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/*
* Copyright (C) 2006-2014 Tobias Brunner
* Copyright (C) 2005-2009 Martin Willi
* Copyright (C) 2006 Daniel Roethlisberger
* 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 message message
* @{ @ingroup encoding
*/
#ifndef MESSAGE_H_
#define MESSAGE_H_
typedef struct message_t message_t;
#include <library.h>
#include <encoding/payloads/ike_header.h>
#include <encoding/payloads/notify_payload.h>
#include <sa/keymat.h>
#include <sa/ike_sa_id.h>
#include <networking/packet.h>
#include <collections/linked_list.h>
/**
* This class is used to represent an IKE-Message.
*
* The message handles parsing and generation of payloads
* via parser_t/generator_t. Encryption is done transparently
* via the encrypted_payload_t. A set of rules for messages
* and payloads does check parsed messages.
*/
struct message_t {
/**
* Sets the IKE major version of the message.
*
* @param major_version major version to set
*/
void (*set_major_version) (message_t *this, u_int8_t major_version);
/**
* Gets the IKE major version of the message.
*
* @return major version of the message
*/
u_int8_t (*get_major_version) (message_t *this);
/**
* Sets the IKE minor version of the message.
*
* @param minor_version minor version to set
*/
void (*set_minor_version) (message_t *this, u_int8_t minor_version);
/**
* Gets the IKE minor version of the message.
*
* @return minor version of the message
*/
u_int8_t (*get_minor_version) (message_t *this);
/**
* Sets the Message ID of the message.
*
* @param message_id message_id to set
*/
void (*set_message_id) (message_t *this, u_int32_t message_id);
/**
* Gets the Message ID of the message.
*
* @return message_id type of the message
*/
u_int32_t (*get_message_id) (message_t *this);
/**
* Gets the initiator SPI of the message.
*
* @return initiator spi of the message
*/
u_int64_t (*get_initiator_spi) (message_t *this);
/**
* Gets the responder SPI of the message.
*
* @return responder spi of the message
*/
u_int64_t (*get_responder_spi) (message_t *this);
/**
* Sets the IKE_SA ID of the message.
*
* ike_sa_id gets cloned.
*
* @param ike_sa_id ike_sa_id to set
*/
void (*set_ike_sa_id) (message_t *this, ike_sa_id_t *ike_sa_id);
/**
* Gets the IKE_SA ID of the message.
*
* The ike_sa_id points to the message internal id, do not modify.
*
* @return ike_sa_id of message
*/
ike_sa_id_t *(*get_ike_sa_id) (message_t *this);
/**
* Sets the exchange type of the message.
*
* @param exchange_type exchange_type to set
*/
void (*set_exchange_type) (message_t *this, exchange_type_t exchange_type);
/**
* Gets the exchange type of the message.
*
* @return exchange type of the message
*/
exchange_type_t (*get_exchange_type) (message_t *this);
/**
* Gets the payload type of the first payload.
*
* @return payload type of the first payload
*/
payload_type_t (*get_first_payload_type) (message_t *this);
/**
* Sets the request flag.
*
* @param request TRUE if message is a request, FALSE if it is a reply
*/
void (*set_request) (message_t *this, bool request);
/**
* Gets request flag.
*
* @return TRUE if message is a request, FALSE if it is a reply
*/
bool (*get_request) (message_t *this);
/**
* Set the version flag in the IKE header.
*/
void (*set_version_flag)(message_t *this);
/**
* Get a reserved bit in the IKE header.
*
* @param nr reserved bit to get in IKE header, 0-4
* @return TRUE if bit is set
*/
bool (*get_reserved_header_bit)(message_t *this, u_int nr);
/**
* Set a reserved bit in the IKE header.
*
* @param nr reserved bit to set in IKE header, 0-4
*/
void (*set_reserved_header_bit)(message_t *this, u_int nr);
/**
* Append a payload to the message.
*
* If the payload must be encrypted is not specified here. Encryption
* of payloads is evaluated via internal rules for the messages and
* is done before generation. The order of payloads may change, since
* all payloads to encrypt are added to the encryption payload, which is
* always the last one.
*
* @param payload payload to append
*/
void (*add_payload) (message_t *this, payload_t *payload);
/**
* Build a notify payload and add it to the message.
*
* This is a helper method to create notify messages or add
* notify payload to messages. The flush parameter specifies if existing
* payloads should get removed before appending the notify.
*
* @param flush TRUE to remove existing payloads
* @param type type of the notify
* @param data a chunk of data to add to the notify, gets cloned
*/
void (*add_notify) (message_t *this, bool flush, notify_type_t type,
chunk_t data);
/**
* Disable automatic payload sorting for this message.
*/
void (*disable_sort)(message_t *this);
/**
* Parses header of message.
*
* Begins parsing of a message created via message_create_from_packet().
* The parsing context is stored, so a subsequent call to parse_body()
* will continue the parsing process.
*
* @return
* - SUCCESS if header could be parsed
* - PARSE_ERROR if corrupted/invalid data found
* - FAILED if consistency check of header failed
*/
status_t (*parse_header) (message_t *this);
/**
* Parses body of message.
*
* The body gets not only parsed, but rather it gets verified.
* All payloads are verified if they are allowed to exist in the message
* of this type and if their own structure is ok.
* If there are encrypted payloads, they get decrypted and verified using
* the given aead transform (if given).
*
* @param keymat keymat to verify/decrypt message
* @return
* - SUCCESS if parsing successful
* - PARSE_ERROR if message parsing failed
* - VERIFY_ERROR if message verification failed (bad syntax)
* - FAILED if integrity check failed
* - INVALID_STATE if aead not supplied, but needed
*/
status_t (*parse_body) (message_t *this, keymat_t *keymat);
/**
* Generates the UDP packet of specific message.
*
* Payloads which must be encrypted are generated first and added to
* an encryption payload. This encryption payload will get encrypted and
* signed via the supplied aead transform (if given).
* Generation is only done once, multiple calls will just return a copy
* of the packet.
*
* @param keymat keymat to encrypt/sign message
* @param packet copy of generated packet
* @return
* - SUCCESS if packet could be generated
* - INVALID_STATE if exchange type is currently not set
* - NOT_FOUND if no rules found for message generation
* - INVALID_STATE if aead not supplied but needed.
*/
status_t (*generate) (message_t *this, keymat_t *keymat, packet_t **packet);
/**
* Check if the message has already been encoded using generate().
*
* @return TRUE if message has been encoded
*/
bool (*is_encoded)(message_t *this);
/**
* Generates the message split into fragments of the given size (total IP
* datagram length).
*
* @param keymat keymat to encrypt/sign message(s)
* @param frag_len fragment length (maximum total IP datagram length), 0
* for default value depending on address family
* @param fragments receives an enumerator with generated packet_t*,
* which are owned by the enumerator
* @return
* - SUCCESS if message could be fragmented
* - FAILED if fragmentation failed
* - and the possible return values of generate()
*/
status_t (*fragment)(message_t *this, keymat_t *keymat, size_t frag_len,
enumerator_t **fragments);
/**
* Check if the message has been encoded and fragmented using fragment(),
* and whether there actually resulted fragments (if not is_encoded() will
* be TRUE).
*
* The packets of individual fragments can be retrieved with
* get_fragments().
*
* @return TRUE if message has been encoded and fragmented
*/
bool (*is_fragmented)(message_t *this);
/**
* Add a fragment to the message if it was created with
* message_create_defrag().
*
* Once the message is completed it should be processed like any other
* inbound message.
*
* @param fragment fragment to add
* @return
* - SUCCESS if message was reassembled
* - NEED_MORE if not all fragments have yet been received
* - FAILED if reassembling failed
* - INVALID_ARG if fragment is invalid for some reason
* - INVALID_STATE if message was not created using
* message_create_defrag()
*/
status_t (*add_fragment)(message_t *this, message_t *fragment);
/**
* Gets the source host informations.
*
* @warning Returned host_t object is not getting cloned,
* do not destroy nor modify.
*
* @return host_t object representing source host
*/
host_t * (*get_source) (message_t *this);
/**
* Sets the source host informations.
*
* @warning host_t object is not getting cloned and gets destroyed by
* message_t.destroy or next call of message_t.set_source.
*
* @param host host_t object representing source host
*/
void (*set_source) (message_t *this, host_t *host);
/**
* Gets the destination host informations.
*
* @warning Returned host_t object is not getting cloned,
* do not destroy nor modify.
*
* @return host_t object representing destination host
*/
host_t * (*get_destination) (message_t *this);
/**
* Sets the destination host informations.
*
* @warning host_t object is not getting cloned and gets destroyed by
* message_t.destroy or next call of message_t.set_destination.
*
* @param host host_t object representing destination host
*/
void (*set_destination) (message_t *this, host_t *host);
/**
* Create an enumerator over all payloads.
*
* @return enumerator over payload_t
*/
enumerator_t * (*create_payload_enumerator) (message_t *this);
/**
* Remove the payload at the current enumerator position.
*
* @param enumerator enumerator created by create_payload_enumerator()
*/
void (*remove_payload_at)(message_t *this, enumerator_t *enumerator);
/**
* Find a payload of a specific type.
*
* Returns the first occurrence.
*
* @param type type of the payload to find
* @return payload, or NULL if no such payload found
*/
payload_t* (*get_payload) (message_t *this, payload_type_t type);
/**
* Get the first notify payload of a specific type.
*
* @param type type of notification payload
* @return notify payload, NULL if no such notify found
*/
notify_payload_t* (*get_notify)(message_t *this, notify_type_t type);
/**
* Returns a clone of the internally stored packet_t object.
*
* @return packet_t object as clone of internal one
*/
packet_t *(*get_packet) (message_t *this);
/**
* Returns a chunk pointing to internal packet_t data.
*
* @return packet data.
*/
chunk_t (*get_packet_data) (message_t *this);
/**
* Returns internally stored packet_t* objects for each fragment.
*
* @return enumerator internal packet_t* objects
*/
enumerator_t *(*get_fragments)(message_t *this);
/**
* Destroys a message and all including objects.
*/
void (*destroy) (message_t *this);
};
/**
* Creates a message_t object from an incoming UDP packet.
*
* The given packet gets owned by the message. The message is uninitialized,
* call parse_header() to populate header fields.
*
* @param packet packet_t object which is assigned to message
* @return message_t object
*/
message_t *message_create_from_packet(packet_t *packet);
/**
* Creates an empty message_t object for a specific major/minor version.
*
* - exchange_type is set to NOT_SET
* - original_initiator is set to TRUE
* - is_request is set to TRUE
*
* @param major major IKE version of this message
* @param minor minor IKE version of this message
* @return message_t object
*/
message_t *message_create(int major, int minor);
/**
* Creates a message_t object that is used to reassemble fragmented messages.
*
* Use add_fragment() to add fragments.
*
* @param fragment initial fragment (is not added)
* @return message_t object, NULL if fragment is not actually one
*/
message_t *message_create_defrag(message_t *fragment);
#endif /** MESSAGE_H_ @}*/
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