/* * Copyright (C) 2010 Tobias Brunner * HSR 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. */ /** * @defgroup mem_pool mem_pool * @{ @ingroup attributes */ #ifndef MEM_POOL_H #define MEM_POOL_H typedef struct mem_pool_t mem_pool_t; typedef enum mem_pool_op_t mem_pool_op_t; #include #include /** * In-memory IP pool acquire operation. */ enum mem_pool_op_t { /** Check for an existing lease */ MEM_POOL_EXISTING, /** Get a new lease */ MEM_POOL_NEW, /** Replace an existing offline lease of another ID */ MEM_POOL_REASSIGN, }; /** * An in-memory IP address pool. */ struct mem_pool_t { /** * Get the name of this pool. * * @return the name of this pool */ const char* (*get_name)(mem_pool_t *this); /** * Get the base (first) address of this pool. * * @return base address, internal host */ host_t* (*get_base)(mem_pool_t *this); /** * Get the size (i.e. number of addresses) of this pool. * * @return the size of this pool */ u_int (*get_size)(mem_pool_t *this); /** * Get the number of online leases. * * @return the number of offline leases */ u_int (*get_online)(mem_pool_t *this); /** * Get the number of offline leases. * * @return the number of online leases */ u_int (*get_offline)(mem_pool_t *this); /** * Acquire an address for the given id from this pool. * * This call is usually invoked several times: The first time to find an * existing lease (MEM_POOL_EXISTING), if none found a second time to * acquire a new lease (MEM_POOL_NEW), and if the pool is full once again * to assign an existing offline lease (MEM_POOL_REASSIGN). * * If the same identity requests a virtual IP that is already assigned to * it, the peer address and port is used to check if it is the same client * instance that is connecting. If this is true, the request is considered * a request for a reauthentication attempt, and the same virtual IP gets * assigned to the peer. * * @param id the id to acquire an address for * @param requested acquire this address, if possible * @param operation acquire operation to perform, see above * @param peer optional remote IKE address and port * @return the acquired address */ host_t* (*acquire_address)(mem_pool_t *this, identification_t *id, host_t *requested, mem_pool_op_t operation, host_t *peer); /** * Release a previously acquired address. * * @param address the address to release * @param id the id the address was assigned to * @return TRUE, if the lease was found */ bool (*release_address)(mem_pool_t *this, host_t *address, identification_t *id); /** * Create an enumerator over the leases of this pool. * * Enumerator enumerates over * identification_t *id, host_t *address, bool online * * @return enumerator */ enumerator_t* (*create_lease_enumerator)(mem_pool_t *this); /** * Destroy a mem_pool_t instance. */ void (*destroy)(mem_pool_t *this); }; /** * Create an in-memory IP address pool. * * An empty pool just returns the requested address. * * @param name name of this pool * @param base base address of this pool, NULL to create an empty pool * @param bits number of non-network bits in base, as in CIDR notation * @return memory pool instance */ mem_pool_t *mem_pool_create(char *name, host_t *base, int bits); /** * Create an in-memory IP address from a range. * * @param name name of this pool * @param from start of ranged pool * @param to end of ranged pool * @return memory pool instance, NULL if range invalid */ mem_pool_t *mem_pool_create_range(char *name, host_t *from, host_t *to); #endif /** MEM_POOL_H_ @} */