# frag nexthdr tcp inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 0 => reg 1 ] [ cmp eq reg 1 0x00000006 ] # frag nexthdr != icmp inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 0 => reg 1 ] [ cmp neq reg 1 0x00000001 ] # frag nexthdr {esp, ah, comp, udp, udplite, tcp, dccp, sctp} __set%d test-inet 3 __set%d test-inet 0 element 00000032 : 0 [end] element 00000033 : 0 [end] element 0000006c : 0 [end] element 00000011 : 0 [end] element 00000088 : 0 [end] element 00000006 : 0 [end] element 00000021 : 0 [end] element 00000084 : 0 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 0 => reg 1 ] [ lookup reg 1 set __set%d ] # frag nexthdr != {esp, ah, comp, udp, udplite, tcp, dccp, sctp} __set%d test-inet 3 __set%d test-inet 0 element 00000032 : 0 [end] element 00000033 : 0 [end] element 0000006c : 0 [end] element 00000011 : 0 [end] element 00000088 : 0 [end] element 00000006 : 0 [end] element 00000021 : 0 [end] element 00000084 : 0 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 0 => reg 1 ] [ lookup reg 1 set __set%d 0x1 ] # frag nexthdr esp inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 0 => reg 1 ] [ cmp eq reg 1 0x00000032 ] # frag nexthdr ah inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 0 => reg 1 ] [ cmp eq reg 1 0x00000033 ] # frag reserved 22 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 1 => reg 1 ] [ cmp eq reg 1 0x00000016 ] # frag reserved != 233 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 1 => reg 1 ] [ cmp neq reg 1 0x000000e9 ] # frag reserved 33-45 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 1 => reg 1 ] [ cmp gte reg 1 0x00000021 ] [ cmp lte reg 1 0x0000002d ] # frag reserved != 33-45 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 1 => reg 1 ] [ range neq reg 1 0x00000021 0x0000002d ] # frag reserved { 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 output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 1 => reg 1 ] [ lookup reg 1 set __set%d ] # frag reserved != { 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 output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 1 => reg 1 ] [ lookup reg 1 set __set%d 0x1 ] # frag reserved { 33-55} __set%d test-inet 7 __set%d test-inet 0 element 00000000 : 1 [end] element 00000021 : 0 [end] element 00000038 : 1 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 1 => reg 1 ] [ lookup reg 1 set __set%d ] # frag reserved != { 33-55} __set%d test-inet 7 __set%d test-inet 0 element 00000000 : 1 [end] element 00000021 : 0 [end] element 00000038 : 1 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 1 => reg 1 ] [ lookup reg 1 set __set%d 0x1 ] # frag frag-off 22 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 2b @ 44 + 2 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x0000f8ff ) ^ 0x00000000 ] [ cmp eq reg 1 0x0000b000 ] # frag frag-off != 233 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 2b @ 44 + 2 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x0000f8ff ) ^ 0x00000000 ] [ cmp neq reg 1 0x00004807 ] # frag frag-off 33-45 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 2b @ 44 + 2 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x0000f8ff ) ^ 0x00000000 ] [ cmp gte reg 1 0x00000801 ] [ cmp lte reg 1 0x00006801 ] # frag frag-off != 33-45 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 2b @ 44 + 2 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x0000f8ff ) ^ 0x00000000 ] [ range neq reg 1 0x00000801 0x00006801 ] # frag frag-off { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 00000801 : 0 [end] element 0000b801 : 0 [end] element 00001802 : 0 [end] element 0000c002 : 0 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 2b @ 44 + 2 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x0000f8ff ) ^ 0x00000000 ] [ lookup reg 1 set __set%d ] # frag frag-off != { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 00000801 : 0 [end] element 0000b801 : 0 [end] element 00001802 : 0 [end] element 0000c002 : 0 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 2b @ 44 + 2 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x0000f8ff ) ^ 0x00000000 ] [ lookup reg 1 set __set%d 0x1 ] # frag frag-off { 33-55} __set%d test-inet 7 __set%d test-inet 0 element 00000000 : 1 [end] element 00000801 : 0 [end] element 0000b901 : 1 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 2b @ 44 + 2 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x0000f8ff ) ^ 0x00000000 ] [ lookup reg 1 set __set%d ] # frag frag-off != { 33-55} __set%d test-inet 7 __set%d test-inet 0 element 00000000 : 1 [end] element 00000801 : 0 [end] element 0000b901 : 1 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 2b @ 44 + 2 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x0000f8ff ) ^ 0x00000000 ] [ lookup reg 1 set __set%d 0x1 ] # frag more-fragments 1 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 3 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x00000001 ) ^ 0x00000000 ] [ cmp eq reg 1 0x00000001 ] # frag id 1 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 4b @ 44 + 4 => reg 1 ] [ cmp eq reg 1 0x01000000 ] # frag id 22 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 4b @ 44 + 4 => reg 1 ] [ cmp eq reg 1 0x16000000 ] # frag id != 33 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 4b @ 44 + 4 => reg 1 ] [ cmp neq reg 1 0x21000000 ] # frag id 33-45 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 4b @ 44 + 4 => reg 1 ] [ cmp gte reg 1 0x21000000 ] [ cmp lte reg 1 0x2d000000 ] # frag id != 33-45 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 4b @ 44 + 4 => reg 1 ] [ range neq reg 1 0x21000000 0x2d000000 ] # frag id { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 21000000 : 0 [end] element 37000000 : 0 [end] element 43000000 : 0 [end] element 58000000 : 0 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 4b @ 44 + 4 => reg 1 ] [ lookup reg 1 set __set%d ] # frag id != { 33, 55, 67, 88} __set%d test-inet 3 __set%d test-inet 0 element 21000000 : 0 [end] element 37000000 : 0 [end] element 43000000 : 0 [end] element 58000000 : 0 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 4b @ 44 + 4 => reg 1 ] [ lookup reg 1 set __set%d 0x1 ] # frag id { 33-55} __set%d test-inet 7 __set%d test-inet 0 element 00000000 : 1 [end] element 21000000 : 0 [end] element 38000000 : 1 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 4b @ 44 + 4 => reg 1 ] [ lookup reg 1 set __set%d ] # frag id != { 33-55} __set%d test-inet 7 __set%d test-inet 0 element 00000000 : 1 [end] element 21000000 : 0 [end] element 38000000 : 1 [end] inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 4b @ 44 + 4 => reg 1 ] [ lookup reg 1 set __set%d 0x1 ] # frag reserved2 1 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 3 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x00000006 ) ^ 0x00000000 ] [ cmp eq reg 1 0x00000002 ] # frag more-fragments 0 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 3 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x00000001 ) ^ 0x00000000 ] [ cmp eq reg 1 0x00000000 ] # frag more-fragments 1 inet test-inet output [ meta load nfproto => reg 1 ] [ cmp eq reg 1 0x0000000a ] [ exthdr load 1b @ 44 + 3 => reg 1 ] [ bitwise reg 1 = (reg=1 & 0x00000001 ) ^ 0x00000000 ] [ cmp eq reg 1 0x00000001 ]