ovn-nb: Rename Port_Bindings 'macs' column to 'addresses'.

[cascardo/ovs.git] / tests / ovn.at

AT_BANNER([OVN components])

AT_SETUP([ovn -- lexer])
dnl For lines without =>, input and expected output are identical.
dnl For lines with =>, input precedes => and expected output follows =>.
AT_DATA([test-cases.txt], [dnl
foo bar baz quuxquuxquux _abcd_ a.b.c.d a123_.456
"abc\u0020def" => "abc def"
" => error("Input ends inside quoted string.")dnl "

a/*b*/c => a c
a//b c => a
a/**/b => a b
a/*/b => a error("`/*' without matching `*/'.")
a/*/**/b => a b
a/b => a error("`/' is only valid as part of `//' or `/*'.") b

0 1 12345 18446744073709551615
18446744073709551616 => error("Decimal constants must be less than 2**64.")
9999999999999999999999 => error("Decimal constants must be less than 2**64.")
01 => error("Decimal constants must not have leading zeros.")

0/0
0/1
1/0 => error("Value contains unmasked 1-bits.")
1/1
128/384
1/3
1/ => error("Integer constant expected.")

1/0x123 => error("Value and mask have incompatible formats.")

0x1234
0x01234 => 0x1234
0x0 => 0
0x000 => 0
0xfedcba9876543210
0XFEDCBA9876543210 => 0xfedcba9876543210
0xfedcba9876543210fedcba9876543210
0x0000fedcba9876543210fedcba9876543210 => 0xfedcba9876543210fedcba9876543210
0x => error("Hex digits expected following 0x.")
0X => error("Hex digits expected following 0X.")
0x0/0x0 => 0/0
0x0/0x1 => 0/0x1
0x1/0x0 => error("Value contains unmasked 1-bits.")
0xffff/0x1ffff
0x. => error("Invalid syntax in hexadecimal constant.")

192.168.128.1 1.2.3.4 255.255.255.255 0.0.0.0
256.1.2.3 => error("Invalid numeric constant.")
192.168.0.0/16
192.168.0.0/255.255.0.0 => 192.168.0.0/16
192.168.0.0/255.255.255.0 => 192.168.0.0/24
192.168.0.0/255.255.0.255
192.168.0.0/255.0.0.0 => error("Value contains unmasked 1-bits.")
192.168.0.0/32
192.168.0.0/255.255.255.255 => 192.168.0.0/32

::
::1
ff00::1234 => ff00::1234
2001:db8:85a3::8a2e:370:7334
2001:db8:85a3:0:0:8a2e:370:7334 => 2001:db8:85a3::8a2e:370:7334
2001:0db8:85a3:0000:0000:8a2e:0370:7334 => 2001:db8:85a3::8a2e:370:7334
::ffff:192.0.2.128
::ffff:c000:0280 => ::ffff:192.0.2.128
::1/::1
::1/ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff => ::1/128
::1/128
ff00::/8
ff00::/ff00:: => ff00::/8

01:23:45:67:ab:cd
01:23:45:67:AB:CD => 01:23:45:67:ab:cd
fe:dc:ba:98:76:54
FE:DC:ba:98:76:54 => fe:dc:ba:98:76:54
01:00:00:00:00:00/01:00:00:00:00:00
ff:ff:ff:ff:ff:ff/ff:ff:ff:ff:ff:ff
fe:ff:ff:ff:ff:ff/ff:ff:ff:ff:ff:ff
ff:ff:ff:ff:ff:ff/fe:ff:ff:ff:ff:ff => error("Value contains unmasked 1-bits.")
fe:x => error("Invalid numeric constant.")
00:01:02:03:04:x => error("Invalid numeric constant.")

# Test that operators are tokenized as expected, even without white space.
(){}[[]]==!=<<=>>=!&&||..,;=<->-- => ( ) { } [[ ]] == != < <= > >= ! && || .. , ; = <-> --
& => error("`&' is only valid as part of `&&'.")
| => error("`|' is only valid as part of `||'.")
- => error("`-' is only valid as part of `--'.")

^ => error("Invalid character `^' in input.")
])
AT_CAPTURE_FILE([input.txt])
sed 's/ =>.*//' test-cases.txt > input.txt
sed 's/.* => //' test-cases.txt > expout
AT_CHECK([ovstest test-ovn lex < input.txt], [0], [expout])
AT_CLEANUP

AT_SETUP([ovn -- expression parser])
dnl For lines without =>, input and expected output are identical.
dnl For lines with =>, input precedes => and expected output follows =>.
AT_DATA([test-cases.txt], [[
eth.type == 0x800
eth.type==0x800 => eth.type == 0x800
eth.type[0..15] == 0x800 => eth.type == 0x800

vlan.present
vlan.present == 1 => vlan.present
!(vlan.present == 0) => vlan.present
!(vlan.present != 1) => vlan.present
!vlan.present
vlan.present == 0 => !vlan.present
vlan.present != 1 => !vlan.present
!(vlan.present == 1) => !vlan.present
!(vlan.present != 0) => !vlan.present

eth.dst[0]
eth.dst[0] == 1 => eth.dst[0]
eth.dst[0] != 0 => eth.dst[0]
!(eth.dst[0] == 0) => eth.dst[0]
!(eth.dst[0] != 1) => eth.dst[0]

!eth.dst[0]
eth.dst[0] == 0 => !eth.dst[0]
eth.dst[0] != 1 => !eth.dst[0]
!(eth.dst[0] == 1) => !eth.dst[0]
!(eth.dst[0] != 0) => !eth.dst[0]

vlan.tci[12..15] == 0x3
vlan.tci == 0x3000/0xf000 => vlan.tci[12..15] == 0x3
vlan.tci[12..15] != 0x3
vlan.tci != 0x3000/0xf000 => vlan.tci[12..15] != 0x3

!vlan.pcp => vlan.pcp == 0
!(vlan.pcp) => vlan.pcp == 0
vlan.pcp == 0x4
vlan.pcp != 0x4
vlan.pcp > 0x4
vlan.pcp >= 0x4
vlan.pcp < 0x4
vlan.pcp <= 0x4
!(vlan.pcp != 0x4) => vlan.pcp == 0x4
!(vlan.pcp == 0x4) => vlan.pcp != 0x4
!(vlan.pcp <= 0x4) => vlan.pcp > 0x4
!(vlan.pcp < 0x4) => vlan.pcp >= 0x4
!(vlan.pcp >= 0x4) => vlan.pcp < 0x4
!(vlan.pcp > 0x4) => vlan.pcp <= 0x4
0x4 == vlan.pcp => vlan.pcp == 0x4
0x4 != vlan.pcp => vlan.pcp != 0x4
0x4 < vlan.pcp => vlan.pcp > 0x4
0x4 <= vlan.pcp => vlan.pcp >= 0x4
0x4 > vlan.pcp => vlan.pcp < 0x4
0x4 >= vlan.pcp => vlan.pcp <= 0x4
!(0x4 != vlan.pcp) => vlan.pcp == 0x4
!(0x4 == vlan.pcp) => vlan.pcp != 0x4
!(0x4 >= vlan.pcp) => vlan.pcp > 0x4
!(0x4 > vlan.pcp) => vlan.pcp >= 0x4
!(0x4 <= vlan.pcp) => vlan.pcp < 0x4
!(0x4 < vlan.pcp) => vlan.pcp <= 0x4

1 < vlan.pcp < 4 => vlan.pcp > 0x1 && vlan.pcp < 0x4
1 <= vlan.pcp <= 4 => vlan.pcp >= 0x1 && vlan.pcp <= 0x4
1 < vlan.pcp <= 4 => vlan.pcp > 0x1 && vlan.pcp <= 0x4
1 <= vlan.pcp < 4 => vlan.pcp >= 0x1 && vlan.pcp < 0x4
1 <= vlan.pcp <= 4 => vlan.pcp >= 0x1 && vlan.pcp <= 0x4
4 > vlan.pcp > 1 => vlan.pcp < 0x4 && vlan.pcp > 0x1
4 >= vlan.pcp > 1 => vlan.pcp <= 0x4 && vlan.pcp > 0x1
4 > vlan.pcp >= 1 => vlan.pcp < 0x4 && vlan.pcp >= 0x1
4 >= vlan.pcp >= 1 => vlan.pcp <= 0x4 && vlan.pcp >= 0x1
!(1 < vlan.pcp < 4) => vlan.pcp <= 0x1 || vlan.pcp >= 0x4
!(1 <= vlan.pcp <= 4) => vlan.pcp < 0x1 || vlan.pcp > 0x4
!(1 < vlan.pcp <= 4) => vlan.pcp <= 0x1 || vlan.pcp > 0x4
!(1 <= vlan.pcp < 4) => vlan.pcp < 0x1 || vlan.pcp >= 0x4
!(1 <= vlan.pcp <= 4) => vlan.pcp < 0x1 || vlan.pcp > 0x4
!(4 > vlan.pcp > 1) => vlan.pcp >= 0x4 || vlan.pcp <= 0x1
!(4 >= vlan.pcp > 1) => vlan.pcp > 0x4 || vlan.pcp <= 0x1
!(4 > vlan.pcp >= 1) => vlan.pcp >= 0x4 || vlan.pcp < 0x1
!(4 >= vlan.pcp >= 1) => vlan.pcp > 0x4 || vlan.pcp < 0x1

vlan.pcp == {1, 2, 3, 4} => vlan.pcp == 0x1 || vlan.pcp == 0x2 || vlan.pcp == 0x3 || vlan.pcp == 0x4
vlan.pcp == 1 || ((vlan.pcp == 2 || vlan.pcp == 3) || vlan.pcp == 4) => vlan.pcp == 0x1 || vlan.pcp == 0x2 || vlan.pcp == 0x3 || vlan.pcp == 0x4

vlan.pcp != {1, 2, 3, 4} => vlan.pcp != 0x1 && vlan.pcp != 0x2 && vlan.pcp != 0x3 && vlan.pcp != 0x4
vlan.pcp == 1 && ((vlan.pcp == 2 && vlan.pcp == 3) && vlan.pcp == 4) => vlan.pcp == 0x1 && vlan.pcp == 0x2 && vlan.pcp == 0x3 && vlan.pcp == 0x4

vlan.pcp == 1 && !((vlan.pcp == 2 && vlan.pcp == 3) && vlan.pcp == 4) => vlan.pcp == 0x1 && (vlan.pcp != 0x2 || vlan.pcp != 0x3 || vlan.pcp != 0x4)
vlan.pcp == 1 && (!(vlan.pcp == 2 && vlan.pcp == 3) && vlan.pcp == 4) => vlan.pcp == 0x1 && (vlan.pcp != 0x2 || vlan.pcp != 0x3) && vlan.pcp == 0x4
vlan.pcp == 1 && !(!(vlan.pcp == 2 && vlan.pcp == 3) && vlan.pcp == 4) => vlan.pcp == 0x1 && ((vlan.pcp == 0x2 && vlan.pcp == 0x3) || vlan.pcp != 0x4)

ip4.src == {10.0.0.0/8, 192.168.0.0/16, 172.16.20.0/24, 8.8.8.8} => ip4.src[24..31] == 0xa || ip4.src[16..31] == 0xc0a8 || ip4.src[8..31] == 0xac1014 || ip4.src == 0x8080808
ip6.src == ::1 => ip6.src == 0x1

ip4.src == 1.2.3.4 => ip4.src == 0x1020304
ip4.src == ::1.2.3.4/::ffff:ffff => ip4.src == 0x1020304
ip6.src == ::1 => ip6.src == 0x1

1
0
!1 => 0
!0 => 1

inport == "eth0"
!(inport != "eth0") => inport == "eth0"

ip4.src == "eth0" => Integer field ip4.src is not compatible with string constant.
inport == 1 => String field inport is not compatible with integer constant.

ip4.src > {1, 2, 3} => Only == and != operators may be used with value sets.
eth.type > 0x800 => Only == and != operators may be used with nominal field eth.type.
vlan.present > 0 => Only == and != operators may be used with Boolean field vlan.present.

inport != "eth0" => Nominal field inport may only be tested for equality (taking enclosing `!' operators into account).
!(inport == "eth0") => Nominal field inport may only be tested for equality (taking enclosing `!' operators into account).
eth.type != 0x800 => Nominal field eth.type may only be tested for equality (taking enclosing `!' operators into account).
!(eth.type == 0x800) => Nominal field eth.type may only be tested for equality (taking enclosing `!' operators into account).

123 == 123 => Syntax error at `123' expecting field name.

123 == xyzzy => Syntax error at `xyzzy' expecting field name.
xyzzy == 1 => Syntax error at `xyzzy' expecting field name.

inport[1] == 1 => Cannot select subfield of string field inport.

eth.type[] == 1 => Syntax error at `@:>@' expecting small integer.
eth.type[::1] == 1 => Syntax error at `::1' expecting small integer.
eth.type[18446744073709551615] == 1 => Syntax error at `18446744073709551615' expecting small integer.

eth.type[5!] => Syntax error at `!' expecting `@:>@'.

eth.type[5..1] => Invalid bit range 5 to 1.

eth.type[12..16] => Cannot select bits 12 to 16 of 16-bit field eth.type.

eth.type[10] == 1 => Cannot select subfield of nominal field eth.type.

eth.type => Explicit `!= 0' is required for inequality test of multibit field against 0.

!(!(vlan.pcp)) => Explicit `!= 0' is required for inequality test of multibit field against 0.

123 => Syntax error at end of input expecting relational operator.

123 x => Syntax error at `x' expecting relational operator.

{1, "eth0"} => Syntax error at `"eth0"' expecting integer.

eth.type == xyzzy => Syntax error at `xyzzy' expecting constant.

(1 x) => Syntax error at `x' expecting `)'.

!0x800 != eth.type => Missing parentheses around operand of !.

eth.type == 0x800 || eth.type == 0x86dd && ip.proto == 17 => && and || must be parenthesized when used together.

eth.dst == {} => Syntax error at `}' expecting constant.

eth.src > 00:00:00:00:11:11/00:00:00:00:ff:ff => Only == and != operators may be used with masked constants.  Consider using subfields instead (e.g. eth.src[0..15] > 0x1111 in place of eth.src > 00:00:00:00:11:11/00:00:00:00:ff:ff).

ip4.src == ::1 => 128-bit constant is not compatible with 32-bit field ip4.src.

1 == eth.type == 2 => Range expressions must have the form `x < field < y' or `x > field > y', with each `<' optionally replaced by `<=' or `>' by `>=').

eth.dst[40] x => Extra tokens at end of input.
]])
sed 's/ =>.*//' test-cases.txt > input.txt
sed 's/.* => //' test-cases.txt > expout
AT_CHECK([ovstest test-ovn parse-expr < input.txt], [0], [expout])
AT_CLEANUP

AT_SETUP([ovn -- expression annotation])
dnl Input precedes =>, expected output follows =>.
AT_DATA([test-cases.txt], [[
ip4.src == 1.2.3.4 => ip4.src == 0x1020304 && eth.type == 0x800
ip4.src != 1.2.3.4 => ip4.src != 0x1020304 && eth.type == 0x800
ip.proto == 123 => ip.proto == 0x7b && (eth.type == 0x800 || eth.type == 0x86dd)
ip.proto == {123, 234} => (ip.proto == 0x7b && (eth.type == 0x800 || eth.type == 0x86dd)) || (ip.proto == 0xea && (eth.type == 0x800 || eth.type == 0x86dd))
ip4.src == 1.2.3.4 && ip4.dst == 5.6.7.8 => ip4.src == 0x1020304 && eth.type == 0x800 && ip4.dst == 0x5060708 && eth.type == 0x800

ip => eth.type == 0x800 || eth.type == 0x86dd
ip == 1 => eth.type == 0x800 || eth.type == 0x86dd
ip[0] == 1 => eth.type == 0x800 || eth.type == 0x86dd
ip > 0 => Only == and != operators may be used with nominal field ip.
!ip => Nominal predicate ip may only be tested positively, e.g. `ip' or `ip == 1' but not `!ip' or `ip == 0'.
ip == 0 => Nominal predicate ip may only be tested positively, e.g. `ip' or `ip == 1' but not `!ip' or `ip == 0'.

vlan.present => vlan.tci[12]
!vlan.present => !vlan.tci[12]

!vlan.pcp => vlan.tci[13..15] == 0 && vlan.tci[12]
vlan.pcp == 1 && vlan.vid == 2 => vlan.tci[13..15] == 0x1 && vlan.tci[12] && vlan.tci[0..11] == 0x2 && vlan.tci[12]
!reg0 && !reg1 && !reg2 && !reg3 => xreg0[32..63] == 0 && xreg0[0..31] == 0 && xreg1[32..63] == 0 && xreg1[0..31] == 0

ip.first_frag => ip.frag[0] && (eth.type == 0x800 || eth.type == 0x86dd) && (!ip.frag[1] || (eth.type != 0x800 && eth.type != 0x86dd))
!ip.first_frag => !ip.frag[0] || (eth.type != 0x800 && eth.type != 0x86dd) || (ip.frag[1] && (eth.type == 0x800 || eth.type == 0x86dd))
ip.later_frag => ip.frag[1] && (eth.type == 0x800 || eth.type == 0x86dd)

bad_prereq != 0 => Error parsing expression `xyzzy' encountered as prerequisite or predicate of initial expression: Syntax error at `xyzzy' expecting field name.
self_recurse != 0 => Error parsing expression `self_recurse != 0' encountered as prerequisite or predicate of initial expression: Recursive expansion of symbol `self_recurse'.
mutual_recurse_1 != 0 => Error parsing expression `mutual_recurse_2 != 0' encountered as prerequisite or predicate of initial expression: Error parsing expression `mutual_recurse_1 != 0' encountered as prerequisite or predicate of initial expression: Recursive expansion of symbol `mutual_recurse_1'.
mutual_recurse_2 != 0 => Error parsing expression `mutual_recurse_1 != 0' encountered as prerequisite or predicate of initial expression: Error parsing expression `mutual_recurse_2 != 0' encountered as prerequisite or predicate of initial expression: Recursive expansion of symbol `mutual_recurse_2'.
]])
sed 's/ =>.*//' test-cases.txt > input.txt
sed 's/.* => //' test-cases.txt > expout
AT_CHECK([ovstest test-ovn annotate-expr < input.txt], [0], [expout])
AT_CLEANUP

AT_SETUP([ovn -- 1-term expression conversion])
AT_CHECK([ovstest test-ovn exhaustive --operation=convert 1], [0],
  [Tested converting all 1-terminal expressions with 2 numeric vars (each 3 bits) in terms of operators == != < <= > >= and 2 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 2-term expression conversion])
AT_CHECK([ovstest test-ovn exhaustive --operation=convert 2], [0],
  [Tested converting 570 expressions of 2 terminals with 2 numeric vars (each 3 bits) in terms of operators == != < <= > >= and 2 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 3-term expression conversion])
AT_CHECK([ovstest test-ovn exhaustive --operation=convert --bits=2 3], [0],
  [Tested converting 62418 expressions of 3 terminals with 2 numeric vars (each 2 bits) in terms of operators == != < <= > >= and 2 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 3-term numeric expression simplification])
AT_CHECK([ovstest test-ovn exhaustive --operation=simplify --nvars=2 --svars=0 3], [0],
  [Tested simplifying 477138 expressions of 3 terminals with 2 numeric vars (each 3 bits) in terms of operators == != < <= > >=.
])
AT_CLEANUP

AT_SETUP([ovn -- 4-term string expression simplification])
AT_CHECK([ovstest test-ovn exhaustive --operation=simplify --nvars=0 --svars=4 4], [0],
  [Tested simplifying 21978 expressions of 4 terminals with 4 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 3-term mixed expression simplification])
AT_CHECK([ovstest test-ovn exhaustive --operation=simplify --nvars=1 --svars=1 3], [0],
  [Tested simplifying 124410 expressions of 3 terminals with 1 numeric vars (each 3 bits) in terms of operators == != < <= > >= and 1 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 4-term numeric expression normalization])
AT_CHECK([ovstest test-ovn exhaustive --operation=normalize --nvars=3 --svars=0 --bits=1 4], [0],
  [Tested normalizing 1207162 expressions of 4 terminals with 3 numeric vars (each 1 bits) in terms of operators == != < <= > >=.
])
AT_CLEANUP

AT_SETUP([ovn -- 4-term string expression normalization])
AT_CHECK([ovstest test-ovn exhaustive --operation=normalize --nvars=0 --svars=3 --bits=1 4], [0],
  [Tested normalizing 11242 expressions of 4 terminals with 3 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 4-term mixed expression normalization])
AT_CHECK([ovstest test-ovn exhaustive --operation=normalize --nvars=1 --bits=1 --svars=2 4], [0],
  [Tested normalizing 128282 expressions of 4 terminals with 1 numeric vars (each 1 bits) in terms of operators == != < <= > >= and 2 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 5-term numeric expression normalization])
AT_CHECK([ovstest test-ovn exhaustive --operation=normalize --nvars=3 --svars=0 --bits=1 --relops='==' 5], [0],
  [Tested normalizing 368550 expressions of 5 terminals with 3 numeric vars (each 1 bits) in terms of operators ==.
])
AT_CLEANUP

AT_SETUP([ovn -- 5-term string expression normalization])
AT_CHECK([ovstest test-ovn exhaustive --operation=normalize --nvars=0 --svars=3 --bits=1 --relops='==' 5], [0],
  [Tested normalizing 368550 expressions of 5 terminals with 3 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 5-term mixed expression normalization])
AT_CHECK([ovstest test-ovn exhaustive --operation=normalize --nvars=1 --svars=1 --bits=1 --relops='==' 5], [0],
  [Tested normalizing 116550 expressions of 5 terminals with 1 numeric vars (each 1 bits) in terms of operators == and 1 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 4-term numeric expressions to flows])
AT_CHECK([ovstest test-ovn exhaustive --operation=flow --nvars=2 --svars=0 --bits=2 --relops='==' 4], [0],
  [Tested converting to flows 128282 expressions of 4 terminals with 2 numeric vars (each 2 bits) in terms of operators ==.
])
AT_CLEANUP

AT_SETUP([ovn -- 4-term string expressions to flows])
AT_CHECK([ovstest test-ovn exhaustive --operation=flow --nvars=0 --svars=4 4], [0],
  [Tested converting to flows 21978 expressions of 4 terminals with 4 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 4-term mixed expressions to flows])
AT_CHECK([ovstest test-ovn exhaustive --operation=flow --nvars=1 --bits=2 --svars=1 --relops='==' 4], [0],
  [Tested converting to flows 37994 expressions of 4 terminals with 1 numeric vars (each 2 bits) in terms of operators == and 1 string vars.
])
AT_CLEANUP

AT_SETUP([ovn -- 3-term numeric expressions to flows])
AT_CHECK([ovstest test-ovn exhaustive --operation=flow --nvars=3 --svars=0 --bits=3 --relops='==' 3], [0],
  [Tested converting to flows 38394 expressions of 3 terminals with 3 numeric vars (each 3 bits) in terms of operators ==.
])
AT_CLEANUP

AT_SETUP([ovn -- converting expressions to flows -- string fields])
expr_to_flow () {
    echo "$1" | ovstest test-ovn expr-to-flows | sort
}
AT_CHECK([expr_to_flow 'inport == "eth0"'], [0], [reg6=0x5
])
AT_CHECK([expr_to_flow 'inport == "eth1"'], [0], [reg6=0x6
])
AT_CHECK([expr_to_flow 'inport == "eth2"'], [0], [(no flows)
])
AT_CHECK([expr_to_flow 'inport == "eth0" && ip'], [0], [dnl
ip,reg6=0x5
ipv6,reg6=0x5
])
AT_CHECK([expr_to_flow 'inport == "eth1" && ip'], [0], [dnl
ip,reg6=0x6
ipv6,reg6=0x6
])
AT_CHECK([expr_to_flow 'inport == "eth2" && ip'], [0], [(no flows)
])
AT_CHECK([expr_to_flow 'inport == {"eth0", "eth1", "eth2", "LOCAL"}'], [0],
[reg6=0x5
reg6=0x6
reg6=0xfffe
])
AT_CHECK([expr_to_flow 'inport == {"eth0", "eth1", "eth2"} && ip'], [0], [dnl
ip,reg6=0x5
ip,reg6=0x6
ipv6,reg6=0x5
ipv6,reg6=0x6
])
AT_CHECK([expr_to_flow 'inport == "eth0" && inport == "eth1"'], [0], [dnl
(no flows)
])
AT_CLEANUP

AT_SETUP([ovn -- action parsing])
dnl Text before => is input, text after => is expected output.
AT_DATA([test-cases.txt], [[
# Positive tests.
drop; => actions=drop, prereqs=1
next; => actions=resubmit(,27), prereqs=1
next(0); => actions=resubmit(,16), prereqs=1
next(15); => actions=resubmit(,31), prereqs=1
ct_next; => actions=ct(table=27,zone=NXM_NX_REG5[0..15]), prereqs=ip
ct_commit; => actions=ct(commit,zone=NXM_NX_REG5[0..15]), prereqs=ip
output; => actions=resubmit(,64), prereqs=1
outport="eth0"; next; outport="LOCAL"; next; => actions=set_field:0x5->reg7,resubmit(,27),set_field:0xfffe->reg7,resubmit(,27), prereqs=1
tcp.dst=80; => actions=set_field:80->tcp_dst, prereqs=ip.proto == 0x6 && (eth.type == 0x800 || eth.type == 0x86dd)
eth.dst[40] = 1; => actions=set_field:01:00:00:00:00:00/01:00:00:00:00:00->eth_dst, prereqs=1
vlan.pcp = 2; => actions=set_field:0x4000/0xe000->vlan_tci, prereqs=vlan.tci[12]
vlan.tci[13..15] = 2; => actions=set_field:0x4000/0xe000->vlan_tci, prereqs=1
reg0 = reg1; => actions=move:OXM_OF_PKT_REG0[0..31]->OXM_OF_PKT_REG0[32..63], prereqs=1
vlan.pcp = reg0[0..2]; => actions=move:OXM_OF_PKT_REG0[32..34]->NXM_OF_VLAN_TCI[13..15], prereqs=vlan.tci[12]
reg0[10] = vlan.pcp[1]; => actions=move:NXM_OF_VLAN_TCI[14]->OXM_OF_PKT_REG0[42], prereqs=vlan.tci[12]
outport = inport; => actions=move:NXM_NX_REG6[]->NXM_NX_REG7[], prereqs=1
reg0 <-> reg1; => actions=push:OXM_OF_PKT_REG0[0..31],push:OXM_OF_PKT_REG0[32..63],pop:OXM_OF_PKT_REG0[0..31],pop:OXM_OF_PKT_REG0[32..63], prereqs=1
vlan.pcp <-> reg0[0..2]; => actions=push:OXM_OF_PKT_REG0[32..34],push:NXM_OF_VLAN_TCI[13..15],pop:OXM_OF_PKT_REG0[32..34],pop:NXM_OF_VLAN_TCI[13..15], prereqs=vlan.tci[12]
reg0[10] <-> vlan.pcp[1]; => actions=push:NXM_OF_VLAN_TCI[14],push:OXM_OF_PKT_REG0[42],pop:NXM_OF_VLAN_TCI[14],pop:OXM_OF_PKT_REG0[42], prereqs=vlan.tci[12]
outport <-> inport; => actions=push:NXM_NX_REG6[],push:NXM_NX_REG7[],pop:NXM_NX_REG6[],pop:NXM_NX_REG7[], prereqs=1
ip4.ttl--; => actions=dec_ttl, prereqs=ip4

# Contradictionary prerequisites (allowed but not useful):
ip4.src = ip6.src[0..31]; => actions=move:NXM_NX_IPV6_SRC[0..31]->NXM_OF_IP_SRC[], prereqs=eth.type == 0x800 && eth.type == 0x86dd
ip4.src <-> ip6.src[0..31]; => actions=push:NXM_NX_IPV6_SRC[0..31],push:NXM_OF_IP_SRC[],pop:NXM_NX_IPV6_SRC[0..31],pop:NXM_OF_IP_SRC[], prereqs=eth.type == 0x800 && eth.type == 0x86dd

## Negative tests.

; => Syntax error at `;'.
xyzzy; => Syntax error at `xyzzy' expecting action.
next; 123; => Syntax error at `123'.
next; xyzzy; => Syntax error at `xyzzy' expecting action.

# "drop;" must be on its own:
drop; next; => Syntax error at `next' expecting end of input.
next; drop; => Syntax error at `drop' expecting action.

# Missing ";":
next => Syntax error at end of input expecting ';'.

next(); => Syntax error at `)' expecting small integer.
next(10; => Syntax error at `;' expecting `)'.
next(16); => "next" argument must be in range 0 to 15.

inport[1] = 1; => Cannot select subfield of string field inport.
ip.proto[1] = 1; => Cannot select subfield of nominal field ip.proto.
eth.dst[40] == 1; => Syntax error at `==' expecting `='.
ip = 1; => Predicate symbol ip cannot be used in assignment.
ip.proto = 6; => Field ip.proto is not modifiable.
inport = {"a", "b"}; => Assignments require a single value.
inport = {}; => Syntax error at `}' expecting constant.
bad_prereq = 123; => Error parsing expression `xyzzy' encountered as prerequisite or predicate of initial expression: Syntax error at `xyzzy' expecting field name.
self_recurse = 123; => Error parsing expression `self_recurse != 0' encountered as prerequisite or predicate of initial expression: Error parsing expression `self_recurse != 0' encountered as prerequisite or predicate of initial expression: Recursive expansion of symbol `self_recurse'.
vlan.present = 0; => Predicate symbol vlan.present cannot be used in assignment.
reg0[0] = vlan.present; => Predicate symbol vlan.present cannot be used in assignment.
reg0 = reg1[0..10]; => Can't assign 11-bit value to 32-bit destination.
inport = reg0; => Can't assign integer field (reg0) to string field (inport).
inport = big_string; => String fields inport and big_string are incompatible for assignment.
ip.proto = reg0[0..7]; => Field ip.proto is not modifiable.
reg0[0] <-> vlan.present; => Predicate symbol vlan.present cannot be used in exchange.
reg0 <-> reg1[0..10]; => Can't exchange 32-bit field with 11-bit field.
inport <-> reg0; => Can't exchange string field (inport) with integer field (reg0).
inport <-> big_string; => String fields inport and big_string are incompatible for exchange.
ip.proto <-> reg0[0..7]; => Field ip.proto is not modifiable.
reg0[0..7] <-> ip.proto; => Field ip.proto is not modifiable.
ip4.ttl => Syntax error at end of input expecting `--'.
]])
sed 's/ =>.*//' test-cases.txt > input.txt
sed 's/.* => //' test-cases.txt > expout
AT_CHECK([ovstest test-ovn parse-actions < input.txt], [0], [expout])
AT_CLEANUP

AT_BANNER([OVN end-to-end tests])

AT_SETUP([ovn -- 3 HVs, 3 VIFs/HV, 1 logical switch])
AT_SKIP_IF([test $HAVE_PYTHON = no])
ovn_start

# Create hypervisors hv[123].
# Add vif1[123] to hv1, vif2[123] to hv2, vif3[123].
# Add all of the vifs to a single logical switch lsw0.
# Turn on port security on all the vifs except vif[123]1.
# Make vif13, vif2[23], vif3[123] destinations for unknown MACs.
# Add some ACLs for Ethertypes 1234, 1235, 1236.
ovn-nbctl lswitch-add lsw0
net_add n1
for i in 1 2 3; do
    sim_add hv$i
    as hv$i
    ovs-vsctl add-br br-phys
    ovn_attach n1 br-phys 192.168.0.$i

    for j in 1 2 3; do
        ovs-vsctl add-port br-int vif$i$j -- set Interface vif$i$j external-ids:iface-id=lp$i$j options:tx_pcap=hv$i/vif$i$j-tx.pcap options:rxq_pcap=hv$i/vif$i$j-rx.pcap ofport-request=$i$j
        ovn-nbctl lport-add lsw0 lp$i$j
        if test $j = 1; then
            ovn-nbctl lport-set-addresses lp$i$j f0:00:00:00:00:$i$j unknown
        else
            ovn-nbctl lport-set-addresses lp$i$j f0:00:00:00:00:$i$j
            ovn-nbctl lport-set-port-security lp$i$j f0:00:00:00:00:$i$j
        fi
    done
done
ovn-nbctl acl-add lsw0 from-lport 1000 'eth.type == 0x1234' drop
ovn-nbctl acl-add lsw0 from-lport 1000 'eth.type == 0x1235 && inport == "lp11"' drop
ovn-nbctl acl-add lsw0 to-lport 1000 'eth.type == 0x1236 && outport == "lp33"' drop

# Pre-populate the hypervisors' ARP tables so that we don't lose any
# packets for ARP resolution (native tunneling doesn't queue packets
# for ARP resolution).
ovn_populate_arp

# Allow some time for ovn-northd and ovn-controller to catch up.
# XXX This should be more systematic.
sleep 1
ovn-sbctl dump-flows -- list multicast_group

# test_packet INPORT DST SRC ETHTYPE OUTPORT...
#
# This shell function causes a packet to be received on INPORT.  The packet's
# content has Ethernet destination DST and source SRC (each exactly 12 hex
# digits) and Ethernet type ETHTYPE (4 hex digits).  The OUTPORTs (zero or
# more) list the VIFs on which the packet should be received.  INPORT and the
# OUTPORTs are specified as lport numbers, e.g. 11 for vif11.
trim_zeros() {
    sed 's/\(00\)\{1,\}$//'
}
for i in 1 2 3; do
    for j in 1 2 3; do
        : > $i$j.expected
    done
done
test_packet() {
    local inport=$1 packet=$2$3$4; shift; shift; shift; shift
    hv=hv`echo $inport | sed 's/^\(.\).*/\1/'`
    vif=vif$inport
    as $hv ovs-appctl netdev-dummy/receive $vif $packet
    for outport; do
        echo $packet | trim_zeros >> $outport.expected
    done
}

# Send packets between all pairs of source and destination ports:
#
# 1. Unicast packets are delivered to exactly one lport (except that packets
#    destined to their input ports are dropped).
#
# 2. Broadcast and multicast are delivered to all lports except the input port.
#
# 3. When port security is turned on, the lswitch drops packets from the wrong
#    MAC address.
#
# 4. The lswitch drops all packets with a VLAN tag.
#
# 5. The lswitch drops all packets with a multicast source address.  (This only
#    affects behavior when port security is turned off, since otherwise port
#    security would drop the packet anyway.)
#
# 6. The lswitch delivers packets with an unknown destination to lports with
#    "unknown" among their MAC addresses (and port security disabled).
#
# 7. The lswitch drops unicast packets that violate an ACL.
#
# 8. The lswitch drops multicast and broadcast packets that violate an ACL.
for is in 1 2 3; do
    for js in 1 2 3; do
        s=$is$js
        bcast=
        unknown=
        bacl2=
        bacl3=
        for id in 1 2 3; do
            for jd in 1 2 3; do
                d=$id$jd

                if test $d != $s; then unicast=$d; else unicast=; fi
                test_packet $s f000000000$d f000000000$s $s$d $unicast     #1

                if test $d != $s && test $js = 1; then
                    impersonate=$d
                else
                    impersonate=
                fi
                test_packet $s f000000000$d f00000000055 55$d $impersonate #3

                if test $d != $s && test $s != 11; then acl2=$d; else acl2=; fi
                if test $d != $s && test $d != 33; then acl3=$d; else acl3=; fi
                test_packet $s f000000000$d f000000000$s 1234        #7, acl1
                test_packet $s f000000000$d f000000000$s 1235 $acl2  #7, acl2
                test_packet $s f000000000$d f000000000$s 1236 $acl3  #7, acl3

                test_packet $s f000000000$d f00000000055 810000091234      #4
                test_packet $s f000000000$d 0100000000$s $s$d              #5

                if test $d != $s && test $jd = 1; then
                    unknown="$unknown $d"
                fi
                bcast="$bcast $unicast"
                bacl2="$bacl2 $acl2"
                bacl3="$bacl3 $acl3"
            done
        done

        # Broadcast and multicast.
        test_packet $s ffffffffffff f000000000$s ${s}ff $bcast             #2
        test_packet $s 010000000000 f000000000$s ${s}ff $bcast             #2
        if test $js = 1; then
            bcast_impersonate=$bcast
        else
            bcast_impersonate=
        fi
        test_packet $s 010000000000 f00000000044 44ff $bcast_impersonate   #3

        test_packet $s f0000000ffff f000000000$s ${s}66 $unknown           #6

        test_packet $s ffffffffffff f000000000$s 1234                #8, acl1
        test_packet $s ffffffffffff f000000000$s 1235 $bacl2         #8, acl2
        test_packet $s ffffffffffff f000000000$s 1236 $bacl3         #8, acl3
        test_packet $s 010000000000 f000000000$s 1234                #8, acl1
        test_packet $s 010000000000 f000000000$s 1235 $bacl2         #8, acl2
        test_packet $s 010000000000 f000000000$s 1236 $bacl3         #8, acl3
    done
done

# Allow some time for packet forwarding.
# XXX This can be improved.
sleep 1

# Now check the packets actually received against the ones expected.
for i in 1 2 3; do
    for j in 1 2 3; do
        file=hv$i/vif$i$j-tx.pcap
        echo $file
        $PYTHON "$top_srcdir/utilities/ovs-pcap.in" $file | trim_zeros > $i$j.packets
        cp $i$j.expected expout
        AT_CHECK([cat $i$j.packets], [0], [expout])
        echo
    done
done
AT_CLEANUP


AT_SETUP([ovn -- 3 HVs, 1 VIFs/HV, 1 gateway, 1 logical switch])
AT_SKIP_IF([test $HAVE_PYTHON = no])
ovn_start

# Configure the Northbound database
ovn-nbctl lswitch-add lsw0

ovn-nbctl lport-add lsw0 lp1
ovn-nbctl lport-set-addresses lp1 f0:00:00:00:00:01

ovn-nbctl lport-add lsw0 lp2
ovn-nbctl lport-set-addresses lp2 f0:00:00:00:00:02

ovn-nbctl lport-add lsw0 lp-vtep
ovn-nbctl lport-set-type lp-vtep vtep
ovn-nbctl lport-set-options lp-vtep vtep-physical-switch=br-vtep vtep-logical-switch=lsw0
ovn-nbctl lport-set-addresses lp-vtep unknown

net_add n1               # Network to connect hv1, hv2, and vtep
net_add n2               # Network to connect vtep and hv3

# Create hypervisor hv1 connected to n1
sim_add hv1
as hv1
ovs-vsctl add-br br-phys
ovn_attach n1 br-phys 192.168.0.1
ovs-vsctl add-port br-int vif1 -- set Interface vif1 external-ids:iface-id=lp1 options:tx_pcap=hv1/vif1-tx.pcap options:rxq_pcap=hv1/vif1-rx.pcap ofport-request=1

# Create hypervisor hv2 connected to n1
sim_add hv2
as hv2
ovs-vsctl add-br br-phys
ovn_attach n1 br-phys 192.168.0.2
ovs-vsctl add-port br-int vif2 -- set Interface vif2 external-ids:iface-id=lp2 options:tx_pcap=hv2/vif2-tx.pcap options:rxq_pcap=hv2/vif2-rx.pcap ofport-request=1


# Start the vtep emulator with a leg in both networks
sim_add vtep
as vtep

ovsdb-tool create "$ovs_base"/vtep/vtep.db "$abs_top_srcdir"/vtep/vtep.ovsschema || return 1
ovs-appctl -t ovsdb-server ovsdb-server/add-db "$ovs_base"/vtep/vtep.db

ovs-vsctl add-br br-phys
net_attach n1 br-phys

mac=`ovs-vsctl get Interface br-phys mac_in_use | sed s/\"//g`
arp_table="$arp_table $sandbox,br-phys,192.168.0.3,$mac"
ovs-appctl netdev-dummy/ip4addr br-phys 192.168.0.3/24 >/dev/null || return 1
ovs-appctl ovs/route/add 192.168.0.3/24 br-phys >/dev/null || return 1

ovs-vsctl add-br br-vtep
net_attach n2 br-vtep

vtep-ctl add-ps br-vtep
vtep-ctl set Physical_Switch br-vtep tunnel_ips=192.168.0.3
vtep-ctl add-ls lsw0

start_daemon ovs-vtep br-vtep
start_daemon ovn-controller-vtep --vtep-db=unix:"$ovs_base"/vtep/db.sock --ovnsb-db=unix:"$ovs_base"/ovn-sb/ovn-sb.sock

sleep 1

vtep-ctl bind-ls br-vtep br-vtep_n2 0 lsw0

sleep 1

# Add hv3 on the other side of the vtep
sim_add hv3
as hv3
ovs-vsctl add-br br-phys
net_attach n2 br-phys

ovs-vsctl add-port br-phys vif3 -- set Interface vif3 options:tx_pcap=hv3/vif3-tx.pcap options:rxq_pcap=hv3/vif3-rx.pcap ofport-request=1

# Pre-populate the hypervisors' ARP tables so that we don't lose any
# packets for ARP resolution (native tunneling doesn't queue packets
# for ARP resolution).
ovn_populate_arp

# Allow some time for ovn-northd and ovn-controller to catch up.
# XXX This should be more systematic.
sleep 1
ovn-sbctl show

# test_packet INPORT DST SRC ETHTYPE OUTPORT...
#
# This shell function causes a packet to be received on INPORT.  The packet's
# content has Ethernet destination DST and source SRC (each exactly 12 hex
# digits) and Ethernet type ETHTYPE (4 hex digits).  The OUTPORTs (zero or
# more) list the VIFs on which the packet should be received.  INPORT and the
# OUTPORTs are specified as lport numbers, e.g. 1 for vif1.
trim_zeros() {
    sed 's/\(00\)\{1,\}$//'
}
for i in 1 2 3; do
    : > $i.expected
done
test_packet() {
    local inport=$1 packet=$2$3$4; shift; shift; shift; shift
    #hv=hv`echo $inport | sed 's/^\(.\).*/\1/'`
    hv=hv$inport
    vif=vif$inport
    as $hv ovs-appctl netdev-dummy/receive $vif $packet
    for outport; do
        echo $packet | trim_zeros >> $outport.expected
    done
}

# Send packets between all pairs of source and destination ports:
#
# 1. Unicast packets are delivered to exactly one lport (except that packets
#    destined to their input ports are dropped).
#
# 2. Broadcast and multicast are delivered to all lports except the input port.
#
# 3. The lswitch delivers packets with an unknown destination to lports with
#    "unknown" among their MAC addresses (and port security disabled).
for s in 1 2 3; do
    bcast=
    unknown=
    for d in 1 2 3; do
        if test $d != $s; then unicast=$d; else unicast=; fi
        test_packet $s f0000000000$d f0000000000$s 00$s$d $unicast       #1

        # The vtep (vif3) is the only one configured for "unknown"
        if test $d != $s && test $d = 3; then
            unknown="$unknown $d"
        fi
        bcast="$bcast $unicast"
    done

    # Broadcast and multicast.
    # xxx ovn-controller-vtep doesn't handle multicast traffic that is
    # xxx sourced from the gateway properly.
    #test_packet $s ffffffffffff f0000000000$s 0${s}ff $bcast             #2
    #test_packet $s 010000000000 f0000000000$s 0${s}ff $bcast             #2

    test_packet $s f0000000ffff f0000000000$s 0${s}66 $unknown           #3
done

# Allow some time for packet forwarding.
# XXX This can be improved.
sleep 1

# Now check the packets actually received against the ones expected.
for i in 1 2 3; do
    file=hv$i/vif$i-tx.pcap
    echo $file
    $PYTHON "$top_srcdir/utilities/ovs-pcap.in" $file | trim_zeros > $i.packets
    cp $i.expected expout
    AT_CHECK([cat $i.packets], [0], [expout])
    echo
done
AT_CLEANUP