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|
/**
* @file sa_payload.c
*
* @brief Implementation of sa_payload_t.
*
*/
/*
* Copyright (C) 2005 Jan Hutter, Martin Willi
* 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.
*/
/* offsetof macro */
#include <stddef.h>
#include "sa_payload.h"
#include <encoding/payloads/encodings.h>
#include <utils/allocator.h>
#include <utils/linked_list.h>
typedef struct private_sa_payload_t private_sa_payload_t;
/**
* Private data of an sa_payload_t object.
*
*/
struct private_sa_payload_t {
/**
* Public sa_payload_t interface.
*/
sa_payload_t public;
/**
* Next payload type.
*/
u_int8_t next_payload;
/**
* Critical flag.
*/
bool critical;
/**
* Length of this payload.
*/
u_int16_t payload_length;
/**
* Proposals in this payload are stored in a linked_list_t.
*/
linked_list_t * proposals;
/**
* @brief Computes the length of this payload.
*
* @param this calling private_sa_payload_t object
*/
void (*compute_length) (private_sa_payload_t *this);
};
/**
* Encoding rules to parse or generate a IKEv2-SA Payload
*
* The defined offsets are the positions in a object of type
* private_sa_payload_t.
*
*/
encoding_rule_t sa_payload_encodings[] = {
/* 1 Byte next payload type, stored in the field next_payload */
{ U_INT_8, offsetof(private_sa_payload_t, next_payload) },
/* the critical bit */
{ FLAG, offsetof(private_sa_payload_t, critical) },
/* 7 Bit reserved bits, nowhere stored */
{ RESERVED_BIT, 0 },
{ RESERVED_BIT, 0 },
{ RESERVED_BIT, 0 },
{ RESERVED_BIT, 0 },
{ RESERVED_BIT, 0 },
{ RESERVED_BIT, 0 },
{ RESERVED_BIT, 0 },
/* Length of the whole SA payload*/
{ PAYLOAD_LENGTH, offsetof(private_sa_payload_t, payload_length) },
/* Proposals are stored in a proposal substructure,
offset points to a linked_list_t pointer */
{ PROPOSALS, offsetof(private_sa_payload_t, proposals) }
};
/*
1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
! Next Payload !C! RESERVED ! Payload Length !
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
! !
~ <Proposals> ~
! !
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
*/
/**
* Implementation of payload_t.verify.
*/
static status_t verify(private_sa_payload_t *this)
{
int proposal_number = 1;
status_t status = SUCCESS;
iterator_t *iterator;
bool first = TRUE;
if (this->critical)
{
/* critical bit set! */
return FAILED;
}
/* check proposal numbering */
iterator = this->proposals->create_iterator(this->proposals,TRUE);
while(iterator->has_next(iterator))
{
proposal_substructure_t *current_proposal;
iterator->current(iterator,(void **)¤t_proposal);
if (current_proposal->get_proposal_number(current_proposal) > proposal_number)
{
if (first)
{
/* first number must be 1 */
status = FAILED;
break;
}
if (current_proposal->get_proposal_number(current_proposal) != (proposal_number + 1))
{
/* must be only one more then previous proposal */
status = FAILED;
break;
}
}
else if (current_proposal->get_proposal_number(current_proposal) < proposal_number)
{
iterator->destroy(iterator);
/* must not be smaller then proceeding one */
status = FAILED;
break;
}
status = current_proposal->payload_interface.verify(&(current_proposal->payload_interface));
if (status != SUCCESS)
{
break;
}
first = FALSE;
}
iterator->destroy(iterator);
return status;
}
/**
* Implementation of payload_t.destroy and sa_payload_t.destroy.
*/
static status_t destroy(private_sa_payload_t *this)
{
/* all proposals are getting destroyed */
while (this->proposals->get_count(this->proposals) > 0)
{
proposal_substructure_t *current_proposal;
this->proposals->remove_last(this->proposals,(void **)¤t_proposal);
current_proposal->destroy(current_proposal);
}
this->proposals->destroy(this->proposals);
allocator_free(this);
return SUCCESS;
}
/**
* Implementation of payload_t.get_encoding_rules.
*/
static void get_encoding_rules(private_sa_payload_t *this, encoding_rule_t **rules, size_t *rule_count)
{
*rules = sa_payload_encodings;
*rule_count = sizeof(sa_payload_encodings) / sizeof(encoding_rule_t);
}
/**
* Implementation of payload_t.get_type.
*/
static payload_type_t get_type(private_sa_payload_t *this)
{
return SECURITY_ASSOCIATION;
}
/**
* Implementation of payload_t.get_next_type.
*/
static payload_type_t get_next_type(private_sa_payload_t *this)
{
return (this->next_payload);
}
/**
* Implementation of payload_t.set_next_type.
*/
static void set_next_type(private_sa_payload_t *this,payload_type_t type)
{
this->next_payload = type;
}
/**
* Implementation of payload_t.get_length.
*/
static size_t get_length(private_sa_payload_t *this)
{
this->compute_length(this);
return this->payload_length;
}
/**
* Implementation of sa_payload_t.create_proposal_substructure_iterator.
*/
static iterator_t *create_proposal_substructure_iterator (private_sa_payload_t *this,bool forward)
{
return this->proposals->create_iterator(this->proposals,forward);
}
/**
* Implementation of sa_payload_t.add_proposal_substructure.
*/
static void add_proposal_substructure (private_sa_payload_t *this,proposal_substructure_t *proposal)
{
status_t status;
if (this->proposals->get_count(this->proposals) > 0)
{
proposal_substructure_t *last_proposal;
status = this->proposals->get_last(this->proposals,(void **) &last_proposal);
/* last transform is now not anymore last one */
last_proposal->set_is_last_proposal(last_proposal,FALSE);
}
proposal->set_is_last_proposal(proposal,TRUE);
this->proposals->insert_last(this->proposals,(void *) proposal);
this->compute_length(this);
}
/**
* Implementation of sa_payload_t.add_child_proposal.
*/
static void add_child_proposal(private_sa_payload_t *this, child_proposal_t *proposal)
{
proposal_substructure_t *substructure;
protocol_id_t proto;
/* watch out to build the substructures in the right order */
proto = proposal->get_first_protocol(proposal);
if (proto != AH && proto != ESP)
{
return;
}
substructure = proposal_substructure_create_from_child_proposal(proposal, proto);
add_proposal_substructure(this, substructure);
/* first is done, now do the (possible) other */
proto = proposal->get_second_protocol(proposal);
if (proto != AH && proto != ESP)
{
return;
}
substructure = proposal_substructure_create_from_child_proposal(proposal, proto);
add_proposal_substructure(this, substructure);
}
/**
* Implementation of sa_payload_t.get_ike_proposals.
*/
static status_t get_ike_proposals (private_sa_payload_t *this,ike_proposal_t ** proposals, size_t *proposal_count)
{
int found_ike_proposals = 0;
int current_proposal_number = 0;
iterator_t *iterator;
ike_proposal_t *tmp_proposals;
iterator = this->proposals->create_iterator(this->proposals,TRUE);
/* first find out the number of ike proposals and check their number of transforms and
* if the SPI is empty!*/
while (iterator->has_next(iterator))
{
proposal_substructure_t *current_proposal;
iterator->current(iterator,(void **)&(current_proposal));
if (current_proposal->get_protocol_id(current_proposal) == IKE)
{
/* a ike proposal consists of an empty spi*/
if (current_proposal->get_spi_size(current_proposal) != 0)
{
iterator->destroy(iterator);
return FAILED;
}
found_ike_proposals++;
}
}
iterator->reset(iterator);
if (found_ike_proposals == 0)
{
iterator->destroy(iterator);
return NOT_FOUND;
}
/* allocate memory to hold each proposal as ike_proposal_t */
tmp_proposals = allocator_alloc(found_ike_proposals * sizeof(ike_proposal_t));
/* create from each proposal_substructure a ike_proposal_t data area*/
while (iterator->has_next(iterator))
{
proposal_substructure_t *current_proposal;
iterator->current(iterator,(void **)&(current_proposal));
if (current_proposal->get_protocol_id(current_proposal) == IKE)
{
bool encryption_algorithm_found = FALSE;
bool integrity_algorithm_found = FALSE;
bool pseudo_random_function_found = FALSE;
bool diffie_hellman_group_found = FALSE;
status_t status;
iterator_t *transforms;
transforms = current_proposal->create_transform_substructure_iterator(current_proposal,TRUE);
while (transforms->has_next(transforms))
{
transform_substructure_t *current_transform;
transforms->current(transforms,(void **)&(current_transform));
switch (current_transform->get_transform_type(current_transform))
{
case ENCRYPTION_ALGORITHM:
{
tmp_proposals[current_proposal_number].encryption_algorithm = current_transform->get_transform_id(current_transform);
status = current_transform->get_key_length(current_transform,&(tmp_proposals[current_proposal_number].encryption_algorithm_key_length));
if (status == SUCCESS)
{
encryption_algorithm_found = TRUE;
}
break;
}
case INTEGRITY_ALGORITHM:
{
tmp_proposals[current_proposal_number].integrity_algorithm = current_transform->get_transform_id(current_transform);
status = current_transform->get_key_length(current_transform,&(tmp_proposals[current_proposal_number].integrity_algorithm_key_length));
if (status == SUCCESS)
{
integrity_algorithm_found = TRUE;
}
break;
}
case PSEUDO_RANDOM_FUNCTION:
{
tmp_proposals[current_proposal_number].pseudo_random_function = current_transform->get_transform_id(current_transform);
status = current_transform->get_key_length(current_transform,&(tmp_proposals[current_proposal_number].pseudo_random_function_key_length));
if (status == SUCCESS)
{
pseudo_random_function_found = TRUE;
}
break;
}
case DIFFIE_HELLMAN_GROUP:
{
tmp_proposals[current_proposal_number].diffie_hellman_group = current_transform->get_transform_id(current_transform);
diffie_hellman_group_found = TRUE;
break;
}
default:
{
/* not a transform of an ike proposal. Break here */
break;
}
}
}
transforms->destroy(transforms);
if ((!encryption_algorithm_found) ||
(!integrity_algorithm_found) ||
(!pseudo_random_function_found) ||
(!diffie_hellman_group_found))
{
/* one of needed transforms could not be found */
iterator->reset(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
current_proposal_number++;
}
}
iterator->destroy(iterator);
*proposals = tmp_proposals;
*proposal_count = found_ike_proposals;
return SUCCESS;
}
/**
* Implementation of sa_payload_t.get_child_proposals.
*/
static status_t get_child_proposals (private_sa_payload_t *this,child_proposal_t ** proposals, size_t *proposal_count)
{
int found_child_proposals = 0;
int found_suites = 1;
int current_suite_number = 0;
iterator_t *iterator;
child_proposal_t *tmp_proposals;
iterator = this->proposals->create_iterator(this->proposals,TRUE);
/* first find out the number of child proposals and check their number of transforms and
* if the SPI is 4 byte long!*/
current_suite_number = 1;
while (iterator->has_next(iterator))
{
proposal_substructure_t *current_proposal;
iterator->current(iterator,(void **)&(current_proposal));
if ((current_proposal->get_protocol_id(current_proposal) == AH) ||
(current_proposal->get_protocol_id(current_proposal) == ESP))
{
if (current_proposal->get_spi_size(current_proposal) != 4)
{
iterator->destroy(iterator);
return FAILED;
}
if (current_proposal->get_proposal_number(current_proposal) == (current_suite_number + 1))
{
found_suites++;
current_suite_number = current_proposal->get_proposal_number(current_proposal);
}
found_child_proposals++;
}
}
iterator->reset(iterator);
if (found_child_proposals == 0)
{
iterator->destroy(iterator);
return NOT_FOUND;
}
/* allocate memory to hold each proposal as child_proposal_t */
tmp_proposals = allocator_alloc(found_child_proposals * sizeof(child_proposal_t));
current_suite_number = 1;
tmp_proposals[current_suite_number - 1].ah.extended_sequence_numbers = NO_EXT_SEQ_NUMBERS;
tmp_proposals[current_suite_number - 1].ah.diffie_hellman_group = MODP_UNDEFINED;
tmp_proposals[current_suite_number - 1].ah.integrity_algorithm = AUTH_UNDEFINED;
tmp_proposals[current_suite_number - 1].ah.is_set = FALSE;
tmp_proposals[current_suite_number - 1].esp.integrity_algorithm = AUTH_UNDEFINED;
tmp_proposals[current_suite_number - 1].esp.diffie_hellman_group = MODP_UNDEFINED;
tmp_proposals[current_suite_number - 1].esp.extended_sequence_numbers = NO_EXT_SEQ_NUMBERS;
tmp_proposals[current_suite_number - 1].esp.is_set = FALSE;
/* create from each proposal_substructure a child_proposal_t data area*/
while (iterator->has_next(iterator))
{
proposal_substructure_t *current_proposal;
iterator->current(iterator,(void **)&(current_proposal));
if (current_proposal->get_proposal_number(current_proposal) == (current_suite_number + 1))
{
current_suite_number++;
if (current_suite_number > found_suites)
{
/* inconsistent situation */
return FAILED;
}
tmp_proposals[current_suite_number - 1].ah.extended_sequence_numbers = NO_EXT_SEQ_NUMBERS;
tmp_proposals[current_suite_number - 1].ah.diffie_hellman_group = MODP_UNDEFINED;
tmp_proposals[current_suite_number - 1].esp.integrity_algorithm = AUTH_UNDEFINED;
tmp_proposals[current_suite_number - 1].esp.diffie_hellman_group = MODP_UNDEFINED;
tmp_proposals[current_suite_number - 1].esp.extended_sequence_numbers = NO_EXT_SEQ_NUMBERS;
}
if (current_proposal->get_protocol_id(current_proposal) == AH)
{
bool integrity_algorithm_found = FALSE;
bool diffie_hellman_group_found = FALSE;
bool extended_sequence_numbers_found = FALSE;
iterator_t *transforms;
status_t status;
chunk_t spi;
tmp_proposals[current_suite_number - 1].ah.is_set = TRUE;
spi = current_proposal->get_spi(current_proposal);
memcpy(tmp_proposals[current_suite_number - 1].ah.spi,spi.ptr,min(spi.len,4));
transforms = current_proposal->create_transform_substructure_iterator(current_proposal,TRUE);
while (transforms->has_next(transforms))
{
transform_substructure_t *current_transform;
transforms->current(transforms,(void **)&(current_transform));
switch (current_transform->get_transform_type(current_transform))
{
case INTEGRITY_ALGORITHM:
{
u_int16_t key_size;
if (integrity_algorithm_found)
{
transforms->destroy(transforms);
iterator->destroy(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
tmp_proposals[current_suite_number - 1].ah.integrity_algorithm = current_transform->get_transform_id(current_transform);
status = current_transform->get_key_length(current_transform,&key_size);
tmp_proposals[current_suite_number - 1].ah.integrity_algorithm_key_size = key_size;
if (status == SUCCESS)
{
integrity_algorithm_found = TRUE;
}
break;
}
case EXTENDED_SEQUENCE_NUMBERS:
{
if (extended_sequence_numbers_found)
{
transforms->destroy(transforms);
iterator->destroy(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
tmp_proposals[current_suite_number - 1].ah.extended_sequence_numbers = current_transform->get_transform_id(current_transform);
extended_sequence_numbers_found = TRUE;
break;
}
case DIFFIE_HELLMAN_GROUP:
{
if (diffie_hellman_group_found)
{
transforms->destroy(transforms);
iterator->destroy(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
tmp_proposals[current_suite_number - 1].ah.diffie_hellman_group = current_transform->get_transform_id(current_transform);
diffie_hellman_group_found = TRUE;
break;
}
default:
{
/* not a transform of an child proposal. return here */
transforms->destroy(transforms);
iterator->destroy(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
}
}
transforms->destroy(transforms);
if (!integrity_algorithm_found)
{
/* one of needed transforms could not be found */
iterator->reset(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
}
else if (current_proposal->get_protocol_id(current_proposal) == ESP)
{
bool encryption_algorithm_found = FALSE;
bool integrity_algorithm_found = FALSE;
bool diffie_hellman_group_found = FALSE;
bool extended_sequence_numbers_found = FALSE;
iterator_t *transforms;
status_t status;
chunk_t spi;
spi = current_proposal->get_spi(current_proposal);
memcpy(tmp_proposals[current_suite_number - 1].esp.spi,spi.ptr,min(spi.len,4));
tmp_proposals[current_suite_number - 1].esp.is_set = TRUE;
transforms = current_proposal->create_transform_substructure_iterator(current_proposal,TRUE);
while (transforms->has_next(transforms))
{
transform_substructure_t *current_transform;
transforms->current(transforms,(void **)&(current_transform));
switch (current_transform->get_transform_type(current_transform))
{
case ENCRYPTION_ALGORITHM:
{
u_int16_t key_size;
if (encryption_algorithm_found)
{
transforms->destroy(transforms);
iterator->destroy(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
tmp_proposals[current_suite_number - 1].esp.encryption_algorithm = current_transform->get_transform_id(current_transform);
status = current_transform->get_key_length(current_transform,&key_size);
tmp_proposals[current_suite_number - 1].esp.encryption_algorithm_key_size = key_size;
if (status == SUCCESS)
{
encryption_algorithm_found = TRUE;
}
break;
}
case INTEGRITY_ALGORITHM:
{
u_int16_t key_size;
if (integrity_algorithm_found)
{
transforms->destroy(transforms);
iterator->destroy(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
tmp_proposals[current_suite_number - 1].esp.integrity_algorithm = current_transform->get_transform_id(current_transform);
status = current_transform->get_key_length(current_transform,&key_size);
tmp_proposals[current_suite_number - 1].esp.integrity_algorithm_key_size = key_size;
if (status == SUCCESS)
{
integrity_algorithm_found = TRUE;
}
break;
}
case EXTENDED_SEQUENCE_NUMBERS:
{
if (extended_sequence_numbers_found)
{
transforms->destroy(transforms);
iterator->destroy(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
tmp_proposals[current_suite_number - 1].esp.extended_sequence_numbers = current_transform->get_transform_id(current_transform);
extended_sequence_numbers_found = TRUE;
break;
}
case DIFFIE_HELLMAN_GROUP:
{
if (diffie_hellman_group_found)
{
transforms->destroy(transforms);
iterator->destroy(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
tmp_proposals[current_suite_number - 1].esp.diffie_hellman_group = current_transform->get_transform_id(current_transform);
diffie_hellman_group_found = TRUE;
break;
}
default:
{
/* not a transform of an child proposal. return here */
transforms->destroy(transforms);
iterator->destroy(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
}
}
transforms->destroy(transforms);
if (!encryption_algorithm_found)
{
/* one of needed transforms could not be found */
iterator->reset(iterator);
allocator_free(tmp_proposals);
return FAILED;
}
}
}
iterator->destroy(iterator);
*proposals = tmp_proposals;
*proposal_count = found_suites;
return SUCCESS;
}
/**
* Implementation of private_sa_payload_t.compute_length.
*/
static void compute_length (private_sa_payload_t *this)
{
iterator_t *iterator;
size_t length = SA_PAYLOAD_HEADER_LENGTH;
iterator = this->proposals->create_iterator(this->proposals,TRUE);
while (iterator->has_next(iterator))
{
payload_t *current_proposal;
iterator->current(iterator,(void **) ¤t_proposal);
length += current_proposal->get_length(current_proposal);
}
iterator->destroy(iterator);
this->payload_length = length;
}
/*
* Described in header.
*/
sa_payload_t *sa_payload_create()
{
private_sa_payload_t *this = allocator_alloc_thing(private_sa_payload_t);
/* public interface */
this->public.payload_interface.verify = (status_t (*) (payload_t *))verify;
this->public.payload_interface.get_encoding_rules = (void (*) (payload_t *, encoding_rule_t **, size_t *) ) get_encoding_rules;
this->public.payload_interface.get_length = (size_t (*) (payload_t *)) get_length;
this->public.payload_interface.get_next_type = (payload_type_t (*) (payload_t *)) get_next_type;
this->public.payload_interface.set_next_type = (void (*) (payload_t *,payload_type_t)) set_next_type;
this->public.payload_interface.get_type = (payload_type_t (*) (payload_t *)) get_type;
this->public.payload_interface.destroy = (void (*) (payload_t *))destroy;
/* public functions */
this->public.create_proposal_substructure_iterator = (iterator_t* (*) (sa_payload_t *,bool)) create_proposal_substructure_iterator;
this->public.add_proposal_substructure = (void (*) (sa_payload_t *,proposal_substructure_t *)) add_proposal_substructure;
this->public.get_ike_proposals = (status_t (*) (sa_payload_t *, ike_proposal_t **, size_t *)) get_ike_proposals;
this->public.get_child_proposals = (status_t (*) (sa_payload_t *, child_proposal_t **, size_t *)) get_child_proposals;
this->public.destroy = (void (*) (sa_payload_t *)) destroy;
/* private functions */
this->compute_length = compute_length;
/* set default values of the fields */
this->critical = SA_PAYLOAD_CRITICAL_FLAG;
this->next_payload = NO_PAYLOAD;
this->payload_length = SA_PAYLOAD_HEADER_LENGTH;
this->proposals = linked_list_create();
return (&(this->public));
}
/*
* Described in header.
*/
sa_payload_t *sa_payload_create_from_ike_proposals(ike_proposal_t *proposals, size_t proposal_count)
{
int i;
sa_payload_t *sa_payload= sa_payload_create();
for (i = 0; i < proposal_count; i++)
{
proposal_substructure_t *proposal_substructure;
transform_substructure_t *encryption_algorithm;
transform_substructure_t *integrity_algorithm;
transform_substructure_t *pseudo_random_function;
transform_substructure_t *diffie_hellman_group;
/* create proposal substructure */
proposal_substructure = proposal_substructure_create();
proposal_substructure->set_protocol_id(proposal_substructure,IKE);
proposal_substructure->set_proposal_number(proposal_substructure,(i + 1));
/* create transform substructures to hold each specific transform for an ike proposal */
encryption_algorithm = transform_substructure_create_type(ENCRYPTION_ALGORITHM,proposals[i].encryption_algorithm,proposals[i].encryption_algorithm_key_length);
proposal_substructure->add_transform_substructure(proposal_substructure,encryption_algorithm);
pseudo_random_function = transform_substructure_create_type(PSEUDO_RANDOM_FUNCTION,proposals[i].pseudo_random_function,proposals[i].pseudo_random_function_key_length);
proposal_substructure->add_transform_substructure(proposal_substructure,pseudo_random_function);
integrity_algorithm = transform_substructure_create_type(INTEGRITY_ALGORITHM,proposals[i].integrity_algorithm,proposals[i].integrity_algorithm_key_length);
proposal_substructure->add_transform_substructure(proposal_substructure,integrity_algorithm);
diffie_hellman_group = transform_substructure_create_type(DIFFIE_HELLMAN_GROUP,proposals[i].diffie_hellman_group,0);
proposal_substructure->add_transform_substructure(proposal_substructure,diffie_hellman_group);
/* add proposal to sa payload */
sa_payload->add_proposal_substructure(sa_payload,proposal_substructure);
}
return sa_payload;
}
/*
* Described in header.
*/
sa_payload_t *sa_payload_create_from_child_proposals(child_proposal_t *proposals, size_t proposal_count)
{
int i;
sa_payload_t *sa_payload= sa_payload_create();
for (i = 0; i < proposal_count; i++)
{
/* first the AH part is created */
if (proposals[i].ah.is_set)
{
transform_substructure_t *integrity_algorithm;
proposal_substructure_t *proposal_substructure;
chunk_t spi;
proposal_substructure = proposal_substructure_create();
proposal_substructure->set_protocol_id(proposal_substructure,AH);
proposal_substructure->set_proposal_number(proposal_substructure,(i + 1));
spi.ptr = proposals[i].ah.spi;
spi.len = 4;
proposal_substructure->set_spi(proposal_substructure,spi);
integrity_algorithm = transform_substructure_create_type(INTEGRITY_ALGORITHM,proposals[i].ah.integrity_algorithm,proposals[i].ah.integrity_algorithm_key_size);
proposal_substructure->add_transform_substructure(proposal_substructure,integrity_algorithm);
if (proposals[i].ah.diffie_hellman_group != MODP_UNDEFINED)
{
transform_substructure_t *diffie_hellman_group;
diffie_hellman_group = transform_substructure_create_type(DIFFIE_HELLMAN_GROUP,proposals[i].ah.diffie_hellman_group,0);
proposal_substructure->add_transform_substructure(proposal_substructure,diffie_hellman_group);
}
if (proposals[i].ah.extended_sequence_numbers == EXT_SEQ_NUMBERS)
{
transform_substructure_t *extended_sequence_numbers;
extended_sequence_numbers = transform_substructure_create_type(EXTENDED_SEQUENCE_NUMBERS,proposals[i].ah.extended_sequence_numbers,0);
proposal_substructure->add_transform_substructure(proposal_substructure,extended_sequence_numbers);
}
sa_payload->add_proposal_substructure(sa_payload,proposal_substructure);
}
/* then the ESP part is created */
if (proposals[i].esp.is_set)
{
transform_substructure_t *encryption_algorithm;
proposal_substructure_t *proposal_substructure;
chunk_t spi;
proposal_substructure = proposal_substructure_create();
proposal_substructure->set_protocol_id(proposal_substructure,ESP);
proposal_substructure->set_proposal_number(proposal_substructure,(i + 1));
spi.ptr = proposals[i].esp.spi;
spi.len = 4;
proposal_substructure->set_spi(proposal_substructure,spi);
encryption_algorithm = transform_substructure_create_type(ENCRYPTION_ALGORITHM,proposals[i].esp.encryption_algorithm,proposals[i].esp.encryption_algorithm_key_size);
proposal_substructure->add_transform_substructure(proposal_substructure,encryption_algorithm);
if (proposals[i].esp.integrity_algorithm != AUTH_UNDEFINED)
{
transform_substructure_t *integrity_algorithm;
integrity_algorithm = transform_substructure_create_type(INTEGRITY_ALGORITHM,proposals[i].esp.integrity_algorithm,proposals[i].esp.integrity_algorithm_key_size);
proposal_substructure->add_transform_substructure(proposal_substructure,integrity_algorithm);
}
if (proposals[i].esp.diffie_hellman_group != MODP_UNDEFINED)
{
transform_substructure_t *diffie_hellman_group;
diffie_hellman_group = transform_substructure_create_type(DIFFIE_HELLMAN_GROUP,proposals[i].esp.diffie_hellman_group,0);
proposal_substructure->add_transform_substructure(proposal_substructure,diffie_hellman_group);
}
if (proposals[i].esp.extended_sequence_numbers == EXT_SEQ_NUMBERS)
{
transform_substructure_t *extended_sequence_numbers;
extended_sequence_numbers = transform_substructure_create_type(EXTENDED_SEQUENCE_NUMBERS,proposals[i].esp.extended_sequence_numbers,0);
proposal_substructure->add_transform_substructure(proposal_substructure,extended_sequence_numbers);
}
sa_payload->add_proposal_substructure(sa_payload,proposal_substructure);
}
}
return sa_payload;
}
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