257 lines
8.4 KiB
C
257 lines
8.4 KiB
C
/*
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* Copyright (C) 2008 Tobias Brunner
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* Copyright (C) 2005-2008 Martin Willi
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* Copyright (C) 2005 Jan Hutter
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* Hochschule fuer Technik Rapperswil
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms of the GNU General Public License as published by the
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* Free Software Foundation; either version 2 of the License, or (at your
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* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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* for more details.
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*/
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/**
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* @defgroup ike_sa_manager ike_sa_manager
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* @{ @ingroup sa
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*/
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#ifndef IKE_SA_MANAGER_H_
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#define IKE_SA_MANAGER_H_
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typedef struct ike_sa_manager_t ike_sa_manager_t;
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#include <library.h>
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#include <sa/ike_sa.h>
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#include <encoding/message.h>
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#include <config/peer_cfg.h>
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/**
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* Manages and synchronizes access to all IKE_SAs.
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*
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* To synchronize access to thread-unsave IKE_SAs, they are checked out for
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* use and checked in afterwards. A checked out SA is exclusively accessible
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* by the owning thread.
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*/
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struct ike_sa_manager_t {
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/**
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* Checkout an existing IKE_SA.
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*
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* @param ike_sa_id the SA identifier, will be updated
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* @returns
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* - checked out IKE_SA if found
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* - NULL, if specified IKE_SA is not found.
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*/
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ike_sa_t* (*checkout) (ike_sa_manager_t* this, ike_sa_id_t *sa_id);
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/**
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* Create and check out a new IKE_SA.
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*
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* @param version IKE version of this SA
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* @param initiator TRUE for initiator, FALSE otherwise
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* @returns created and checked out IKE_SA
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*/
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ike_sa_t* (*checkout_new) (ike_sa_manager_t* this, ike_version_t version,
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bool initiator);
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/**
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* Checkout an IKE_SA by a message.
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*
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* In some situations, it is necessary that the manager knows the
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* message to use for the checkout. This has the following reasons:
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*
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* 1. If the targeted IKE_SA is already processing a message, we do not
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* check it out if the message ID is the same.
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* 2. If it is an IKE_SA_INIT request, we have to check if it is a
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* retransmission. If so, we have to drop the message, we would
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* create another unneeded IKE_SA for each retransmitted packet.
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*
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* A call to checkout_by_message() returns a (maybe new created) IKE_SA.
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* If processing the message does not make sense (for the reasons above),
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* NULL is returned.
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*
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* @param ike_sa_id the SA identifier, will be updated
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* @returns
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* - checked out/created IKE_SA
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* - NULL to not process message further
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*/
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ike_sa_t* (*checkout_by_message) (ike_sa_manager_t* this, message_t *message);
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/**
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* Checkout an IKE_SA for initiation by a peer_config.
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*
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* To initiate, a CHILD_SA may be established within an existing IKE_SA.
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* This call checks for an existing IKE_SA by comparing the configuration.
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* If the CHILD_SA can be created in an existing IKE_SA, the matching SA
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* is returned.
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* If no IKE_SA is found, a new one is created. This is also the case when
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* the found IKE_SA is in the DELETING state.
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*
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* @param peer_cfg configuration used to find an existing IKE_SA
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* @return checked out/created IKE_SA
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*/
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ike_sa_t* (*checkout_by_config) (ike_sa_manager_t* this,
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peer_cfg_t *peer_cfg);
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/**
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* Check for duplicates of the given IKE_SA.
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*
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* Measures are taken according to the uniqueness policy of the IKE_SA.
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* The return value indicates whether duplicates have been found and if
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* further measures should be taken (e.g. cancelling an IKE_AUTH exchange).
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* check_uniqueness() must be called before the IKE_SA is complete,
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* deadlocks occur otherwise.
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*
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* @param ike_sa ike_sa to check
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* @param force_replace replace existing SAs, regardless of unique policy
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* @return TRUE, if the given IKE_SA has duplicates and
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* should be deleted
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*/
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bool (*check_uniqueness)(ike_sa_manager_t *this, ike_sa_t *ike_sa,
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bool force_replace);
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/**
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* Check if we already have a connected IKE_SA between two identities.
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*
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* @param me own identity
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* @param other remote identity
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* @param family address family to include in uniqueness check
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* @return TRUE if we have a connected IKE_SA
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*/
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bool (*has_contact)(ike_sa_manager_t *this, identification_t *me,
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identification_t *other, int family);
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/**
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* Check out an IKE_SA a unique ID.
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*
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* Every IKE_SA and every CHILD_SA is uniquely identified by an ID.
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* These checkout function uses, depending
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* on the child parameter, the unique ID of the IKE_SA or the reqid
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* of one of a IKE_SAs CHILD_SA.
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*
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* @param id unique ID of the object
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* @param child TRUE to use CHILD, FALSE to use IKE_SA
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* @return
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* - checked out IKE_SA, if found
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* - NULL, if not found
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*/
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ike_sa_t* (*checkout_by_id) (ike_sa_manager_t* this, u_int32_t id,
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bool child);
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/**
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* Check out an IKE_SA by the policy/connection name.
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*
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* Check out the IKE_SA by the configuration name, either from the IKE- or
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* one of its CHILD_SAs.
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*
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* @param name name of the connection/policy
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* @param child TRUE to use policy name, FALSE to use conn name
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* @return
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* - checked out IKE_SA, if found
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* - NULL, if not found
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*/
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ike_sa_t* (*checkout_by_name) (ike_sa_manager_t* this, char *name,
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bool child);
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/**
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* Create an enumerator over all stored IKE_SAs.
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*
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* While enumerating an IKE_SA, it is temporarily checked out and
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* automatically checked in after the current enumeration step.
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*
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* @param wait TRUE to wait for checked out SAs, FALSE to skip
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* @return enumerator over all IKE_SAs.
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*/
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enumerator_t *(*create_enumerator) (ike_sa_manager_t* this, bool wait);
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/**
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* Create an enumerator over ike_sa_id_t*, matching peer identities.
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*
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* The remote peer is identified by its XAuth or EAP identity, if available.
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*
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* @param me local peer identity to match
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* @param other remote peer identity to match
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* @param family address family to match, 0 for any
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* @return enumerator over ike_sa_id_t*
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*/
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enumerator_t* (*create_id_enumerator)(ike_sa_manager_t *this,
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identification_t *me, identification_t *other,
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int family);
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/**
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* Checkin the SA after usage.
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*
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* If the IKE_SA is not registered in the manager, a new entry is created.
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*
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* @param ike_sa_id the SA identifier, will be updated
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* @param ike_sa checked out SA
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*/
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void (*checkin) (ike_sa_manager_t* this, ike_sa_t *ike_sa);
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/**
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* Destroy a checked out SA.
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*
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* The IKE SA is destroyed without notification of the remote peer.
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* Use this only if the other peer doesn't respond or behaves not
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* as predicted.
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* Checking in and destruction is an atomic operation (for the IKE_SA),
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* so this can be called if the SA is in a "unclean" state, without the
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* risk that another thread can get the SA.
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*
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* @param ike_sa SA to delete
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*/
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void (*checkin_and_destroy) (ike_sa_manager_t* this, ike_sa_t *ike_sa);
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/**
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* Get the number of IKE_SAs currently registered.
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*
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* @return number of registered IKE_SAs
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*/
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u_int (*get_count)(ike_sa_manager_t *this);
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/**
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* Get the number of IKE_SAs which are in the connecting state.
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*
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* To prevent the server from resource exhaustion, cookies and other
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* mechanisms are used. The number of half open IKE_SAs is a good
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* indicator to see if a peer is flooding the server.
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* If a host is supplied, only the number of half open IKE_SAs initiated
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* from this IP are counted.
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* Only SAs for which we are the responder are counted.
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*
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* @param ip NULL for all, IP for half open IKE_SAs with IP
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* @return number of half open IKE_SAs
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*/
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u_int (*get_half_open_count) (ike_sa_manager_t *this, host_t *ip);
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/**
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* Delete all existing IKE_SAs and destroy them immediately.
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*
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* Threads will be driven out, so all SAs can be deleted cleanly.
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* To a flush(), an immediate call to destroy() is mandatory; no other
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* method may be used.
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*/
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void (*flush)(ike_sa_manager_t *this);
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/**
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* Destroys the manager with all associated SAs.
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*
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* A call to flush() is required before calling destroy.
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*/
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void (*destroy) (ike_sa_manager_t *this);
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};
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/**
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* Create the IKE_SA manager.
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*
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* @returns ike_sa_manager_t object, NULL if initialization fails
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*/
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ike_sa_manager_t *ike_sa_manager_create(void);
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#endif /** IKE_SA_MANAGER_H_ @}*/
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