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/*
* Copyright (C) 2007 Tobias Brunner
* 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.
*
* $Id: traffic_selector.h 4860 2009-02-11 13:09:52Z martin $
*/
/**
* @defgroup traffic_selector traffic_selector
* @{ @ingroup config
*/
#ifndef TRAFFIC_SELECTOR_H_
#define TRAFFIC_SELECTOR_H_
typedef enum ts_type_t ts_type_t;
typedef struct traffic_selector_t traffic_selector_t;
#include <library.h>
#include <utils/host.h>
/**
* Traffic selector types.
*/
enum ts_type_t {
/**
* A range of IPv4 addresses, represented by two four (4) octet
* values. The first value is the beginning IPv4 address
* (inclusive) and the second value is the ending IPv4 address
* (inclusive). All addresses falling between the two specified
* addresses are considered to be within the list.
*/
TS_IPV4_ADDR_RANGE = 7,
/**
* A range of IPv6 addresses, represented by two sixteen (16)
* octet values. The first value is the beginning IPv6 address
* (inclusive) and the second value is the ending IPv6 address
* (inclusive). All addresses falling between the two specified
* addresses are considered to be within the list.
*/
TS_IPV6_ADDR_RANGE = 8
};
/**
* enum names for ts_type_t
*/
extern enum_name_t *ts_type_name;
/**
* Object representing a traffic selector entry.
*
* A traffic selector defines an range of addresses
* and a range of ports. IPv6 is not fully supported yet.
*/
struct traffic_selector_t {
/**
* Compare two traffic selectors, and create a new one
* which is the largest subset of both (subnet & port).
*
* Resulting traffic_selector is newly created and must be destroyed.
*
* @param other traffic selector to compare
* @return
* - created subset of them
* - or NULL if no match between this and other
*/
traffic_selector_t *(*get_subset) (traffic_selector_t *this,
traffic_selector_t *other);
/**
* Clone a traffic selector.
*
* @return clone of it
*/
traffic_selector_t *(*clone) (traffic_selector_t *this);
/**
* Get starting address of this ts as a chunk.
*
* Chunk is in network order and points to internal data.
*
* @return chunk containing the address
*/
chunk_t (*get_from_address) (traffic_selector_t *this);
/**
* Get ending address of this ts as a chunk.
*
* Chunk is in network order and points to internal data.
*
* @return chunk containing the address
*/
chunk_t (*get_to_address) (traffic_selector_t *this);
/**
* Get starting port of this ts.
*
* Port is in host order, since the parser converts it.
* Size depends on protocol.
*
* @return port
*/
u_int16_t (*get_from_port) (traffic_selector_t *this);
/**
* Get ending port of this ts.
*
* Port is in host order, since the parser converts it.
* Size depends on protocol.
*
* @return port
*/
u_int16_t (*get_to_port) (traffic_selector_t *this);
/**
* Get the type of the traffic selector.
*
* @return ts_type_t specifying the type
*/
ts_type_t (*get_type) (traffic_selector_t *this);
/**
* Get the protocol id of this ts.
*
* @return protocol id
*/
u_int8_t (*get_protocol) (traffic_selector_t *this);
/**
* Check if the traffic selector is for a single host.
*
* Traffic selector may describe the end of *-to-host tunnel. In this
* case, the address range is a single address equal to the hosts
* peer address.
* If host is NULL, the traffic selector is checked if it is a single host,
* but not a specific one.
*
* @param host host_t specifying the address range
*/
bool (*is_host) (traffic_selector_t *this, host_t* host);
/**
* Check if a traffic selector has been created by create_dynamic().
*
* @return TRUE if TS is dynamic
*/
bool (*is_dynamic)(traffic_selector_t *this);
/**
* Update the address of a traffic selector.
*
* Update the address range of a traffic selector, if it is
* constructed with the traffic_selector_create_dynamic().
*
* @param host host_t specifying the address
*/
void (*set_address) (traffic_selector_t *this, host_t* host);
/**
* Compare two traffic selectors for equality.
*
* @param other ts to compare with this
* @return TRUE if equal, FALSE otherwise
*/
bool (*equals) (traffic_selector_t *this, traffic_selector_t *other);
/**
* Check if a traffic selector is contained completly in another.
*
* contains() allows to check if multiple traffic selectors are redundant.
*
* @param other ts that contains this
* @return TRUE if other contains this completly, FALSE otherwise
*/
bool (*is_contained_in) (traffic_selector_t *this, traffic_selector_t *other);
/**
* Check if a specific host is included in the address range of
* this traffic selector.
*
* @param host the host to check
*/
bool (*includes) (traffic_selector_t *this, host_t *host);
/**
* Convert a traffic selector address range to a subnet
* and its net mask.
* If from and to ports of this traffic selector are equal,
* the port of the returned host_t is set to that port.
*
* @param net converted subnet (has to be freed)
* @param mask converted net mask
*/
void (*to_subnet) (traffic_selector_t *this, host_t **net, u_int8_t *mask);
/**
* Destroys the ts object
*/
void (*destroy) (traffic_selector_t *this);
};
/**
* Create a new traffic selector using human readable params.
*
* @param protocol protocol for this ts, such as TCP or UDP
* @param type type of following addresses, such as TS_IPV4_ADDR_RANGE
* @param from_addr start of address range as string
* @param from_port port number in host order
* @param to_addr end of address range as string
* @param to_port port number in host order
* @return
* - traffic_selector_t object
* - NULL if invalid address strings/protocol
*/
traffic_selector_t *traffic_selector_create_from_string(
u_int8_t protocol, ts_type_t type,
char *from_addr, u_int16_t from_port,
char *to_addr, u_int16_t to_port);
/**
* Create a new traffic selector using data read from the net.
*
* There exists a mix of network and host order in the params.
* But the parser gives us this data in this format, so we
* don't have to convert twice.
*
* @param protocol protocol for this ts, such as TCP or UDP
* @param type type of following addresses, such as TS_IPV4_ADDR_RANGE
* @param from_address start of address range, network order
* @param from_port port number, host order
* @param to_address end of address range, network order
* @param to_port port number, host order
* @return traffic_selector_t object
*/
traffic_selector_t *traffic_selector_create_from_bytes(
u_int8_t protocol, ts_type_t type,
chunk_t from_address, u_int16_t from_port,
chunk_t to_address, u_int16_t to_port);
/**
* Create a new traffic selector defining a whole subnet.
*
* In most cases, definition of a traffic selector for full subnets
* is sufficient. This constructor creates a traffic selector for
* all protocols, all ports and the address range specified by the
* subnet.
* Additionally, a protocol and a port may be specified. Port ranges
* are not supported via this constructor.
*
* @param net subnet to use
* @param netbits size of the subnet, as used in e.g. 192.168.0.0/24 notation
* @return
* - traffic_selector_t object
* - NULL if address family of net not supported
*/
traffic_selector_t *traffic_selector_create_from_subnet(
host_t *net, u_int8_t netbits,
u_int8_t protocol, u_int16_t port);
/**
* Create a traffic selector for host-to-host cases.
*
* For host2host or virtual IP setups, the traffic selectors gets
* created at runtime using the external/virtual IP. Using this constructor,
* a call to set_address() sets this traffic selector to the supplied host.
*
*
* @param protocol upper layer protocl to allow
* @param from_port start of allowed port range
* @param to_port end of range
* @return
* - traffic_selector_t object
* - NULL if type not supported
*/
traffic_selector_t *traffic_selector_create_dynamic(u_int8_t protocol,
u_int16_t from_port, u_int16_t to_port);
/**
* Get printf hooks for a traffic selector.
*
* Arguments are:
* traffic_selector_t *ts
* With the #-specifier, arguments are:
* linked_list_t *list containing traffic_selector_t*
*/
printf_hook_functions_t traffic_selector_get_printf_hooks();
#endif /* TRAFFIC_SELECTOR_H_ @} */
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