/* * Copyright (C) 2005-2007 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 "child_rekey.h" #include #include #include #include #include #include typedef struct private_child_rekey_t private_child_rekey_t; /** * Private members of a child_rekey_t task. */ struct private_child_rekey_t { /** * Public methods and task_t interface. */ child_rekey_t public; /** * Assigned IKE_SA. */ ike_sa_t *ike_sa; /** * Are we the initiator? */ bool initiator; /** * Protocol of CHILD_SA to rekey */ protocol_id_t protocol; /** * Inbound SPI of CHILD_SA to rekey */ u_int32_t spi; /** * the CHILD_CREATE task which is reused to simplify rekeying */ child_create_t *child_create; /** * the CHILD_DELETE task to delete rekeyed CHILD_SA */ child_delete_t *child_delete; /** * CHILD_SA which gets rekeyed */ child_sa_t *child_sa; /** * colliding task, may be delete or rekey */ task_t *collision; }; /** * Implementation of task_t.build for initiator, after rekeying */ static status_t build_i_delete(private_child_rekey_t *this, message_t *message) { /* update exchange type to INFORMATIONAL for the delete */ message->set_exchange_type(message, INFORMATIONAL); return this->child_delete->task.build(&this->child_delete->task, message); } /** * Implementation of task_t.process for initiator, after rekeying */ static status_t process_i_delete(private_child_rekey_t *this, message_t *message) { return this->child_delete->task.process(&this->child_delete->task, message); } /** * find a child using the REKEY_SA notify */ static void find_child(private_child_rekey_t *this, message_t *message) { enumerator_t *enumerator; payload_t *payload; enumerator = message->create_payload_enumerator(message); while (enumerator->enumerate(enumerator, &payload)) { notify_payload_t *notify; u_int32_t spi; protocol_id_t protocol; if (payload->get_type(payload) != NOTIFY) { continue; } notify = (notify_payload_t*)payload; protocol = notify->get_protocol_id(notify); spi = notify->get_spi(notify); if (protocol != PROTO_ESP && protocol != PROTO_AH) { continue; } this->child_sa = this->ike_sa->get_child_sa(this->ike_sa, protocol, spi, FALSE); break; } enumerator->destroy(enumerator); } /** * Implementation of task_t.build for initiator */ static status_t build_i(private_child_rekey_t *this, message_t *message) { notify_payload_t *notify; u_int32_t reqid; child_cfg_t *config; this->child_sa = this->ike_sa->get_child_sa(this->ike_sa, this->protocol, this->spi, TRUE); if (!this->child_sa) { /* CHILD_SA is gone, unable to rekey */ return SUCCESS; } config = this->child_sa->get_config(this->child_sa); /* we just need the rekey notify ... */ notify = notify_payload_create_from_protocol_and_type(this->protocol, REKEY_SA); notify->set_spi(notify, this->spi); message->add_payload(message, (payload_t*)notify); /* ... our CHILD_CREATE task does the hard work for us. */ reqid = this->child_sa->get_reqid(this->child_sa); this->child_create = child_create_create(this->ike_sa, config, TRUE, NULL, NULL); this->child_create->use_reqid(this->child_create, reqid); this->child_create->task.build(&this->child_create->task, message); this->child_sa->set_state(this->child_sa, CHILD_REKEYING); return NEED_MORE; } /** * Implementation of task_t.process for initiator */ static status_t process_r(private_child_rekey_t *this, message_t *message) { /* let the CHILD_CREATE task process the message */ this->child_create->task.process(&this->child_create->task, message); find_child(this, message); return NEED_MORE; } /** * Implementation of task_t.build for responder */ static status_t build_r(private_child_rekey_t *this, message_t *message) { u_int32_t reqid; if (this->child_sa == NULL || this->child_sa->get_state(this->child_sa) == CHILD_DELETING) { DBG1(DBG_IKE, "unable to rekey, CHILD_SA not found"); message->add_notify(message, TRUE, NO_PROPOSAL_CHOSEN, chunk_empty); return SUCCESS; } /* let the CHILD_CREATE task build the response */ reqid = this->child_sa->get_reqid(this->child_sa); this->child_create->use_reqid(this->child_create, reqid); this->child_create->task.build(&this->child_create->task, message); if (message->get_payload(message, SECURITY_ASSOCIATION) == NULL) { /* rekeying failed, reuse old child */ this->child_sa->set_state(this->child_sa, CHILD_INSTALLED); return SUCCESS; } this->child_sa->set_state(this->child_sa, CHILD_REKEYING); /* invoke rekey hook */ charon->bus->child_rekey(charon->bus, this->child_sa, this->child_create->get_child(this->child_create)); return SUCCESS; } /** * Implementation of task_t.process for initiator */ static status_t process_i(private_child_rekey_t *this, message_t *message) { protocol_id_t protocol; u_int32_t spi; child_sa_t *to_delete; enumerator_t *enumerator; payload_t *payload; /* handle NO_ADDITIONAL_SAS notify */ enumerator = message->create_payload_enumerator(message); while (enumerator->enumerate(enumerator, &payload)) { if (payload->get_type(payload) == NOTIFY) { notify_payload_t *notify = (notify_payload_t*)payload; if (notify->get_notify_type(notify) == NO_ADDITIONAL_SAS) { DBG1(DBG_IKE, "peer seems to not support CHILD_SA rekeying, " "starting reauthentication"); this->child_sa->set_state(this->child_sa, CHILD_INSTALLED); charon->processor->queue_job(charon->processor, (job_t*)rekey_ike_sa_job_create( this->ike_sa->get_id(this->ike_sa), TRUE)); enumerator->destroy(enumerator); return SUCCESS; } } } enumerator->destroy(enumerator); if (this->child_create->task.process(&this->child_create->task, message) == NEED_MORE) { /* bad DH group while rekeying, try again */ this->child_create->task.migrate(&this->child_create->task, this->ike_sa); return NEED_MORE; } if (message->get_payload(message, SECURITY_ASSOCIATION) == NULL) { /* establishing new child failed, reuse old. but not when we * recieved a delete in the meantime */ if (!(this->collision && this->collision->get_type(this->collision) == CHILD_DELETE)) { job_t *job; u_int32_t retry = RETRY_INTERVAL - (random() % RETRY_JITTER); job = (job_t*)rekey_child_sa_job_create( this->child_sa->get_reqid(this->child_sa), this->child_sa->get_protocol(this->child_sa), this->child_sa->get_spi(this->child_sa, TRUE)); DBG1(DBG_IKE, "CHILD_SA rekeying failed, " "trying again in %d seconds", retry); this->child_sa->set_state(this->child_sa, CHILD_INSTALLED); charon->scheduler->schedule_job(charon->scheduler, job, retry); } return SUCCESS; } to_delete = this->child_sa; /* check for rekey collisions */ if (this->collision && this->collision->get_type(this->collision) == CHILD_REKEY) { chunk_t this_nonce, other_nonce; private_child_rekey_t *other = (private_child_rekey_t*)this->collision; this_nonce = this->child_create->get_lower_nonce(this->child_create); other_nonce = other->child_create->get_lower_nonce(other->child_create); /* if we have the lower nonce, delete rekeyed SA. If not, delete * the redundant. */ if (memcmp(this_nonce.ptr, other_nonce.ptr, min(this_nonce.len, other_nonce.len)) < 0) { DBG1(DBG_IKE, "CHILD_SA rekey collision won, deleting rekeyed child"); } else { DBG1(DBG_IKE, "CHILD_SA rekey collision lost, deleting redundant child"); to_delete = this->child_create->get_child(this->child_create); if (to_delete == NULL) { /* ooops, should not happen, fallback */ to_delete = this->child_sa; } } } if (to_delete != this->child_create->get_child(this->child_create)) { /* invoke rekey hook if rekeying successful */ charon->bus->child_rekey(charon->bus, this->child_sa, this->child_create->get_child(this->child_create)); } spi = to_delete->get_spi(to_delete, TRUE); protocol = to_delete->get_protocol(to_delete); /* rekeying done, delete the obsolete CHILD_SA using a subtask */ this->child_delete = child_delete_create(this->ike_sa, protocol, spi); this->public.task.build = (status_t(*)(task_t*,message_t*))build_i_delete; this->public.task.process = (status_t(*)(task_t*,message_t*))process_i_delete; return NEED_MORE; } /** * Implementation of task_t.get_type */ static task_type_t get_type(private_child_rekey_t *this) { return CHILD_REKEY; } /** * Implementation of child_rekey_t.collide */ static void collide(private_child_rekey_t *this, task_t *other) { /* the task manager only detects exchange collision, but not if * the collision is for the same child. we check it here. */ if (other->get_type(other) == CHILD_REKEY) { private_child_rekey_t *rekey = (private_child_rekey_t*)other; if (rekey == NULL || rekey->child_sa != this->child_sa) { /* not the same child => no collision */ return; } } else if (other->get_type(other) == CHILD_DELETE) { child_delete_t *del = (child_delete_t*)other; if (del == NULL || del->get_child(del) != this->child_sa) { /* not the same child => no collision */ return; } } else { /* any other task is not critical for collisisions, ignore */ return; } DESTROY_IF(this->collision); this->collision = other; } /** * Implementation of task_t.migrate */ static void migrate(private_child_rekey_t *this, ike_sa_t *ike_sa) { if (this->child_create) { this->child_create->task.migrate(&this->child_create->task, ike_sa); } if (this->child_delete) { this->child_delete->task.migrate(&this->child_delete->task, ike_sa); } DESTROY_IF(this->collision); this->ike_sa = ike_sa; this->collision = NULL; } /** * Implementation of task_t.destroy */ static void destroy(private_child_rekey_t *this) { if (this->child_create) { this->child_create->task.destroy(&this->child_create->task); } if (this->child_delete) { this->child_delete->task.destroy(&this->child_delete->task); } DESTROY_IF(this->collision); free(this); } /* * Described in header. */ child_rekey_t *child_rekey_create(ike_sa_t *ike_sa, protocol_id_t protocol, u_int32_t spi) { private_child_rekey_t *this = malloc_thing(private_child_rekey_t); this->public.collide = (void (*)(child_rekey_t*,task_t*))collide; this->public.task.get_type = (task_type_t(*)(task_t*))get_type; this->public.task.migrate = (void(*)(task_t*,ike_sa_t*))migrate; this->public.task.destroy = (void(*)(task_t*))destroy; if (protocol != PROTO_NONE) { this->public.task.build = (status_t(*)(task_t*,message_t*))build_i; this->public.task.process = (status_t(*)(task_t*,message_t*))process_i; this->initiator = TRUE; this->child_create = NULL; } else { this->public.task.build = (status_t(*)(task_t*,message_t*))build_r; this->public.task.process = (status_t(*)(task_t*,message_t*))process_r; this->initiator = FALSE; this->child_create = child_create_create(ike_sa, NULL, TRUE, NULL, NULL); } this->ike_sa = ike_sa; this->child_sa = NULL; this->protocol = protocol; this->spi = spi; this->collision = NULL; this->child_delete = NULL; return &this->public; }