket(); if (ugh != NULL) { fprintf(stderr, "pluto: FATAL: %s", ugh); exit_pluto(PLUTO_EXIT_SOCKET_FAIL); } } /* If not suppressed, do daemon fork */ if (fork_desired) { #if USE_DAEMON if (daemon(TRUE, TRUE) < 0) { fprintf(stderr, "pluto: FATAL: daemon failed (%d %s)\n", errno, strerror(errno)); exit_pluto(PLUTO_EXIT_FORK_FAIL); } /* * Parent just exits, so need to fill in our own PID * file. This is racy, since the file won't be * created until after the parent has exited. * * Since "ipsec start" invokes pluto with --nofork, it * is probably safer to leave this feature disabled * then implement it using the daemon call. */ (void) fill_lock(lockfd, getpid()); #elif USE_FORK { pid_t pid = fork(); if (pid < 0) { int e = errno; fprintf(stderr, "pluto: FATAL: fork failed (%d %s)\n", errno, strerror(e)); exit_pluto(PLUTO_EXIT_FORK_FAIL); } if (pid != 0) { /* * parent: die, after filling PID into lock * file. * must not use exit_pluto: lock would be * removed! */ exit(fill_lock(lockfd, pid) ? 0 : 1); } } #else fprintf(stderr, "pluto: FATAL: fork/daemon not supported\n"); exit_pluto(PLUTO_EXIT_FORK_FAIL); #endif if (setsid() < 0) { int e = errno; fprintf(stderr, "FATAL: setsid() failed in main(). Errno %d: %s\n", errno, strerror(e)); exit_pluto(PLUTO_EXIT_FAIL); } } else { /* no daemon fork: we have to fill in lock file */ (void) fill_lock(lockfd, getpid()); if (isatty(fileno(stdout))) { fprintf(stdout, "Pluto initialized\n"); fflush(stdout); } } /* * Close everything but ctl_fd and (if needed) stderr. * There is some danger that a library that we don't know * about is using some fd that we don't know about. * I guess we'll soon find out. */ { int i; for (i = getdtablesize() - 1; i >= 0; i--) /* Bad hack */ if ((!log_to_stderr || i != 2) && i != ctl_fd) close(i); /* make sure that stdin, stdout, stderr are reserved */ if (open("/dev/null", O_RDONLY) != 0) lsw_abort(); if (dup2(0, 1) != 1) lsw_abort(); if (!log_to_stderr && dup2(0, 2) != 2) lsw_abort(); } init_constants(); init_pluto_constants(); pluto_init_log(); if (!pluto_init_nss(oco->nssdb)) { loglog(RC_LOG_SERIOUS, "FATAL: NSS initialization failure"); exit_pluto(PLUTO_EXIT_NSS_FAIL); } libreswan_log("NSS crypto library initialized"); if (ocsp_enable) { if (!init_nss_ocsp(ocsp_default_uri, ocsp_trust_name, ocsp_timeout, strict_ocsp_policy)) { loglog(RC_LOG_SERIOUS, "Initializing NSS OCSP failed"); exit_pluto(PLUTO_EXIT_NSS_FAIL); } else { libreswan_log("NSS OCSP Enabled"); } } #ifdef HAVE_LIBCAP_NG /* * Drop capabilities - this generates a false positive valgrind warning * See: http://marc.info/?l=linux-security-module&m=125895232029657 * * We drop these after creating the pluto socket or else we can't * create a socket if the parent dir is non-root (eg openstack) */ capng_clear(CAPNG_SELECT_BOTH); capng_updatev(CAPNG_ADD, CAPNG_EFFECTIVE | CAPNG_PERMITTED, CAP_NET_BIND_SERVICE, CAP_NET_ADMIN, CAP_NET_RAW, CAP_IPC_LOCK, CAP_AUDIT_WRITE, /* for google authenticator pam */ CAP_SETGID, CAP_SETUID, CAP_DAC_READ_SEARCH, -1); /* * We need to retain some capabilities for our children (updown): * CAP_NET_ADMIN to change routes * CAP_NET_RAW for iptables -t mangle * CAP_DAC_READ_SEARCH for pam / google authenticator */ capng_updatev(CAPNG_ADD, CAPNG_BOUNDING_SET, CAP_NET_ADMIN, CAP_NET_RAW, CAP_DAC_READ_SEARCH, -1); capng_apply(CAPNG_SELECT_BOTH); libreswan_log("libcap-ng support [enabled]"); #else libreswan_log("libcap-ng support [disabled]"); #endif #ifdef FIPS_CHECK libreswan_log("FIPS HMAC integrity support [enabled]"); /* * FIPS mode requires two conditions to be true: * - FIPS Kernel mode: fips=1 kernel boot parameter * - FIPS Product mode: See FIPSPRODUCTCHECK in Makefile.inc * (in RHEL/Fedora, dracut-fips installs $FIPSPRODUCTCHECK) * * When FIPS mode, abort on self-check hmac failure. Otherwise, complain */ { if (DBGP(IMPAIR_FORCE_FIPS)) { libreswan_log("Forcing FIPS checks to true to emulate FIPS mode"); lsw_set_fips_mode(LSW_FIPS_ON); } enum lsw_fips_mode pluto_fips_mode = lsw_get_fips_mode(); bool nss_fips_mode = PK11_IsFIPS(); /* * Now verify the consequences. Always run the tests * as combinations such as NSS in fips mode but as out * of it could be bad. */ switch (pluto_fips_mode) { case LSW_FIPS_UNKNOWN: loglog(RC_LOG_SERIOUS, "ABORT: pluto FIPS mode could not be determined"); exit_pluto(PLUTO_EXIT_FIPS_FAIL); break; case LSW_FIPS_ON: libreswan_log("FIPS mode enabled for pluto daemon"); if (nss_fips_mode) { libreswan_log("NSS library is running in FIPS mode"); } else { loglog(RC_LOG_SERIOUS, "ABORT: pluto in FIPS mode but NSS library is not"); exit_pluto(PLUTO_EXIT_FIPS_FAIL); } break; case LSW_FIPS_OFF: libreswan_log("FIPS mode disabled for pluto daemon"); if (nss_fips_mode) { loglog(RC_LOG_SERIOUS, "Warning: NSS library is running in FIPS mode"); } break; case LSW_FIPS_UNSET: default: bad_case(pluto_fips_mode); } /* always run hmac check so we can print diagnostic */ bool fips_files = FIPSCHECK_verify_files(fips_package_files); if (fips_files) { libreswan_log("FIPS HMAC integrity verification self-test passed"); } else { loglog(RC_LOG_SERIOUS, "FIPS HMAC integrity verification self-test FAILED"); } if (pluto_fips_mode == LSW_FIPS_ON && !fips_files) { exit_pluto(PLUTO_EXIT_FIPS_FAIL); } } #else libreswan_log("FIPS HMAC integrity support [disabled]"); #endif #ifdef USE_LINUX_AUDIT linux_audit_init(); #else libreswan_log("Linux audit support [disabled]"); #endif { const char *vc = ipsec_version_code(); libreswan_log("Starting Pluto (Libreswan Version %s%s) pid:%u", vc, compile_time_interop_options, getpid()); } libreswan_log("core dump dir: %s", coredir); if (oco->secretsfile && *oco->secretsfile) libreswan_log("secrets file: %s", oco->secretsfile); libreswan_log(leak_detective ? "leak-detective enabled" : "leak-detective disabled"); /* Check for SAREF support */ #ifdef KLIPS_MAST #include <ipsec_saref.h> { int e, sk, saref; saref = 1; errno = 0; sk = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP); e = setsockopt(sk, IPPROTO_IP, IP_IPSEC_REFINFO, &saref, sizeof(saref)); if (e == -1 ) libreswan_log("SAref support [disabled]: %s", strerror(errno)); else libreswan_log("SAref support [enabled]"); errno = 0; e = setsockopt(sk, IPPROTO_IP, IP_IPSEC_BINDREF, &saref, sizeof(saref)); if (e == -1 ) libreswan_log("SAbind support [disabled]: %s", strerror(errno)); else libreswan_log("SAbind support [enabled]"); close(sk); } #endif libreswan_log("NSS crypto [enabled]"); #ifdef XAUTH_HAVE_PAM libreswan_log("XAUTH PAM support [enabled]"); #else libreswan_log("XAUTH PAM support [disabled]"); #endif /* Log various impair-* functions if they were enabled */ if (DBGP(IMPAIR_BUST_MI2)) libreswan_log("Warning: IMPAIR_BUST_MI2 enabled"); if (DBGP(IMPAIR_BUST_MR2)) libreswan_log("Warning: IMPAIR_BUST_MR2 enabled"); if (DBGP(IMPAIR_SA_CREATION)) libreswan_log("Warning: IMPAIR_SA_CREATION enabled"); if (DBGP(IMPAIR_JACOB_TWO_TWO)) libreswan_log("Warning: IMPAIR_JACOB_TWO_TWO enabled"); if (DBGP(IMPAIR_DIE_ONINFO)) libreswan_log("Warning: IMPAIR_DIE_ONINFO enabled"); if (DBGP(IMPAIR_MAJOR_VERSION_BUMP)) libreswan_log("Warning: IMPAIR_MAJOR_VERSION_BUMP enabled"); if (DBGP(IMPAIR_MINOR_VERSION_BUMP)) libreswan_log("Warning: IMPAIR_MINOR_VERSION_BUMP enabled"); if (DBGP(IMPAIR_RETRANSMITS)) libreswan_log("Warning: IMPAIR_RETRANSMITS enabled"); if (DBGP(IMPAIR_SEND_BOGUS_ISAKMP_FLAG)) libreswan_log("Warning: IMPAIR_SEND_BOGUS_ISAKMP_FLAG enabled"); if (DBGP(IMPAIR_SEND_BOGUS_PAYLOAD_FLAG)) libreswan_log("Warning: IMPAIR_SEND_BOGUS_PAYLOAD_FLAG enabled"); if (DBGP(IMPAIR_SEND_IKEv2_KE)) libreswan_log("Warning: IMPAIR_SEND_IKEv2_KE enabled"); if (DBGP(IMPAIR_SEND_KEY_SIZE_CHECK)) libreswan_log("Warning: IMPAIR_SEND_KEY_SIZE_CHECK enabled"); if (DBGP(IMPAIR_SEND_NO_DELETE)) libreswan_log("Warning: IMPAIR_SEND_NO_DELETE enabled"); if (DBGP(IMPAIR_FORCE_FIPS)) libreswan_log("Warning: IMPAIR_FORCE_FIPS enabled"); if (DBGP(IMPAIR_SEND_NO_IKEV2_AUTH)) libreswan_log("Warning: IMPAIR_SEND_NO_IKEV2_AUTH enabled"); if (DBGP(IMPAIR_SEND_ZERO_GX)) libreswan_log("Warning: IMPAIR_SEND_ZERO_GX enabled"); if (DBGP(IMPAIR_SEND_BOGUS_DCOOKIE)) libreswan_log("Warning: IMPAIR_SEND_BOGUS_DCOOKIE enabled"); /* Initialize all of the various features */ init_nat_traversal(keep_alive); init_virtual_ip(virtual_private); /* obsoleted by nss code init_rnd_pool(); */ init_event_base(); init_secret(); init_states(); init_connections(); init_crypto(); init_crypto_helpers(nhelpers); init_demux(); init_kernel(); init_id(); init_vendorid(); #if defined(LIBCURL) || defined(LDAP_VER) init_fetch(); #endif load_crls(); #ifdef HAVE_LABELED_IPSEC init_avc(); #endif daily_log_event(); #ifdef USE_SYSTEMD_WATCHDOG pluto_sd_init(); #endif call_server(); return -1; /* Shouldn't ever reach this */ }
{ "x509", DBG_X509 }, { "dpd", DBG_DPD }, { "pfkey", DBG_PFKEY }, { "natt", DBG_NATT }, { "nattraversal", DBG_NATT }, /* backwards compatibility */ { "klips", DBG_KERNEL }, { "netkey", DBG_KERNEL }, }; static const struct keyword_enum_values kw_plutodebug_list = VALUES_INITIALIZER(kw_plutodebug_values); static const struct keyword_enum_value kw_klipsdebug_values[] = { { "all", LRANGE(KDF_XMIT, KDF_COMP) }, { "none", 0 }, { "verbose", LELEM(KDF_VERBOSE) }, { "xmit", LELEM(KDF_XMIT) }, { "tunnel-xmit", LELEM(KDF_XMIT) }, { "netlink", LELEM(KDF_NETLINK) }, { "xform", LELEM(KDF_XFORM) }, { "eroute", LELEM(KDF_EROUTE) }, { "spi", LELEM(KDF_SPI) }, { "radij", LELEM(KDF_RADIJ) }, { "esp", LELEM(KDF_ESP) }, { "ah", LELEM(KDF_AH) }, { "rcv", LELEM(KDF_RCV) }, { "tunnel", LELEM(KDF_TUNNEL) }, { "pfkey", LELEM(KDF_PFKEY) }, { "comp", LELEM(KDF_COMP) }, { "nat-traversal", LELEM(KDF_NATT) }, { "nattraversal", LELEM(KDF_NATT) },
u_int32_t nat_traversal_vid_to_method(unsigned short nat_t_vid) { return LELEM(NAT_TRAVERSAL_RFC); }
void nat_traversal_natd_lookup(struct msg_digest *md) { char hash[MAX_DIGEST_LEN]; struct payload_digest *p; struct state *st = md->st; int i; if (!st || !md->iface || !st->st_oakley.hasher) { loglog(RC_LOG_SERIOUS, "NAT-Traversal: assert failed %s:%d", __FILE__, __LINE__); return; } /** Count NAT-D **/ for (p = md->chain[ISAKMP_NEXT_NATD_R], i=0; p != NULL; p = p->next, i++); /** * We need at least 2 NAT-D (1 for us, many for peer) */ if (i < 2) { loglog(RC_LOG_SERIOUS, "NAT-Traversal: Only %d NAT-D - Aborting NAT-Traversal negotiation", i); st->nat_traversal = 0; return; } #ifdef NAT_D_DEBUG else loglog(RC_LOG_SERIOUS, "NAT-Traversal: %d NAT-D - Continuing NAT-Traversal negotiation", i); #endif /** * First one with my IP & port */ p = md->chain[ISAKMP_NEXT_NATD_R]; _natd_hash(st->st_oakley.hasher, hash, st->st_icookie, st->st_rcookie, &(md->iface->addr), ntohs(st->st_connection->this.host_port)); if (!( (pbs_left(&p->pbs) == st->st_oakley.hasher->hash_digest_len) && (memcmp(p->pbs.cur, hash, st->st_oakley.hasher->hash_digest_len)==0) )) { #ifdef NAT_D_DEBUG DBG_log("NAT_TRAVERSAL_NAT_BHND_ME"); DBG_dump("expected NAT-D:", hash, st->st_oakley.hasher->hash_digest_len); DBG_dump("received NAT-D:", p->pbs.cur, pbs_left(&p->pbs)); #endif st->nat_traversal |= LELEM(NAT_TRAVERSAL_NAT_BHND_ME); } /** * The others with sender IP & port */ _natd_hash(st->st_oakley.hasher, hash, st->st_icookie, st->st_rcookie, &(md->sender), ntohs(md->sender_port)); for (p = p->next, i=0 ; p != NULL; p = p->next) { if ( (pbs_left(&p->pbs) == st->st_oakley.hasher->hash_digest_len) && (memcmp(p->pbs.cur, hash, st->st_oakley.hasher->hash_digest_len)==0) ) { i++; } } if (!i) { #ifdef NAT_D_DEBUG DBG_log("NAT_TRAVERSAL_NAT_BHND_PEER"); DBG_dump("expected NAT-D:", hash, st->st_oakley.hasher->hash_digest_len); p = md->chain[ISAKMP_NEXT_NATD_R]; for (p = p->next, i=0 ; p != NULL; p = p->next) { DBG_dump("received NAT-D:", p->pbs.cur, pbs_left(&p->pbs)); } #endif st->nat_traversal |= LELEM(NAT_TRAVERSAL_NAT_BHND_PEER); } #ifdef FORCE_NAT_TRAVERSAL st->nat_traversal |= LELEM(NAT_TRAVERSAL_NAT_BHND_PEER); st->nat_traversal |= LELEM(NAT_TRAVERSAL_NAT_BHND_ME); #endif }