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/*
* Copyright (C) 2006-2012 Tobias Brunner
* Copyright (C) 2006 Daniel Roethlisberger
* Copyright (C) 2005-2006 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 kernel_ipsec kernel_ipsec
* @{ @ingroup hkernel
*/
#ifndef KERNEL_IPSEC_H_
#define KERNEL_IPSEC_H_
typedef struct kernel_ipsec_t kernel_ipsec_t;
#include <networking/host.h>
#include <ipsec/ipsec_types.h>
#include <selectors/traffic_selector.h>
#include <plugins/plugin.h>
#include <kernel/kernel_interface.h>
/**
* Interface to the ipsec subsystem of the kernel.
*
* The kernel ipsec interface handles the communication with the kernel
* for SA and policy management. It allows setup of these, and provides
* further the handling of kernel events.
* Policy information are cached in the interface. This is necessary to do
* reference counting. The Linux kernel does not allow the same policy
* installed twice, but we need this as CHILD_SA exist multiple times
* when rekeying. Thats why we do reference counting of policies.
*/
struct kernel_ipsec_t {
/**
* Get the feature set supported by this kernel backend.
*
* @return ORed feature-set of backend
*/
kernel_feature_t (*get_features)(kernel_ipsec_t *this);
/**
* Get a SPI from the kernel.
*
* @param src source address of SA
* @param dst destination address of SA
* @param protocol protocol for SA (ESP/AH)
* @param reqid unique ID for this SA
* @param spi allocated spi
* @return SUCCESS if operation completed
*/
status_t (*get_spi)(kernel_ipsec_t *this, host_t *src, host_t *dst,
u_int8_t protocol, u_int32_t reqid, u_int32_t *spi);
/**
* Get a Compression Parameter Index (CPI) from the kernel.
*
* @param src source address of SA
* @param dst destination address of SA
* @param reqid unique ID for the corresponding SA
* @param cpi allocated cpi
* @return SUCCESS if operation completed
*/
status_t (*get_cpi)(kernel_ipsec_t *this, host_t *src, host_t *dst,
u_int32_t reqid, u_int16_t *cpi);
/**
* Add an SA to the SAD.
*
* add_sa() may update an already allocated
* SPI (via get_spi). In this case, the replace
* flag must be set.
* This function does install a single SA for a
* single protocol in one direction.
*
* @param src source address for this SA
* @param dst destination address for this SA
* @param spi SPI allocated by us or remote peer
* @param protocol protocol for this SA (ESP/AH)
* @param reqid unique ID for this SA
* @param mark mark for this SA
* @param tfc Traffic Flow Confidentiality padding for this SA
* @param lifetime lifetime_cfg_t for this SA
* @param enc_alg Algorithm to use for encryption (ESP only)
* @param enc_key key to use for encryption
* @param int_alg Algorithm to use for integrity protection
* @param int_key key to use for integrity protection
* @param mode mode of the SA (tunnel, transport)
* @param ipcomp IPComp transform to use
* @param cpi CPI for IPComp
* @param encap enable UDP encapsulation for NAT traversal
* @param esn TRUE to use Extended Sequence Numbers
* @param inbound TRUE if this is an inbound SA
* @param src_ts traffic selector with BEET source address
* @param dst_ts traffic selector with BEET destination address
* @return SUCCESS if operation completed
*/
status_t (*add_sa) (kernel_ipsec_t *this,
host_t *src, host_t *dst, u_int32_t spi,
u_int8_t protocol, u_int32_t reqid,
mark_t mark, u_int32_t tfc, lifetime_cfg_t *lifetime,
u_int16_t enc_alg, chunk_t enc_key,
u_int16_t int_alg, chunk_t int_key,
ipsec_mode_t mode, u_int16_t ipcomp, u_int16_t cpi,
bool encap, bool esn, bool inbound,
traffic_selector_t *src_ts, traffic_selector_t *dst_ts);
/**
* Update the hosts on an installed SA.
*
* We cannot directly update the destination address as the kernel
* requires the spi, the protocol AND the destination address (and family)
* to identify SAs. Therefore if the destination address changed we
* create a new SA and delete the old one.
*
* @param spi SPI of the SA
* @param protocol protocol for this SA (ESP/AH)
* @param cpi CPI for IPComp, 0 if no IPComp is used
* @param src current source address
* @param dst current destination address
* @param new_src new source address
* @param new_dst new destination address
* @param encap current use of UDP encapsulation
* @param new_encap new use of UDP encapsulation
* @param mark optional mark for this SA
* @return SUCCESS if operation completed, NOT_SUPPORTED if
* the kernel interface can't update the SA
*/
status_t (*update_sa)(kernel_ipsec_t *this,
u_int32_t spi, u_int8_t protocol, u_int16_t cpi,
host_t *src, host_t *dst,
host_t *new_src, host_t *new_dst,
bool encap, bool new_encap, mark_t mark);
/**
* Query the number of bytes processed by an SA from the SAD.
*
* @param src source address for this SA
* @param dst destination address for this SA
* @param spi SPI allocated by us or remote peer
* @param protocol protocol for this SA (ESP/AH)
* @param mark optional mark for this SA
* @param[out] bytes the number of bytes processed by SA
* @param[out] packets number of packets processed by SA
* @return SUCCESS if operation completed
*/
status_t (*query_sa) (kernel_ipsec_t *this, host_t *src, host_t *dst,
u_int32_t spi, u_int8_t protocol, mark_t mark,
u_int64_t *bytes, u_int64_t *packets);
/**
* Delete a previusly installed SA from the SAD.
*
* @param src source address for this SA
* @param dst destination address for this SA
* @param spi SPI allocated by us or remote peer
* @param protocol protocol for this SA (ESP/AH)
* @param cpi CPI for IPComp or 0
* @param mark optional mark for this SA
* @return SUCCESS if operation completed
*/
status_t (*del_sa) (kernel_ipsec_t *this, host_t *src, host_t *dst,
u_int32_t spi, u_int8_t protocol, u_int16_t cpi,
mark_t mark);
/**
* Flush all SAs from the SAD.
*
* @return SUCCESS if operation completed
*/
status_t (*flush_sas) (kernel_ipsec_t *this);
/**
* Add a policy to the SPD.
*
* A policy is always associated to an SA. Traffic which matches a
* policy is handled by the SA with the same reqid.
*
* @param src source address of SA
* @param dst dest address of SA
* @param src_ts traffic selector to match traffic source
* @param dst_ts traffic selector to match traffic dest
* @param direction direction of traffic, POLICY_(IN|OUT|FWD)
* @param type type of policy, POLICY_(IPSEC|PASS|DROP)
* @param sa details about the SA(s) tied to this policy
* @param mark mark for this policy
* @param priority priority of this policy
* @return SUCCESS if operation completed
*/
status_t (*add_policy) (kernel_ipsec_t *this,
host_t *src, host_t *dst,
traffic_selector_t *src_ts,
traffic_selector_t *dst_ts,
policy_dir_t direction, policy_type_t type,
ipsec_sa_cfg_t *sa, mark_t mark,
policy_priority_t priority);
/**
* Query the use time of a policy.
*
* The use time of a policy is the time the policy was used for the last
* time. It is not the system time, but a monotonic timestamp as returned
* by time_monotonic.
*
* @param src_ts traffic selector to match traffic source
* @param dst_ts traffic selector to match traffic dest
* @param direction direction of traffic, POLICY_(IN|OUT|FWD)
* @param mark optional mark
* @param[out] use_time the monotonic timestamp of this SA's last use
* @return SUCCESS if operation completed
*/
status_t (*query_policy) (kernel_ipsec_t *this,
traffic_selector_t *src_ts,
traffic_selector_t *dst_ts,
policy_dir_t direction, mark_t mark,
u_int32_t *use_time);
/**
* Remove a policy from the SPD.
*
* The kernel interface implements reference counting for policies.
* If the same policy is installed multiple times (in the case of rekeying),
* the reference counter is increased. del_policy() decreases the ref counter
* and removes the policy only when no more references are available.
*
* @param src_ts traffic selector to match traffic source
* @param dst_ts traffic selector to match traffic dest
* @param direction direction of traffic, POLICY_(IN|OUT|FWD)
* @param reqid unique ID of the associated SA
* @param mark optional mark
* @param priority priority of the policy
* @return SUCCESS if operation completed
*/
status_t (*del_policy) (kernel_ipsec_t *this,
traffic_selector_t *src_ts,
traffic_selector_t *dst_ts,
policy_dir_t direction, u_int32_t reqid,
mark_t mark, policy_priority_t priority);
/**
* Flush all policies from the SPD.
*
* @return SUCCESS if operation completed
*/
status_t (*flush_policies) (kernel_ipsec_t *this);
/**
* Install a bypass policy for the given socket.
*
* @param fd socket file descriptor to setup policy for
* @param family protocol family of the socket
* @return TRUE of policy set up successfully
*/
bool (*bypass_socket)(kernel_ipsec_t *this, int fd, int family);
/**
* Enable decapsulation of ESP-in-UDP packets for the given port/socket.
*
* @param fd socket file descriptor
* @param family protocol family of the socket
* @param port the UDP port
* @return TRUE if UDP decapsulation was enabled successfully
*/
bool (*enable_udp_decap)(kernel_ipsec_t *this, int fd, int family,
u_int16_t port);
/**
* Destroy the implementation.
*/
void (*destroy) (kernel_ipsec_t *this);
};
/**
* Helper function to (un-)register IPsec kernel interfaces from plugin features.
*
* This function is a plugin_feature_callback_t and can be used with the
* PLUGIN_CALLBACK macro to register an IPsec kernel interface constructor.
*
* @param plugin plugin registering the kernel interface
* @param feature associated plugin feature
* @param reg TRUE to register, FALSE to unregister
* @param data data passed to callback, an kernel_ipsec_constructor_t
*/
bool kernel_ipsec_register(plugin_t *plugin, plugin_feature_t *feature,
bool reg, void *data);
#endif /** KERNEL_IPSEC_H_ @}*/
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