// $Id$
//
// Copyright (C) 2009
// Fraunhofer Institute for Open Communication Systems (FOKUS)
// Competence Center NETwork research (NET), St. Augustin, GERMANY
// Thorsten Horstmann <tho@berlios.de>
//
// 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.
//
// 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; if not, write to the
// Free Software Foundation, Inc.,
// 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
/** \file
\brief MIH protocol non-inline non-template implementation */
#include "MIHPacket.hh"
//#include "MIHPacket.ih"
// Custom includes
#include "../../Packets/Packets.hh"
#include "../../Utils/hexdump.hh"
#include <boost/io/ios_state.hpp>
#define prefix_
prefix_ std::string senf::MIHFId_TLVParser::asString()
const
{
return std::string( i(1+length_bytes()), i(1+length_bytes()+length()) );
}
prefix_ void senf::MIHFId_TLVParser::setString(std::string const &id)
{
size_type str_size (id.size());
// the maximum length of a MIHF_ID is 253 octets (see F.3.11 in 802.21)
if (str_size > 253)
throw std::length_error("maximum length of a MIHF_ID is 253 octets");
safe_data_iterator si = resizeValue( str_size);
std::copy( id.begin(), id.end(), si);
}
prefix_ senf::MACAddress senf::MIHFId_TLVParser::asMACAddress()
const
{
return MACAddress::from_data(
getNAIDecodedIterator( i(1+length_bytes()), i(1+length_bytes()+12) ));
}
prefix_ void senf::MIHFId_TLVParser::setMACAddress(senf::MACAddress const &mac)
{
safe_data_iterator si = resizeValue(12);
std::copy( mac.begin(), mac.end(), getNAIEncodedOutputIterator(si));
}
prefix_ senf::INet4Address senf::MIHFId_TLVParser::asINet4Address()
const
{
return INet4Address::from_data(
getNAIDecodedIterator( i(1+length_bytes()), i(1+length_bytes()+8) ));
}
prefix_ void senf::MIHFId_TLVParser::setINet4Address(senf::INet4Address const &addr)
{
safe_data_iterator si = resizeValue(8);
std::copy( addr.begin(), addr.end(), getNAIEncodedOutputIterator(si));
}
prefix_ senf::INet6Address senf::MIHFId_TLVParser::asINet6Address()
const
{
return INet6Address::from_data(
getNAIDecodedIterator( i(1+length_bytes()), i(1+length_bytes()+32) ));
}
prefix_ void senf::MIHFId_TLVParser::setINet6Address(senf::INet6Address const &addr)
{
safe_data_iterator si = resizeValue(32);
std::copy( addr.begin(), addr.end(), getNAIEncodedOutputIterator(si));
}
prefix_ void senf::MIHPacketType::dump(packet p, std::ostream &os)
{
boost::io::ios_all_saver ias(os);
os << "MIH Packet:\n"
<< " protocol header:\n"
<< " Version: " << unsigned( p->version()) << "\n"
<< " Ack-Request: " << p->ackRequest() << "\n"
<< " Ack-Response: " << p->ackResponse() << "\n"
<< " UIR: " << p->uir() << "\n"
<< " more fragment: " << p->moreFragment() << "\n"
<< " fragment number: " << p->fragmentNr() << "\n"
<< " message ID (MID): " << unsigned( p->messageId()) << "\n"
<< " SID: " << unsigned( p->sid()) << "\n"
<< " Opcode: " << unsigned( p->opcode()) << "\n"
<< " AID: " << unsigned( p->aid()) << "\n"
<< " Transaction ID: " << unsigned( p->transactionId()) << "\n"
<< " payload length: " << unsigned( p->payloadLength()) << "\n"
<< " source MIHF_Id TLV:\n"
<< " type: " << unsigned (p->src_mihfId().type()) << "\n"
<< " length: " << unsigned (p->src_mihfId().length()) << "\n"
<< " value:\n";
std::string src_mihfId (p->src_mihfId().asString());
hexdump(src_mihfId.begin(), src_mihfId.end(), os);
os << " destination MIHF_Id TLV:\n"
<< " type: " << unsigned (p->dst_mihfId().type()) << "\n"
<< " length: " << unsigned (p->dst_mihfId().length()) << "\n"
<< " value:\n";
std::string dst_mihfId (p->dst_mihfId().asString());
hexdump(dst_mihfId.begin(), dst_mihfId.end(), os);
}
prefix_ void senf::MIHPacketType::finalize(packet p)
{
p->src_mihfId().shrinkLength();
p->dst_mihfId().shrinkLength();
p->payloadLength_() << p.size() - 8;
p->messageId() << key(p.next(nothrow));
}
prefix_ senf::PacketInterpreterBase::factory_t senf::MIHPacketType::nextPacketType(packet p)
{
if (p.data().size() < initSize())
return no_factory();
PkReg_Entry const * e (PacketRegistry<MIHMessageRegistry>::lookup( p->messageId(), nothrow ));
return e ? e->factory() : MIHPayloadPacket::factory();
}
prefix_ void senf::MIHPayloadPacketType::dump(packet p, std::ostream &os)
{
boost::io::ios_all_saver ias(os);
os << "MIH Payload (service specific TLVs):\n"
<< " ToDo!\n";
}
#undef prefix_
�
// Local Variables:
// mode: c++
// fill-column: 100
// c-file-style: "senf"
// indent-tabs-mode: nil
// ispell-local-dictionary: "american"
// compile-command: "scons -u test"
// comment-column: 40
// End: