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/*
* Copyright (C) 2006-2016 Tobias Brunner
* Copyright (C) 2006 Daniel Roethlisberger
* Copyright (C) 2005-2006 Martin Willi
* Copyright (C) 2005 Jan Hutter
* 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 <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.
*/
/*
* Copyright (c) 2012 Nanoteq Pty Ltd
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
/**
* @defgroup kernel_interface kernel_interface
* @{ @ingroup kernel
*/
#ifndef KERNEL_INTERFACE_H_
#define KERNEL_INTERFACE_H_
typedef struct kernel_interface_t kernel_interface_t;
typedef enum kernel_feature_t kernel_feature_t;
#include <networking/host.h>
#include <crypto/prf_plus.h>
#include <kernel/kernel_listener.h>
#include <kernel/kernel_ipsec.h>
#include <kernel/kernel_net.h>
/**
* Default range for SPIs requested from kernels
*/
#define KERNEL_SPI_MIN 0xc0000000
#define KERNEL_SPI_MAX 0xcfffffff
/**
* Bitfield of optional features a kernel backend supports.
*
* This feature-set is for both, kernel_ipsec_t and kernel_net_t. Each
* backend returns a subset of these features.
*/
enum kernel_feature_t {
/** IPsec can process ESPv3 (RFC 4303) TFC padded packets */
KERNEL_ESP_V3_TFC = (1<<0),
/** Networking requires an "exclude" route for IKE/ESP packets */
KERNEL_REQUIRE_EXCLUDE_ROUTE = (1<<1),
/** IPsec implementation requires UDP encapsulation of ESP packets */
KERNEL_REQUIRE_UDP_ENCAPSULATION = (1<<2),
/** IPsec backend does not require a policy reinstall on SA updates */
KERNEL_NO_POLICY_UPDATES = (1<<3),
};
/**
* Constructor function for ipsec kernel interface
*/
typedef kernel_ipsec_t* (*kernel_ipsec_constructor_t)(void);
/**
* Constructor function for network kernel interface
*/
typedef kernel_net_t* (*kernel_net_constructor_t)(void);
/**
* Manager and wrapper for different kernel interfaces.
*
* The kernel interface handles the communication with the kernel
* for SA and policy management and interface and IP address management.
*/
struct kernel_interface_t {
/**
* Get the feature set supported by the net and ipsec kernel backends.
*
* @return ORed feature-set of backends
*/
kernel_feature_t (*get_features)(kernel_interface_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 spi allocated spi
* @return SUCCESS if operation completed
*/
status_t (*get_spi)(kernel_interface_t *this, host_t *src, host_t *dst,
uint8_t protocol, uint32_t *spi);
/**
* Get a Compression Parameter Index (CPI) from the kernel.
*
* @param src source address of SA
* @param dst destination address of SA
* @param cpi allocated cpi
* @return SUCCESS if operation completed
*/
status_t (*get_cpi)(kernel_interface_t *this, host_t *src, host_t *dst,
uint16_t *cpi);
/**
* Allocate or confirm a reqid to use for a given SA pair.
*
* Each returned reqid by a successful call to alloc_reqid() must be
* released using release_reqid().
*
* The reqid parameter is an in/out parameter. If it points to non-zero,
* the reqid is confirmed and registered for use. If it points to zero,
* a reqid is allocated for the given selectors, and returned to reqid.
*
* @param local_ts traffic selectors of local side for SA
* @param remote_ts traffic selectors of remote side for SA
* @param mark_in inbound mark on SA
* @param mark_out outbound mark on SA
* @param reqid allocated reqid
* @return SUCCESS if reqid allocated
*/
status_t (*alloc_reqid)(kernel_interface_t *this,
linked_list_t *local_ts, linked_list_t *remote_ts,
mark_t mark_in, mark_t mark_out,
uint32_t *reqid);
/**
* Release a previously allocated reqid.
*
* @param reqid reqid to release
* @param mark_in inbound mark on SA
* @param mark_out outbound mark on SA
* @return SUCCESS if reqid released
*/
status_t (*release_reqid)(kernel_interface_t *this, uint32_t reqid,
mark_t mark_in, mark_t mark_out);
/**
* Add an SA to the SAD.
*
* This function does install a single SA for a single protocol in one
* direction.
*
* @param id data identifying this SA
* @param data data for this SA
* @return SUCCESS if operation completed
*/
status_t (*add_sa)(kernel_interface_t *this, kernel_ipsec_sa_id_t *id,
kernel_ipsec_add_sa_t *data);
/**
* 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 id data identifying this SA
* @param data updated data for this SA
* @return SUCCESS if operation completed, NOT_SUPPORTED if
* the kernel interface can't update the SA
*/
status_t (*update_sa)(kernel_interface_t *this, kernel_ipsec_sa_id_t *id,
kernel_ipsec_update_sa_t *data);
/**
* Query the number of bytes processed by an SA from the SAD.
*
* @param id data identifying this SA
* @param data data to query the SA
* @param[out] bytes the number of bytes processed by SA
* @param[out] packets number of packets processed by SA
* @param[out] time last (monotonic) time of SA use
* @return SUCCESS if operation completed
*/
status_t (*query_sa)(kernel_interface_t *this, kernel_ipsec_sa_id_t *id,
kernel_ipsec_query_sa_t *data, uint64_t *bytes,
uint64_t *packets, time_t *time);
/**
* Delete a previously installed SA from the SAD.
*
* @param id data identifying this SA
* @param data data to delete the SA
* @return SUCCESS if operation completed
*/
status_t (*del_sa)(kernel_interface_t *this, kernel_ipsec_sa_id_t *id,
kernel_ipsec_del_sa_t *data);
/**
* Flush all SAs from the SAD.
*
* @return SUCCESS if operation completed
*/
status_t (*flush_sas)(kernel_interface_t *this);
/**
* Add a policy to the SPD.
*
* @param id data identifying this policy
* @param data data for this policy
* @return SUCCESS if operation completed
*/
status_t (*add_policy)(kernel_interface_t *this,
kernel_ipsec_policy_id_t *id,
kernel_ipsec_manage_policy_t *data);
/**
* Query the use time of a policy.
*
* The use time of a policy is the time the policy was used
* for the last time.
*
* @param id data identifying this policy
* @param data data to query the policy
* @param[out] use_time the monotonic timestamp of this SA's last use
* @return SUCCESS if operation completed
*/
status_t (*query_policy)(kernel_interface_t *this,
kernel_ipsec_policy_id_t *id,
kernel_ipsec_query_policy_t *data,
time_t *use_time);
/**
* Remove a policy from the SPD.
*
* @param id data identifying this policy
* @param data data for this policy
* @return SUCCESS if operation completed
*/
status_t (*del_policy)(kernel_interface_t *this,
kernel_ipsec_policy_id_t *id,
kernel_ipsec_manage_policy_t *data);
/**
* Flush all policies from the SPD.
*
* @return SUCCESS if operation completed
*/
status_t (*flush_policies)(kernel_interface_t *this);
/**
* Get our outgoing source address for a destination.
*
* Does a route lookup to get the source address used to reach dest.
* The returned host is allocated and must be destroyed.
* An optional src address can be used to check if a route is available
* for the given source to dest.
*
* @param dest target destination address
* @param src source address to check, or NULL
* @return outgoing source address, NULL if unreachable
*/
host_t* (*get_source_addr)(kernel_interface_t *this,
host_t *dest, host_t *src);
/**
* Get the next hop for a destination.
*
* Does a route lookup to get the next hop used to reach dest.
* The returned host is allocated and must be destroyed.
* An optional src address can be used to check if a route is available
* for the given source to dest.
*
* @param dest target destination address
* @param prefix prefix length if dest is a subnet, -1 for auto
* @param src source address to check, or NULL
* @param[out] iface allocated name of the interface to reach dest, if
* available (optional)
* @return next hop address, NULL if unreachable
*/
host_t* (*get_nexthop)(kernel_interface_t *this, host_t *dest,
int prefix, host_t *src, char **iface);
/**
* Get the interface name of a local address. Interfaces that are down or
* ignored by config are not considered.
*
* @param host address to get interface name from
* @param name allocated interface name (optional)
* @return TRUE if interface found and usable
*/
bool (*get_interface)(kernel_interface_t *this, host_t *host, char **name);
/**
* Creates an enumerator over all local addresses.
*
* This function blocks an internal cached address list until the
* enumerator gets destroyed.
* The hosts are read-only, do not modify of free.
*
* @param which a combination of address types to enumerate
* @return enumerator over host_t's
*/
enumerator_t *(*create_address_enumerator) (kernel_interface_t *this,
kernel_address_type_t which);
/**
* Creates an enumerator over all local subnets.
*
* Local subnets are subnets the host is directly connected to.
*
* The enumerator returns the network, subnet mask and interface.
*
* @return enumerator over host_t*, uint8_t, char*
*/
enumerator_t *(*create_local_subnet_enumerator)(kernel_interface_t *this);
/**
* Add a virtual IP to an interface.
*
* Virtual IPs are attached to an interface. If an IP is added multiple
* times, the IP is refcounted and not removed until del_ip() was called
* as many times as add_ip().
*
* @param virtual_ip virtual ip address to assign
* @param prefix prefix length to install IP with, -1 for auto
* @param iface interface to install virtual IP on
* @return SUCCESS if operation completed
*/
status_t (*add_ip) (kernel_interface_t *this, host_t *virtual_ip, int prefix,
char *iface);
/**
* Remove a virtual IP from an interface.
*
* The kernel interface uses refcounting, see add_ip().
*
* @param virtual_ip virtual ip address to remove
* @param prefix prefix length of the IP to uninstall, -1 for auto
* @param wait TRUE to wait untily IP is gone
* @return SUCCESS if operation completed
*/
status_t (*del_ip) (kernel_interface_t *this, host_t *virtual_ip,
int prefix, bool wait);
/**
* Add a route.
*
* @param dst_net destination net
* @param prefixlen destination net prefix length
* @param gateway gateway for this route
* @param src_ip source ip of the route
* @param if_name name of the interface the route is bound to
* @return SUCCESS if operation completed
* ALREADY_DONE if the route already exists
*/
status_t (*add_route) (kernel_interface_t *this, chunk_t dst_net,
uint8_t prefixlen, host_t *gateway, host_t *src_ip,
char *if_name);
/**
* Delete a route.
*
* @param dst_net destination net
* @param prefixlen destination net prefix length
* @param gateway gateway for this route
* @param src_ip source ip of the route
* @param if_name name of the interface the route is bound to
* @return SUCCESS if operation completed
*/
status_t (*del_route) (kernel_interface_t *this, chunk_t dst_net,
uint8_t prefixlen, host_t *gateway, host_t *src_ip,
char *if_name);
/**
* Set up a bypass policy for a given socket.
*
* @param fd socket file descriptor to setup policy for
* @param family protocol family of the socket
* @return TRUE if policy set up successfully
*/
bool (*bypass_socket)(kernel_interface_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_interface_t *this, int fd, int family,
uint16_t port);
/**
* manager methods
*/
/**
* Verifies that the given interface is usable and not excluded by
* configuration.
*
* @param iface interface name
* @return TRUE if usable
*/
bool (*is_interface_usable)(kernel_interface_t *this, const char *iface);
/**
* Check if interfaces are excluded by config.
*
* @return TRUE if no interfaces are exclued by config
*/
bool (*all_interfaces_usable)(kernel_interface_t *this);
/**
* Tries to find an IP address of a local interface that is included in the
* supplied traffic selector.
*
* @param ts traffic selector
* @param ip returned IP address (has to be destroyed)
* @param vip set to TRUE if returned address is a virtual IP
* @return SUCCESS if address found
*/
status_t (*get_address_by_ts)(kernel_interface_t *this,
traffic_selector_t *ts, host_t **ip, bool *vip);
/**
* Register an ipsec kernel interface constructor on the manager.
*
* @param create constructor to register
* @return TRUE if the ipsec kernel interface was registered
* successfully, FALSE if an interface was already
* registered or the registration failed
*/
bool (*add_ipsec_interface)(kernel_interface_t *this,
kernel_ipsec_constructor_t create);
/**
* Unregister an ipsec kernel interface constructor.
*
* @param create constructor to unregister
* @return TRUE if the ipsec kernel interface was unregistered
* successfully, FALSE otherwise
*/
bool (*remove_ipsec_interface)(kernel_interface_t *this,
kernel_ipsec_constructor_t create);
/**
* Register a network kernel interface constructor on the manager.
*
* @param create constructor to register
* @return TRUE if the kernel net interface was registered
* successfully, FALSE if an interface was already
* registered or the registration failed
*/
bool (*add_net_interface)(kernel_interface_t *this,
kernel_net_constructor_t create);
/**
* Unregister a network kernel interface constructor.
*
* @param create constructor to unregister
* @return TRUE if the kernel net interface was unregistered
* successfully, FALSE otherwise
*/
bool (*remove_net_interface)(kernel_interface_t *this,
kernel_net_constructor_t create);
/**
* Add a listener to the kernel interface.
*
* @param listener listener to add
*/
void (*add_listener)(kernel_interface_t *this,
kernel_listener_t *listener);
/**
* Remove a listener from the kernel interface.
*
* @param listener listener to remove
*/
void (*remove_listener)(kernel_interface_t *this,
kernel_listener_t *listener);
/**
* Raise an acquire event.
*
* @param reqid reqid of the policy to acquire
* @param src_ts source traffic selector
* @param dst_ts destination traffic selector
*/
void (*acquire)(kernel_interface_t *this, uint32_t reqid,
traffic_selector_t *src_ts, traffic_selector_t *dst_ts);
/**
* Raise an expire event.
*
* @param protocol protocol of the expired SA
* @param spi spi of the expired SA
* @param dst destination address of expired SA
* @param hard TRUE if it is a hard expire, FALSE otherwise
*/
void (*expire)(kernel_interface_t *this, uint8_t protocol, uint32_t spi,
host_t *dst, bool hard);
/**
* Raise a mapping event.
*
* @param protocol protocol of affected SA
* @param spi spi of the SA
* @param dst original destination address of SA
* @param remote new remote host
*/
void (*mapping)(kernel_interface_t *this, uint8_t protocol, uint32_t spi,
host_t *dst, host_t *remote);
/**
* Raise a migrate event.
*
* @param reqid reqid of the policy
* @param src_ts source traffic selector
* @param dst_ts destination traffic selector
* @param direction direction of the policy (in|out)
* @param local local host address to be used in the IKE_SA
* @param remote remote host address to be used in the IKE_SA
*/
void (*migrate)(kernel_interface_t *this, uint32_t reqid,
traffic_selector_t *src_ts, traffic_selector_t *dst_ts,
policy_dir_t direction, host_t *local, host_t *remote);
/**
* Raise a roam event.
*
* @param address TRUE if address list, FALSE if routing changed
*/
void (*roam)(kernel_interface_t *this, bool address);
/**
* Raise a tun event.
*
* @param tun TUN device
* @param created TRUE if created, FALSE if going to be destroyed
*/
void (*tun)(kernel_interface_t *this, tun_device_t *tun, bool created);
/**
* Register a new algorithm with the kernel interface.
*
* @param alg_id the IKE id of the algorithm
* @param type the transform type of the algorithm
* @param kernel_id the kernel id of the algorithm
* @param kernel_name the kernel name of the algorithm
*/
void (*register_algorithm)(kernel_interface_t *this, uint16_t alg_id,
transform_type_t type, uint16_t kernel_id,
char *kernel_name);
/**
* Return the kernel-specific id and/or name for an algorithms depending on
* the arguments specified.
*
* @param alg_id the IKE id of the algorithm
* @param type the transform type of the algorithm
* @param kernel_id the kernel id of the algorithm (optional)
* @param kernel_name the kernel name of the algorithm (optional)
* @return TRUE if algorithm was found
*/
bool (*lookup_algorithm)(kernel_interface_t *this, uint16_t alg_id,
transform_type_t type, uint16_t *kernel_id,
char **kernel_name);
/**
* Destroys a kernel_interface_t object.
*/
void (*destroy) (kernel_interface_t *this);
};
/**
* Creates an object of type kernel_interface_t.
*/
kernel_interface_t *kernel_interface_create(void);
#endif /** KERNEL_INTERFACE_H_ @}*/
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