/* * Copyright (C) 2007-2008 Tobias Brunner * Copyright (C) 2005-2009 Martin Willi * Copyright (C) 2005 Jan Hutter * 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 "peer_cfg.h" #include #include #include #include ENUM(cert_policy_names, CERT_ALWAYS_SEND, CERT_NEVER_SEND, "CERT_ALWAYS_SEND", "CERT_SEND_IF_ASKED", "CERT_NEVER_SEND", ); ENUM(unique_policy_names, UNIQUE_NO, UNIQUE_KEEP, "UNIQUE_NO", "UNIQUE_REPLACE", "UNIQUE_KEEP", ); typedef struct private_peer_cfg_t private_peer_cfg_t; /** * Private data of an peer_cfg_t object */ struct private_peer_cfg_t { /** * Public part */ peer_cfg_t public; /** * Number of references hold by others to this peer_cfg */ refcount_t refcount; /** * Name of the peer_cfg, used to query it */ char *name; /** * IKE version to use for initiation */ u_int ike_version; /** * IKE config associated to this peer config */ ike_cfg_t *ike_cfg; /** * list of child configs associated to this peer config */ linked_list_t *child_cfgs; /** * mutex to lock access to list of child_cfgs */ mutex_t *mutex; /** * should we send a certificate */ cert_policy_t cert_policy; /** * uniqueness of an IKE_SA */ unique_policy_t unique; /** * number of tries after giving up if peer does not respond */ u_int32_t keyingtries; /** * enable support for MOBIKE */ bool use_mobike; /** * Time before starting rekeying */ u_int32_t rekey_time; /** * Time before starting reauthentication */ u_int32_t reauth_time; /** * Time, which specifies the range of a random value substracted from above. */ u_int32_t jitter_time; /** * Delay before deleting a rekeying/reauthenticating SA */ u_int32_t over_time; /** * DPD check intervall */ u_int32_t dpd; /** * virtual IP to use locally */ host_t *virtual_ip; /** * pool to acquire configuration attributes from */ char *pool; /** * local authentication configs (rulesets) */ linked_list_t *local_auth; /** * remote authentication configs (constraints) */ linked_list_t *remote_auth; #ifdef ME /** * Is this a mediation connection? */ bool mediation; /** * Name of the mediation connection to mediate through */ peer_cfg_t *mediated_by; /** * ID of our peer at the mediation server (= leftid of the peer's conn with * the mediation server) */ identification_t *peer_id; #endif /* ME */ }; /** * Implementation of peer_cfg_t.get_name */ static char *get_name(private_peer_cfg_t *this) { return this->name; } /** * Implementation of peer_cfg_t.get_ike_version */ static u_int get_ike_version(private_peer_cfg_t *this) { return this->ike_version; } /** * Implementation of peer_cfg_t.get_ike_cfg */ static ike_cfg_t* get_ike_cfg(private_peer_cfg_t *this) { return this->ike_cfg; } /** * Implementation of peer_cfg_t.add_child_cfg. */ static void add_child_cfg(private_peer_cfg_t *this, child_cfg_t *child_cfg) { this->mutex->lock(this->mutex); this->child_cfgs->insert_last(this->child_cfgs, child_cfg); this->mutex->unlock(this->mutex); } /** * child_cfg enumerator */ typedef struct { enumerator_t public; enumerator_t *wrapped; mutex_t *mutex; } child_cfg_enumerator_t; /** * Implementation of peer_cfg_t.remove_child_cfg. */ static void remove_child_cfg(private_peer_cfg_t *this, child_cfg_enumerator_t *enumerator) { this->child_cfgs->remove_at(this->child_cfgs, enumerator->wrapped); } /** * Implementation of child_cfg_enumerator_t.destroy */ static void child_cfg_enumerator_destroy(child_cfg_enumerator_t *this) { this->mutex->unlock(this->mutex); this->wrapped->destroy(this->wrapped); free(this); } /** * Implementation of child_cfg_enumerator_t.enumerate */ static bool child_cfg_enumerate(child_cfg_enumerator_t *this, child_cfg_t **chd) { return this->wrapped->enumerate(this->wrapped, chd); } /** * Implementation of peer_cfg_t.create_child_cfg_enumerator. */ static enumerator_t* create_child_cfg_enumerator(private_peer_cfg_t *this) { child_cfg_enumerator_t *enumerator = malloc_thing(child_cfg_enumerator_t); enumerator->public.enumerate = (void*)child_cfg_enumerate; enumerator->public.destroy = (void*)child_cfg_enumerator_destroy; enumerator->mutex = this->mutex; enumerator->wrapped = this->child_cfgs->create_enumerator(this->child_cfgs); this->mutex->lock(this->mutex); return &enumerator->public; } /** * Check if child_cfg contains traffic selectors */ static int contains_ts(child_cfg_t *child, bool mine, linked_list_t *ts, host_t *host) { linked_list_t *selected; int prio; if (child->equal_traffic_selectors(child, mine, ts, host)) { return 2; } selected = child->get_traffic_selectors(child, mine, ts, host); prio = selected->get_count(selected) ? 1 : 0; selected->destroy_offset(selected, offsetof(traffic_selector_t, destroy)); return prio; } /** * Implementation of peer_cfg_t.select_child_cfg */ static child_cfg_t* select_child_cfg(private_peer_cfg_t *this, linked_list_t *my_ts, linked_list_t *other_ts, host_t *my_host, host_t *other_host) { child_cfg_t *current, *found = NULL; enumerator_t *enumerator; int best = 0; DBG2(DBG_CFG, "looking for a child config for %#R=== %#R", my_ts, other_ts); enumerator = create_child_cfg_enumerator(this); while (enumerator->enumerate(enumerator, ¤t)) { int prio = contains_ts(current, TRUE, my_ts, my_host) + contains_ts(current, FALSE, other_ts, other_host); if (prio) { DBG2(DBG_CFG, " candidate \"%s\" with prio %d", current->get_name(current), prio); if (prio > best) { best = prio; DESTROY_IF(found); found = current->get_ref(current); } } } enumerator->destroy(enumerator); if (found) { DBG2(DBG_CFG, "found matching child config \"%s\" with prio %d", found->get_name(found), best); } return found; } /** * Implementation of peer_cfg_t.get_cert_policy. */ static cert_policy_t get_cert_policy(private_peer_cfg_t *this) { return this->cert_policy; } /** * Implementation of peer_cfg_t.get_unique_policy. */ static unique_policy_t get_unique_policy(private_peer_cfg_t *this) { return this->unique; } /** * Implementation of peer_cfg_t.get_keyingtries. */ static u_int32_t get_keyingtries(private_peer_cfg_t *this) { return this->keyingtries; } /** * Implementation of peer_cfg_t.get_rekey_time. */ static u_int32_t get_rekey_time(private_peer_cfg_t *this) { if (this->rekey_time == 0) { return 0; } if (this->jitter_time == 0) { return this->rekey_time; } return this->rekey_time - (random() % this->jitter_time); } /** * Implementation of peer_cfg_t.get_reauth_time. */ static u_int32_t get_reauth_time(private_peer_cfg_t *this) { if (this->reauth_time == 0) { return 0; } if (this->jitter_time == 0) { return this->reauth_time; } return this->reauth_time - (random() % this->jitter_time); } /** * Implementation of peer_cfg_t.get_over_time. */ static u_int32_t get_over_time(private_peer_cfg_t *this) { return this->over_time; } /** * Implementation of peer_cfg_t.use_mobike. */ static bool use_mobike(private_peer_cfg_t *this) { return this->use_mobike; } /** * Implements peer_cfg_t.get_dpd */ static u_int32_t get_dpd(private_peer_cfg_t *this) { return this->dpd; } /** * Implementation of peer_cfg_t.get_virtual_ip. */ static host_t* get_virtual_ip(private_peer_cfg_t *this) { return this->virtual_ip; } /** * Implementation of peer_cfg_t.get_pool. */ static char* get_pool(private_peer_cfg_t *this) { return this->pool; } /** * Implementation of peer_cfg_t.add_auth_cfg */ static void add_auth_cfg(private_peer_cfg_t *this, auth_cfg_t *cfg, bool local) { if (local) { this->local_auth->insert_last(this->local_auth, cfg); } else { this->remote_auth->insert_last(this->remote_auth, cfg); } } /** * Implementation of peer_cfg_t.create_auth_cfg_enumerator */ static enumerator_t* create_auth_cfg_enumerator(private_peer_cfg_t *this, bool local) { if (local) { return this->local_auth->create_enumerator(this->local_auth); } return this->remote_auth->create_enumerator(this->remote_auth); } #ifdef ME /** * Implementation of peer_cfg_t.is_mediation. */ static bool is_mediation(private_peer_cfg_t *this) { return this->mediation; } /** * Implementation of peer_cfg_t.get_mediated_by. */ static peer_cfg_t* get_mediated_by(private_peer_cfg_t *this) { return this->mediated_by; } /** * Implementation of peer_cfg_t.get_peer_id. */ static identification_t* get_peer_id(private_peer_cfg_t *this) { return this->peer_id; } #endif /* ME */ /** * check auth configs for equality */ static bool auth_cfg_equal(private_peer_cfg_t *this, private_peer_cfg_t *other) { enumerator_t *e1, *e2; auth_cfg_t *cfg1, *cfg2; bool equal = TRUE; if (this->local_auth->get_count(this->local_auth) != other->local_auth->get_count(other->local_auth)) { return FALSE; } if (this->remote_auth->get_count(this->remote_auth) != other->remote_auth->get_count(other->remote_auth)) { return FALSE; } e1 = this->local_auth->create_enumerator(this->local_auth); e2 = other->local_auth->create_enumerator(other->local_auth); while (e1->enumerate(e1, &cfg1) && e2->enumerate(e2, &cfg2)) { if (!cfg1->equals(cfg1, cfg2)) { equal = FALSE; break; } } e1->destroy(e1); e2->destroy(e2); if (!equal) { return FALSE; } e1 = this->remote_auth->create_enumerator(this->remote_auth); e2 = other->remote_auth->create_enumerator(other->remote_auth); while (e1->enumerate(e1, &cfg1) && e2->enumerate(e2, &cfg2)) { if (!cfg1->equals(cfg1, cfg2)) { equal = FALSE; break; } } e1->destroy(e1); e2->destroy(e2); return equal; } /** * Implementation of peer_cfg_t.equals. */ static bool equals(private_peer_cfg_t *this, private_peer_cfg_t *other) { if (this == other) { return TRUE; } if (this->public.equals != other->public.equals) { return FALSE; } return ( this->ike_version == other->ike_version && this->cert_policy == other->cert_policy && this->unique == other->unique && this->keyingtries == other->keyingtries && this->use_mobike == other->use_mobike && this->rekey_time == other->rekey_time && this->reauth_time == other->reauth_time && this->jitter_time == other->jitter_time && this->over_time == other->over_time && this->dpd == other->dpd && (this->virtual_ip == other->virtual_ip || (this->virtual_ip && other->virtual_ip && this->virtual_ip->equals(this->virtual_ip, other->virtual_ip))) && (this->pool == other->pool || (this->pool && other->pool && streq(this->pool, other->pool))) && auth_cfg_equal(this, other) #ifdef ME && this->mediation == other->mediation && this->mediated_by == other->mediated_by && (this->peer_id == other->peer_id || (this->peer_id && other->peer_id && this->peer_id->equals(this->peer_id, other->peer_id))) #endif /* ME */ ); } /** * Implements peer_cfg_t.get_ref. */ static peer_cfg_t* get_ref(private_peer_cfg_t *this) { ref_get(&this->refcount); return &this->public; } /** * Implements peer_cfg_t.destroy. */ static void destroy(private_peer_cfg_t *this) { if (ref_put(&this->refcount)) { this->ike_cfg->destroy(this->ike_cfg); this->child_cfgs->destroy_offset(this->child_cfgs, offsetof(child_cfg_t, destroy)); DESTROY_IF(this->virtual_ip); this->local_auth->destroy_offset(this->local_auth, offsetof(auth_cfg_t, destroy)); this->remote_auth->destroy_offset(this->remote_auth, offsetof(auth_cfg_t, destroy)); #ifdef ME DESTROY_IF(this->mediated_by); DESTROY_IF(this->peer_id); #endif /* ME */ this->mutex->destroy(this->mutex); free(this->name); free(this->pool); free(this); } } /* * Described in header-file */ peer_cfg_t *peer_cfg_create(char *name, u_int ike_version, ike_cfg_t *ike_cfg, cert_policy_t cert_policy, unique_policy_t unique, u_int32_t keyingtries, u_int32_t rekey_time, u_int32_t reauth_time, u_int32_t jitter_time, u_int32_t over_time, bool mobike, u_int32_t dpd, host_t *virtual_ip, char *pool, bool mediation, peer_cfg_t *mediated_by, identification_t *peer_id) { private_peer_cfg_t *this = malloc_thing(private_peer_cfg_t); /* public functions */ this->public.get_name = (char* (*) (peer_cfg_t *))get_name; this->public.get_ike_version = (u_int(*) (peer_cfg_t *))get_ike_version; this->public.get_ike_cfg = (ike_cfg_t* (*) (peer_cfg_t *))get_ike_cfg; this->public.add_child_cfg = (void (*) (peer_cfg_t *, child_cfg_t*))add_child_cfg; this->public.remove_child_cfg = (void(*)(peer_cfg_t*, enumerator_t*))remove_child_cfg; this->public.create_child_cfg_enumerator = (enumerator_t* (*) (peer_cfg_t *))create_child_cfg_enumerator; this->public.select_child_cfg = (child_cfg_t* (*) (peer_cfg_t *,linked_list_t*,linked_list_t*,host_t*,host_t*))select_child_cfg; this->public.get_cert_policy = (cert_policy_t (*) (peer_cfg_t *))get_cert_policy; this->public.get_unique_policy = (unique_policy_t (*) (peer_cfg_t *))get_unique_policy; this->public.get_keyingtries = (u_int32_t (*) (peer_cfg_t *))get_keyingtries; this->public.get_rekey_time = (u_int32_t(*)(peer_cfg_t*))get_rekey_time; this->public.get_reauth_time = (u_int32_t(*)(peer_cfg_t*))get_reauth_time; this->public.get_over_time = (u_int32_t(*)(peer_cfg_t*))get_over_time; this->public.use_mobike = (bool (*) (peer_cfg_t *))use_mobike; this->public.get_dpd = (u_int32_t (*) (peer_cfg_t *))get_dpd; this->public.get_virtual_ip = (host_t* (*) (peer_cfg_t *))get_virtual_ip; this->public.get_pool = (char*(*)(peer_cfg_t*))get_pool; this->public.add_auth_cfg = (void(*)(peer_cfg_t*, auth_cfg_t *cfg, bool local))add_auth_cfg; this->public.create_auth_cfg_enumerator = (enumerator_t*(*)(peer_cfg_t*, bool local))create_auth_cfg_enumerator; this->public.equals = (bool(*)(peer_cfg_t*, peer_cfg_t *other))equals; this->public.get_ref = (peer_cfg_t*(*)(peer_cfg_t *))get_ref; this->public.destroy = (void(*)(peer_cfg_t *))destroy; #ifdef ME this->public.is_mediation = (bool (*) (peer_cfg_t *))is_mediation; this->public.get_mediated_by = (peer_cfg_t* (*) (peer_cfg_t *))get_mediated_by; this->public.get_peer_id = (identification_t* (*) (peer_cfg_t *))get_peer_id; #endif /* ME */ /* apply init values */ this->name = strdup(name); this->ike_version = ike_version; this->ike_cfg = ike_cfg; this->child_cfgs = linked_list_create(); this->mutex = mutex_create(MUTEX_DEFAULT); this->cert_policy = cert_policy; this->unique = unique; this->keyingtries = keyingtries; this->rekey_time = rekey_time; this->reauth_time = reauth_time; if (rekey_time && jitter_time > rekey_time) { jitter_time = rekey_time; } if (reauth_time && jitter_time > reauth_time) { jitter_time = reauth_time; } this->jitter_time = jitter_time; this->over_time = over_time; this->use_mobike = mobike; this->dpd = dpd; this->virtual_ip = virtual_ip; this->pool = pool ? strdup(pool) : NULL; this->local_auth = linked_list_create(); this->remote_auth = linked_list_create(); this->refcount = 1; #ifdef ME this->mediation = mediation; this->mediated_by = mediated_by; this->peer_id = peer_id; #else /* ME */ DESTROY_IF(mediated_by); DESTROY_IF(peer_id); #endif /* ME */ return &this->public; }