/* * Copyright (C) 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. * * $Id: controller.h 4624 2008-11-11 13:11:44Z tobias $ */ /** * @defgroup controller_i controller * @{ @ingroup control */ #ifndef CONTROLLER_H_ #define CONTROLLER_H_ #include /** * callback to log things triggered by controller. * * @param param echoed parameter supplied when function invoked * @param group debugging group * @param level verbosity level if log * @param ike_sa associated IKE_SA, if any * @param format printf like format string * @param args list of arguments to use for format * @return FALSE to return from invoked function */ typedef bool(*controller_cb_t)(void* param, debug_t group, level_t level, ike_sa_t* ike_sa, char* format, va_list args); /** * Empty callback function for controller_t functions. * * If you want to do a synchronous call, but don't need a callback, pass * this function to the controllers methods. */ bool controller_cb_empty(void *param, debug_t group, level_t level, ike_sa_t *ike_sa, char *format, va_list args); typedef struct controller_t controller_t; /** * The controller provides a simple interface to run actions. * * The controller starts actions by creating jobs. It then tries to * evaluate the result of the operation by listening on the bus. * * Passing NULL as callback to the managers function calls them asynchronously. * If a callback is specified, they are called synchronously. There is a default * callback "controller_cb_empty" if you wan't to call a function * synchronously, but don't need a callback. */ struct controller_t { /** * Create an enumerator for all IKE_SAs. * * The enumerator blocks the IKE_SA manager until it gets destroyed. Do * not call another interface/manager method while the iterator is alive. * * @return enumerator, locks IKE_SA manager until destroyed */ enumerator_t* (*create_ike_sa_enumerator)(controller_t *this); /** * Initiate a CHILD_SA, and if required, an IKE_SA. * * The initiate() function is synchronous and thus blocks until the * IKE_SA is established or failed. Because of this, the initiate() function * contains a thread cancellation point. * * @param peer_cfg peer_cfg to use for IKE_SA setup * @param child_cfg child_cfg to set up CHILD_SA from * @param cb logging callback * @param param parameter to include in each call of cb * @return * - SUCCESS, if CHILD_SA established * - FAILED, if setup failed * - NEED_MORE, if callback returned FALSE */ status_t (*initiate)(controller_t *this, peer_cfg_t *peer_cfg, child_cfg_t *child_cfg, controller_cb_t callback, void *param); /** * Terminate an IKE_SA and all of its CHILD_SAs. * * The terminate() function is synchronous and thus blocks until the * IKE_SA is properly deleted, or the delete timed out. * The terminate() function contains a thread cancellation point. * * @param unique_id unique id of the IKE_SA to terminate. * @param cb logging callback * @param param parameter to include in each call of cb * @return * - SUCCESS, if CHILD_SA terminated * - NOT_FOUND, if no such CHILD_SA found * - NEED_MORE, if callback returned FALSE */ status_t (*terminate_ike)(controller_t *this, u_int32_t unique_id, controller_cb_t callback, void *param); /** * Terminate a CHILD_SA. * * @param reqid reqid of the CHILD_SA to terminate * @param cb logging callback * @param param parameter to include in each call of cb * @return * - SUCCESS, if CHILD_SA terminated * - NOT_FOUND, if no such CHILD_SA found * - NEED_MORE, if callback returned FALSE */ status_t (*terminate_child)(controller_t *this, u_int32_t reqid, controller_cb_t callback, void *param); /** * Route a CHILD_SA (install triggering policies). * * @param peer_cfg peer_cfg to use for IKE_SA setup, if triggered * @param child_cfg child_cfg to route * @param cb logging callback * @param param parameter to include in each call of cb * @return * - SUCCESS, if CHILD_SA routed * - FAILED, if routing failed * - NEED_MORE, if callback returned FALSE */ status_t (*route)(controller_t *this, peer_cfg_t *peer_cfg, child_cfg_t *child_cfg, controller_cb_t callback, void *param); /** * Unroute a routed CHILD_SA (uninstall triggering policies). * * Only the route is removed, not the CHILD_SAs the route triggered. * * @param reqid reqid of the CHILD_SA to unroute * @param cb logging callback * @param param parameter to include in each call of cb * @return * - SUCCESS, if CHILD_SA terminated * - NOT_FOUND, if no such CHILD_SA routed * - NEED_MORE, if callback returned FALSE */ status_t (*unroute)(controller_t *this, u_int32_t reqid, controller_cb_t callback, void *param); /** * Destroy a controller_t instance. */ void (*destroy) (controller_t *this); }; /** * Creates a controller instance. * * @return controller_t object */ controller_t *controller_create(void); #endif /* CONTROLLER_H_ @} */