/** * @file stroke_interface.c * * @brief Implementation of stroke_interface_t. * */ /* * Copyright (C) 2007 Tobias Brunner * Copyright (C) 2006-2007 Martin Willi * 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 #include #include #include #include #include #include #include #include #include #include #include "stroke_interface.h" #include #include #include #include #include #include #include #include #include #include #include #include #define IKE_PORT 500 #define PATH_BUF 256 #define STROKE_THREADS 3 typedef struct private_stroke_interface_t private_stroke_interface_t; /** * Private data of an stroke_interfacet object. */ struct private_stroke_interface_t { /** * Public part of stroke_interfacet object. */ stroke_interface_t public; /** * Unix socket to listen for strokes */ int socket; /** * job accepting stroke messages */ callback_job_t *job; }; typedef struct stroke_log_info_t stroke_log_info_t; /** * helper struct to say what and where to log when using controller callback */ struct stroke_log_info_t { /** * level to log up to */ level_t level; /** * where to write log */ FILE* out; }; /** * Helper function which corrects the string pointers * in a stroke_msg_t. Strings in a stroke_msg sent over "wire" * contains RELATIVE addresses (relative to the beginning of the * stroke_msg). They must be corrected if they reach our address * space... */ static void pop_string(stroke_msg_t *msg, char **string) { if (*string == NULL) return; /* check for sanity of string pointer and string */ if (string < (char**)msg || string > (char**)msg + sizeof(stroke_msg_t) || (unsigned long)*string < (unsigned long)((char*)msg->buffer - (char*)msg) || (unsigned long)*string > msg->length) { *string = "(invalid pointer in stroke msg)"; } else { *string = (char*)msg + (unsigned long)*string; } } /** * Load end entitity certificate */ static x509_t* load_end_certificate(const char *filename, identification_t **idp) { char path[PATH_BUF]; x509_t *cert; if (*filename == '/') { /* absolute path name */ snprintf(path, sizeof(path), "%s", filename); } else { /* relative path name */ snprintf(path, sizeof(path), "%s/%s", CERTIFICATE_DIR, filename); } cert = x509_create_from_file(path, "end entity"); if (cert) { identification_t *id = *idp; identification_t *subject = cert->get_subject(cert); err_t ugh = cert->is_valid(cert, NULL); if (ugh != NULL) { DBG1(DBG_CFG, "warning: certificate %s", ugh); } if (!id->equals(id, subject) && !cert->equals_subjectAltName(cert, id)) { id->destroy(id); id = subject; *idp = id->clone(id); } return charon->credentials->add_end_certificate(charon->credentials, cert); } return NULL; } /** * Load ca certificate */ static x509_t* load_ca_certificate(const char *filename) { char path[PATH_BUF]; x509_t *cert; if (*filename == '/') { /* absolute path name */ snprintf(path, sizeof(path), "%s", filename); } else { /* relative path name */ snprintf(path, sizeof(path), "%s/%s", CA_CERTIFICATE_DIR, filename); } cert = x509_create_from_file(path, "ca"); if (cert) { if (cert->is_ca(cert)) { return charon->credentials->add_auth_certificate(charon->credentials, cert, AUTH_CA); } else { DBG1(DBG_CFG, " CA basic constraints flag not set, cert discarded"); cert->destroy(cert); } } return NULL; } /** * Pop the strings of a stroke_end_t struct and log them for debugging purposes */ static void pop_end(stroke_msg_t *msg, const char* label, stroke_end_t *end) { pop_string(msg, &end->address); pop_string(msg, &end->subnet); pop_string(msg, &end->sourceip); pop_string(msg, &end->id); pop_string(msg, &end->cert); pop_string(msg, &end->ca); pop_string(msg, &end->groups); pop_string(msg, &end->updown); DBG2(DBG_CFG, " %s=%s", label, end->address); DBG2(DBG_CFG, " %ssubnet=%s", label, end->subnet); DBG2(DBG_CFG, " %ssourceip=%s", label, end->sourceip); DBG2(DBG_CFG, " %sid=%s", label, end->id); DBG2(DBG_CFG, " %scert=%s", label, end->cert); DBG2(DBG_CFG, " %sca=%s", label, end->ca); DBG2(DBG_CFG, " %sgroups=%s", label, end->groups); DBG2(DBG_CFG, " %supdown=%s", label, end->updown); } /** * Add a connection to the configuration list */ static void stroke_add_conn(stroke_msg_t *msg, FILE *out) { ike_cfg_t *ike_cfg; peer_cfg_t *peer_cfg; peer_cfg_t *mediated_by_cfg = NULL; child_cfg_t *child_cfg; identification_t *my_id, *other_id; identification_t *my_ca = NULL; identification_t *other_ca = NULL; identification_t *peer_id = NULL; bool my_ca_same = FALSE; bool other_ca_same =FALSE; host_t *my_host, *other_host, *my_subnet, *other_subnet; host_t *my_vip = NULL, *other_vip = NULL; linked_list_t *other_groups = linked_list_create(); proposal_t *proposal; traffic_selector_t *my_ts, *other_ts; char *interface; bool use_existing = FALSE; iterator_t *iterator; u_int32_t vendor; pop_string(msg, &msg->add_conn.name); DBG1(DBG_CFG, "received stroke: add connection '%s'", msg->add_conn.name); DBG2(DBG_CFG, "conn %s", msg->add_conn.name); pop_end(msg, "left", &msg->add_conn.me); pop_end(msg, "right", &msg->add_conn.other); pop_string(msg, &msg->add_conn.algorithms.ike); pop_string(msg, &msg->add_conn.algorithms.esp); DBG2(DBG_CFG, " ike=%s", msg->add_conn.algorithms.ike); DBG2(DBG_CFG, " esp=%s", msg->add_conn.algorithms.esp); pop_string(msg, &msg->add_conn.p2p.mediated_by); pop_string(msg, &msg->add_conn.p2p.peerid); DBG2(DBG_CFG, " p2p_mediation=%s", msg->add_conn.p2p.mediation ? "yes" : "no"); DBG2(DBG_CFG, " p2p_mediated_by=%s", msg->add_conn.p2p.mediated_by); DBG2(DBG_CFG, " p2p_peerid=%s", msg->add_conn.p2p.peerid); my_host = msg->add_conn.me.address ? host_create_from_string(msg->add_conn.me.address, IKE_PORT) : NULL; if (my_host == NULL) { DBG1(DBG_CFG, "invalid host: %s\n", msg->add_conn.me.address); return; } other_host = msg->add_conn.other.address ? host_create_from_string(msg->add_conn.other.address, IKE_PORT) : NULL; if (other_host == NULL) { DBG1(DBG_CFG, "invalid host: %s\n", msg->add_conn.other.address); my_host->destroy(my_host); return; } interface = charon->kernel_interface->get_interface(charon->kernel_interface, other_host); if (interface) { stroke_end_t tmp_end; host_t *tmp_host; DBG2(DBG_CFG, "left is other host, swapping ends\n"); tmp_host = my_host; my_host = other_host; other_host = tmp_host; tmp_end = msg->add_conn.me; msg->add_conn.me = msg->add_conn.other; msg->add_conn.other = tmp_end; free(interface); } else { interface = charon->kernel_interface->get_interface( charon->kernel_interface, my_host); if (!interface) { DBG1(DBG_CFG, "left nor right host is our side, assuming left=local"); } else { free(interface); } } my_id = identification_create_from_string(msg->add_conn.me.id ? msg->add_conn.me.id : msg->add_conn.me.address); if (my_id == NULL) { DBG1(DBG_CFG, "invalid ID: %s\n", msg->add_conn.me.id); goto destroy_hosts; } other_id = identification_create_from_string(msg->add_conn.other.id ? msg->add_conn.other.id : msg->add_conn.other.address); if (other_id == NULL) { DBG1(DBG_CFG, "invalid ID: %s\n", msg->add_conn.other.id); my_id->destroy(my_id); goto destroy_hosts; } #ifdef P2P if (msg->add_conn.p2p.mediation && msg->add_conn.p2p.mediated_by) { DBG1(DBG_CFG, "a mediation connection cannot be a" " mediated connection at the same time, aborting"); goto destroy_ids; } if (msg->add_conn.p2p.mediated_by) { mediated_by_cfg = charon->backends->get_peer_cfg_by_name(charon->backends, msg->add_conn.p2p.mediated_by); if (!mediated_by_cfg) { DBG1(DBG_CFG, "mediation connection '%s' not found, aborting", msg->add_conn.p2p.mediated_by); goto destroy_ids; } if (!mediated_by_cfg->is_mediation(mediated_by_cfg)) { DBG1(DBG_CFG, "connection '%s' as referred to by '%s' is" "no mediation connection, aborting", msg->add_conn.p2p.mediated_by, msg->add_conn.name); goto destroy_ids; } } if (msg->add_conn.p2p.peerid) { peer_id = identification_create_from_string(msg->add_conn.p2p.peerid); if (!peer_id) { DBG1(DBG_CFG, "invalid peer ID: %s\n", msg->add_conn.p2p.peerid); goto destroy_ids; } } else { /* no peer ID supplied, assume right ID */ peer_id = other_id->clone(other_id); } #endif /* P2P */ my_subnet = host_create_from_string(msg->add_conn.me.subnet ? msg->add_conn.me.subnet : msg->add_conn.me.address, IKE_PORT); if (my_subnet == NULL) { DBG1(DBG_CFG, "invalid subnet: %s\n", msg->add_conn.me.subnet); goto destroy_ids; } other_subnet = host_create_from_string(msg->add_conn.other.subnet ? msg->add_conn.other.subnet : msg->add_conn.other.address, IKE_PORT); if (other_subnet == NULL) { DBG1(DBG_CFG, "invalid subnet: %s\n", msg->add_conn.me.subnet); my_subnet->destroy(my_subnet); goto destroy_ids; } if (msg->add_conn.me.virtual_ip && msg->add_conn.me.sourceip) { my_vip = host_create_from_string(msg->add_conn.me.sourceip, 0); } if (msg->add_conn.other.virtual_ip && msg->add_conn.other.sourceip) { other_vip = host_create_from_string(msg->add_conn.other.sourceip, 0); } if (msg->add_conn.me.tohost) { my_ts = traffic_selector_create_dynamic(msg->add_conn.me.protocol, my_host->get_family(my_host) == AF_INET ? TS_IPV4_ADDR_RANGE : TS_IPV6_ADDR_RANGE, msg->add_conn.me.port ? msg->add_conn.me.port : 0, msg->add_conn.me.port ? msg->add_conn.me.port : 65535); } else { my_ts = traffic_selector_create_from_subnet(my_subnet, msg->add_conn.me.subnet ? msg->add_conn.me.subnet_mask : 0, msg->add_conn.me.protocol, msg->add_conn.me.port); } my_subnet->destroy(my_subnet); if (msg->add_conn.other.tohost) { other_ts = traffic_selector_create_dynamic(msg->add_conn.other.protocol, other_host->get_family(other_host) == AF_INET ? TS_IPV4_ADDR_RANGE : TS_IPV6_ADDR_RANGE, msg->add_conn.other.port ? msg->add_conn.other.port : 0, msg->add_conn.other.port ? msg->add_conn.other.port : 65535); } else { other_ts = traffic_selector_create_from_subnet(other_subnet, msg->add_conn.other.subnet ? msg->add_conn.other.subnet_mask : 0, msg->add_conn.other.protocol, msg->add_conn.other.port); } other_subnet->destroy(other_subnet); if (msg->add_conn.me.ca) { if (streq(msg->add_conn.me.ca, "%same")) { my_ca_same = TRUE; } else { my_ca = identification_create_from_string(msg->add_conn.me.ca); } } if (msg->add_conn.other.ca) { if (streq(msg->add_conn.other.ca, "%same")) { other_ca_same = TRUE; } else { other_ca = identification_create_from_string(msg->add_conn.other.ca); } } if (msg->add_conn.me.cert) { x509_t *cert = load_end_certificate(msg->add_conn.me.cert, &my_id); if (cert) { ca_info_t *ca_info; if (cert->is_self_signed(cert)) { /* a self-signed certificate is its own ca */ ca_info = ca_info_create(NULL, cert); ca_info = charon->credentials->add_ca_info(charon->credentials, ca_info); cert->set_ca_info(cert, ca_info); } else { /* get_issuer() automatically sets cert->ca_info */ ca_info = charon->credentials->get_issuer(charon->credentials, cert); } if (my_ca == NULL && !my_ca_same) { identification_t *issuer = cert->get_issuer(cert); my_ca = issuer->clone(issuer); } } } if (msg->add_conn.other.cert) { x509_t *cert = load_end_certificate(msg->add_conn.other.cert, &other_id); if (cert) { ca_info_t *ca_info; if (cert->is_self_signed(cert)) { /* a self-signed certificate is its own ca */ ca_info = ca_info_create(NULL, cert); ca_info = charon->credentials->add_ca_info(charon->credentials, ca_info); cert->set_ca_info(cert, ca_info); } else { /* get_issuer() automatically sets cert->ca_info */ ca_info = charon->credentials->get_issuer(charon->credentials, cert); } if (other_ca == NULL && !other_ca_same) { identification_t *issuer = cert->get_issuer(cert); other_ca = issuer->clone(issuer); } } } if (other_ca_same && my_ca) { other_ca = my_ca->clone(my_ca); } else if (my_ca_same && other_ca) { my_ca = other_ca->clone(other_ca); } if (my_ca == NULL) { my_ca = identification_create_from_string("%any"); } if (other_ca == NULL) { other_ca = identification_create_from_string("%any"); } DBG2(DBG_CFG, " my ca: '%D'", my_ca); DBG2(DBG_CFG, " other ca:'%D'", other_ca); if (msg->add_conn.other.groups) { ietfAttr_list_create_from_string(msg->add_conn.other.groups, other_groups); } /* have a look for an (almost) identical peer config to reuse */ iterator = charon->backends->create_iterator(charon->backends); while (iterator->iterate(iterator, (void**)&peer_cfg)) { host_t *my_vip_conf, *other_vip_conf; bool my_vip_equals = FALSE, other_vip_equals = FALSE; my_vip_conf = peer_cfg->get_my_virtual_ip(peer_cfg); if ((my_vip && my_vip_conf && my_vip->equals(my_vip, my_vip_conf)) || (!my_vip_conf && !my_vip)) { my_vip_equals = TRUE; } DESTROY_IF(my_vip_conf); other_vip_conf = peer_cfg->get_other_virtual_ip(peer_cfg, NULL); if ((other_vip && other_vip_conf && other_vip->equals(other_vip, other_vip_conf)) || (!other_vip_conf && !other_vip)) { other_vip_equals = TRUE; } DESTROY_IF(other_vip_conf); ike_cfg = peer_cfg->get_ike_cfg(peer_cfg); if (my_id->equals(my_id, peer_cfg->get_my_id(peer_cfg)) && other_id->equals(other_id, peer_cfg->get_other_id(peer_cfg)) && my_host->equals(my_host, ike_cfg->get_my_host(ike_cfg)) && other_host->equals(other_host, ike_cfg->get_other_host(ike_cfg)) && other_ca->equals(other_ca, peer_cfg->get_other_ca(peer_cfg)) && ietfAttr_list_equals(other_groups, peer_cfg->get_groups(peer_cfg)) && peer_cfg->get_ike_version(peer_cfg) == (msg->add_conn.ikev2 ? 2 : 1) && peer_cfg->get_auth_method(peer_cfg) == msg->add_conn.auth_method && peer_cfg->get_eap_type(peer_cfg, &vendor) == msg->add_conn.eap_type && vendor == msg->add_conn.eap_vendor && my_vip_equals && other_vip_equals) { DBG1(DBG_CFG, "reusing existing configuration '%s'", peer_cfg->get_name(peer_cfg)); use_existing = TRUE; break; } } iterator->destroy(iterator); if (use_existing) { DESTROY_IF(my_vip); DESTROY_IF(other_vip); my_host->destroy(my_host); my_id->destroy(my_id); my_ca->destroy(my_ca); other_host->destroy(other_host); other_id->destroy(other_id); other_ca->destroy(other_ca); DESTROY_IF(peer_id); DESTROY_IF(mediated_by_cfg); ietfAttr_list_destroy(other_groups); } else { ike_cfg = ike_cfg_create(msg->add_conn.other.sendcert != CERT_NEVER_SEND, msg->add_conn.force_encap, my_host, other_host); if (msg->add_conn.algorithms.ike) { char *proposal_string; char *strict = msg->add_conn.algorithms.ike + strlen(msg->add_conn.algorithms.ike) - 1; if (*strict == '!') *strict = '\0'; else strict = NULL; while ((proposal_string = strsep(&msg->add_conn.algorithms.ike, ","))) { proposal = proposal_create_from_string(PROTO_IKE, proposal_string); if (proposal == NULL) { DBG1(DBG_CFG, "invalid IKE proposal string: %s", proposal_string); my_id->destroy(my_id); other_id->destroy(other_id); my_ts->destroy(my_ts); other_ts->destroy(other_ts); my_ca->destroy(my_ca); other_ca->destroy(other_ca); ike_cfg->destroy(ike_cfg); return; } ike_cfg->add_proposal(ike_cfg, proposal); } if (!strict) { proposal = proposal_create_default(PROTO_IKE); ike_cfg->add_proposal(ike_cfg, proposal); } } else { proposal = proposal_create_default(PROTO_IKE); ike_cfg->add_proposal(ike_cfg, proposal); } u_int32_t rekey = 0, reauth = 0, over, jitter; jitter = msg->add_conn.rekey.margin * msg->add_conn.rekey.fuzz / 100; over = msg->add_conn.rekey.margin; if (msg->add_conn.rekey.reauth) { reauth = msg->add_conn.rekey.ike_lifetime - over; } else { rekey = msg->add_conn.rekey.ike_lifetime - over; } peer_cfg = peer_cfg_create(msg->add_conn.name, msg->add_conn.ikev2 ? 2 : 1, ike_cfg, my_id, other_id, my_ca, other_ca, other_groups, msg->add_conn.me.sendcert, msg->add_conn.auth_method, msg->add_conn.eap_type, msg->add_conn.eap_vendor, msg->add_conn.rekey.tries, rekey, reauth, jitter, over, msg->add_conn.mobike, msg->add_conn.dpd.delay, msg->add_conn.dpd.action, my_vip, other_vip, msg->add_conn.p2p.mediation, mediated_by_cfg, peer_id); } child_cfg = child_cfg_create( msg->add_conn.name, msg->add_conn.rekey.ipsec_lifetime, msg->add_conn.rekey.ipsec_lifetime - msg->add_conn.rekey.margin, msg->add_conn.rekey.margin * msg->add_conn.rekey.fuzz / 100, msg->add_conn.me.updown, msg->add_conn.me.hostaccess, msg->add_conn.mode); peer_cfg->add_child_cfg(peer_cfg, child_cfg); child_cfg->add_traffic_selector(child_cfg, TRUE, my_ts); child_cfg->add_traffic_selector(child_cfg, FALSE, other_ts); if (msg->add_conn.algorithms.esp) { char *proposal_string; char *strict = msg->add_conn.algorithms.esp + strlen(msg->add_conn.algorithms.esp) - 1; if (*strict == '!') *strict = '\0'; else strict = NULL; while ((proposal_string = strsep(&msg->add_conn.algorithms.esp, ","))) { proposal = proposal_create_from_string(PROTO_ESP, proposal_string); if (proposal == NULL) { DBG1(DBG_CFG, "invalid ESP proposal string: %s", proposal_string); peer_cfg->destroy(peer_cfg); return; } child_cfg->add_proposal(child_cfg, proposal); } if (!strict) { proposal = proposal_create_default(PROTO_ESP); child_cfg->add_proposal(child_cfg, proposal); } } else { proposal = proposal_create_default(PROTO_ESP); child_cfg->add_proposal(child_cfg, proposal); } if (!use_existing) { /* add config to backend */ charon->backends->add_peer_cfg(charon->backends, peer_cfg); DBG1(DBG_CFG, "added configuration '%s': %H[%D]...%H[%D]", msg->add_conn.name, my_host, my_id, other_host, other_id); } return; /* mopping up after parsing errors */ destroy_ids: my_id->destroy(my_id); other_id->destroy(other_id); DESTROY_IF(mediated_by_cfg); DESTROY_IF(peer_id); destroy_hosts: my_host->destroy(my_host); other_host->destroy(other_host); } /** * Delete a connection from the list */ static void stroke_del_conn(stroke_msg_t *msg, FILE *out) { iterator_t *peer_iter, *child_iter; peer_cfg_t *peer; child_cfg_t *child; pop_string(msg, &(msg->del_conn.name)); DBG1(DBG_CFG, "received stroke: delete connection '%s'", msg->del_conn.name); peer_iter = charon->backends->create_iterator(charon->backends); while (peer_iter->iterate(peer_iter, (void**)&peer)) { /* remove peer config with such a name */ if (streq(peer->get_name(peer), msg->del_conn.name)) { peer_iter->remove(peer_iter); peer->destroy(peer); continue; } /* remove any child with such a name */ child_iter = peer->create_child_cfg_iterator(peer); while (child_iter->iterate(child_iter, (void**)&child)) { if (streq(child->get_name(child), msg->del_conn.name)) { child_iter->remove(child_iter); child->destroy(child); } } child_iter->destroy(child_iter); } peer_iter->destroy(peer_iter); fprintf(out, "deleted connection '%s'\n", msg->del_conn.name); } /** * get the child_cfg with the same name as the peer cfg */ static child_cfg_t* get_child_from_peer(peer_cfg_t *peer_cfg, char *name) { child_cfg_t *current, *found = NULL; iterator_t *iterator; iterator = peer_cfg->create_child_cfg_iterator(peer_cfg); while (iterator->iterate(iterator, (void**)¤t)) { if (streq(current->get_name(current), name)) { found = current; found->get_ref(found); break; } } iterator->destroy(iterator); return found; } /** * logging to the stroke interface */ static bool stroke_log(stroke_log_info_t *info, signal_t signal, level_t level, ike_sa_t *ike_sa, char *format, va_list args) { if (level <= info->level) { if (vfprintf(info->out, format, args) < 0 || fprintf(info->out, "\n") < 0 || fflush(info->out) != 0) { return FALSE; } } return TRUE; } /** * initiate a connection by name */ static void stroke_initiate(stroke_msg_t *msg, FILE *out) { peer_cfg_t *peer_cfg; child_cfg_t *child_cfg; stroke_log_info_t info; pop_string(msg, &(msg->initiate.name)); DBG1(DBG_CFG, "received stroke: initiate '%s'", msg->initiate.name); peer_cfg = charon->backends->get_peer_cfg_by_name(charon->backends, msg->initiate.name); if (peer_cfg == NULL) { fprintf(out, "no config named '%s'\n", msg->initiate.name); return; } if (peer_cfg->get_ike_version(peer_cfg) != 2) { DBG1(DBG_CFG, "ignoring initiation request for IKEv%d config", peer_cfg->get_ike_version(peer_cfg)); peer_cfg->destroy(peer_cfg); return; } child_cfg = get_child_from_peer(peer_cfg, msg->initiate.name); if (child_cfg == NULL) { fprintf(out, "no child config named '%s'\n", msg->initiate.name); peer_cfg->destroy(peer_cfg); return; } if (msg->output_verbosity < 0) { charon->interfaces->initiate(charon->interfaces, peer_cfg, child_cfg, NULL, NULL); } else { info.out = out; info.level = msg->output_verbosity; charon->interfaces->initiate(charon->interfaces, peer_cfg, child_cfg, (interface_manager_cb_t)stroke_log, &info); } } /** * route a policy (install SPD entries) */ static void stroke_route(stroke_msg_t *msg, FILE *out) { peer_cfg_t *peer_cfg; child_cfg_t *child_cfg; stroke_log_info_t info; pop_string(msg, &(msg->route.name)); DBG1(DBG_CFG, "received stroke: route '%s'", msg->route.name); peer_cfg = charon->backends->get_peer_cfg_by_name(charon->backends, msg->route.name); if (peer_cfg == NULL) { fprintf(out, "no config named '%s'\n", msg->route.name); return; } if (peer_cfg->get_ike_version(peer_cfg) != 2) { peer_cfg->destroy(peer_cfg); return; } child_cfg = get_child_from_peer(peer_cfg, msg->route.name); if (child_cfg == NULL) { fprintf(out, "no child config named '%s'\n", msg->route.name); peer_cfg->destroy(peer_cfg); return; } info.out = out; info.level = msg->output_verbosity; charon->interfaces->route(charon->interfaces, peer_cfg, child_cfg, (interface_manager_cb_t)stroke_log, &info); peer_cfg->destroy(peer_cfg); child_cfg->destroy(child_cfg); } /** * unroute a policy */ static void stroke_unroute(stroke_msg_t *msg, FILE *out) { char *name; ike_sa_t *ike_sa; iterator_t *iterator; stroke_log_info_t info; pop_string(msg, &(msg->terminate.name)); name = msg->terminate.name; info.out = out; info.level = msg->output_verbosity; iterator = charon->interfaces->create_ike_sa_iterator(charon->interfaces); while (iterator->iterate(iterator, (void**)&ike_sa)) { child_sa_t *child_sa; iterator_t *children; u_int32_t id; children = ike_sa->create_child_sa_iterator(ike_sa); while (children->iterate(children, (void**)&child_sa)) { if (child_sa->get_state(child_sa) == CHILD_ROUTED && streq(name, child_sa->get_name(child_sa))) { id = child_sa->get_reqid(child_sa); children->destroy(children); iterator->destroy(iterator); charon->interfaces->unroute(charon->interfaces, id, (interface_manager_cb_t)stroke_log, &info); return; } } children->destroy(children); } iterator->destroy(iterator); DBG1(DBG_CFG, "no such SA found"); } /** * terminate a connection by name */ static void stroke_terminate(stroke_msg_t *msg, FILE *out) { char *string, *pos = NULL, *name = NULL; u_int32_t id = 0; bool child; int len; ike_sa_t *ike_sa; iterator_t *iterator; stroke_log_info_t info; pop_string(msg, &(msg->terminate.name)); string = msg->terminate.name; DBG1(DBG_CFG, "received stroke: terminate '%s'", string); len = strlen(string); if (len < 1) { DBG1(DBG_CFG, "error parsing string"); return; } switch (string[len-1]) { case '}': child = TRUE; pos = strchr(string, '{'); break; case ']': child = FALSE; pos = strchr(string, '['); break; default: name = string; child = FALSE; break; } if (name) { /* is a single name */ } else if (pos == string + len - 2) { /* is name[] or name{} */ string[len-2] = '\0'; name = string; } else { /* is name[123] or name{23} */ string[len-1] = '\0'; id = atoi(pos + 1); if (id == 0) { DBG1(DBG_CFG, "error parsing string"); return; } } info.out = out; info.level = msg->output_verbosity; iterator = charon->interfaces->create_ike_sa_iterator(charon->interfaces); while (iterator->iterate(iterator, (void**)&ike_sa)) { child_sa_t *child_sa; iterator_t *children; if (child) { children = ike_sa->create_child_sa_iterator(ike_sa); while (children->iterate(children, (void**)&child_sa)) { if ((name && streq(name, child_sa->get_name(child_sa))) || (id && id == child_sa->get_reqid(child_sa))) { id = child_sa->get_reqid(child_sa); children->destroy(children); iterator->destroy(iterator); charon->interfaces->terminate_child(charon->interfaces, id, (interface_manager_cb_t)stroke_log, &info); return; } } children->destroy(children); } else if ((name && streq(name, ike_sa->get_name(ike_sa))) || (id && id == ike_sa->get_unique_id(ike_sa))) { id = ike_sa->get_unique_id(ike_sa); /* unlock manager first */ iterator->destroy(iterator); charon->interfaces->terminate_ike(charon->interfaces, id, (interface_manager_cb_t)stroke_log, &info); return; } } iterator->destroy(iterator); DBG1(DBG_CFG, "no such SA found"); } /** * Add a ca information record to the cainfo list */ static void stroke_add_ca(stroke_msg_t *msg, FILE *out) { x509_t *cacert; ca_info_t *ca_info; pop_string(msg, &msg->add_ca.name); pop_string(msg, &msg->add_ca.cacert); pop_string(msg, &msg->add_ca.crluri); pop_string(msg, &msg->add_ca.crluri2); pop_string(msg, &msg->add_ca.ocspuri); pop_string(msg, &msg->add_ca.ocspuri2); DBG1(DBG_CFG, "received stroke: add ca '%s'", msg->add_ca.name); DBG2(DBG_CFG, "ca %s", msg->add_ca.name); DBG2(DBG_CFG, " cacert=%s", msg->add_ca.cacert); DBG2(DBG_CFG, " crluri=%s", msg->add_ca.crluri); DBG2(DBG_CFG, " crluri2=%s", msg->add_ca.crluri2); DBG2(DBG_CFG, " ocspuri=%s", msg->add_ca.ocspuri); DBG2(DBG_CFG, " ocspuri2=%s", msg->add_ca.ocspuri2); if (msg->add_ca.cacert == NULL) { DBG1(DBG_CFG, "missing cacert parameter\n"); return; } cacert = load_ca_certificate(msg->add_ca.cacert); if (cacert == NULL) { return; } ca_info = ca_info_create(msg->add_ca.name, cacert); if (msg->add_ca.crluri) { chunk_t uri = { msg->add_ca.crluri, strlen(msg->add_ca.crluri) }; ca_info->add_crluri(ca_info, uri); } if (msg->add_ca.crluri2) { chunk_t uri = { msg->add_ca.crluri2, strlen(msg->add_ca.crluri2) }; ca_info->add_crluri(ca_info, uri); } if (msg->add_ca.ocspuri) { chunk_t uri = { msg->add_ca.ocspuri, strlen(msg->add_ca.ocspuri) }; ca_info->add_ocspuri(ca_info, uri); } if (msg->add_ca.ocspuri2) { chunk_t uri = { msg->add_ca.ocspuri2, strlen(msg->add_ca.ocspuri2) }; ca_info->add_ocspuri(ca_info, uri); } charon->credentials->add_ca_info(charon->credentials, ca_info); DBG1(DBG_CFG, "added ca '%s'", msg->add_ca.name); } /** * Delete a ca information record from the cainfo list */ static void stroke_del_ca(stroke_msg_t *msg, FILE *out) { status_t status; pop_string(msg, &(msg->del_ca.name)); DBG1(DBG_CFG, "received stroke: delete ca '%s'", msg->del_ca.name); status = charon->credentials->release_ca_info(charon->credentials, msg->del_ca.name); if (status == SUCCESS) { fprintf(out, "deleted ca '%s'\n", msg->del_ca.name); } else { fprintf(out, "no ca named '%s'\n", msg->del_ca.name); } } /** * log an IKE_SA to out */ static void log_ike_sa(FILE *out, ike_sa_t *ike_sa, bool all) { ike_sa_id_t *id = ike_sa->get_id(ike_sa); u_int32_t rekey, reauth; fprintf(out, "%12s[%d]: %N, %H[%D]...%H[%D]\n", ike_sa->get_name(ike_sa), ike_sa->get_unique_id(ike_sa), ike_sa_state_names, ike_sa->get_state(ike_sa), ike_sa->get_my_host(ike_sa), ike_sa->get_my_id(ike_sa), ike_sa->get_other_host(ike_sa), ike_sa->get_other_id(ike_sa)); if (all) { fprintf(out, "%12s[%d]: IKE SPIs: %.16llx_i%s %.16llx_r%s", ike_sa->get_name(ike_sa), ike_sa->get_unique_id(ike_sa), id->get_initiator_spi(id), id->is_initiator(id) ? "*" : "", id->get_responder_spi(id), id->is_initiator(id) ? "" : "*"); rekey = ike_sa->get_statistic(ike_sa, STAT_REKEY_TIME); reauth = ike_sa->get_statistic(ike_sa, STAT_REAUTH_TIME); if (rekey) { fprintf(out, ", rekeying in %V", &rekey); } if (reauth) { fprintf(out, ", reauthentication in %V", &reauth); } if (!rekey && !reauth) { fprintf(out, ", rekeying disabled"); } fprintf(out, "\n"); } } /** * log an CHILD_SA to out */ static void log_child_sa(FILE *out, child_sa_t *child_sa, bool all) { u_int32_t rekey, now = time(NULL); u_int32_t use_in, use_out, use_fwd; encryption_algorithm_t encr_alg; integrity_algorithm_t int_alg; size_t encr_len, int_len; mode_t mode; child_sa->get_stats(child_sa, &mode, &encr_alg, &encr_len, &int_alg, &int_len, &rekey, &use_in, &use_out, &use_fwd); fprintf(out, "%12s{%d}: %N, %N", child_sa->get_name(child_sa), child_sa->get_reqid(child_sa), child_sa_state_names, child_sa->get_state(child_sa), mode_names, mode); if (child_sa->get_state(child_sa) == CHILD_INSTALLED) { fprintf(out, ", %N SPIs: %.8x_i %.8x_o", protocol_id_names, child_sa->get_protocol(child_sa), htonl(child_sa->get_spi(child_sa, TRUE)), htonl(child_sa->get_spi(child_sa, FALSE))); if (all) { fprintf(out, "\n%12s{%d}: ", child_sa->get_name(child_sa), child_sa->get_reqid(child_sa)); if (child_sa->get_protocol(child_sa) == PROTO_ESP) { fprintf(out, "%N", encryption_algorithm_names, encr_alg); if (encr_len) { fprintf(out, "-%d", encr_len); } fprintf(out, "/"); } fprintf(out, "%N", integrity_algorithm_names, int_alg); if (int_len) { fprintf(out, "-%d", int_len); } fprintf(out, ", rekeying "); if (rekey) { fprintf(out, "in %#V", &now, &rekey); } else { fprintf(out, "disabled"); } fprintf(out, ", last use: "); use_in = max(use_in, use_fwd); if (use_in) { fprintf(out, "%ds_i ", now - use_in); } else { fprintf(out, "no_i "); } if (use_out) { fprintf(out, "%ds_o ", now - use_out); } else { fprintf(out, "no_o "); } } } fprintf(out, "\n%12s{%d}: %#R=== %#R\n", child_sa->get_name(child_sa), child_sa->get_reqid(child_sa), child_sa->get_traffic_selectors(child_sa, TRUE), child_sa->get_traffic_selectors(child_sa, FALSE)); } /** * show status of daemon */ static void stroke_status(stroke_msg_t *msg, FILE *out, bool all) { iterator_t *iterator, *children; host_t *host; peer_cfg_t *peer_cfg; ike_cfg_t *ike_cfg; child_cfg_t *child_cfg; ike_sa_t *ike_sa; char *name = NULL; if (msg->status.name) { pop_string(msg, &(msg->status.name)); name = msg->status.name; } if (all) { leak_detective_status(out); fprintf(out, "Performance:\n"); fprintf(out, " worker threads: %d idle of %d,", charon->processor->get_idle_threads(charon->processor), charon->processor->get_total_threads(charon->processor)); fprintf(out, " job queue load: %d,", charon->processor->get_job_load(charon->processor)); fprintf(out, " scheduled events: %d\n", charon->scheduler->get_job_load(charon->scheduler)); iterator = charon->kernel_interface->create_address_iterator( charon->kernel_interface); fprintf(out, "Listening IP addresses:\n"); while (iterator->iterate(iterator, (void**)&host)) { fprintf(out, " %H\n", host); } iterator->destroy(iterator); fprintf(out, "Connections:\n"); iterator = charon->backends->create_iterator(charon->backends); while (iterator->iterate(iterator, (void**)&peer_cfg)) { if (peer_cfg->get_ike_version(peer_cfg) != 2 || (name && !streq(name, peer_cfg->get_name(peer_cfg)))) { continue; } ike_cfg = peer_cfg->get_ike_cfg(peer_cfg); fprintf(out, "%12s: %H[%D]...%H[%D]\n", peer_cfg->get_name(peer_cfg), ike_cfg->get_my_host(ike_cfg), peer_cfg->get_my_id(peer_cfg), ike_cfg->get_other_host(ike_cfg), peer_cfg->get_other_id(peer_cfg)); { identification_t *my_ca = peer_cfg->get_my_ca(peer_cfg); identification_t *other_ca = peer_cfg->get_other_ca(peer_cfg); linked_list_t *groups = peer_cfg->get_groups(peer_cfg); if (my_ca->get_type(my_ca) != ID_ANY || other_ca->get_type(other_ca) != ID_ANY) { fprintf(out, "%12s: CAs: '%D'...'%D'\n", peer_cfg->get_name(peer_cfg), my_ca, other_ca); } if (groups->get_count(groups) > 0) { fprintf(out, "%12s: groups: ", peer_cfg->get_name(peer_cfg)); ietfAttr_list_list(groups, out); fprintf(out, "\n"); } } children = peer_cfg->create_child_cfg_iterator(peer_cfg); while (children->iterate(children, (void**)&child_cfg)) { linked_list_t *my_ts, *other_ts; my_ts = child_cfg->get_traffic_selectors(child_cfg, TRUE, NULL, NULL); other_ts = child_cfg->get_traffic_selectors(child_cfg, FALSE, NULL, NULL); fprintf(out, "%12s: %#R=== %#R\n", child_cfg->get_name(child_cfg), my_ts, other_ts); my_ts->destroy_offset(my_ts, offsetof(traffic_selector_t, destroy)); other_ts->destroy_offset(other_ts, offsetof(traffic_selector_t, destroy)); } children->destroy(children); } iterator->destroy(iterator); } iterator = charon->ike_sa_manager->create_iterator(charon->ike_sa_manager); if (all && iterator->get_count(iterator) > 0) { fprintf(out, "Security Associations:\n"); } while (iterator->iterate(iterator, (void**)&ike_sa)) { bool ike_printed = FALSE; child_sa_t *child_sa; iterator_t *children = ike_sa->create_child_sa_iterator(ike_sa); if (name == NULL || streq(name, ike_sa->get_name(ike_sa))) { log_ike_sa(out, ike_sa, all); ike_printed = TRUE; } while (children->iterate(children, (void**)&child_sa)) { if (name == NULL || streq(name, child_sa->get_name(child_sa))) { if (!ike_printed) { log_ike_sa(out, ike_sa, all); ike_printed = TRUE; } log_child_sa(out, child_sa, all); } } children->destroy(children); } iterator->destroy(iterator); } /** * list all authority certificates matching a specified flag */ static void list_auth_certificates(u_int flag, const char *label, bool utc, FILE *out) { bool first = TRUE; x509_t *cert; iterator_t *iterator = charon->credentials->create_auth_cert_iterator(charon->credentials); while (iterator->iterate(iterator, (void**)&cert)) { if (cert->has_authority_flag(cert, flag)) { if (first) { fprintf(out, "\n"); fprintf(out, "List of X.509 %s Certificates:\n", label); fprintf(out, "\n"); first = FALSE; } cert->list(cert, out, utc); fprintf(out, "\n"); } } iterator->destroy(iterator); } /** * list various information */ static void stroke_list(stroke_msg_t *msg, FILE *out) { iterator_t *iterator; if (msg->list.flags & LIST_CERTS) { x509_t *cert; iterator = charon->credentials->create_cert_iterator(charon->credentials); if (iterator->get_count(iterator)) { fprintf(out, "\n"); fprintf(out, "List of X.509 End Entity Certificates:\n"); fprintf(out, "\n"); } while (iterator->iterate(iterator, (void**)&cert)) { cert->list(cert, out, msg->list.utc); if (charon->credentials->has_rsa_private_key( charon->credentials, cert->get_public_key(cert))) { fprintf(out, ", has private key"); } fprintf(out, "\n"); } iterator->destroy(iterator); } if (msg->list.flags & LIST_CACERTS) { list_auth_certificates(AUTH_CA, "CA", msg->list.utc, out); } if (msg->list.flags & LIST_OCSPCERTS) { list_auth_certificates(AUTH_OCSP, "OCSP", msg->list.utc, out); } if (msg->list.flags & LIST_AACERTS) { list_auth_certificates(AUTH_AA, "AA", msg->list.utc, out); } if (msg->list.flags & LIST_ACERTS) { x509ac_t *cert; iterator = charon->credentials->create_acert_iterator(charon->credentials); if (iterator->get_count(iterator)) { fprintf(out, "\n"); fprintf(out, "List of X.509 Attribute Certificates:\n"); fprintf(out, "\n"); } while (iterator->iterate(iterator, (void**)&cert)) { cert->list(cert, out, msg->list.utc); } iterator->destroy(iterator); } if (msg->list.flags & LIST_CAINFOS) { ca_info_t *ca_info; bool first = TRUE; iterator = charon->credentials->create_cainfo_iterator(charon->credentials); while (iterator->iterate(iterator, (void**)&ca_info)) { if (ca_info->is_ca(ca_info)) { if (first) { fprintf(out, "\n"); fprintf(out, "List of X.509 CA Information Records:\n"); fprintf(out, "\n"); first = FALSE; } ca_info->list(ca_info, out, msg->list.utc); } } iterator->destroy(iterator); } if (msg->list.flags & LIST_CRLS) { ca_info_t *ca_info; bool first = TRUE; iterator = charon->credentials->create_cainfo_iterator(charon->credentials); while (iterator->iterate(iterator, (void **)&ca_info)) { if (ca_info->is_ca(ca_info) && ca_info->has_crl(ca_info)) { if (first) { fprintf(out, "\n"); fprintf(out, "List of X.509 CRLs:\n"); fprintf(out, "\n"); first = FALSE; } ca_info->list_crl(ca_info, out, msg->list.utc); } } iterator->destroy(iterator); } if (msg->list.flags & LIST_OCSP) { ca_info_t *ca_info; bool first = TRUE; iterator = charon->credentials->create_cainfo_iterator(charon->credentials); while (iterator->iterate(iterator, (void **)&ca_info)) { if (ca_info->is_ca(ca_info) && ca_info->has_certinfos(ca_info)) { if (first) { fprintf(out, "\n"); fprintf(out, "List of OCSP responses:\n"); first = FALSE; } fprintf(out, "\n"); ca_info->list_certinfos(ca_info, out, msg->list.utc); } } iterator->destroy(iterator); } } /** * reread various information */ static void stroke_reread(stroke_msg_t *msg, FILE *out) { if (msg->reread.flags & REREAD_SECRETS) { charon->credentials->load_secrets(charon->credentials, TRUE); } if (msg->reread.flags & REREAD_CACERTS) { charon->credentials->load_ca_certificates(charon->credentials); } if (msg->reread.flags & REREAD_OCSPCERTS) { charon->credentials->load_ocsp_certificates(charon->credentials); } if (msg->reread.flags & REREAD_AACERTS) { charon->credentials->load_aa_certificates(charon->credentials); } if (msg->reread.flags & REREAD_ACERTS) { charon->credentials->load_attr_certificates(charon->credentials); } if (msg->reread.flags & REREAD_CRLS) { charon->credentials->load_crls(charon->credentials); } } /** * purge various information */ static void stroke_purge(stroke_msg_t *msg, FILE *out) { if (msg->purge.flags & PURGE_OCSP) { iterator_t *iterator = charon->credentials->create_cainfo_iterator(charon->credentials); ca_info_t *ca_info; while (iterator->iterate(iterator, (void**)&ca_info)) { if (ca_info->is_ca(ca_info)) { ca_info->purge_ocsp(ca_info); } } iterator->destroy(iterator); } } signal_t get_signal_from_logtype(char *type) { if (strcasecmp(type, "any") == 0) return SIG_ANY; else if (strcasecmp(type, "mgr") == 0) return DBG_MGR; else if (strcasecmp(type, "ike") == 0) return DBG_IKE; else if (strcasecmp(type, "chd") == 0) return DBG_CHD; else if (strcasecmp(type, "job") == 0) return DBG_JOB; else if (strcasecmp(type, "cfg") == 0) return DBG_CFG; else if (strcasecmp(type, "knl") == 0) return DBG_KNL; else if (strcasecmp(type, "net") == 0) return DBG_NET; else if (strcasecmp(type, "enc") == 0) return DBG_ENC; else if (strcasecmp(type, "lib") == 0) return DBG_LIB; else return -1; } /** * set the verbosity debug output */ static void stroke_loglevel(stroke_msg_t *msg, FILE *out) { signal_t signal; pop_string(msg, &(msg->loglevel.type)); DBG1(DBG_CFG, "received stroke: loglevel %d for %s", msg->loglevel.level, msg->loglevel.type); signal = get_signal_from_logtype(msg->loglevel.type); if (signal < 0) { fprintf(out, "invalid type (%s)!\n", msg->loglevel.type); return; } charon->outlog->set_level(charon->outlog, signal, msg->loglevel.level); charon->syslog->set_level(charon->syslog, signal, msg->loglevel.level); } /** * process a stroke request from the socket pointed by "fd" */ static job_requeue_t stroke_process(int *fdp) { stroke_msg_t *msg; u_int16_t msg_length; ssize_t bytes_read; FILE *out; int strokefd = *fdp; /* peek the length */ bytes_read = recv(strokefd, &msg_length, sizeof(msg_length), MSG_PEEK); if (bytes_read != sizeof(msg_length)) { DBG1(DBG_CFG, "reading length of stroke message failed: %s", strerror(errno)); close(strokefd); return JOB_REQUEUE_NONE; } /* read message */ msg = malloc(msg_length); bytes_read = recv(strokefd, msg, msg_length, 0); if (bytes_read != msg_length) { DBG1(DBG_CFG, "reading stroke message failed: %s", strerror(errno)); close(strokefd); return JOB_REQUEUE_NONE; } out = fdopen(strokefd, "w"); if (out == NULL) { DBG1(DBG_CFG, "opening stroke output channel failed: %s", strerror(errno)); close(strokefd); free(msg); return JOB_REQUEUE_NONE; } DBG3(DBG_CFG, "stroke message %b", (void*)msg, msg_length); /* the stroke_* functions are blocking, as they listen on the bus. Add * cancellation handlers. */ pthread_cleanup_push((void*)fclose, out); pthread_cleanup_push(free, msg); switch (msg->type) { case STR_INITIATE: stroke_initiate(msg, out); break; case STR_ROUTE: stroke_route(msg, out); break; case STR_UNROUTE: stroke_unroute(msg, out); break; case STR_TERMINATE: stroke_terminate(msg, out); break; case STR_STATUS: stroke_status(msg, out, FALSE); break; case STR_STATUS_ALL: stroke_status(msg, out, TRUE); break; case STR_ADD_CONN: stroke_add_conn(msg, out); break; case STR_DEL_CONN: stroke_del_conn(msg, out); break; case STR_ADD_CA: stroke_add_ca(msg, out); break; case STR_DEL_CA: stroke_del_ca(msg, out); break; case STR_LOGLEVEL: stroke_loglevel(msg, out); break; case STR_LIST: stroke_list(msg, out); break; case STR_REREAD: stroke_reread(msg, out); break; case STR_PURGE: stroke_purge(msg, out); break; default: DBG1(DBG_CFG, "received unknown stroke"); } /* remove and execute cancellation handlers */ pthread_cleanup_pop(1); pthread_cleanup_pop(1); return JOB_REQUEUE_NONE; } /** * Implementation of private_stroke_interface_t.stroke_receive. */ static job_requeue_t stroke_receive(private_stroke_interface_t *this) { struct sockaddr_un strokeaddr; int strokeaddrlen = sizeof(strokeaddr); int strokefd, *fdp; int oldstate; callback_job_t *job; pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, &oldstate); strokefd = accept(this->socket, (struct sockaddr *)&strokeaddr, &strokeaddrlen); pthread_setcancelstate(oldstate, NULL); if (strokefd < 0) { DBG1(DBG_CFG, "accepting stroke connection failed: %s", strerror(errno)); return JOB_REQUEUE_FAIR; } fdp = malloc_thing(int); *fdp = strokefd; job = callback_job_create((callback_job_cb_t)stroke_process, fdp, free, this->job); charon->processor->queue_job(charon->processor, (job_t*)job); return JOB_REQUEUE_FAIR; } /** * Implementation of interface_t.destroy. */ static void destroy(private_stroke_interface_t *this) { this->job->cancel(this->job); free(this); } /* * Described in header-file */ interface_t *interface_create() { struct sockaddr_un socket_addr = { AF_UNIX, STROKE_SOCKET}; private_stroke_interface_t *this = malloc_thing(private_stroke_interface_t); mode_t old; /* public functions */ this->public.interface.destroy = (void (*)(interface_t*))destroy; /* set up unix socket */ this->socket = socket(AF_UNIX, SOCK_STREAM, 0); if (this->socket == -1) { DBG1(DBG_CFG, "could not create stroke socket"); free(this); return NULL; } unlink(socket_addr.sun_path); old = umask(~(S_IRWXU | S_IRWXG)); if (bind(this->socket, (struct sockaddr *)&socket_addr, sizeof(socket_addr)) < 0) { DBG1(DBG_CFG, "could not bind stroke socket: %s", strerror(errno)); close(this->socket); free(this); return NULL; } umask(old); if (chown(socket_addr.sun_path, IPSEC_UID, IPSEC_GID) != 0) { DBG1(DBG_CFG, "changing stroke socket permissions failed: %s", strerror(errno)); } if (listen(this->socket, 0) < 0) { DBG1(DBG_CFG, "could not listen on stroke socket: %s", strerror(errno)); close(this->socket); unlink(socket_addr.sun_path); free(this); return NULL; } this->job = callback_job_create((callback_job_cb_t)stroke_receive, this, NULL, NULL); charon->processor->queue_job(charon->processor, (job_t*)this->job); return &this->public.interface; }