// Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005 Yokogawa Electric 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. // // $TAHI: ct/nd/hostRecvRas2.def,v 1.3 2001/10/05 06:39:07 masaxmasa Exp $ //---------------------------------------------------------------------- _HETHER_define(hether_y2allnodes, ether(A0N_MAC_ADDR), v62ethermulti(v6(_ALLNODES_MCAST_ADDR))) _HETHER_define(hether_z2allnodes, ether(A1N_MAC_ADDR), v62ethermulti(v6(_ALLNODES_MCAST_ADDR))) _HETHER_define(hether_nut2tn_y_z, nutether(), oneof(tnether(), ether(A0N_MAC_ADDR), ether(A1N_MAC_ADDR))) _SLLOPT_define(sllopt_y, ether(A0N_MAC_ADDR)) _SLLOPT_define(sllopt_z, ether(A1N_MAC_ADDR)) _TLLOPT_define(tllopt_y, ether(A0N_MAC_ADDR)) _TLLOPT_define(tllopt_z, ether(A1N_MAC_ADDR)) //---------------------------------------------------------------------- // multicast RA // TN(link-local) ==> all-node // M=0, O=0 // lifetime=600 sec // ReachableTime=0 msec (not specified) // RetransTimer=0 msec (not specified) // w/ SLLA // w/ prefix // l=1, a=1 // ValidLifetime=2592000 // PreferredLifetime=604800; //---------------------------------------------------------------------- FEM_icmp6_ra(ra_tn2allnode_sll_a, _HETHER_tn2allnodes, { _SRC(tnv6()); _DST(v6(_ALLNODES_MCAST_ADDR)); HopLimit=255; }, { CurHopLimit=0; MFlag=0; OFlag=0; LifeTime=600; ReachableTime=0; RetransTimer=0; option=_SLLOPT_tn; option=prefixopt_a; } ) //---------------------------------------------------------------------- FEM_icmp6_ra(ra_y2allnode_sll_b, hether_y2allnodes, { _SRC(v6ether(A0N_MAC_ADDR)); _DST(v6(_ALLNODES_MCAST_ADDR)); HopLimit=255; }, { CurHopLimit=0; MFlag=0; OFlag=0; LifeTime=600; ReachableTime=0; RetransTimer=0; option=sllopt_y; option=prefixopt_b; } ) //---------------------------------------------------------------------- FEM_icmp6_ra(ra_z2allnode_sll_c, hether_z2allnodes, { _SRC(v6ether(A1N_MAC_ADDR)); _DST(v6(_ALLNODES_MCAST_ADDR)); HopLimit=255; }, { CurHopLimit=0; MFlag=0; OFlag=0; LifeTime=600; ReachableTime=0; RetransTimer=0; option=sllopt_z; option=prefixopt_c; } ) //---------------------------------------------------------------------- Opt_ICMPv6_Prefix prefixopt_a { // Type=3; // Length=4; // PrefixLength=_GLOBAL0_UCAST_PRFXLEN; LFlag=1; AFlag=1; // Reserved1=ZERO; ValidLifetime=2592000; PreferredLifetime=604800; // Reserved2=ZERO; Prefix=v6(_GLOBAL0_UCAST_PRFX); } //---------------------------------------------------------------------- Opt_ICMPv6_Prefix prefixopt_b { // Type=3; // Length=4; // PrefixLength=_GLOBAL8_UCAST_PRFXLEN; LFlag=1; AFlag=1; // Reserved1=ZERO; ValidLifetime=2592000; PreferredLifetime=604800; // Reserved2=ZERO; Prefix=v6(_GLOBAL8_UCAST_PRFX); } //---------------------------------------------------------------------- Opt_ICMPv6_Prefix prefixopt_c { // Type=3; // Length=4; // PrefixLength=_GLOBAL7_UCAST_PRFXLEN; LFlag=1; AFlag=1; // Reserved1=ZERO; ValidLifetime=2592000; PreferredLifetime=604800; // Reserved2=ZERO; Prefix=v6(_GLOBAL7_UCAST_PRFX); } //---------------------------------------------------------------------- // multicast RA // TN(link-local) ==> all-node // M=0, O=0 // lifetime=0 // ReachableTime=0 msec (not specified) // RetransTimer=0 msec (not specified) // w/o SLLA // w/o prefix //---------------------------------------------------------------------- FEM_icmp6_ra(ra_tn2allnode_clrrtr, _HETHER_tn2allnodes, { _SRC(tnv6()); _DST(v6(_ALLNODES_MCAST_ADDR)); HopLimit=255; }, { CurHopLimit=0; MFlag=0; OFlag=0; LifeTime=0; ReachableTime=0; RetransTimer=0; } ) //---------------------------------------------------------------------- FEM_icmp6_ra(ra_y2allnode_clrrtr, hether_y2allnodes, { _SRC(v6ether(A0N_MAC_ADDR)); _DST(v6(_ALLNODES_MCAST_ADDR)); HopLimit=255; }, { CurHopLimit=0; MFlag=0; OFlag=0; LifeTime=0; ReachableTime=0; RetransTimer=0; } ) //---------------------------------------------------------------------- FEM_icmp6_ra(ra_z2allnode_clrrtr, hether_z2allnodes, { _SRC(v6ether(A1N_MAC_ADDR)); _DST(v6(_ALLNODES_MCAST_ADDR)); HopLimit=255; }, { CurHopLimit=0; MFlag=0; OFlag=0; LifeTime=0; ReachableTime=0; RetransTimer=0; } ) //---------------------------------------------------------------------- // multicast NS for DAD // unspecified ==> solnode[NUT's link-local] // target=NUT(global) // w/o SLLA //---------------------------------------------------------------------- FEM_icmp6_ns(dad_ns_a, _HETHER_src2dstsolnode, { _SRC(v6(_UNSPEC_ADDR)); _DST(_IPV6_SOLNODE_MCAST(nutv6())); HopLimit=255; }, { TargetAddress=nut2v6(_GLOBAL0_UCAST_PRFX, _GLOBAL0_UCAST_PRFXLEN); } ) //---------------------------------------------------------------------- FEM_icmp6_ns(dad_ns_b, _HETHER_src2dstsolnode, { _SRC(v6(_UNSPEC_ADDR)); _DST(_IPV6_SOLNODE_MCAST(nutv6())); HopLimit=255; }, { TargetAddress=nut2v6(_GLOBAL8_UCAST_PRFX, _GLOBAL8_UCAST_PRFXLEN); } ) //---------------------------------------------------------------------- FEM_icmp6_ns(dad_ns_c, _HETHER_src2dstsolnode, { _SRC(v6(_UNSPEC_ADDR)); _DST(_IPV6_SOLNODE_MCAST(nutv6())); HopLimit=255; }, { TargetAddress=nut2v6(_GLOBAL7_UCAST_PRFX, _GLOBAL7_UCAST_PRFXLEN); } ) //---------------------------------------------------------------------- // unicast NA // TN(link-local) ==> NUT(link-local) // R=1, S=1, O=1 // w/ TLLA //---------------------------------------------------------------------- FEM_icmp6_na(unicast_na_tn2nut_RSO_tll, _HETHER_tn2nut, { _SRC(tnv6()); _DST(nutv6()); HopLimit=255; }, { RFlag=1; SFlag=1; OFlag=1; TargetAddress=tnv6(); option=_TLLOPT_tn; } ) //---------------------------------------------------------------------- FEM_icmp6_na(unicast_na_y2nut_RSO_tll, _HETHER_tn2nut, { _SRC(v6ether(A0N_MAC_ADDR)); _DST(nutv6()); HopLimit=255; }, { RFlag=1; SFlag=1; OFlag=1; TargetAddress=v6ether(A0N_MAC_ADDR); option=tllopt_y; } ) //---------------------------------------------------------------------- FEM_icmp6_na(unicast_na_z2nut_RSO_tll, _HETHER_tn2nut, { _SRC(v6ether(A1N_MAC_ADDR)); _DST(nutv6()); HopLimit=255; }, { RFlag=1; SFlag=1; OFlag=1; TargetAddress=v6ether(A1N_MAC_ADDR); option=tllopt_z; } ) //---------------------------------------------------------------------- // echo-request // X(off-link global, but max:TN) ==> NUT(global) //---------------------------------------------------------------------- FEM_icmp6_echo_request(echo_request_x2nut_a, _HETHER_tn2nut, { _SRC(v6merge(_GLOBAL9_UCAST_PRFX, _GLOBAL9_UCAST_PRFXLEN, v6ether(A9N_MAC_ADDR))); _DST(nut2v6(_GLOBAL0_UCAST_PRFX, _GLOBAL0_UCAST_PRFXLEN)); }, { payload=echo_data_a; } ) //---------------------------------------------------------------------- FEM_icmp6_echo_request(echo_request_x2nut_b, _HETHER_tn2nut, { _SRC(v6merge(_GLOBAL9_UCAST_PRFX, _GLOBAL9_UCAST_PRFXLEN, v6ether(A9N_MAC_ADDR))); _DST(nut2v6(_GLOBAL8_UCAST_PRFX, _GLOBAL8_UCAST_PRFXLEN)); }, { payload=echo_data_b; } ) //---------------------------------------------------------------------- FEM_icmp6_echo_request(echo_request_x2nut_c, _HETHER_tn2nut, { _SRC(v6merge(_GLOBAL9_UCAST_PRFX, _GLOBAL9_UCAST_PRFXLEN, v6ether(A9N_MAC_ADDR))); _DST(nut2v6(_GLOBAL7_UCAST_PRFX, _GLOBAL7_UCAST_PRFXLEN)); }, { payload=echo_data_c; } ) //---------------------------------------------------------------------- // echo-reply // NUT(global) ==> X(off-link global, bug max:TN) //---------------------------------------------------------------------- FEM_icmp6_echo_reply(echo_reply_nut2x_a, hether_nut2tn_y_z, { _SRC(nut2v6(_GLOBAL0_UCAST_PRFX, _GLOBAL0_UCAST_PRFXLEN)); _DST(v6merge(_GLOBAL9_UCAST_PRFX, _GLOBAL9_UCAST_PRFXLEN, v6ether(A9N_MAC_ADDR))); }, { payload=echo_data_a; } ) //---------------------------------------------------------------------- FEM_icmp6_echo_reply(echo_reply_nut2x_b, hether_nut2tn_y_z, { _SRC(nut2v6(_GLOBAL8_UCAST_PRFX, _GLOBAL8_UCAST_PRFXLEN)); _DST(v6merge(_GLOBAL9_UCAST_PRFX, _GLOBAL9_UCAST_PRFXLEN, v6ether(A9N_MAC_ADDR))); }, { payload=echo_data_b; } ) //---------------------------------------------------------------------- FEM_icmp6_echo_reply(echo_reply_nut2x_c, hether_nut2tn_y_z, { _SRC(nut2v6(_GLOBAL7_UCAST_PRFX, _GLOBAL7_UCAST_PRFXLEN)); _DST(v6merge(_GLOBAL9_UCAST_PRFX, _GLOBAL9_UCAST_PRFXLEN, v6ether(A9N_MAC_ADDR))); }, { payload=echo_data_c; } ) //---------------------------------------------------------------------- Payload echo_data_a { data=repeat(0xaa,0x10); } //---------------------------------------------------------------------- Payload echo_data_b { data=repeat(0xbb,0x10); } //---------------------------------------------------------------------- Payload echo_data_c { data=repeat(0xcc,0x10); } //----------------------------------------------------------------------