# rt nexthdr 1 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ cmp eq reg 1 0x00000001 ] # rt nexthdr != 1 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ cmp neq reg 1 0x00000001 ] # rt nexthdr {udplite, ipcomp, udp, ah, sctp, esp, dccp, tcp, ipv6-icmp} __set%d test-inet 3 __set%d test-inet 0 element 00000088 : 0 [end] element 0000006c : 0 [end] element 00000011 : 0 [end] element 00000033 : 0 [end] element 00000084 : 0 [end] element 00000032 : 0 [end] element 00000021 : 0 [end] element 00000006 : 0 [end] element 0000003a : 0 [end] inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ lookup reg 1 set __set%d ] # rt nexthdr != {udplite, ipcomp, udp, ah, sctp, esp, dccp, tcp, ipv6-icmp} __set%d test-inet 3 __set%d test-inet 0 element 00000088 : 0 [end] element 0000006c : 0 [end] element 00000011 : 0 [end] element 00000033 : 0 [end] element 00000084 : 0 [end] element 00000032 : 0 [end] element 00000021 : 0 [end] element 00000006 : 0 [end] element 0000003a : 0 [end] inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ lookup reg 1 set __set%d 0x1 ] # rt nexthdr icmp inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ cmp eq reg 1 0x00000001 ] # rt nexthdr != icmp inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ cmp neq reg 1 0x00000001 ] # rt nexthdr 22 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ cmp eq reg 1 0x00000016 ] # rt nexthdr != 233 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ cmp neq reg 1 0x000000e9 ] # rt nexthdr 33-45 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ cmp gte reg 1 0x00000021 ] [ cmp lte reg 1 0x0000002d ] # rt nexthdr != 33-45 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ range neq reg 1 0x00000021 0x0000002d ] # rt nexthdr { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 00000021 : 0 [end] element 00000037 : 0 [end] element 00000043 : 0 [end] element 00000058 : 0 [end] inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ lookup reg 1 set __set%d ] # rt nexthdr != { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 00000021 : 0 [end] element 00000037 : 0 [end] element 00000043 : 0 [end] element 00000058 : 0 [end] inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 0 => reg 1 ] [ lookup reg 1 set __set%d 0x1 ] # rt hdrlength 22 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 1 => reg 1 ] [ cmp eq reg 1 0x00000016 ] # rt hdrlength != 233 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 1 => reg 1 ] [ cmp neq reg 1 0x000000e9 ] # rt hdrlength 33-45 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 1 => reg 1 ] [ cmp gte reg 1 0x00000021 ] [ cmp lte reg 1 0x0000002d ] # rt hdrlength != 33-45 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 1 => reg 1 ] [ range neq reg 1 0x00000021 0x0000002d ] # rt hdrlength { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 00000021 : 0 [end] element 00000037 : 0 [end] element 00000043 : 0 [end] element 00000058 : 0 [end] inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 1 => reg 1 ] [ lookup reg 1 set __set%d ] # rt hdrlength != { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 00000021 : 0 [end] element 00000037 : 0 [end] element 00000043 : 0 [end] element 00000058 : 0 [end] inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 1 => reg 1 ] [ lookup reg 1 set __set%d 0x1 ] # rt type 22 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 2 => reg 1 ] [ cmp eq reg 1 0x00000016 ] # rt type != 233 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 2 => reg 1 ] [ cmp neq reg 1 0x000000e9 ] # rt type 33-45 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 2 => reg 1 ] [ cmp gte reg 1 0x00000021 ] [ cmp lte reg 1 0x0000002d ] # rt type != 33-45 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 2 => reg 1 ] [ range neq reg 1 0x00000021 0x0000002d ] # rt type { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 00000021 : 0 [end] element 00000037 : 0 [end] element 00000043 : 0 [end] element 00000058 : 0 [end] inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 2 => reg 1 ] [ lookup reg 1 set __set%d ] # rt type != { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 00000021 : 0 [end] element 00000037 : 0 [end] element 00000043 : 0 [end] element 00000058 : 0 [end] inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 2 => reg 1 ] [ lookup reg 1 set __set%d 0x1 ] # rt seg-left 22 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 3 => reg 1 ] [ cmp eq reg 1 0x00000016 ] # rt seg-left != 233 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 3 => reg 1 ] [ cmp neq reg 1 0x000000e9 ] # rt seg-left 33-45 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 3 => reg 1 ] [ cmp gte reg 1 0x00000021 ] [ cmp lte reg 1 0x0000002d ] # rt seg-left != 33-45 inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 3 => reg 1 ] [ range neq reg 1 0x00000021 0x0000002d ] # rt seg-left { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 00000021 : 0 [end] element 00000037 : 0 [end] element 00000043 : 0 [end] element 00000058 : 0 [end] inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 3 => reg 1 ] [ lookup reg 1 set __set%d ] # rt seg-left != { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 00000021 : 0 [end] element 00000037 : 0 [end] element 00000043 : 0 [end] element 00000058 : 0 [end] inet test-inet input [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load ipv6 1b @ 43 + 3 => reg 1 ] [ lookup reg 1 set __set%d 0x1 ]