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/*
* 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 <http://www.fsf.org/copyleft/gpl.txt>.
*
* 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.
*/
/**
* @defgroup peer_cfg peer_cfg
* @{ @ingroup config
*/
#ifndef PEER_CFG_H_
#define PEER_CFG_H_
typedef enum cert_policy_t cert_policy_t;
typedef enum unique_policy_t unique_policy_t;
typedef struct peer_cfg_t peer_cfg_t;
#include <library.h>
#include <utils/identification.h>
#include <collections/enumerator.h>
#include <selectors/traffic_selector.h>
#include <config/proposal.h>
#include <config/ike_cfg.h>
#include <config/child_cfg.h>
#include <credentials/auth_cfg.h>
/**
* Certificate sending policy. This is also used for certificate
* requests when using this definition for the other peer. If
* it is CERT_NEVER_SEND, a certreq is omitted, otherwise its
* included.
*
* @warning These definitions must be the same as in pluto/starter,
* as they are sent over the stroke socket.
*/
enum cert_policy_t {
/** always send certificates, even when not requested */
CERT_ALWAYS_SEND = 0,
/** send certificate upon cert request */
CERT_SEND_IF_ASKED = 1,
/** never send a certificate, even when requested */
CERT_NEVER_SEND = 2,
};
/**
* enum strings for cert_policy_t
*/
extern enum_name_t *cert_policy_names;
/**
* Uniqueness of an IKE_SA, used to drop multiple connections with one peer.
*/
enum unique_policy_t {
/** never check for client uniqueness */
UNIQUE_NEVER,
/** only check for client uniqueness when receiving an INITIAL_CONTACT */
UNIQUE_NO,
/** replace existing IKE_SAs when new ones get established by a client */
UNIQUE_REPLACE,
/** keep existing IKE_SAs, close the new ones on connection attempt */
UNIQUE_KEEP,
};
/**
* enum strings for unique_policy_t
*/
extern enum_name_t *unique_policy_names;
/**
* Configuration of a peer, specified by IDs.
*
* The peer config defines a connection between two given IDs. It contains
* exactly one ike_cfg_t, which is used for initiation. Additionally, it
* contains multiple child_cfg_t defining which CHILD_SAs are allowed for this
* peer.
* @verbatim
+-------------------+ +---------------+
+---------------+ | peer_cfg | +---------------+ |
| ike_cfg | +-------------------+ | child_cfg | |
+---------------+ | - ids | +---------------+ |
| - hosts | 1 1 | - cas | 1 n | - proposals | |
| - proposals |<-----| - auth info |----->| - traffic sel | |
| - ... | | - dpd config | | - ... |-+
+---------------+ | - ... | +---------------+
+-------------------+
| 1 0 |
| |
v n n V
+-------------------+ +-------------------+
+-------------------+ | +-------------------+ |
| auth_cfg | | | auth_cfg | |
+-------------------+ | +-------------------+ |
| - local rules |-+ | - remote constr. |-+
+-------------------+ +-------------------+
@endverbatim
*
* Each peer_cfg has two lists of authentication config attached. Local
* authentication configs define how to authenticate ourself against the remote
* peer. Each config is enforced using the multiple authentication extension
* (RFC4739).
* The remote authentication configs are handled as constraints. The peer has
* to fulfill each of these rules (using multiple authentication, in any order)
* to gain access to the configuration.
*/
struct peer_cfg_t {
/**
* Get the name of the peer_cfg.
*
* Returned object is not getting cloned.
*
* @return peer_cfg's name
*/
char* (*get_name) (peer_cfg_t *this);
/**
* Get the IKE version to use for initiating.
*
* @return IKE major version
*/
ike_version_t (*get_ike_version)(peer_cfg_t *this);
/**
* Get the IKE config to use for initiaton.
*
* @return the IKE config to use
*/
ike_cfg_t* (*get_ike_cfg) (peer_cfg_t *this);
/**
* Attach a CHILD config.
*
* @param child_cfg CHILD config to add
*/
void (*add_child_cfg) (peer_cfg_t *this, child_cfg_t *child_cfg);
/**
* Detach a CHILD config, pointed to by an enumerator.
*
* @param enumerator enumerator indicating element position
*/
void (*remove_child_cfg)(peer_cfg_t *this, enumerator_t *enumerator);
/**
* Create an enumerator for all attached CHILD configs.
*
* @return an enumerator over all CHILD configs.
*/
enumerator_t* (*create_child_cfg_enumerator) (peer_cfg_t *this);
/**
* Select a CHILD config from traffic selectors.
*
* @param my_ts TS for local side
* @param other_ts TS for remote side
* @param my_hosts hosts to narrow down dynamic TS for local side
* @param other_hosts hosts to narrow down dynamic TS for remote side
* @return selected CHILD config, or NULL if no match found
*/
child_cfg_t* (*select_child_cfg) (peer_cfg_t *this,
linked_list_t *my_ts, linked_list_t *other_ts,
linked_list_t *my_hosts, linked_list_t *other_hosts);
/**
* Add an authentication config to the peer configuration.
*
* @param cfg config to add
* @param local TRUE for local rules, FALSE for remote constraints
*/
void (*add_auth_cfg)(peer_cfg_t *this, auth_cfg_t *cfg, bool local);
/**
* Create an enumerator over registered authentication configs.
*
* @param local TRUE for local rules, FALSE for remote constraints
* @return enumerator over auth_cfg_t*
*/
enumerator_t* (*create_auth_cfg_enumerator)(peer_cfg_t *this, bool local);
/**
* Should a certificate be sent for this connection?
*
* @return certificate sending policy
*/
cert_policy_t (*get_cert_policy) (peer_cfg_t *this);
/**
* How to handle uniqueness of IKE_SAs?
*
* @return unique policy
*/
unique_policy_t (*get_unique_policy) (peer_cfg_t *this);
/**
* Get the max number of retries after timeout.
*
* @return max number retries
*/
u_int32_t (*get_keyingtries) (peer_cfg_t *this);
/**
* Get a time to start rekeying.
*
* @param jitter remove a jitter value to randomize time
* @return time in s when to start rekeying, 0 disables rekeying
*/
u_int32_t (*get_rekey_time)(peer_cfg_t *this, bool jitter);
/**
* Get a time to start reauthentication.
*
* @param jitter remove a jitter value to randomize time
* @return time in s when to start reauthentication, 0 disables it
*/
u_int32_t (*get_reauth_time)(peer_cfg_t *this, bool jitter);
/**
* Get the timeout of a rekeying/reauthenticating SA.
*
* @return timeout in s
*/
u_int32_t (*get_over_time)(peer_cfg_t *this);
/**
* Use MOBIKE (RFC4555) if peer supports it?
*
* @return TRUE to enable MOBIKE support
*/
bool (*use_mobike) (peer_cfg_t *this);
/**
* Use/Accept aggressive mode with IKEv1?.
*
* @return TRUE to use aggressive mode
*/
bool (*use_aggressive)(peer_cfg_t *this);
/**
* Use pull or push mode for mode config?
*
* @return TRUE to use pull, FALSE to use push mode
*/
bool (*use_pull_mode)(peer_cfg_t *this);
/**
* Get the DPD check interval.
*
* @return dpd_delay in seconds
*/
u_int32_t (*get_dpd) (peer_cfg_t *this);
/**
* Get the DPD timeout interval (IKEv1 only)
*
* @return dpd_timeout in seconds
*/
u_int32_t (*get_dpd_timeout) (peer_cfg_t *this);
/**
* Add a virtual IP to request as initiator.
*
* @param vip virtual IP to request, may be %any or %any6
*/
void (*add_virtual_ip)(peer_cfg_t *this, host_t *vip);
/**
* Create an enumerator over virtual IPs to request.
*
* The returned enumerator enumerates over IPs added with add_virtual_ip().
*
* @return enumerator over host_t*
*/
enumerator_t* (*create_virtual_ip_enumerator)(peer_cfg_t *this);
/**
* Add a pool name this configuration uses to select virtual IPs.
*
* @param name pool name to use for virtual IP lookup
*/
void (*add_pool)(peer_cfg_t *this, char *name);
/**
* Create an enumerator over pool names of this config.
*
* @return enumerator over char*
*/
enumerator_t* (*create_pool_enumerator)(peer_cfg_t *this);
#ifdef ME
/**
* Is this a mediation connection?
*
* @return TRUE, if this is a mediation connection
*/
bool (*is_mediation) (peer_cfg_t *this);
/**
* Get peer_cfg of the connection this one is mediated through.
*
* @return the peer_cfg of the mediation connection
*/
peer_cfg_t* (*get_mediated_by) (peer_cfg_t *this);
/**
* Get the id of the other peer at the mediation server.
*
* This is the leftid of the peer's connection with the mediation server.
*
* If it is not configured, it is assumed to be the same as the right id
* of this connection.
*
* @return the id of the other peer
*/
identification_t* (*get_peer_id) (peer_cfg_t *this);
#endif /* ME */
/**
* Check if two peer configurations are equal.
*
* This method does not compare associated ike/child_cfg.
*
* @param other candidate to check for equality against this
* @return TRUE if peer_cfg and ike_cfg are equal
*/
bool (*equals)(peer_cfg_t *this, peer_cfg_t *other);
/**
* Increase reference count.
*
* @return reference to this
*/
peer_cfg_t* (*get_ref) (peer_cfg_t *this);
/**
* Destroys the peer_cfg object.
*
* Decrements the internal reference counter and
* destroys the peer_cfg when it reaches zero.
*/
void (*destroy) (peer_cfg_t *this);
};
/**
* Create a configuration object for IKE_AUTH and later.
*
* name-string gets cloned, ID's not.
* Virtual IPs are used if they are != NULL. A %any host means the virtual
* IP should be obtained from the other peer.
* Lifetimes are in seconds. To prevent to peers to start rekeying at the
* same time, a jitter may be specified. Rekeying of an SA starts at
* (rekeylifetime - random(0, jitter)).
*
* @param name name of the peer_cfg
* @param ike_cfg IKE config to use when acting as initiator
* @param cert_policy should we send a certificate payload?
* @param unique uniqueness of an IKE_SA
* @param keyingtries how many keying tries should be done before giving up
* @param rekey_time timeout before starting rekeying
* @param reauth_time timeout before starting reauthentication
* @param jitter_time timerange to randomly subtract from rekey/reauth time
* @param over_time maximum overtime before closing a rekeying/reauth SA
* @param mobike use MOBIKE (RFC4555) if peer supports it
* @param aggressive use/accept aggressive mode with IKEv1
* @param pull_mode TRUE to use modeconfig pull, FALSE for push
* @param dpd DPD check interval, 0 to disable
* @param dpd_timeout DPD timeout interval (IKEv1 only), if 0 default applies
* @param mediation TRUE if this is a mediation connection
* @param mediated_by peer_cfg_t of the mediation connection to mediate through
* @param peer_id ID that identifies our peer at the mediation server
* @return peer_cfg_t object
*/
peer_cfg_t *peer_cfg_create(char *name,
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, bool aggressive, bool pull_mode,
u_int32_t dpd, u_int32_t dpd_timeout,
bool mediation, peer_cfg_t *mediated_by,
identification_t *peer_id);
#endif /** PEER_CFG_H_ @}*/
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