/* * Copyright (C) 2008 Tobias Brunner * 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. * * $Id: child_cfg.h 4358 2008-09-25 13:56:23Z tobias $ */ /** * @defgroup child_cfg child_cfg * @{ @ingroup config */ #ifndef CHILD_CFG_H_ #define CHILD_CFG_H_ typedef enum action_t action_t; typedef enum ipcomp_transform_t ipcomp_transform_t; typedef struct child_cfg_t child_cfg_t; #include #include #include #include /** * Action to take when DPD detected/connection gets closed by peer. */ enum action_t { /** No action */ ACTION_NONE, /** Route config to reestablish on demand */ ACTION_ROUTE, /** Restart config immediately */ ACTION_RESTART, }; /** * enum names for action_t. */ extern enum_name_t *action_names; /** * IPComp transform IDs, as in RFC 4306 */ enum ipcomp_transform_t { IPCOMP_NONE = 241, IPCOMP_OUI = 1, IPCOMP_DEFLATE = 2, IPCOMP_LZS = 3, IPCOMP_LZJH = 4, }; /** * enum strings for ipcomp_transform_t. */ extern enum_name_t *ipcomp_transform_names; /** * A child_cfg_t defines the config template for a CHILD_SA. * * After creation, proposals and traffic selectors may be added to the config. * A child_cfg object is referenced multiple times, and is not thread save. * Reading from the object is save, adding things is not allowed while other * threads may access the object. * A reference counter handles the number of references hold to this config. * * @see peer_cfg_t to get an overview over the configurations. */ struct child_cfg_t { /** * Get the name of the child_cfg. * * @return child_cfg's name */ char *(*get_name) (child_cfg_t *this); /** * Add a proposal to the list. * * The proposals are stored by priority, first added * is the most prefered. * After add, proposal is owned by child_cfg. * * @param proposal proposal to add */ void (*add_proposal) (child_cfg_t *this, proposal_t *proposal); /** * Get the list of proposals for the CHILD_SA. * * Resulting list and all of its proposals must be freed after use. * * @param strip_dh TRUE strip out diffie hellman groups * @return list of proposals */ linked_list_t* (*get_proposals)(child_cfg_t *this, bool strip_dh); /** * Select a proposal from a supplied list. * * Returned propsal is newly created and must be destroyed after usage. * * @param proposals list from from wich proposals are selected * @param strip_dh TRUE strip out diffie hellman groups * @return selected proposal, or NULL if nothing matches */ proposal_t* (*select_proposal)(child_cfg_t*this, linked_list_t *proposals, bool strip_dh); /** * Add a traffic selector to the config. * * Use the "local" parameter to add it for the local or the remote side. * After add, traffic selector is owned by child_cfg. * * @param local TRUE for local side, FALSE for remote * @param ts traffic_selector to add */ void (*add_traffic_selector)(child_cfg_t *this, bool local, traffic_selector_t *ts); /** * Get a list of traffic selectors to use for the CHILD_SA. * * The config contains two set of traffic selectors, one for the local * side, one for the remote side. * If a list with traffic selectors is supplied, these are used to narrow * down the traffic selector list to the greatest common divisor. * Some traffic selector may be "dymamic", meaning they are narrowed down * to a specific address (host-to-host or virtual-IP setups). Use * the "host" parameter to narrow such traffic selectors to that address. * Resulted list and its traffic selectors must be destroyed after use. * * @param local TRUE for TS on local side, FALSE for remote * @param supplied list with TS to select from, or NULL * @param host address to use for narrowing "dynamic" TS', or NULL * @return list containing the traffic selectors */ linked_list_t *(*get_traffic_selectors)(child_cfg_t *this, bool local, linked_list_t *supplied, host_t *host); /** * Get the updown script to run for the CHILD_SA. * * @return path to updown script */ char* (*get_updown)(child_cfg_t *this); /** * Should we allow access to the local host (gateway)? * * @return value of hostaccess flag */ bool (*get_hostaccess) (child_cfg_t *this); /** * Get the lifetime of a CHILD_SA. * * If "rekey" is set to TRUE, a lifetime is returned before the first * rekeying should be started. If it is FALSE, the actual lifetime is * returned when the CHILD_SA must be deleted. * The rekey time automatically contains a jitter to avoid simlutaneous * rekeying. * * @param rekey TRUE to get rekey time * @return lifetime in seconds */ u_int32_t (*get_lifetime) (child_cfg_t *this, bool rekey); /** * Get the mode to use for the CHILD_SA. * * The mode is either tunnel, transport or BEET. The peer must agree * on the method, fallback is tunnel mode. * * @return ipsec mode */ ipsec_mode_t (*get_mode) (child_cfg_t *this); /** * Action to take on DPD. * * @return DPD action */ action_t (*get_dpd_action) (child_cfg_t *this); /** * Action to take if CHILD_SA gets closed. * * @return close action */ action_t (*get_close_action) (child_cfg_t *this); /** * Get the DH group to use for CHILD_SA setup. * * @return dh group to use */ diffie_hellman_group_t (*get_dh_group)(child_cfg_t *this); /** * Check whether IPComp should be used, if the other peer supports it. * * @return TRUE, if IPComp should be used * FALSE, otherwise */ bool (*use_ipcomp)(child_cfg_t *this); /** * Increase the reference count. * * @return reference to this */ child_cfg_t* (*get_ref) (child_cfg_t *this); /** * Destroys the child_cfg object. * * Decrements the internal reference counter and * destroys the child_cfg when it reaches zero. */ void (*destroy) (child_cfg_t *this); }; /** * Create a configuration template for CHILD_SA setup. * * The "name" string gets cloned. * 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 * (rekeytime - random(0, jitter)). You should specify * lifetime > rekeytime > jitter. * After a call to create, a reference is obtained (refcount = 1). * * @param name name of the child_cfg * @param lifetime lifetime after CHILD_SA expires and gets deleted * @param rekeytime time when rekeying should be initiated * @param jitter range of randomization time to remove from rekeytime * @param updown updown script to execute on up/down event * @param hostaccess TRUE to allow access to the local host * @param mode mode to propose for CHILD_SA, transport, tunnel or BEET * @param dpd_action DPD action * @param close_action close action * @param ipcomp use IPComp, if peer supports it * @return child_cfg_t object */ child_cfg_t *child_cfg_create(char *name, u_int32_t lifetime, u_int32_t rekeytime, u_int32_t jitter, char *updown, bool hostaccess, ipsec_mode_t mode, action_t dpd_action, action_t close_action, bool ipcomp); #endif /* CHILD_CFG_H_ @} */