From 0abfb2b7e01ca07efe1be16a1a5bd8925340dc41 Mon Sep 17 00:00:00 2001 From: Florian Westphal Date: Fri, 10 Jul 2015 11:56:31 +0200 Subject: tests: validate generated netlink instructions compare netlink instructions generated by given nft command line with recorded version. Example: udp dport 80 accept in ip family should look like ip test-ip4 input [ payload load 1b @ network header + 9 => reg 1 ] [ cmp eq reg 1 0x00000011 ] [ payload load 2b @ transport header + 2 => reg 1 ] [ cmp eq reg 1 0x00005000 ] [ immediate reg 0 accept ] This is stored in udp.t.payload.ip Other suffixes: .payload.ip6 .payload.inet .payload ('any') The test script first looks for 'testname.t.payload.$family', if that doesn't exist 'testname.t.payload' is used. This allows for family independent test (e.g. meta), where we don't expect/have any family specific expressions. Signed-off-by: Florian Westphal --- tests/regression/any/meta.t.payload | 707 ++++++++++++++++++++++++++++++++++++ 1 file changed, 707 insertions(+) create mode 100644 tests/regression/any/meta.t.payload (limited to 'tests/regression/any/meta.t.payload') diff --git a/tests/regression/any/meta.t.payload b/tests/regression/any/meta.t.payload new file mode 100644 index 00000000..921e42e3 --- /dev/null +++ b/tests/regression/any/meta.t.payload @@ -0,0 +1,707 @@ +# meta length 1000 +ip test-ip4 input + [ meta load len => reg 1 ] + [ cmp eq reg 1 0x000003e8 ] + +# meta length 22 +ip test-ip4 input + [ meta load len => reg 1 ] + [ cmp eq reg 1 0x00000016 ] + +# meta length != 233 +ip test-ip4 input + [ meta load len => reg 1 ] + [ cmp neq reg 1 0x000000e9 ] + +# meta length 33-45 +ip test-ip4 input + [ meta load len => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp gte reg 1 0x21000000 ] + [ cmp lte reg 1 0x2d000000 ] + +# meta length != 33-45 +ip test-ip4 input + [ meta load len => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp lt reg 1 0x21000000 ] + [ cmp gt reg 1 0x2d000000 ] + +# meta length { 33, 55, 67, 88} +set%d test-ip4 3 +set%d test-ip4 0 + element 00000021 : 0 [end] element 00000037 : 0 [end] element 00000043 : 0 [end] element 00000058 : 0 [end] +ip test-ip4 input + [ meta load len => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta length { 33-55} +set%d test-ip4 7 +set%d test-ip4 0 + element 00000000 : 1 [end] element 21000000 : 0 [end] element 38000000 : 1 [end] +ip test-ip4 input + [ meta load len => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ lookup reg 1 set set%d ] + +# meta protocol { ip, arp, ip6, vlan } +set%d test-ip4 3 +set%d test-ip4 0 + element 00000008 : 0 [end] element 00000608 : 0 [end] element 0000dd86 : 0 [end] element 00000081 : 0 [end] +ip test-ip4 input + [ meta load protocol => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta protocol ip +ip test-ip4 input + [ meta load protocol => reg 1 ] + [ cmp eq reg 1 0x00000008 ] + +# meta protocol != ip +ip test-ip4 input + [ meta load protocol => reg 1 ] + [ cmp neq reg 1 0x00000008 ] + +# meta nfproto ipv4 +ip test-ip4 input + [ meta load nfproto => reg 1 ] + [ cmp eq reg 1 0x00000002 ] + +# meta nfproto ipv6 +ip test-ip4 input + [ meta load nfproto => reg 1 ] + [ cmp eq reg 1 0x0000000a ] + +# meta nfproto {ipv4, ipv6} +set%d test-ip4 3 +set%d test-ip4 0 + element 00000002 : 0 [end] element 0000000a : 0 [end] +ip test-ip4 input + [ meta load nfproto => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta l4proto 22 +ip test-ip4 input + [ meta load l4proto => reg 1 ] + [ cmp eq reg 1 0x00000016 ] + +# meta l4proto != 233 +ip test-ip4 input + [ meta load l4proto => reg 1 ] + [ cmp neq reg 1 0x000000e9 ] + +# meta l4proto 33-45 +ip test-ip4 input + [ meta load l4proto => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 2, 1) ] + [ cmp gte reg 1 0x00000021 ] + [ cmp lte reg 1 0x0000002d ] + +# meta l4proto != 33-45 +ip test-ip4 input + [ meta load l4proto => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 2, 1) ] + [ cmp lt reg 1 0x00000021 ] + [ cmp gt reg 1 0x0000002d ] + +# meta l4proto { 33, 55, 67, 88} +set%d test-ip4 3 +set%d test-ip4 0 + element 00000021 : 0 [end] element 00000037 : 0 [end] element 00000043 : 0 [end] element 00000058 : 0 [end] +ip test-ip4 input + [ meta load l4proto => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta l4proto { 33-55} +set%d test-ip4 7 +set%d test-ip4 0 + element 00000000 : 1 [end] element 00000021 : 0 [end] element 00000038 : 1 [end] +ip test-ip4 input + [ meta load l4proto => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 2, 1) ] + [ lookup reg 1 set set%d ] + +# meta mark 0x4 +ip test-ip4 input + [ meta load mark => reg 1 ] + [ cmp eq reg 1 0x00000004 ] + +# meta mark 0x32 +ip test-ip4 input + [ meta load mark => reg 1 ] + [ cmp eq reg 1 0x00000032 ] + +# meta mark and 0x03 == 0x01 +ip test-ip4 input + [ meta load mark => reg 1 ] + [ bitwise reg 1 = (reg=1 & 0x00000003 ) ^ 0x00000000 ] + [ cmp eq reg 1 0x00000001 ] + +# meta mark and 0x03 != 0x01 +ip test-ip4 input + [ meta load mark => reg 1 ] + [ bitwise reg 1 = (reg=1 & 0x00000003 ) ^ 0x00000000 ] + [ cmp neq reg 1 0x00000001 ] + +# meta mark 0x10 +ip test-ip4 input + [ meta load mark => reg 1 ] + [ cmp eq reg 1 0x00000010 ] + +# meta mark != 0x10 +ip test-ip4 input + [ meta load mark => reg 1 ] + [ cmp neq reg 1 0x00000010 ] + +# meta mark or 0x03 == 0x01 +ip test-ip4 input + [ meta load mark => reg 1 ] + [ bitwise reg 1 = (reg=1 & 0xfffffffc ) ^ 0x00000003 ] + [ cmp eq reg 1 0x00000001 ] + +# meta mark or 0x03 != 0x01 +ip test-ip4 input + [ meta load mark => reg 1 ] + [ bitwise reg 1 = (reg=1 & 0xfffffffc ) ^ 0x00000003 ] + [ cmp neq reg 1 0x00000001 ] + +# meta mark xor 0x03 == 0x01 +ip test-ip4 input + [ meta load mark => reg 1 ] + [ cmp eq reg 1 0x00000002 ] + +# meta mark xor 0x03 != 0x01 +ip test-ip4 input + [ meta load mark => reg 1 ] + [ cmp neq reg 1 0x00000002 ] + +# meta iif eth0 accept +ip test-ip4 input + [ meta load iif => reg 1 ] + [ cmp eq reg 1 0x00000002 ] + [ immediate reg 0 accept ] + +# meta iif eth0 accept +ip test-ip4 input + [ meta load iif => reg 1 ] + [ cmp eq reg 1 0x00000002 ] + [ immediate reg 0 accept ] + +# meta iif != eth0 accept +ip test-ip4 input + [ meta load iif => reg 1 ] + [ cmp neq reg 1 0x00000002 ] + [ immediate reg 0 accept ] + +# meta iif != eth0 accept +ip test-ip4 input + [ meta load iif => reg 1 ] + [ cmp neq reg 1 0x00000002 ] + [ immediate reg 0 accept ] + +# meta iifname "eth0" +ip test-ip4 input + [ meta load iifname => reg 1 ] + [ cmp eq reg 1 0x30687465 0x00000000 0x00000000 0x00000000 ] + +# meta iifname != "eth0" +ip test-ip4 input + [ meta load iifname => reg 1 ] + [ cmp neq reg 1 0x30687465 0x00000000 0x00000000 0x00000000 ] + +# meta iifname {"eth0", "lo"} +set%d test-ip4 3 +set%d test-ip4 0 + element 30687465 00000000 00000000 00000000 : 0 [end] element 00006f6c 00000000 00000000 00000000 : 0 [end] +ip test-ip4 input + [ meta load iifname => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta iiftype {ether, ppp, ipip, ipip6, loopback, sit, ipgre} +set%d test-ip4 3 +set%d test-ip4 0 + element 00000001 : 0 [end] element 00000200 : 0 [end] element 00000300 : 0 [end] element 00000301 : 0 [end] element 00000304 : 0 [end] element 00000308 : 0 [end] element 0000030a : 0 [end] +ip test-ip4 input + [ meta load iiftype => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta iiftype != ether +ip test-ip4 input + [ meta load iiftype => reg 1 ] + [ cmp neq reg 1 0x00000001 ] + +# meta iiftype ether +ip test-ip4 input + [ meta load iiftype => reg 1 ] + [ cmp eq reg 1 0x00000001 ] + +# meta iiftype != ppp +ip test-ip4 input + [ meta load iiftype => reg 1 ] + [ cmp neq reg 1 0x00000200 ] + +# meta iiftype ppp +ip test-ip4 input + [ meta load iiftype => reg 1 ] + [ cmp eq reg 1 0x00000200 ] + +# meta oif lo accept +ip test-ip4 input + [ meta load oif => reg 1 ] + [ cmp eq reg 1 0x00000001 ] + [ immediate reg 0 accept ] + +# meta oif != lo accept +ip test-ip4 input + [ meta load oif => reg 1 ] + [ cmp neq reg 1 0x00000001 ] + [ immediate reg 0 accept ] + +# meta oif {eth0, lo} accept +set%d test-ip4 3 +set%d test-ip4 0 + element 00000002 : 0 [end] element 00000001 : 0 [end] +ip test-ip4 input + [ meta load oif => reg 1 ] + [ lookup reg 1 set set%d ] + [ immediate reg 0 accept ] + +# meta oifname "eth0" +ip test-ip4 input + [ meta load oifname => reg 1 ] + [ cmp eq reg 1 0x30687465 0x00000000 0x00000000 0x00000000 ] + +# meta oifname != "eth0" +ip test-ip4 input + [ meta load oifname => reg 1 ] + [ cmp neq reg 1 0x30687465 0x00000000 0x00000000 0x00000000 ] + +# meta oifname { "eth0", "lo"} +set%d test-ip4 3 +set%d test-ip4 0 + element 30687465 00000000 00000000 00000000 : 0 [end] element 00006f6c 00000000 00000000 00000000 : 0 [end] +ip test-ip4 input + [ meta load oifname => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta oiftype {ether, ppp, ipip, ipip6, loopback, sit, ipgre} +set%d test-ip4 3 +set%d test-ip4 0 + element 00000001 : 0 [end] element 00000200 : 0 [end] element 00000300 : 0 [end] element 00000301 : 0 [end] element 00000304 : 0 [end] element 00000308 : 0 [end] element 0000030a : 0 [end] +ip test-ip4 input + [ meta load oiftype => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta oiftype != ether +ip test-ip4 input + [ meta load oiftype => reg 1 ] + [ cmp neq reg 1 0x00000001 ] + +# meta oiftype ether +ip test-ip4 input + [ meta load oiftype => reg 1 ] + [ cmp eq reg 1 0x00000001 ] + +# meta skuid {bin, root, daemon} accept +set%d test-ip4 3 +set%d test-ip4 0 + element 00000001 : 0 [end] element 00000000 : 0 [end] element 00000002 : 0 [end] +ip test-ip4 input + [ meta load skuid => reg 1 ] + [ lookup reg 1 set set%d ] + [ immediate reg 0 accept ] + +# meta skuid root +ip test-ip4 input + [ meta load skuid => reg 1 ] + [ cmp eq reg 1 0x00000000 ] + +# meta skuid != root +ip test-ip4 input + [ meta load skuid => reg 1 ] + [ cmp neq reg 1 0x00000000 ] + +# meta skuid lt 3000 accept +ip test-ip4 input + [ meta load skuid => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp lt reg 1 0xb80b0000 ] + [ immediate reg 0 accept ] + +# meta skuid gt 3000 accept +ip test-ip4 input + [ meta load skuid => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp gt reg 1 0xb80b0000 ] + [ immediate reg 0 accept ] + +# meta skuid eq 3000 accept +ip test-ip4 input + [ meta load skuid => reg 1 ] + [ cmp eq reg 1 0x00000bb8 ] + [ immediate reg 0 accept ] + +# meta skuid 3001-3005 accept +ip test-ip4 input + [ meta load skuid => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp gte reg 1 0xb90b0000 ] + [ cmp lte reg 1 0xbd0b0000 ] + [ immediate reg 0 accept ] + +# meta skuid != 2001-2005 accept +ip test-ip4 input + [ meta load skuid => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp lt reg 1 0xd1070000 ] + [ cmp gt reg 1 0xd5070000 ] + [ immediate reg 0 accept ] + +# meta skuid { 2001-2005} accept +set%d test-ip4 7 +set%d test-ip4 0 + element 00000000 : 1 [end] element d1070000 : 0 [end] element d6070000 : 1 [end] +ip test-ip4 input + [ meta load skuid => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ lookup reg 1 set set%d ] + [ immediate reg 0 accept ] + +# meta skgid {bin, root, daemon} accept +set%d test-ip4 3 +set%d test-ip4 0 + element 00000001 : 0 [end] element 00000000 : 0 [end] element 00000002 : 0 [end] +ip test-ip4 input + [ meta load skgid => reg 1 ] + [ lookup reg 1 set set%d ] + [ immediate reg 0 accept ] + +# meta skgid root +ip test-ip4 input + [ meta load skgid => reg 1 ] + [ cmp eq reg 1 0x00000000 ] + +# meta skgid != root +ip test-ip4 input + [ meta load skgid => reg 1 ] + [ cmp neq reg 1 0x00000000 ] + +# meta skgid lt 3000 accept +ip test-ip4 input + [ meta load skgid => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp lt reg 1 0xb80b0000 ] + [ immediate reg 0 accept ] + +# meta skgid gt 3000 accept +ip test-ip4 input + [ meta load skgid => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp gt reg 1 0xb80b0000 ] + [ immediate reg 0 accept ] + +# meta skgid eq 3000 accept +ip test-ip4 input + [ meta load skgid => reg 1 ] + [ cmp eq reg 1 0x00000bb8 ] + [ immediate reg 0 accept ] + +# meta skgid 2001-2005 accept +ip test-ip4 input + [ meta load skgid => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp gte reg 1 0xd1070000 ] + [ cmp lte reg 1 0xd5070000 ] + [ immediate reg 0 accept ] + +# meta skgid != 2001-2005 accept +ip test-ip4 input + [ meta load skgid => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp lt reg 1 0xd1070000 ] + [ cmp gt reg 1 0xd5070000 ] + [ immediate reg 0 accept ] + +# meta skgid { 2001-2005} accept +set%d test-ip4 7 +set%d test-ip4 0 + element 00000000 : 1 [end] element d1070000 : 0 [end] element d6070000 : 1 [end] +ip test-ip4 input + [ meta load skgid => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ lookup reg 1 set set%d ] + [ immediate reg 0 accept ] + +# meta mark set 0xffffffc8 xor 0x16 +ip test-ip4 input + [ immediate reg 1 0xffffffde ] + [ meta set mark with reg 1 ] + +# meta mark set 0x16 and 0x16 +ip test-ip4 input + [ immediate reg 1 0x00000016 ] + [ meta set mark with reg 1 ] + +# meta mark set 0xffffffe9 or 0x16 +ip test-ip4 input + [ immediate reg 1 0xffffffff ] + [ meta set mark with reg 1 ] + +# meta mark set 0xffffffde and 0x16 +ip test-ip4 input + [ immediate reg 1 0x00000016 ] + [ meta set mark with reg 1 ] + +# meta mark set 0xf045ffde or 0x10 +ip test-ip4 input + [ immediate reg 1 0xf045ffde ] + [ meta set mark with reg 1 ] + +# meta mark set 0xffffffde or 0x16 +ip test-ip4 input + [ immediate reg 1 0xffffffde ] + [ meta set mark with reg 1 ] + +# meta mark set 0x32 or 0xfffff +ip test-ip4 input + [ immediate reg 1 0x000fffff ] + [ meta set mark with reg 1 ] + +# meta mark set 0xfffe xor 0x16 +ip test-ip4 input + [ immediate reg 1 0x0000ffe8 ] + [ meta set mark with reg 1 ] + +# meta iif lo +ip test-ip4 input + [ meta load iif => reg 1 ] + [ cmp eq reg 1 0x00000001 ] + +# meta oif lo +ip test-ip4 input + [ meta load oif => reg 1 ] + [ cmp eq reg 1 0x00000001 ] + +# meta oifname "eth2" accept +ip test-ip4 input + [ meta load oifname => reg 1 ] + [ cmp eq reg 1 0x32687465 0x00000000 0x00000000 0x00000000 ] + [ immediate reg 0 accept ] + +# meta skuid 3000 +ip test-ip4 input + [ meta load skuid => reg 1 ] + [ cmp eq reg 1 0x00000bb8 ] + +# meta skgid 3000 +ip test-ip4 input + [ meta load skgid => reg 1 ] + [ cmp eq reg 1 0x00000bb8 ] + +# meta rtclassid cosmos +ip test-ip4 input + [ meta load rtclassid => reg 1 ] + [ cmp eq reg 1 0x00000000 ] + +# meta pkttype broadcast +ip test-ip4 input + [ meta load pkttype => reg 1 ] + [ cmp eq reg 1 0x00000001 ] + +# meta pkttype unicast +ip test-ip4 input + [ meta load pkttype => reg 1 ] + [ cmp eq reg 1 0x00000000 ] + +# meta pkttype multicast +ip test-ip4 input + [ meta load pkttype => reg 1 ] + [ cmp eq reg 1 0x00000002 ] + +# meta pkttype != broadcast +ip test-ip4 input + [ meta load pkttype => reg 1 ] + [ cmp neq reg 1 0x00000001 ] + +# meta pkttype != unicast +ip test-ip4 input + [ meta load pkttype => reg 1 ] + [ cmp neq reg 1 0x00000000 ] + +# meta pkttype != multicast +ip test-ip4 input + [ meta load pkttype => reg 1 ] + [ cmp neq reg 1 0x00000002 ] + +# meta pkttype { broadcast, multicast} accept +set%d test-ip4 3 +set%d test-ip4 0 + element 00000001 : 0 [end] element 00000002 : 0 [end] +ip test-ip4 input + [ meta load pkttype => reg 1 ] + [ lookup reg 1 set set%d ] + [ immediate reg 0 accept ] + +# meta cpu 1 +ip test-ip4 input + [ meta load cpu => reg 1 ] + [ cmp eq reg 1 0x00000001 ] + +# meta cpu != 1 +ip test-ip4 input + [ meta load cpu => reg 1 ] + [ cmp neq reg 1 0x00000001 ] + +# meta cpu 1-3 +ip test-ip4 input + [ meta load cpu => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp gte reg 1 0x01000000 ] + [ cmp lte reg 1 0x03000000 ] + +# meta cpu != 1-2 +ip test-ip4 input + [ meta load cpu => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp lt reg 1 0x01000000 ] + [ cmp gt reg 1 0x02000000 ] + +# meta cpu { 2,3} +set%d test-ip4 3 +set%d test-ip4 0 + element 00000002 : 0 [end] element 00000003 : 0 [end] +ip test-ip4 input + [ meta load cpu => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta iifgroup 0 +ip test-ip4 input + [ meta load iifgroup => reg 1 ] + [ cmp eq reg 1 0x00000000 ] + +# meta iifgroup != 0 +ip test-ip4 input + [ meta load iifgroup => reg 1 ] + [ cmp neq reg 1 0x00000000 ] + +# meta iifgroup default +ip test-ip4 input + [ meta load iifgroup => reg 1 ] + [ cmp eq reg 1 0x00000000 ] + +# meta iifgroup != default +ip test-ip4 input + [ meta load iifgroup => reg 1 ] + [ cmp neq reg 1 0x00000000 ] + +# meta iifgroup {default} +set%d test-ip4 3 +set%d test-ip4 0 + element 00000000 : 0 [end] +ip test-ip4 input + [ meta load iifgroup => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta iifgroup { 11,33} +set%d test-ip4 3 +set%d test-ip4 0 + element 0000000b : 0 [end] element 00000021 : 0 [end] +ip test-ip4 input + [ meta load iifgroup => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta iifgroup {11-33} +set%d test-ip4 7 +set%d test-ip4 0 + element 00000000 : 1 [end] element 0b000000 : 0 [end] element 22000000 : 1 [end] +ip test-ip4 input + [ meta load iifgroup => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ lookup reg 1 set set%d ] + +# meta oifgroup 0 +ip test-ip4 input + [ meta load oifgroup => reg 1 ] + [ cmp eq reg 1 0x00000000 ] + +# meta oifgroup != 0 +ip test-ip4 input + [ meta load oifgroup => reg 1 ] + [ cmp neq reg 1 0x00000000 ] + +# meta oifgroup default +ip test-ip4 input + [ meta load oifgroup => reg 1 ] + [ cmp eq reg 1 0x00000000 ] + +# meta oifgroup != default +ip test-ip4 input + [ meta load oifgroup => reg 1 ] + [ cmp neq reg 1 0x00000000 ] + +# meta oifgroup {default} +set%d test-ip4 3 +set%d test-ip4 0 + element 00000000 : 0 [end] +ip test-ip4 input + [ meta load oifgroup => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta oifgroup { 11,33} +set%d test-ip4 3 +set%d test-ip4 0 + element 0000000b : 0 [end] element 00000021 : 0 [end] +ip test-ip4 input + [ meta load oifgroup => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta oifgroup {11-33} +set%d test-ip4 7 +set%d test-ip4 0 + element 00000000 : 1 [end] element 0b000000 : 0 [end] element 22000000 : 1 [end] +ip test-ip4 input + [ meta load oifgroup => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ lookup reg 1 set set%d ] + +# meta cgroup 1048577 +ip test-ip4 input + [ meta load cgroup => reg 1 ] + [ cmp eq reg 1 0x00100001 ] + +# meta cgroup != 1048577 +ip test-ip4 input + [ meta load cgroup => reg 1 ] + [ cmp neq reg 1 0x00100001 ] + +# meta cgroup { 1048577, 1048578 } +set%d test-ip4 3 +set%d test-ip4 0 + element 00100001 : 0 [end] element 00100002 : 0 [end] +ip test-ip4 input + [ meta load cgroup => reg 1 ] + [ lookup reg 1 set set%d ] + +# meta cgroup 1048577-1048578 +ip test-ip4 input + [ meta load cgroup => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp gte reg 1 0x01001000 ] + [ cmp lte reg 1 0x02001000 ] + +# meta cgroup != 1048577-1048578 +ip test-ip4 input + [ meta load cgroup => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ cmp lt reg 1 0x01001000 ] + [ cmp gt reg 1 0x02001000 ] + +# meta cgroup {1048577-1048578} +set%d test-ip4 7 +set%d test-ip4 0 + element 00000000 : 1 [end] element 01001000 : 0 [end] element 03001000 : 1 [end] +ip test-ip4 input + [ meta load cgroup => reg 1 ] + [ byteorder reg 1 = hton(reg 1, 4, 4) ] + [ lookup reg 1 set set%d ] + -- cgit v1.2.3