// // Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005 Yokogawa Electric Corporation, // YDC Corporation, IPA (Information-technology Promotion Agency, Japan). // All rights reserved. // // Redistribution and use of this software in source and binary forms, with // or without modification, are permitted provided that the following // conditions and disclaimer are agreed and accepted by the user: // // 1. Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // // 3. Neither the names of the copyrighters, the name of the project which // is related to this software (hereinafter referred to as "project") nor // the names of the contributors may be used to endorse or promote products // derived from this software without specific prior written permission. // // 4. No merchantable use may be permitted without prior written // notification to the copyrighters. However, using this software for the // purpose of testing or evaluating any products including merchantable // products may be permitted without any notification to the copyrighters. // // // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHTERS, THE PROJECT AND // CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING // BUT NOT LIMITED THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS // FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. IN NO EVENT SHALL THE // COPYRIGHTERS, THE PROJECT OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, // INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES // (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) // HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN // CONTRACT,STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) // ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF // THE POSSIBILITY OF SUCH DAMAGE. // //====================================================================== // Frame Frame_Ether _ping6over4 { header=eth_tn2nut; packet=ip_ping64; } //---------------------------------------------------------------------- Frame_Ether _ping { header=eth_tn2nut; packet=ip_ping; } //---------------------------------------------------------------------- Frame_Ether _ns { header=eth_nut2tnsol; packet=ip_ns; } //---------------------------------------------------------------------- Frame_Ether _na { header=eth_tn2nut; packet=ip_na; } //---------------------------------------------------------------------- Frame_Ether _reply { header=eth_nut2tn; packet=ip_reply; } //---------------------------------------------------------------------- Frame_Ether _reply6over4 { header=eth_nut2tn; packet=ip_reply64; } //---------------------------------------------------------------------- Frame_Ether _arp1 { header=eth_auto2bc; packet=_arp_req; } //---------------------------------------------------------------------- Frame_Ether _arp2 { header=eth_tn2nut; packet=_arp_rep; } //====================================================================== // Ether Hdr_Ether eth_tn2nut { // SourceAddress=tnether(); // DestinationAddress=nutether(); // Type=0x86dd; // ip6 } //---------------------------------------------------------------------- Hdr_Ether eth_nut2tn { // SourceAddress=nutether(); // DestinationAddress=tnether(); // Type=0x86dd; // ip6 } //---------------------------------------------------------------------- Hdr_Ether eth_nut2tnsol { // SourceAddress=nutether(); // DestinationAddress=v62ethermulti(v6merge("ff02::1:ff00:0000",104,tnv6())); // Type=0x86dd; // ip6 } //---------------------------------------------------------------------- Hdr_Ether eth_auto2bc { // SourceAddress=nutether(); DestinationAddress=ether("ff:ff:ff:ff:ff:ff"); // Type=0x86dd; // ip6 } //====================================================================== // Packet Packet_IPv6 ip_ping { header=v6tn2nut; upper=icmp_ping; } //---------------------------------------------------------------------- Packet_IPv6 ip_ns { header=v6nut2tnsol; upper=icmp_ns; } //---------------------------------------------------------------------- Packet_IPv6 ip_na { header=v6tn2nutadv; upper=icmp_na; } //---------------------------------------------------------------------- Packet_IPv6 ip_reply { header=v6nut2tn; upper=icmp_reply; } //====================================================================== // Packet IPv4 Packet_IPv4 ip_ping64 { header=v4tn2nut; upper=ip_ping; } Packet_IPv4 ip_reply64 { header=v4nut2tn; upper=ip_reply; } //====================================================================== // IPv6 Hdr_IPv6 v6tn2nut { // Version=6; // SourceAddress=tnv6(); // DestinationAddress=nutv6(); // FlowLabel=0; // TrafficClass=0; // NextHeader=58; // TrafficClass=0; // HopLimit=64; // PayloadLength=16; } //---------------------------------------------------------------------- Hdr_IPv6 v6nut2tn { SourceAddress=nutv6(); DestinationAddress=tnv6(); // FlowLabel=0; // NextHeader=58; // TrafficClass=0; // HopLimit=64; // PayloadLength=16; } //---------------------------------------------------------------------- Hdr_IPv6 v6nut2tnsol { // SourceAddress=nutv6(); DestinationAddress=tn2v6("ff02::1:ff00:0000",104); // DestinationAddress=any; // FlowLabel=0; // NextHeader=58; // TrafficClass=0; // HopLimit=64; HopLimit=255; // PayloadLength=16; } //---------------------------------------------------------------------- Hdr_IPv6 v6tn2nutadv { // SourceAddress=tnv6(); // DestinationAddress=nutv6(); // FlowLabel=0; // NextHeader=58; // TrafficClass=0; // HopLimit=64; HopLimit=255; // PayloadLength=16; } //====================================================================== // IPv4 Hdr_IPv4 v4tn2nut { SourceAddress=v4("192.168.0.2"); DestinationAddress=v4("192.168.0.1"); } Hdr_IPv4 v4nut2tn { DestinationAddress=v4("192.168.0.2"); SourceAddress=v4("192.168.0.1"); } //====================================================================== // ICMPv6 ICMPv6_EchoRequest icmp_ping { // Type=128; // Code=0; // Checksum=0x2c90; // Identifier=0x9008; // SequenceNumber=0; payload=apl; } //---------------------------------------------------------------------- ICMPv6_EchoReply icmp_reply { // Type=129; // Code=0; // Checksum=0x2b90; // Identifier=0x9008; // SequenceNumber=0; payload=apl; } //---------------------------------------------------------------------- // NS ICMPv6_NS icmp_ns { // Type=135; // Code=0; // Checksum=0xbd2d; // Reserved=zero; // TargetAddress=tnv6(); option=sslopt_nut; } //---------------------------------------------------------------------- // NA ("TN -> NUT") ICMPv6_NA icmp_na { // Type=136; // Code=0; // Checksum=0xb32a; // Reserved=zero; // RFlag=0; RFlag=1; // SFlag=0; SFlag=1; // OFlag=0; OFlag=1; TargetAddress=tnv6(); option=ttlopt_tn; } //====================================================================== Opt_ICMPv6_TLL ttlopt_tn { // Type=2; // Length=1; LinkLayerAddress=tnether(); } //---------------------------------------------------------------------- Opt_ICMPv6_SLL sslopt_nut { // Type=1; // Length=1; LinkLayerAddress=nutether(); } //====================================================================== // Data Payload apl { data=0xb9; data=0xf9; data=0xa2; data=0x36; data=0x78; data=0x02; data=0x0d; data=0x00; } //====================================================================== // ARP Packet_ARP _arp_req { header=_arp_req_hdr; } Hdr_ARP _arp_req_hdr { SenderPAddr=v4("192.168.0.1"); TargetPAddr=v4("192.168.0.2"); TargetHAddr=ether("00:00:00:00:00:00"); } Packet_ARP _arp_rep { header=_arp_rep_hdr; } Hdr_ARP _arp_rep_hdr { SenderPAddr=v4("192.168.0.2"); TargetPAddr=v4("192.168.0.1"); TargetHAddr=tnether(); }