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# ct state new,established, related, untracked
ip test-ip4 output
  [ ct load state => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x0000004e ) ^ 0x00000000 ]
  [ cmp neq reg 1 0x00000000 ]

# ct state != related
ip test-ip4 output
  [ ct load state => reg 1 ]
  [ cmp neq reg 1 0x00000004 ]

# ct state {new,established, related, untracked}
__set%d test-ip4 3
__set%d test-ip4 0
	element 00000008  : 0 [end]	element 00000002  : 0 [end]	element 00000004  : 0 [end]	element 00000040  : 0 [end]
ip test-ip4 output
  [ ct load state => reg 1 ]
  [ lookup reg 1 set __set%d ]

# ct state != {new,established, related, untracked}
__set%d test-ip4 3
__set%d test-ip4 0
	element 00000008  : 0 [end]	element 00000002  : 0 [end]	element 00000004  : 0 [end]	element 00000040  : 0 [end]
ip test-ip4 output
  [ ct load state => reg 1 ]
  [ lookup reg 1 set __set%d 0x1 ]

# ct state invalid drop
ip test-ip4 output
  [ ct load state => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000001 ) ^ 0x00000000 ]
  [ cmp neq reg 1 0x00000000 ]
  [ immediate reg 0 drop ]

# ct state established accept
ip test-ip4 output
  [ ct load state => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000002 ) ^ 0x00000000 ]
  [ cmp neq reg 1 0x00000000 ]
  [ immediate reg 0 accept ]

# ct state 8
ip test-ip4 output
  [ ct load state => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000008 ) ^ 0x00000000 ]
  [ cmp neq reg 1 0x00000000 ]

# ct direction original
ip test-ip4 output
  [ ct load direction => reg 1 ]
  [ cmp eq reg 1 0x00000000 ]

# ct direction != original
ip test-ip4 output
  [ ct load direction => reg 1 ]
  [ cmp neq reg 1 0x00000000 ]

# ct direction reply
ip test-ip4 output
  [ ct load direction => reg 1 ]
  [ cmp eq reg 1 0x00000001 ]

# ct direction != reply
ip test-ip4 output
  [ ct load direction => reg 1 ]
  [ cmp neq reg 1 0x00000001 ]

# ct direction {reply, original}
__set%d test-ip4 3
__set%d test-ip4 0
	element 00000001  : 0 [end]	element 00000000  : 0 [end]
ip test-ip4 output
  [ ct load direction => reg 1 ]
  [ lookup reg 1 set __set%d ]

# ct direction != {reply, original}
__set%d test-ip4 3
__set%d test-ip4 0
	element 00000001  : 0 [end]	element 00000000  : 0 [end]
ip test-ip4 output
  [ ct load direction => reg 1 ]
  [ lookup reg 1 set __set%d 0x1 ]

# ct status expected
ip test-ip4 output
  [ ct load status => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000001 ) ^ 0x00000000 ]
  [ cmp neq reg 1 0x00000000 ]

# ct status != expected
ip test-ip4 output
  [ ct load status => reg 1 ]
  [ cmp neq reg 1 0x00000001 ]

# ct status seen-reply
ip test-ip4 output
  [ ct load status => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000002 ) ^ 0x00000000 ]
  [ cmp neq reg 1 0x00000000 ]

# ct status != seen-reply
ip test-ip4 output
  [ ct load status => reg 1 ]
  [ cmp neq reg 1 0x00000002 ]

# ct status {expected, seen-reply, assured, confirmed, dying}
__set%d test-ip4 3
__set%d test-ip4 0
	element 00000001  : 0 [end]	element 00000002  : 0 [end]	element 00000004  : 0 [end]	element 00000008  : 0 [end]	element 00000200  : 0 [end]
ip test-ip4 output
  [ ct load status => reg 1 ]
  [ lookup reg 1 set __set%d ]

# ct status != {expected, seen-reply, assured, confirmed, dying}
__set%d test-ip4 3
__set%d test-ip4 0
	element 00000001  : 0 [end]	element 00000002  : 0 [end]	element 00000004  : 0 [end]	element 00000008  : 0 [end]	element 00000200  : 0 [end]
ip test-ip4 output
  [ ct load status => reg 1 ]
  [ lookup reg 1 set __set%d 0x1 ]

# ct mark 0
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ cmp eq reg 1 0x00000000 ]

# ct mark or 0x23 == 0x11
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0xffffffdc ) ^ 0x00000023 ]
  [ cmp eq reg 1 0x00000011 ]

# ct mark or 0x3 != 0x1
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0xfffffffc ) ^ 0x00000003 ]
  [ cmp neq reg 1 0x00000001 ]

# ct mark and 0x23 == 0x11
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000023 ) ^ 0x00000000 ]
  [ cmp eq reg 1 0x00000011 ]

# ct mark and 0x3 != 0x1
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000003 ) ^ 0x00000000 ]
  [ cmp neq reg 1 0x00000001 ]

# ct mark xor 0x23 == 0x11
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ cmp eq reg 1 0x00000032 ]

# ct mark xor 0x3 != 0x1
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ cmp neq reg 1 0x00000002 ]

# ct mark 0x00000032
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ cmp eq reg 1 0x00000032 ]

# ct mark != 0x00000032
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ cmp neq reg 1 0x00000032 ]

# ct mark 0x00000032-0x00000045
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 4, 4) ]
  [ cmp gte reg 1 0x32000000 ]
  [ cmp lte reg 1 0x45000000 ]

# ct mark != 0x00000032-0x00000045
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 4, 4) ]
  [ range neq reg 1 0x32000000 0x45000000 ]

# ct mark {0x32, 0x2222, 0x42de3}
__set%d test-ip4 3
__set%d test-ip4 0
	element 00000032  : 0 [end]	element 00002222  : 0 [end]	element 00042de3  : 0 [end]
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ lookup reg 1 set __set%d ]

# ct mark {0x32-0x2222, 0x4444-0x42de3}
__set%d test-ip4 7
__set%d test-ip4 0
        element 00000000  : 1 [end]     element 32000000  : 0 [end]     element 23220000  : 1 [end]     element 44440000  : 0 [end]     element e42d0400  : 1 [end]
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 4, 4) ]
  [ lookup reg 1 set __set%d ]

# ct mark != {0x32, 0x2222, 0x42de3}
__set%d test-ip4 3
__set%d test-ip4 0
	element 00000032  : 0 [end]	element 00002222  : 0 [end]	element 00042de3  : 0 [end]
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ lookup reg 1 set __set%d 0x1 ]

# ct mark set 0x11 xor 0x1331
ip test-ip4 output
  [ immediate reg 1 0x00001320 ]
  [ ct set mark with reg 1 ]

# ct mark set 0x11333 and 0x11
ip test-ip4 output
  [ immediate reg 1 0x00000011 ]
  [ ct set mark with reg 1 ]

# ct mark set 0x12 or 0x11
ip test-ip4 output
  [ immediate reg 1 0x00000013 ]
  [ ct set mark with reg 1 ]

# ct mark set 0x11
ip test-ip4 output
  [ immediate reg 1 0x00000011 ]
  [ ct set mark with reg 1 ]

# ct expiration 30s
ip test-ip4 output
  [ ct load expiration => reg 1 ]
  [ cmp eq reg 1 0x00007530 ]

# ct expiration 30000ms
ip test-ip4 output
  [ ct load expiration => reg 1 ]
  [ cmp eq reg 1 0x00007530 ]

# ct expiration 1m-1h
ip test-ip4 output
  [ ct load expiration => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 4, 4) ]
  [ cmp gte reg 1 0x60ea0000 ]
  [ cmp lte reg 1 0x80ee3600 ]

# ct expiration > 4d23h59m59s
ip test-ip4 output
  [ ct load expiration => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 4, 4) ]
  [ cmp gt reg 1 0x18c8bf19 ]

# ct expiration != 233
ip test-ip4 output
  [ ct load expiration => reg 1 ]
  [ cmp neq reg 1 0x00038e28 ]

# ct expiration 33-45
ip test-ip4 output
  [ ct load expiration => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 4, 4) ]
  [ cmp gte reg 1 0xe8800000 ]
  [ cmp lte reg 1 0xc8af0000 ]

# ct expiration != 33-45
ip test-ip4 output
  [ ct load expiration => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 4, 4) ]
  [ range neq reg 1 0xe8800000 0xc8af0000 ]

# ct expiration {33, 55, 67, 88}
__set%d test-ip4 3
__set%d test-ip4 0
	element 000080e8  : 0 [end]	element 0000d6d8  : 0 [end]	element 000105b8  : 0 [end]	element 000157c0  : 0 [end]
ip test-ip4 output
  [ ct load expiration => reg 1 ]
  [ lookup reg 1 set __set%d ]

# ct expiration != {33, 55, 67, 88}
__set%d test-ip4 3
__set%d test-ip4 0
	element 000080e8  : 0 [end]	element 0000d6d8  : 0 [end]	element 000105b8  : 0 [end]	element 000157c0  : 0 [end]
ip test-ip4 output
  [ ct load expiration => reg 1 ]
  [ lookup reg 1 set __set%d 0x1 ]

# ct expiration {33-55, 66-88}
__set%d test-ip4 7 size 5
__set%d test-ip4 0
	element 00000000  : 1 [end]	element e8800000  : 0 [end]	element d9d60000  : 1 [end]	element d0010100  : 0 [end]	element c1570100  : 1 [end]
ip test-ip4 output 
  [ ct load expiration => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 4, 4) ]
  [ lookup reg 1 set __set%d ]

# ct expiration != {33-55, 66-88}
__set%d test-ip4 7 size 5
__set%d test-ip4 0
	element 00000000  : 1 [end]	element e8800000  : 0 [end]	element d9d60000  : 1 [end]	element d0010100  : 0 [end]	element c1570100  : 1 [end]
ip test-ip4 output 
  [ ct load expiration => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 4, 4) ]
  [ lookup reg 1 set __set%d 0x1 ]

# ct helper "ftp"
ip test-ip4 output
  [ ct load helper => reg 1 ]
  [ cmp eq reg 1 0x00707466 0x00000000 0x00000000 0x00000000 ]

# ct state . ct mark { new . 0x12345678, new . 0x34127856, established . 0x12785634}
__set%d test-ip4 3
__set%d test-ip4 0
	element 00000008 12345678  : 0 [end]	element 00000008 34127856  : 0 [end]	element 00000002 12785634  : 0 [end]
ip test-ip4 output
  [ ct load state => reg 1 ]
  [ ct load mark => reg 9 ]
  [ lookup reg 1 set __set%d ]

# ct mark set mark
ip test-ip4 output
  [ meta load mark => reg 1 ]
  [ ct set mark with reg 1 ]

# ct mark set (meta mark | 0x10) << 8
inet test-inet output
  [ meta load mark => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0xffffffef ) ^ 0x00000010 ]
  [ bitwise reg 1 = ( reg 1 << 0x00000008 ) ]
  [ ct set mark with reg 1 ]

# ct mark set mark map { 1 : 10, 2 : 20, 3 : 30 }
__map%d test-ip4 b
__map%d test-ip4 0
        element 00000001  : 0000000a 0 [end]    element 00000002  : 00000014 0 [end]    element 00000003  : 0000001e 0 [end]
ip test-ip4 output
  [ meta load mark => reg 1 ]
  [ lookup reg 1 set __map%d dreg 1 ]
  [ ct set mark with reg 1 ]

# ct original bytes > 100000
ip test-ip4 output
  [ ct load bytes => reg 1 , dir original ]
  [ byteorder reg 1 = hton(reg 1, 8, 8) ]
  [ cmp gt reg 1 0x00000000 0xa0860100 ]

# ct reply packets < 100
ip test-ip4 output
  [ ct load packets => reg 1 , dir reply ]
  [ byteorder reg 1 = hton(reg 1, 8, 8) ]
  [ cmp lt reg 1 0x00000000 0x64000000 ]

# ct bytes > 100000
ip test-ip4 output
  [ ct load bytes => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 8, 8) ]
  [ cmp gt reg 1 0x00000000 0xa0860100 ]

# ct avgpkt > 200
ip test-ip4 output
  [ ct load avgpkt => reg 1 ]
  [ byteorder reg 1 = hton(reg 1, 8, 8) ]
  [ cmp gt reg 1 0x00000000 0xc8000000 ]

# ct original avgpkt < 500
ip test-ip4 output
  [ ct load avgpkt => reg 1 , dir original ]
  [ byteorder reg 1 = hton(reg 1, 8, 8) ]
  [ cmp lt reg 1 0x00000000 0xf4010000 ]

# ct status expected,seen-reply,assured,confirmed,snat,dnat,dying
ip test-ip4 output
  [ ct load status => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x0000023f ) ^ 0x00000000 ]
  [ cmp neq reg 1 0x00000000 ]

# ct status snat
ip test-ip4 output
  [ ct load status => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000010 ) ^ 0x00000000 ]
  [ cmp neq reg 1 0x00000000 ]

# ct status dnat
ip test-ip4 output
  [ ct load status => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000020 ) ^ 0x00000000 ]
  [ cmp neq reg 1 0x00000000 ]

# ct event set new
ip test-ip4 output
  [ immediate reg 1 0x00000001 ]
  [ ct set event with reg 1 ]

# ct event set new | related | destroy | label
ip test-ip4 output
  [ immediate reg 1 0x00000407 ]
  [ ct set event with reg 1 ]

# ct event set new,related,destroy,label
ip test-ip4 output
  [ immediate reg 1 0x00000407 ]
  [ ct set event with reg 1 ]

# ct event set new,destroy
ip test-ip4 output
  [ immediate reg 1 0x00000005 ]
  [ ct set event with reg 1 ]

# ct event set 1
ip test-ip4 output
  [ immediate reg 1 0x00000001 ]
  [ ct set event with reg 1 ]

# ct event set 0x0
ip test-ip4 output
  [ immediate reg 1 0x00000000 ]
  [ ct set event with reg 1 ]

# ct label 127
ip test-ip4 output
  [ ct load label => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000000 0x00000000 0x00000000 0x80000000 ) ^ 0x00000000 0x00000000 0x00000000 0x00000000 ]
  [ cmp neq reg 1 0x00000000 0x00000000 0x00000000 0x00000000 ]

# ct label set 127
ip test-ip4 output
  [ immediate reg 1 0x00000000 0x00000000 0x00000000 0x80000000 ]
  [ ct set label with reg 1 ]

# ct zone 0
ip test-ip4 output
  [ ct load zone => reg 1 ]
  [ cmp eq reg 1 0x00000000 ]

# ct zone 23
ip test-ip4 output
  [ ct load zone => reg 1 ]
  [ cmp eq reg 1 0x00000017 ]

# ct original zone 1
ip test-ip4 output
  [ ct load zone => reg 1 , dir original ]
  [ cmp eq reg 1 0x00000001 ]

# ct reply zone 1
ip test-ip4 output
  [ ct load zone => reg 1 , dir reply ]
  [ cmp eq reg 1 0x00000001 ]

# ct zone set 1
ip test-ip4 output
  [ immediate reg 1 0x00000001 ]
  [ ct set zone with reg 1 ]

# ct original zone set 1
ip test-ip4 output
  [ immediate reg 1 0x00000001 ]
  [ ct set zone with reg 1 , dir original ]

# ct reply zone set 1
ip test-ip4 output
  [ immediate reg 1 0x00000001 ]
  [ ct set zone with reg 1 , dir reply ]

# ct zone set mark map { 1 : 1,  2 : 2 }
__map%d test-ip4 b
__map%d test-ip4 0
        element 00000001  : 00000001 0 [end]    element 00000002  : 00000002 0 [end]
ip test-ip4 output
  [ meta load mark => reg 1 ]
  [ lookup reg 1 set __map%d dreg 1 ]
  [ ct set zone with reg 1 ]

# notrack
ip test-ip4 output
  [ notrack ]

# ct direction . ct mark { original . 0x12345678, reply . 0x87654321}
__set%d test-ip4 3 size 2
__set%d test-ip4 0
	element 00000000 12345678  : 0 [end]	element 00000001 87654321  : 0 [end]
ip test-ip4 output 
  [ ct load direction => reg 1 ]
  [ ct load mark => reg 9 ]
  [ lookup reg 1 set __set%d ]

# ct state . ct mark vmap { new . 0x12345678 : drop, established . 0x87654321 : accept}
__map%d test-ip4 b size 2
__map%d test-ip4 0
	element 00000008 12345678  : drop 0 [end]	element 00000002 87654321  : accept 0 [end]
ip test-ip4 output 
  [ ct load state => reg 1 ]
  [ ct load mark => reg 9 ]
  [ lookup reg 1 set __map%d dreg 0 ]

# ct mark set ct mark or 0x00000001
ip test-ip4 output
  [ ct load mark => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0xfffffffe ) ^ 0x00000001 ]
  [ ct set mark with reg 1 ]

# ct id 12345
ip test-ip4 output
  [ ct load unknown => reg 1 ]
  [ cmp eq reg 1 0x39300000 ]

# ct status ! dnat
ip6
  [ ct load status => reg 1 ]
  [ bitwise reg 1 = ( reg 1 & 0x00000020 ) ^ 0x00000000 ]
  [ cmp eq reg 1 0x00000000 ]

# ct count 3
ip test-ip4 output
  [ connlimit count 3 flags 0 ]

# ct count over 3
ip test-ip4 output
  [ connlimit count 3 flags 1 ]