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/*
* anytun
*
* The secure anycast tunneling protocol (satp) defines a protocol used
* for communication between any combination of unicast and anycast
* tunnel endpoints. It has less protocol overhead than IPSec in Tunnel
* mode and allows tunneling of every ETHER TYPE protocol (e.g.
* ethernet, ip, arp ...). satp directly includes cryptography and
* message authentication based on the methodes used by SRTP. It is
* intended to deliver a generic, scaleable and secure solution for
* tunneling and relaying of packets of any protocol.
*
*
* Copyright (C) 2007 anytun.org <satp@wirdorange.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2
* as published by the Free Software Foundation.
*
* 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.
*
* You should have received a copy of the GNU General Public License
* along with this program (see the file COPYING included with this
* distribution); if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <stdexcept>
#include <iostream>
#include <arpa/inet.h>
#include <cstdio> // for std::memcpy
#include "encryptedPacket.h"
#include "datatypes.h"
#include "authTag.h"
#include "log.h"
EncryptedPacket::EncryptedPacket(u_int32_t max_payload_length)
: Buffer(max_payload_length + sizeof(struct HeaderStruct) + AUTHTAG_SIZE)
{
header_ = reinterpret_cast<struct HeaderStruct*>(buf_);
auth_tag_ = NULL;
buf_ = buf_ + sizeof(struct HeaderStruct); // no authtag yet
length_ = length_ - sizeof(struct HeaderStruct);
size_ = max_payload_length + AUTHTAG_SIZE;
}
seq_nr_t EncryptedPacket::getSeqNr() const
{
return SEQ_NR_T_NTOH(header_->seq_nr);
}
sender_id_t EncryptedPacket::getSenderId() const
{
return SENDER_ID_T_NTOH(header_->sender_id);
}
mux_t EncryptedPacket::getMux() const
{
return MUX_T_NTOH(header_->mux);
}
u_int32_t EncryptedPacket::getSize() const
{
return size_;
}
void EncryptedPacket::setLength(u_int32_t length)
{
if(length > size_)
throw std::out_of_range("can't set length greater then size ofsize of allocated memory");
length_ = length;
}
void EncryptedPacket::setSeqNr(seq_nr_t seq_nr)
{
header_->seq_nr = SEQ_NR_T_HTON(seq_nr);
}
void EncryptedPacket::setSenderId(sender_id_t sender_id)
{
header_->sender_id = SENDER_ID_T_HTON(sender_id);
}
void EncryptedPacket::setMux(mux_t mux)
{
header_->mux = MUX_T_HTON(mux);
}
void EncryptedPacket::setHeader(seq_nr_t seq_nr, sender_id_t sender_id, mux_t mux)
{
header_->seq_nr = SEQ_NR_T_HTON(seq_nr);
header_->sender_id = SENDER_ID_T_HTON(sender_id);
header_->mux = MUX_T_HTON(mux);
}
bool EncryptedPacket::hasAuthTag() const
{
if( auth_tag_ == NULL )
return false;
return true;
}
void EncryptedPacket::withAuthTag(bool b)
{
if( b && (auth_tag_ != NULL) )
throw std::runtime_error("packet already has auth tag function enabled");
if( b ) {
auth_tag_ = reinterpret_cast<AuthTag*>( buf_ + sizeof(struct HeaderStruct) );
buf_ = buf_ + AUTHTAG_SIZE;
length_ -= AUTHTAG_SIZE;
size_ -= AUTHTAG_SIZE;
} else {
buf_ = reinterpret_cast<u_int8_t*>( auth_tag_ );
length_ += AUTHTAG_SIZE;
size_ += AUTHTAG_SIZE;
auth_tag_ = NULL;
}
}
void EncryptedPacket::setAuthTag(AuthTag& tag)
{
if( auth_tag_ == NULL )
throw std::runtime_error("auth tag not enabled");
if( tag == AuthTag(0) )
return;
if( tag.getLength() != AUTHTAG_SIZE )
throw std::length_error("authtag length mismatch with AUTHTAG_SIZE");
std::memcpy( auth_tag_, tag.getBuf(), AUTHTAG_SIZE );
}
AuthTag EncryptedPacket::getAuthTag() const
{
if( auth_tag_ == NULL )
throw std::runtime_error("auth tag not enabled");
AuthTag at(AUTHTAG_SIZE);
std::memcpy(at, auth_tag_, AUTHTAG_SIZE );
return at;
}
//Packet& Packet::addHeader(seq_nr_t seq_nr, sender_id_t sender_id)
//{
// if(!has_header_)
// {
// if(sizeof(struct HeaderStruct) > resizeFront(length_ + sizeof(struct HeaderStruct)))
// return *this;
//
// has_header_ = true;
// }
// struct HeaderStruct* header;
// header = reinterpret_cast<struct HeaderStruct*>(buf_);
// header->seq_nr = SEQ_NR_T_HTON(seq_nr);
// header->sender_id = SENDER_ID_T_HTON(sender_id);
// return *this;
//}
//
//
//bool Packet::hasPayloadType() const
//{
// return has_payload_type_;
//}
//
//Packet& Packet::withPayloadType(bool b)
//{
// if(b && length_ >= sizeof(payload_type_t))
// has_payload_type_ = true;
// else
// has_payload_type_ = false;
//
// return *this;
//}
//
//payload_type_t Packet::getPayloadType() const
//{
// if(!has_payload_type_)
// return 0;
//
// if((!has_auth_tag_ && length_ < sizeof(payload_type_t)) ||
// (has_auth_tag_ && length_ < (sizeof(payload_type_t) + AUTHTAG_SIZE)))
// return 0;
//
// payload_type_t* payload_type;
//
// if(!has_auth_tag_)
// payload_type = reinterpret_cast<payload_type_t*>(buf_ + length_ - sizeof(payload_type_t));
// else
// payload_type = reinterpret_cast<payload_type_t*>(buf_ + length_ - sizeof(payload_type_t) - AUTHTAG_SIZE);
// return PAYLOAD_TYPE_T_NTOH(*payload_type);
//}
//
//Packet& Packet::addPayloadType(payload_type_t payload_type)
//{
// if(has_auth_tag_)
// throw std::runtime_error("can't add payload_type with existing auth_tag");
//
// if(!has_payload_type_)
// {
// u_int32_t new_length = length_ + sizeof(payload_type_t);
// if(new_length > resizeBack(new_length))
// return *this;
//
// has_payload_type_ = true;
// }
// payload_type_t* payload_type_ptr;
// payload_type_ptr = reinterpret_cast<payload_type_t*>(buf_ + length_ - sizeof(payload_type_t));
// *payload_type_ptr = PAYLOAD_TYPE_T_HTON(payload_type);
// return *this;
//}
//
//Packet& Packet::removePayloadType()
//{
// if(has_auth_tag_)
// throw std::runtime_error("can't remove payload_type with existing auth_tag");
//
// if(!has_payload_type_)
// return *this;
//
// if(length_ >= sizeof(payload_type_t))
// resizeBack(length_ - sizeof(payload_type_t));
//
// has_payload_type_ = false;
//
// return *this;
//}
//
//
//
//
//AuthTag Packet::getAuthTag() const
//{
// if(!has_auth_tag_)
// return AuthTag(0);
//
// if(length_ < AUTHTAG_SIZE)
// return AuthTag(0);
//
// //AuthTag* auth_tag;
// //auth_tag = reinterpret_cast<AuthTag*>(buf_ + length_ - AUTHTAG_SIZE);
// //return AUTH_TAG_T_NTOH(*auth_tag);
// AuthTag auth_tag;
// auth_tag = AuthTag(buf_ + length_ - AUTHTAG_SIZE, AUTHTAG_SIZE);
// return auth_tag;
//}
//
//Packet& Packet::addAuthTag(AuthTag auth_tag)
//{
// if(!has_auth_tag_)
// {
// u_int32_t new_length = length_ + auth_tag.getLength();
// if(new_length > resizeBack(new_length))
// return *this;
//
// has_auth_tag_ = true;
// }
//
// AuthTag* auth_tag_ptr;
// auth_tag_ptr = reinterpret_cast<AuthTag*>(buf_ + length_ - auth_tag.getLength());
// std::memcpy(auth_tag_ptr, auth_tag.getBuf(), auth_tag.getLength());
//
// return *this;
//}
//
//Packet& Packet::removeAuthTag()
//{
// if(!has_auth_tag_)
// return *this;
//
// if(length_ >= AUTHTAG_SIZE)
// resizeBack(length_ - AUTHTAG_SIZE);
//
// has_auth_tag_ = false;
//
// return *this;
//}
//
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