/* * 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 "child_delete.h" #include #include #include typedef struct private_child_delete_t private_child_delete_t; /** * Private members of a child_delete_t task. */ struct private_child_delete_t { /** * Public methods and task_t interface. */ child_delete_t public; /** * Assigned IKE_SA. */ ike_sa_t *ike_sa; /** * Are we the initiator? */ bool initiator; /** * Protocol of CHILD_SA to delete */ protocol_id_t protocol; /** * Inbound SPI of CHILD_SA to delete */ u_int32_t spi; /** * whether to enforce delete action policy */ bool check_delete_action; /** * is this delete exchange following a rekey? */ bool rekeyed; /** * CHILD_SA already expired? */ bool expired; /** * CHILD_SAs which get deleted */ linked_list_t *child_sas; }; /** * build the delete payloads from the listed child_sas */ static void build_payloads(private_child_delete_t *this, message_t *message) { delete_payload_t *ah = NULL, *esp = NULL; enumerator_t *enumerator; child_sa_t *child_sa; enumerator = this->child_sas->create_enumerator(this->child_sas); while (enumerator->enumerate(enumerator, (void**)&child_sa)) { protocol_id_t protocol = child_sa->get_protocol(child_sa); u_int32_t spi = child_sa->get_spi(child_sa, TRUE); switch (protocol) { case PROTO_ESP: if (esp == NULL) { esp = delete_payload_create(DELETE, PROTO_ESP); message->add_payload(message, (payload_t*)esp); } esp->add_spi(esp, spi); DBG1(DBG_IKE, "sending DELETE for %N CHILD_SA with SPI %.8x", protocol_id_names, protocol, ntohl(spi)); break; case PROTO_AH: if (ah == NULL) { ah = delete_payload_create(DELETE, PROTO_AH); message->add_payload(message, (payload_t*)ah); } ah->add_spi(ah, spi); DBG1(DBG_IKE, "sending DELETE for %N CHILD_SA with SPI %.8x", protocol_id_names, protocol, ntohl(spi)); break; default: break; } child_sa->set_state(child_sa, CHILD_DELETING); } enumerator->destroy(enumerator); } /** * read in payloads and find the children to delete */ static void process_payloads(private_child_delete_t *this, message_t *message) { enumerator_t *payloads, *spis; payload_t *payload; delete_payload_t *delete_payload; u_int32_t spi; protocol_id_t protocol; child_sa_t *child_sa; payloads = message->create_payload_enumerator(message); while (payloads->enumerate(payloads, &payload)) { if (payload->get_type(payload) == DELETE) { delete_payload = (delete_payload_t*)payload; protocol = delete_payload->get_protocol_id(delete_payload); if (protocol != PROTO_ESP && protocol != PROTO_AH) { continue; } spis = delete_payload->create_spi_enumerator(delete_payload); while (spis->enumerate(spis, &spi)) { child_sa = this->ike_sa->get_child_sa(this->ike_sa, protocol, spi, FALSE); if (child_sa == NULL) { DBG1(DBG_IKE, "received DELETE for %N CHILD_SA with SPI %.8x, " "but no such SA", protocol_id_names, protocol, ntohl(spi)); continue; } DBG1(DBG_IKE, "received DELETE for %N CHILD_SA with SPI %.8x", protocol_id_names, protocol, ntohl(spi)); switch (child_sa->get_state(child_sa)) { case CHILD_REKEYING: this->rekeyed = TRUE; /* we reply as usual, rekeying will fail */ break; case CHILD_DELETING: /* we don't send back a delete if we initiated ourself */ if (!this->initiator) { this->ike_sa->destroy_child_sa(this->ike_sa, protocol, spi); continue; } /* fall through */ case CHILD_INSTALLED: if (!this->initiator) { /* reestablish installed children if required */ this->check_delete_action = TRUE; } default: break; } if (this->child_sas->find_first(this->child_sas, NULL, (void**)&child_sa) != SUCCESS) { this->child_sas->insert_last(this->child_sas, child_sa); } } spis->destroy(spis); } } payloads->destroy(payloads); } /** * destroy the children listed in this->child_sas, reestablish by policy */ static status_t destroy_and_reestablish(private_child_delete_t *this) { enumerator_t *enumerator; child_sa_t *child_sa; child_cfg_t *child_cfg; protocol_id_t protocol; u_int32_t spi, reqid; action_t action; status_t status = SUCCESS; enumerator = this->child_sas->create_enumerator(this->child_sas); while (enumerator->enumerate(enumerator, (void**)&child_sa)) { /* signal child down event if we are not rekeying */ if (!this->rekeyed) { charon->bus->child_updown(charon->bus, child_sa, FALSE); } spi = child_sa->get_spi(child_sa, TRUE); reqid = child_sa->get_reqid(child_sa); protocol = child_sa->get_protocol(child_sa); child_cfg = child_sa->get_config(child_sa); child_cfg->get_ref(child_cfg); action = child_sa->get_close_action(child_sa); this->ike_sa->destroy_child_sa(this->ike_sa, protocol, spi); if (this->check_delete_action) { /* enforce child_cfg policy if deleted passively */ switch (action) { case ACTION_RESTART: child_cfg->get_ref(child_cfg); status = this->ike_sa->initiate(this->ike_sa, child_cfg, reqid, NULL, NULL); break; case ACTION_ROUTE: charon->traps->install(charon->traps, this->ike_sa->get_peer_cfg(this->ike_sa), child_cfg, reqid); break; default: break; } } child_cfg->destroy(child_cfg); if (status != SUCCESS) { break; } } enumerator->destroy(enumerator); return status; } /** * send closing signals for all CHILD_SAs over the bus */ static void log_children(private_child_delete_t *this) { linked_list_t *my_ts, *other_ts; enumerator_t *enumerator; child_sa_t *child_sa; u_int64_t bytes_in, bytes_out; enumerator = this->child_sas->create_enumerator(this->child_sas); while (enumerator->enumerate(enumerator, (void**)&child_sa)) { my_ts = linked_list_create_from_enumerator( child_sa->create_ts_enumerator(child_sa, TRUE)); other_ts = linked_list_create_from_enumerator( child_sa->create_ts_enumerator(child_sa, FALSE)); if (this->expired) { DBG0(DBG_IKE, "closing expired CHILD_SA %s{%d} " "with SPIs %.8x_i %.8x_o and TS %#R=== %#R", child_sa->get_name(child_sa), child_sa->get_reqid(child_sa), ntohl(child_sa->get_spi(child_sa, TRUE)), ntohl(child_sa->get_spi(child_sa, FALSE)), my_ts, other_ts); } else { child_sa->get_usestats(child_sa, TRUE, NULL, &bytes_in, NULL); child_sa->get_usestats(child_sa, FALSE, NULL, &bytes_out, NULL); DBG0(DBG_IKE, "closing CHILD_SA %s{%d} with SPIs %.8x_i " "(%llu bytes) %.8x_o (%llu bytes) and TS %#R=== %#R", child_sa->get_name(child_sa), child_sa->get_reqid(child_sa), ntohl(child_sa->get_spi(child_sa, TRUE)), bytes_in, ntohl(child_sa->get_spi(child_sa, FALSE)), bytes_out, my_ts, other_ts); } my_ts->destroy(my_ts); other_ts->destroy(other_ts); } enumerator->destroy(enumerator); } METHOD(task_t, build_i, status_t, private_child_delete_t *this, message_t *message) { child_sa_t *child_sa; child_sa = this->ike_sa->get_child_sa(this->ike_sa, this->protocol, this->spi, TRUE); if (!child_sa) { /* check if it is an outbound sa */ child_sa = this->ike_sa->get_child_sa(this->ike_sa, this->protocol, this->spi, FALSE); if (!child_sa) { /* child does not exist anymore */ return SUCCESS; } /* we work only with the inbound SPI */ this->spi = child_sa->get_spi(child_sa, TRUE); } this->child_sas->insert_last(this->child_sas, child_sa); if (child_sa->get_state(child_sa) == CHILD_REKEYING) { this->rekeyed = TRUE; } log_children(this); build_payloads(this, message); if (!this->rekeyed && this->expired) { child_cfg_t *child_cfg; DBG1(DBG_IKE, "scheduling CHILD_SA recreate after hard expire"); child_cfg = child_sa->get_config(child_sa); this->ike_sa->queue_task(this->ike_sa, (task_t*) child_create_create(this->ike_sa, child_cfg->get_ref(child_cfg), FALSE, NULL, NULL)); } return NEED_MORE; } METHOD(task_t, process_i, status_t, private_child_delete_t *this, message_t *message) { process_payloads(this, message); DBG1(DBG_IKE, "CHILD_SA closed"); return destroy_and_reestablish(this); } METHOD(task_t, process_r, status_t, private_child_delete_t *this, message_t *message) { process_payloads(this, message); log_children(this); return NEED_MORE; } METHOD(task_t, build_r, status_t, private_child_delete_t *this, message_t *message) { /* if we are rekeying, we send an empty informational */ if (this->ike_sa->get_state(this->ike_sa) != IKE_REKEYING) { build_payloads(this, message); } DBG1(DBG_IKE, "CHILD_SA closed"); return destroy_and_reestablish(this); } METHOD(task_t, get_type, task_type_t, private_child_delete_t *this) { return TASK_CHILD_DELETE; } METHOD(child_delete_t , get_child, child_sa_t*, private_child_delete_t *this) { child_sa_t *child_sa = NULL; this->child_sas->get_first(this->child_sas, (void**)&child_sa); return child_sa; } METHOD(task_t, migrate, void, private_child_delete_t *this, ike_sa_t *ike_sa) { this->check_delete_action = FALSE; this->ike_sa = ike_sa; this->child_sas->destroy(this->child_sas); this->child_sas = linked_list_create(); } METHOD(task_t, destroy, void, private_child_delete_t *this) { this->child_sas->destroy(this->child_sas); free(this); } /* * Described in header. */ child_delete_t *child_delete_create(ike_sa_t *ike_sa, protocol_id_t protocol, u_int32_t spi, bool expired) { private_child_delete_t *this; INIT(this, .public = { .task = { .get_type = _get_type, .migrate = _migrate, .destroy = _destroy, }, .get_child = _get_child, }, .ike_sa = ike_sa, .child_sas = linked_list_create(), .protocol = protocol, .spi = spi, .expired = expired, ); if (protocol != PROTO_NONE) { this->public.task.build = _build_i; this->public.task.process = _process_i; this->initiator = TRUE; } else { this->public.task.build = _build_r; this->public.task.process = _process_r; this->initiator = FALSE; } return &this->public; }