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bird/filter/test.conf
Ondrej Zajicek 39e75b879b Filter: Fixes and improvements related to case/sets
Unify grammar for set_atom and switch_atom to avoid inconsistencies
between them. Fix errors in documentation related to case statement
and set type. Change 'vpnrd' to 'rd' to be consistent with the filter
language.

Thanks to Mikhail Mayorov for bugreport.
2024-10-08 19:44:17 +02:00

2277 lines
55 KiB
Plaintext

/*
* This is unit testing configuration file for testing filters
*
* FIXME: add all examples from docs here.
*/
router id 62.168.0.1;
/* We have to setup any protocol */
protocol device { }
attribute bgppath mypath;
attribute lclist mylclist;
/*
* Common definitions and functions
* --------------------------------
*/
define one = 1;
define ten = 10;
function onef(int a) -> int
{
return 1;
}
function twof(int a) -> int
{
return 2;
}
function oneg(int a) -> int
{
return 1;
}
bt_test_same(onef, onef, 1);
bt_test_same(onef, oneg, 1);
bt_test_same(onef, twof, 0);
/*
* Testing filter corner cases
* ---------------------------
*/
function t_nothing() {}
bt_test_suite(t_nothing, "Testing nothing");
function t_metanothing() { t_nothing(); }
bt_test_suite(t_metanothing, "Testing meta nothing");
/*
* Testing boolean expressions
* ---------------------------
*/
function t_bool()
{
bool b = true;
bt_assert(b);
bt_assert(!!b);
bt_assert(format(true) = "TRUE");
bt_assert(format(false) = "FALSE");
if ( b = true ) then
bt_assert(b);
else
bt_assert(false);
bt_assert(true && true);
bt_assert(true || false);
bt_assert(! false && ! false && true);
bt_assert(1 < 2 && 1 != 3);
bt_assert(true && true && ! false);
# bt_assert(true || 1+"a");
# bt_assert(!(false && 1+"a"));
bt_assert(!(true && false));
}
bt_test_suite(t_bool, "Testing boolean expressions");
/*
* Testing integers
* ----------------
*/
function aux_t_int(int t; int u)
{
case t {
1: {}
else: {}
}
}
define four = 4;
define xyzzy = (120+10);
define '1a-a1' = (xyzzy-100);
function t_int()
{
bt_assert(xyzzy = 130);
bt_assert('1a-a1' = 30);
int i = four;
i = 12*100 + 60/2 + i;
i = (i + 0);
bt_assert(i = 1234);
bt_assert(format(i) = "1234");
i = 4200000000;
bt_assert(i = 4200000000);
bt_assert(i > 4100000000);
bt_assert(!(i > 4250000000));
bt_assert(1 = 1);
bt_assert(!(1 != 1));
bt_assert(1 != 2);
bt_assert(1 <= 2);
bt_assert(1 != "a");
bt_assert(1 != (0,1));
bt_assert(!(i = 4));
bt_assert(1 <= 1);
bt_assert(!(1234 < 1234));
case i {
4200000000: bt_assert(true);
else: bt_assert(false);
}
case four {
(2+2): bt_assert(true);
else: bt_assert(false);
}
aux_t_int(1, 2);
aux_t_int(1, 3);
aux_t_int(2, 3);
aux_t_int(2, 2);
}
bt_test_suite(t_int, "Testing integers");
/*
* Testing sets of integers
* ------------------------
*/
define is1 = [ one, (2+1), (6-one), 8, 11, 15, 17, 19];
define is2 = [(17+2), 17, 15, 11, 8, 5, 3, 2];
define is3 = [5, 17, 2, 11, 8, 15, 3, 19];
function t_int_set()
{
int set is = [];
bt_assert(is = []);
bt_assert(0 !~ is);
bt_assert(1 ~ [1,2,3]);
bt_assert(5 ~ [1..20]);
bt_assert(2 ~ [ 1, 2, 3 ]);
bt_assert(5 ~ [ 4 .. 7 ]);
bt_assert(1 !~ [ 2, 3, 4 ]);
bt_assert(999 !~ [ 666, 333 ]);
bt_assert(1 !~ []);
bt_assert(1 !~ is);
is = [ 2, 3, 4, 7..11 ];
bt_assert(10 ~ is);
bt_assert(5 !~ is);
bt_assert(1 ~ is1);
bt_assert(3 ~ is1);
bt_assert(5 ~ is1);
bt_assert((one+2) ~ is1);
bt_assert(2 ~ is2);
bt_assert(2 ~ is3);
bt_assert(4 !~ is1);
bt_assert(4 !~ is2);
bt_assert(4 !~ is3);
bt_assert(10 !~ is1);
bt_assert(10 !~ is2);
bt_assert(10 !~ is3);
bt_assert(15 ~ is1);
bt_assert(15 ~ is2);
bt_assert(15 ~ is3);
bt_assert(18 !~ is1);
bt_assert(18 !~ is2);
bt_assert(18 !~ is3);
bt_assert(19 ~ is1);
bt_assert(19 ~ is2);
bt_assert(19 ~ is3);
bt_assert(20 !~ is1);
bt_assert(20 !~ is2);
bt_assert(20 !~ is3);
bt_assert([1,2] != [1,3]);
bt_assert([1,4..10,20] = [1,4..10,20]);
bt_assert(format([ 1, 2, 1, 1, 1, 3, 4, 1, 1, 1, 5 ]) = "[1, 1, 1, 1, 1, 1, 1, 2, 3, 4, 5]");
bt_assert(format([]) = "[]");
}
bt_test_suite(t_int_set, "Testing sets of integers");
/*
* Testing string matching
* -----------------------
*/
function t_string()
{
string st = "Hello";
bt_assert(format(st) = "Hello");
bt_assert(st ~ "Hell*");
bt_assert(st ~ "?ello");
bt_assert(st ~ "Hello");
bt_assert(st ~ "Hell?");
bt_assert(st !~ "ell*");
}
bt_test_suite(t_string, "Testing string matching");
/*
* Testing bytestings
* ------------------
*/
function t_bytestring()
{
bytestring bs1 = hex:;
bytestring bs2 = hex:0112233445566778899aabbccddeeff0;
bt_assert(format(bs1) = "");
bt_assert(format(bs2) = "01:12:23:34:45:56:67:78:89:9a:ab:bc:cd:de:ef:f0");
bt_assert(hex:01:12:23:34:45:56:67:78:89:9a:ab:bc:cd:de:ef:f0 = bs2);
bt_assert(01:12:23:34:45:56:67:78:89:9a:ab:bc:cd:de:ef:f0 = bs2);
bt_assert(0112233445566778899aabbccddeeff0 = bs2);
bt_assert(hex:01234567 = hex:01:23:45:67);
bt_assert(hex:0123456789abcdef != bs2);
bt_assert(hex:0123456789abcdef != hex:0123);
bt_assert(format(hex:0123456789abcdef) = "01:23:45:67:89:ab:cd:ef");
bt_assert(from_hex(" ") = bs1);
bt_assert(from_hex("01:12:23:34:45:56:67:78:89:9a:ab:bc:cd:de:ef:f0") = bs2);
bt_assert(from_hex(format(bs2)) = bs2);
bt_assert(from_hex(" 0112:23-34455667 78-89 - 9a-ab bc:cd : de:eff0 ") = bs2);
}
bt_test_suite(t_bytestring, "Testing bytestrings");
/*
* Testing pairs
* -------------
*/
function 'mkpair-a'(int a) -> pair
{
return (1, a);
}
function t_pair()
{
pair pp = (1, 2);
bt_assert(format(pp) = "(1,2)");
bt_assert((1,2) = pp);
bt_assert((1,1+1) = pp);
bt_assert('mkpair-a'(2) = pp);
bt_assert((1,2) = (1,1+1));
bt_assert(((1,2) < (2,2)));
bt_assert(!((1,1) > (1,1)));
}
bt_test_suite(t_pair, "Testing pairs");
/*
* Testing sets of pairs
* ---------------------
*/
function t_pair_set()
{
pair pp = (1, 2);
pair set ps = [];
bt_assert(pp !~ ps);
ps = [(1,(one+one)), (3,4)..(4,8), (5,*), (6,3..6)];
bt_assert(format(ps) = "[(1,2), (3,4)..(4,8), (5,0)..(5,65535), (6,3)..(6,6)]");
bt_assert(pp ~ ps);
bt_assert((3,5) ~ ps);
bt_assert((4,1) ~ ps);
bt_assert((5,4) ~ ps);
bt_assert((5,65535) ~ ps);
bt_assert((6,4) ~ ps);
bt_assert((3, 10000) ~ ps);
bt_assert((3,3) !~ ps);
bt_assert((4,9) !~ ps);
bt_assert((4,65535) !~ ps);
bt_assert((6,2) !~ ps);
bt_assert((6,6+one) !~ ps);
bt_assert(((one+6),2) !~ ps);
bt_assert((1,1) !~ ps);
bt_assert(pp !~ []);
ps = [(20..150, 200..300), (50100..50200, 1000..50000), (*, 5+5)];
bt_assert((100,200) ~ ps);
bt_assert((150,300) ~ ps);
bt_assert((50180,1200) ~ ps);
bt_assert((50110,49000) ~ ps);
bt_assert((0,10) ~ ps);
bt_assert((64000,10) ~ ps);
bt_assert((20,199) !~ ps);
bt_assert((151,250) !~ ps);
bt_assert((50050,2000) !~ ps);
bt_assert((50150,50050) !~ ps);
bt_assert((10,9) !~ ps);
bt_assert((65535,11) !~ ps);
}
bt_test_suite(t_pair_set, "Testing sets of pairs");
/*
* Testing quads
* -------------
*/
function t_quad()
quad qq;
{
qq = 1.2.3.4;
bt_assert(format(qq) = "1.2.3.4");
bt_assert(qq = 1.2.3.4);
bt_assert(qq != 4.3.2.1);
}
bt_test_suite(t_quad, "Testing quads");
/*
* Testing sets of quads
* ---------------------
*/
function t_quad_set()
quad qq;
{
qq = 1.2.3.4;
bt_assert(qq ~ [1.2.3.4, 5.6.7.8]);
bt_assert(qq !~ [1.2.1.1, 1.2.3.5]);
bt_assert(qq !~ []);
}
bt_test_suite(t_quad_set, "Testing sets of quads");
/*
* Testing ip address
* ------------------
*/
define onetwo = 1.2.3.4;
function t_ip()
ip p;
{
p = 127.1.2.3;
bt_assert(p.is_v4);
bt_assert(p.mask(8) = 127.0.0.0);
bt_assert(1.2.3.4 = 1.2.3.4);
bt_assert(1.2.3.4 = onetwo);
bt_assert(format(p) = "127.1.2.3");
p = ::fffe:6:c0c:936d:88c7:35d3;
bt_assert(!p.is_v4);
bt_assert(format(p) = "::fffe:6:c0c:936d:88c7:35d3");
p = 1234:5678::;
bt_assert(!p.is_v4);
bt_assert(p.mask(24) = 1234:5600::);
p = 1:2:3:4:5:6:7:8;
bt_assert(!p.is_v4);
bt_assert(format(p) = "1:2:3:4:5:6:7:8");
bt_assert(p.mask(64) = 1:2:3:4::);
p = 10:20:30:40:50:60:70:80;
bt_assert(!p.is_v4);
bt_assert(format(p) = "10:20:30:40:50:60:70:80");
bt_assert(p.mask(64) = 10:20:30:40::);
p = 1090:20a0:30b0:40c0:50d0:60e0:70f0:8000;
bt_assert(!p.is_v4);
bt_assert(format(p) = "1090:20a0:30b0:40c0:50d0:60e0:70f0:8000");
bt_assert(p.mask(64) = 1090:20a0:30b0:40c0::);
p = ::fffe:6:c0c:936d:88c7:35d3;
bt_assert(!p.is_v4);
bt_assert(format(p) = "::fffe:6:c0c:936d:88c7:35d3");
bt_assert(p.mask(64) = 0:0:fffe:6::);
}
bt_test_suite(t_ip, "Testing ip address");
/*
* Testing sets of ip address
* --------------------------
*/
define ip1222 = 1.2.2.2;
function t_ip_set()
ip set ips;
{
ips = [ 1.1.1.0 .. 1.1.1.255, ip1222];
bt_assert(format(ips) = "[1.1.1.0..1.1.1.255, 1.2.2.2]");
bt_assert(1.1.1.0 ~ ips);
bt_assert(1.1.1.100 ~ ips);
bt_assert(1.2.2.2 ~ ips);
bt_assert(1.1.0.255 !~ ips);
bt_assert(1.1.2.0 !~ ips);
bt_assert(1.2.2.3 !~ ips);
bt_assert(192.168.1.1 !~ ips);
bt_assert(1.2.3.4 !~ [ 1.2.3.3, 1.2.3.5 ]);
bt_assert(1.2.3.4 ~ [ 1.2.3.3..1.2.3.5 ]);
bt_assert(1.2.3.4 !~ []);
}
bt_test_suite(t_ip_set, "Testing sets of ip address");
/*
* Testing enums
* -------------
*/
function t_enum()
{
bt_assert(format(RTS_STATIC) = "(enum 30)1");
bt_assert(format(NET_IP4) = "(enum 36)1");
bt_assert(format(NET_VPN6) = "(enum 36)4");
bt_assert(RTS_STATIC ~ [RTS_STATIC, RTS_DEVICE]);
bt_assert(RTS_BGP !~ [RTS_STATIC, RTS_DEVICE]);
}
bt_test_suite(t_enum, "Testing enums");
/*
* Testing prefixes
* ----------------
*/
define netdoc = 2001:db8::/32;
function t_prefix()
prefix px;
{
px = 1.2.0.0/18;
bt_assert(format(px) = "1.2.0.0/18");
bt_assert(px.ip = 1.2.0.0);
bt_assert(px.len = 18);
bt_assert(192.168.0.0/16 ~ 192.168.0.0/16);
bt_assert(192.168.0.0/17 ~ 192.168.0.0/16);
bt_assert(192.168.254.0/24 ~ 192.168.0.0/16);
bt_assert(netdoc ~ 2001::/16);
bt_assert(192.168.0.0/15 !~ 192.168.0.0/16);
bt_assert(192.160.0.0/17 !~ 192.168.0.0/16);
bt_assert(px !~ netdoc);
bt_assert(1.2.3.4 ~ 1.0.0.0/8);
bt_assert(1.0.0.0/8 ~ 1.0.0.0/8);
}
bt_test_suite(t_prefix, "Testing prefixes");
/*
* Testing prefix sets
* -------------------
*/
define net10 = 10.0.0.0/8;
define pxs2 = [ 10.0.0.0/16{8,12}, 20.0.0.0/16{24,28} ];
function test_pxset(prefix set pxs)
{
bt_assert(net10 ~ pxs);
bt_assert(10.0.0.0/10 ~ pxs);
bt_assert(10.0.0.0/12 ~ pxs);
bt_assert(20.0.0.0/24 ~ pxs);
bt_assert(20.0.40.0/24 ~ pxs);
bt_assert(20.0.0.0/26 ~ pxs);
bt_assert(20.0.100.0/26 ~ pxs);
bt_assert(20.0.0.0/28 ~ pxs);
bt_assert(20.0.255.0/28 ~ pxs);
bt_assert(10.0.0.0/7 !~ pxs);
bt_assert(10.0.0.0/13 !~ pxs);
bt_assert(10.0.0.0/16 !~ pxs);
bt_assert(20.0.0.0/16 !~ pxs);
bt_assert(20.0.0.0/23 !~ pxs);
bt_assert(20.0.0.0/29 !~ pxs);
bt_assert(11.0.0.0/10 !~ pxs);
bt_assert(20.1.0.0/26 !~ pxs);
bt_assert(1.0.0.0/8 ~ [ 1.0.0.0/8+ ]);
bt_assert(1.0.0.0/9 !~ [ 1.0.0.0/8- ]);
bt_assert(1.2.0.0/17 !~ [ 1.0.0.0/8{ 15 , 16 } ]);
bt_assert(net10 !~ []);
bt_assert([ 10.0.0.0/8{ 15 , 17 } ] = [ 10.0.0.0/8{ 15 , 17 } ]);
}
function test_empty_pxset(prefix set pxs)
int set s0;
prefix set s1;
{
s0 = [];
s1 = [];
bt_assert(pxs != s0);
bt_assert(pxs = s1);
bt_assert(pxs = []);
}
function t_prefix_set()
prefix set pxs;
{
pxs = [];
bt_assert(format(pxs) = "[]");
bt_assert(pxs = []);
bt_assert(1.2.0.0/16 !~ []);
bt_assert(1.2.0.0/16 !~ pxs);
test_empty_pxset([]);
test_empty_pxset(pxs);
pxs = [ 1.2.0.0/16, 1.4.0.0/16+, 44.66.88.64/30{24,28}, 12.34.56.0/24{8,16} ];
bt_assert(format(pxs) = "[1.2.0.0/16{0.1.0.0}, 1.4.0.0/16{0.1.255.255}, 12.34.0.0/16{1.255.0.0}, 44.66.88.64/28{0.0.1.240}]");
bt_assert(1.2.0.0/16 ~ pxs);
bt_assert(1.4.0.0/16 ~ pxs);
bt_assert(1.4.0.0/18 ~ pxs);
bt_assert(1.4.0.0/32 ~ pxs);
bt_assert(1.1.0.0/16 !~ pxs);
bt_assert(1.3.0.0/16 !~ pxs);
bt_assert(1.2.0.0/15 !~ pxs);
bt_assert(1.2.0.0/17 !~ pxs);
bt_assert(1.2.0.0/32 !~ pxs);
bt_assert(1.4.0.0/15 !~ pxs);
test_pxset(pxs2);
test_pxset([ 10.0.0.0/16{8,12}, 20.0.0.0/16{24,28} ]);
bt_assert(1.2.0.0/16 ~ [ 1.0.0.0/8{ 15 , 17 } ]);
bt_assert([ 10.0.0.0/8{ 15 , 17 } ] != [ 11.0.0.0/8{ 15 , 17 } ]);
/* Formatting of prefix sets, some cases are a bit strange */
bt_assert(format([ 0.0.0.0/0 ]) = "[0.0.0.0/0]");
bt_assert(format([ 10.10.0.0/32 ]) = "[10.10.0.0/32{0.0.0.1}]");
bt_assert(format([ 10.10.0.0/17 ]) = "[10.10.0.0/17{0.0.128.0}]");
# bt_assert(format([ 10.10.0.0/17{17,19} ]) = "[10.10.0.0/17{0.0.224.0}]"); # 224 = 128+64+32
bt_assert(format([ 10.10.128.0/17{18,19} ]) = "[10.10.128.0/18{0.0.96.0}, 10.10.192.0/18{0.0.96.0}]"); # 96 = 64+32
# bt_assert(format([ 10.10.64.0/18- ]) = "[0.0.0.0/0, 0.0.0.0/1{128.0.0.0}, 0.0.0.0/2{64.0.0.0}, 0.0.0.0/3{32.0.0.0}, 10.10.0.0/16{255.255.0.0}, 10.10.0.0/17{0.0.128.0}, 10.10.64.0/18{0.0.64.0}]");
# bt_assert(format([ 10.10.64.0/18+ ]) = "[10.10.64.0/18{0.0.96.0}, 10.10.64.0/20{0.0.31.255}, 10.10.80.0/20{0.0.31.255}, 10.10.96.0/20{0.0.31.255}, 10.10.112.0/20{0.0.31.255}]");
bt_assert(format([ 10.10.160.0/19 ]) = "[10.10.160.0/19{0.0.32.0}]");
bt_assert(format([ 10.10.160.0/19{19,22} ]) = "[10.10.160.0/19{0.0.32.0}, 10.10.160.0/20{0.0.28.0}, 10.10.176.0/20{0.0.28.0}]"); # 28 = 16+8+4
bt_assert(format([ 10.10.160.0/19+ ]) = "[10.10.160.0/19{0.0.32.0}, 10.10.160.0/20{0.0.31.255}, 10.10.176.0/20{0.0.31.255}]");
bt_assert(format([ ::/0 ]) = "[::/0]");
bt_assert(format([ 11:22:33:44:55:66:77:88/128 ]) = "[11:22:33:44:55:66:77:88/128{::1}]");
bt_assert(format([ 11:22:33:44::/64 ]) = "[11:22:33:44::/64{0:0:0:1::}]");
bt_assert(format([ 11:22:33:44::/64+ ]) = "[11:22:33:44::/64{::1:ffff:ffff:ffff:ffff}]");
bt_assert(format([ 11:22:33:44::/65 ]) = "[11:22:33:44::/65{::8000:0:0:0}]");
# bt_assert(format([ 11:22:33:44::/65{65,67} ]) = "[11:22:33:44::/65{::e000:0:0:0}]"); # e = 8+4+2
bt_assert(format([ 11:22:33:44:8000::/65{66,67} ]) = "[11:22:33:44:8000::/66{::6000:0:0:0}, 11:22:33:44:c000::/66{::6000:0:0:0}]"); # 6 = 4+2
# bt_assert(format([ 11:22:33:44:4000::/66- ]) = "[::/0, ::/1{8000::}, ::/2{4000::}, ::/3{2000::}, 11:22:33:44::/64{ffff:ffff:ffff:ffff::}, 11:22:33:44::/65{::8000:0:0:0}, 11:22:33:44:4000::/66{::4000:0:0:0}]");
# bt_assert(format([ 11:22:33:44:4000::/66+ ]) = "[11:22:33:44:4000::/66{::6000:0:0:0}, 11:22:33:44:4000::/68{::1fff:ffff:ffff:ffff}, 11:22:33:44:5000::/68{::1fff:ffff:ffff:ffff}, 11:22:33:44:6000::/68{::1fff:ffff:ffff:ffff}, 11:22:33:44:7000::/68{::1fff:ffff:ffff:ffff}]");
bt_assert(format([ 11:22:33:44:c000::/67 ]) = "[11:22:33:44:c000::/67{::2000:0:0:0}]");
bt_assert(format([ 11:22:33:44:c000::/67{67,71} ]) = "[11:22:33:44:c000::/67{::2000:0:0:0}, 11:22:33:44:c000::/68{::1e00:0:0:0}, 11:22:33:44:d000::/68{::1e00:0:0:0}]");
bt_assert(format([ 11:22:33:44:c000::/67+ ]) = "[11:22:33:44:c000::/67{::2000:0:0:0}, 11:22:33:44:c000::/68{::1fff:ffff:ffff:ffff}, 11:22:33:44:d000::/68{::1fff:ffff:ffff:ffff}]");
}
bt_test_suite(t_prefix_set, "Testing prefix sets");
/*
* Testing Prefix IPv6
* -------------------
*/
function t_prefix6()
{
prefix px = 1020::/18;
bt_assert(format(px) = "1020::/18");
bt_assert(px.ip = 1020::);
bt_assert(px.len = 18);
bt_assert(1020:3040:5060:: ~ 1020:3040:5000::/40);
bt_assert(1020:3040::/32 ~ 1020:3040::/32);
bt_assert(1020:3040::/33 ~ 1020:3040::/32);
bt_assert(1020:3040:5060::/48 ~ 1020:3040::/32);
bt_assert(1020:3040::/31 !~ 1020:3040::/32);
bt_assert(1020:3041::/33 !~ 1020:3040::/32);
}
bt_test_suite(t_prefix6, "Testing prefix IPv6");
/*
* Testing prefix IPv6 sets
* ------------------------
*/
function t_prefix6_set()
prefix set pxs;
{
pxs = [];
bt_assert(format(pxs) = "[]");
bt_assert(pxs = []);
bt_assert(12::34/128 !~ []);
bt_assert(12::34/128 !~ pxs);
bt_assert(1180::/16 ~ [ 1100::/8{15, 17} ]);
bt_assert(12::34 = 12::34);
bt_assert(12::34 ~ [ 12::33..12::35 ]);
bt_assert(1020::34 ~ 1000::/8);
bt_assert(1000::/8 ~ 1000::/8);
bt_assert(1000::/8 ~ [ 1000::/8+ ]);
bt_assert(12::34 !~ [ 12::33, 12::35 ]);
bt_assert(1000::/9 !~ [ 1000::/8- ]);
bt_assert(1000::/17 !~ [ 1000::/8{15, 16} ]);
pxs = [ 1102::/16, 1104::/16+];
bt_assert(1102::/16 ~ pxs);
bt_assert(1104::/16 ~ pxs);
bt_assert(1104::/18 ~ pxs);
bt_assert(1104::/32 ~ pxs);
bt_assert(1101::/16 !~ pxs);
bt_assert(1103::/16 !~ pxs);
bt_assert(1102::/15 !~ pxs);
bt_assert(1102::/17 !~ pxs);
bt_assert(1102::/32 !~ pxs);
bt_assert(1104::/15 !~ pxs);
pxs = ([ 1000::/16{8,12}, 2000::/16{24,28} ]);
bt_assert(format(pxs) = "[1000::/12{1f0::}, 2000::/16{0:1f0::}]");
bt_assert(1000::/8 ~ pxs);
bt_assert(1000::/10 ~ pxs);
bt_assert(1000::/12 ~ pxs);
bt_assert(2000::/24 ~ pxs);
bt_assert(2000:4000::/24 ~ pxs);
bt_assert(2000::/26 ~ pxs);
bt_assert(2000:8000::/26 ~ pxs);
bt_assert(2000::/28 ~ pxs);
bt_assert(2000:FFF0::/28 ~ pxs);
bt_assert(1000::/7 !~ pxs);
bt_assert(1000::/13 !~ pxs);
bt_assert(1000::/16 !~ pxs);
bt_assert(2000::/16 !~ pxs);
bt_assert(2000::/23 !~ pxs);
bt_assert(2000::/29 !~ pxs);
bt_assert(1100::/10 !~ pxs);
bt_assert(2010::/26 !~ pxs);
pxs = [ 52E0::/13{13,128} ];
bt_assert(52E7:BE81:379B:E6FD:541F:B0D0::/93 ~ pxs);
pxs = [ 41D8:8718::/30{0,30}, 413A:99A8:6C00::/38{38,128} ];
bt_assert(4180::/9 ~ pxs);
}
bt_test_suite(t_prefix6_set, "Testing prefix IPv6 sets");
/*
* Testing Paths
* -------------
*/
function mkpath(int a; int b) -> bgpmask
{
return [= a b 3 2 1 =];
}
define set35 = [3 .. 5];
function t_path_old()
bgpmask pm1;
bgppath p2;
int set set12;
{
pm1 = [= 4 3 2 1 =];
set12 = [1, 2];
bt_assert(format(pm1) = "[= 4 3 2 1 =]");
bt_assert(+empty+ = +empty+);
bt_assert(10 !~ +empty+);
p2 = prepend( + empty +, 1 );
p2 = prepend( p2, 2 );
p2 = prepend( p2, 3 );
p2 = prepend( p2, 4 );
bt_assert(format(p2) = "(path 4 3 2 1)");
bt_assert(p2.len = 4);
bt_assert(p2 ~ pm1);
bt_assert(3 ~ p2);
bt_assert(p2 ~ [2, 10..20]);
bt_assert(p2 ~ [4, 10..20]);
bt_assert(p2 !~ []);
p2 = prepend(p2, 5);
bt_assert(p2 !~ pm1);
bt_assert(10 !~ p2);
bt_assert(p2 !~ [8, ten..(2*ten)]);
bt_assert(p2 ~ [= * 4 3 * 1 =]);
bt_assert(p2 ~ [= (3+2) (2*2) 3 2 1 =]);
bt_assert(p2 ~ [= 5 [2, 4, 6] 3 [1..2] 1 =]);
bt_assert(p2 ~ [= 5 set35 3 set12 set12 =]);
bt_assert(p2 ~ mkpath(5, 4));
bt_assert(p2 ~ [= * [3] * =]);
bt_assert(p2 !~ [= * [] * =]);
bt_assert(p2.len = 5);
bt_assert(p2.first = 5);
bt_assert(p2.last = 1);
bt_assert(p2.len = 5);
bt_assert(delete(p2, 3) = prepend(prepend(prepend(prepend(+empty+, 1), 2), 4), 5));
bt_assert(filter(p2, [1..3]) = prepend(prepend(prepend(+empty+, 1), 2), 3));
bt_assert(delete(p2, []) = p2);
bt_assert(filter(p2, []) = +empty+);
bt_assert(delete(prepend(prepend(+empty+, 0), 1), []) = prepend(prepend(+empty+, 0), 1));
bt_assert(filter(prepend(prepend(+empty+, 0), 1), []) = +empty+);
p2 = prepend( + empty +, 5 );
p2 = prepend( p2, 4 );
p2 = prepend( p2, 3 );
p2 = prepend( p2, 3 );
p2 = prepend( p2, 2 );
p2 = prepend( p2, 1 );
bt_assert(p2 !~ [= 1 2 3 4 5 =]);
bt_assert(p2 ~ [= 1 2 * 4 5 =]);
bt_assert(p2 ~ [= 1 2 * 3 4 5 =]);
bt_assert(p2 ~ [= 1 2 3+ 4 5 =]);
bt_assert(p2 ~ [= 1 2 3+ 4+ 5 =]);
bt_assert(p2 !~ [= 1 2 3+ 5+ 4 5 =]);
bt_assert(p2 !~ [= 1 2 3 3 5+ 4 5 =]);
bt_assert(delete(p2, 3) = prepend(prepend(prepend(prepend(+empty+, 5), 4), 2), 1));
bt_assert(delete(p2, [4..5]) = prepend(prepend(prepend(prepend(+empty+, 3), 3), 2), 1));
bt_assert(format([= 1 2+ 3 =]) = "[= 1 2 + 3 =]");
# iteration over path
int x = 0;
int y = 0;
for int i in p2 do {
x = x + i;
y = y + x;
}
bt_assert(x = 18 && y = 50);
}
bt_test_suite(t_path_old, "Testing paths (old syntax)");
function t_path_new()
{
bgpmask pm1 = [= 4 3 2 1 =];
int set set12 = [1, 2];
bt_assert(format(pm1) = "[= 4 3 2 1 =]");
bt_assert(+empty+ = +empty+);
bt_assert(10 !~ +empty+);
bgppath p2;
bt_assert(p2 = +empty+);
p2.prepend(1);
p2.prepend(2);
p2.prepend(3);
p2.prepend(4);
bt_assert(p2.empty = +empty+);
bt_assert(format(p2) = "(path 4 3 2 1)");
bt_assert(p2.len = 4);
bt_assert(p2 ~ pm1);
bt_assert(3 ~ p2);
bt_assert(p2 ~ [2, 10..20]);
bt_assert(p2 ~ [4, 10..20]);
bt_assert(p2 !~ []);
p2.prepend(5);
bt_assert(p2 !~ pm1);
bt_assert(10 !~ p2);
bt_assert(p2 !~ [8, ten..(2*ten)]);
bt_assert(p2 ~ [= * 4 3 * 1 =]);
bt_assert(p2 ~ [= (3+2) (2*2) 3 2 1 =]);
bt_assert(p2 ~ [= 5 [2, 4, 6] 3 [1..2] 1 =]);
bt_assert(p2 ~ [= 5 set35 3 set12 set12 =]);
bt_assert(p2 ~ mkpath(5, 4));
bt_assert(p2 ~ [= * [3] * =]);
bt_assert(p2 !~ [= * [] * =]);
bt_assert(p2.len = 5);
bt_assert(p2.first = 5);
bt_assert(p2.last = 1);
bt_assert(p2.len = 5);
bt_assert(p2.delete(3) = +empty+.prepend(1).prepend(2).prepend(4).prepend(5));
bt_assert(p2.filter([1..3]) = +empty+.prepend(1).prepend(2).prepend(3));
bt_assert(p2.delete([]) = p2);
bt_assert(p2.filter([]) = +empty+);
bt_assert(+empty+.prepend(0).prepend(1).delete([]) = +empty+.prepend(0).prepend(1));
bt_assert(+empty+.prepend(0).prepend(1).filter([]) = +empty+);
p2 = +empty+;
p2.prepend(5);
p2.prepend(4);
p2.prepend(3);
p2.prepend(3);
p2.prepend(2);
p2.prepend(1);
bt_assert(p2 !~ [= 1 2 3 4 5 =]);
bt_assert(p2 ~ [= 1 2 * 4 5 =]);
bt_assert(p2 ~ [= 1 2 * 3 4 5 =]);
bt_assert(p2 ~ [= 1 2 3+ 4 5 =]);
bt_assert(p2 ~ [= 1 2 3+ 4+ 5 =]);
bt_assert(p2 !~ [= 1 2 3+ 5+ 4 5 =]);
bt_assert(p2 !~ [= 1 2 3 3 5+ 4 5 =]);
bt_assert(p2.delete(3) = +empty+.prepend(5).prepend(4).prepend(2).prepend(1));
bt_assert(p2.delete([4..5]) = +empty+.prepend(3).prepend(3).prepend(2).prepend(1));
bt_assert(format([= 1 2+ 3 =]) = "[= 1 2 + 3 =]");
# iteration over path
int x = 0;
int y = 0;
for int i in p2 do {
x = x + i;
y = y + x;
}
bt_assert(x = 18 && y = 50);
}
bt_test_suite(t_path_new, "Testing paths (new syntax)");
/*
* Testing Community List
* ----------------------
*/
define p23 = (2, 3);
function t_clist_old()
clist l;
clist l2;
clist r;
{
bt_assert((10, 20).asn = 10);
bt_assert((10, 20).data = 20);
bt_assert(p23.asn = 2);
bt_assert(p23.data = 3);
l = - empty -;
bt_assert(l !~ [(*,*)]);
bt_assert((l ~ [(*,*)]) != (l !~ [(*,*)]));
bt_assert(-empty- = -empty-);
l = add( l, (one,2) );
bt_assert(l ~ [(*,*)]);
l = add( l, (2,one+2) );
bt_assert(format(l) = "(clist (1,2) (2,3))");
bt_assert((2,3) ~ l);
bt_assert(l ~ [(1,*)]);
bt_assert(l ~ [p23]);
bt_assert(l ~ [(2,2..3)]);
bt_assert(l ~ [(1,1..2)]);
bt_assert(l ~ [(1,1)..(1,2)]);
bt_assert(l !~ []);
l = add(l, (2,5));
l = add(l, (5,one));
l = add(l, (6,one));
l = add(l, (one,one));
l = delete(l, [(5,1),(6,one),(one,1)]);
l = delete(l, [(5,one),(6,one)]);
l = filter(l, [(1,*)]);
bt_assert(l = add(-empty-, (1,2)));
bt_assert((2,3) !~ l);
bt_assert(l !~ [(2,*)]);
bt_assert(l !~ [(one,3..6)]);
bt_assert(l ~ [(*,*)]);
l = add(l, (3,one));
l = add(l, (one+one+one,one+one));
l = add(l, (3,3));
l = add(l, (3,4));
l = add(l, (3,5));
l2 = filter(l, [(3,*)]);
l = delete(l, [(3,2..4)]);
bt_assert(l = add(add(add(-empty-, (1,2)), (3,1)), (3,5)));
bt_assert(l.len = 3);
l = add(l, (3,2));
l = add(l, (4,5));
bt_assert(l = add(add(add(add(add(-empty-, (1,2)), (3,1)), (3,5)), (3,2)), (4,5)));
bt_assert(l.len = 5);
bt_assert(l ~ [(*,2)]);
bt_assert(l ~ [(*,5)]);
bt_assert(l ~ [(*, one)]);
bt_assert(l !~ [(*,3)]);
bt_assert(l !~ [(*,(one+6))]);
bt_assert(l !~ [(*, (one+one+one))]);
bt_assert(delete(l, []) = l);
bt_assert(filter(l, []) = -empty-);
l = delete(l, [(*,(one+onef(3)))]);
l = delete(l, [(*,(4+one))]);
bt_assert(l = add(-empty-, (3,1)));
l = delete(l, [(*,(onef(5)))]);
bt_assert(l = -empty-);
l2 = add(l2, (3,6));
l = filter(l2, [(3,1..4)]);
l2 = filter(l2, [(3,3..6)]);
quad q = 2.0.1.0;
clist ql = add(add(add(-empty-, 1.0.0.1), q), 3.1.0.0);
bt_assert(delete(ql, 1.0.0.1) = add(add(-empty-, 2.0.1.0), 3.1.0.0));
bt_assert(delete(ql, [2.0.0.0 .. 4.0.0.0]) = add(-empty-, 1.0.0.1));
bt_assert(filter(ql, [3.0.0.0 .. 4.0.0.0]) = add(-empty-, 3.1.0.0));
# clist A (10,20,30)
bt_assert(l = add(add(add(add(-empty-, (3,1)), (3,2)), (3,3)), (3,4)));
bt_assert(format(l) = "(clist (3,1) (3,2) (3,3) (3,4))");
# clist B (30,40,50)
bt_assert(l2 = add(add(add(add(-empty-, (3,3)), (3,4)), (3,5)), (3,6)));
bt_assert(format(l2) = "(clist (3,3) (3,4) (3,5) (3,6))");
# clist A union B
r = add(l, l2);
bt_assert(r = add(add(add(add(add(add(-empty-, (3,1)), (3,2)), (3,3)), (3,4)), (3,5)), (3,6)));
bt_assert(format(r) = "(clist (3,1) (3,2) (3,3) (3,4) (3,5) (3,6))");
# clist A isect B
r = filter(l, l2);
bt_assert(r = add(add(-empty-, (3,3)), (3,4)));
bt_assert(format(r) = "(clist (3,3) (3,4))");
# clist A \ B
r = delete(l, l2);
bt_assert(r = add(add(-empty-, (3,1)), (3,2)));
bt_assert(format(r) = "(clist (3,1) (3,2))");
# clist in c set
r = filter(l, [(3,1), (*,2)]);
bt_assert(r = add(add(-empty-, (3,1)), (3,2)));
bt_assert(format(r) = "(clist (3,1) (3,2))");
# minimim & maximum element
r = add(add(add(add(add(-empty-, (2,1)), (1,3)), (2,2)), (3,1)), (2,3));
bt_assert(format(r) = "(clist (2,1) (1,3) (2,2) (3,1) (2,3))");
bt_assert(r.min = (1,3));
bt_assert(r.max = (3,1));
# iteration over clist
int x = 0;
for pair c in r do
x = x + c.asn * c.asn * c.data;
bt_assert(x = 36);
}
bt_test_suite(t_clist_old, "Testing lists of communities (old syntax)");
function t_clist_new()
{
bt_assert((10, 20).asn = 10);
bt_assert((10, 20).data = 20);
bt_assert(p23.asn = 2);
bt_assert(p23.data = 3);
clist l;
bt_assert(l = -empty-);
bt_assert(l !~ [(*,*)]);
bt_assert((l ~ [(*,*)]) != (l !~ [(*,*)]));
bt_assert(-empty- = -empty-);
l.add( (one,2) );
bt_assert(l ~ [(*,*)]);
l.add( (2,one+2) );
bt_assert(format(l) = "(clist (1,2) (2,3))");
bt_assert(l.empty = -empty-);
bt_assert((2,3) ~ l);
bt_assert(l ~ [(1,*)]);
bt_assert(l ~ [p23]);
bt_assert(l ~ [(2,2..3)]);
bt_assert(l ~ [(1,1..2)]);
bt_assert(l ~ [(1,1)..(1,2)]);
bt_assert(l !~ []);
l.add((2,5));
l.add((5,one));
l.add((6,one));
l.add((one,one));
l.delete([(5,1),(6,one),(one,1)]);
l.delete([(5,one),(6,one)]);
l.filter([(1,*)]);
bt_assert(l = -empty-.add((1,2)));
bt_assert((2,3) !~ l);
bt_assert(l !~ [(2,*)]);
bt_assert(l !~ [(one,3..6)]);
bt_assert(l ~ [(*,*)]);
l.add((3,one));
l.add((one+one+one,one+one));
l.add((3,3));
l.add((3,4));
l.add((3,5));
clist l2 = l.filter([(3,*)]);
l.delete([(3,2..4)]);
bt_assert(l = -empty-.add((1,2)).add((3,1)).add((3,5)));
bt_assert(l.len = 3);
l.add((3,2));
l.add((4,5));
bt_assert(l = -empty-.add((1,2)).add((3,1)).add((3,5)).add((3,2)).add((4,5)));
bt_assert(l.len = 5);
bt_assert(l ~ [(*,2)]);
bt_assert(l ~ [(*,5)]);
bt_assert(l ~ [(*, one)]);
bt_assert(l !~ [(*,3)]);
bt_assert(l !~ [(*,(one+6))]);
bt_assert(l !~ [(*, (one+one+one))]);
bt_assert(l.delete([]) = l);
bt_assert(l.filter([]) = -empty-);
l.delete([(*,(one+onef(3)))]);
l.delete([(*,(4+one))]);
bt_assert(l = -empty-.add((3,1)));
l.delete([(*,(onef(5)))]);
bt_assert(l = -empty-);
l2.add((3,6));
l = l2.filter([(3,1..4)]);
l2.filter([(3,3..6)]);
quad q = 2.0.1.0;
clist ql = -empty-.add(1.0.0.1).add(q).add(3.1.0.0);
bt_assert(delete(ql, 1.0.0.1) = -empty-.add(2.0.1.0).add(3.1.0.0));
bt_assert(delete(ql, [2.0.0.0 .. 4.0.0.0]) = -empty-.add(1.0.0.1));
bt_assert(filter(ql, [3.0.0.0 .. 4.0.0.0]) = -empty-.add(3.1.0.0));
# clist A (10,20,30)
bt_assert(l = -empty-.add((3,1)).add((3,2)).add((3,3)).add((3,4)));
bt_assert(format(l) = "(clist (3,1) (3,2) (3,3) (3,4))");
# clist B (30,40,50)
bt_assert(l2 = -empty-.add((3,3)).add((3,4)).add((3,5)).add((3,6)));
bt_assert(format(l2) = "(clist (3,3) (3,4) (3,5) (3,6))");
# clist A union B
clist r = l.add(l2);
bt_assert(r = -empty-.add((3,1)).add((3,2)).add((3,3)).add((3,4)).add((3,5)).add((3,6)));
bt_assert(format(r) = "(clist (3,1) (3,2) (3,3) (3,4) (3,5) (3,6))");
# clist A isect B
r = l.filter(l2);
bt_assert(r = -empty-.add((3,3)).add((3,4)));
bt_assert(format(r) = "(clist (3,3) (3,4))");
# clist A \ B
r = l.delete(l2);
bt_assert(r = -empty-.add((3,1)).add((3,2)));
bt_assert(format(r) = "(clist (3,1) (3,2))");
# clist in c set
r = l.filter([(3,1), (*,2)]);
bt_assert(r = -empty-.add((3,1)).add((3,2)));
bt_assert(format(r) = "(clist (3,1) (3,2))");
# minimim & maximum element
r = -empty-.add((2,1)).add((1,3)).add((2,2)).add((3,1)).add((2,3));
bt_assert(format(r) = "(clist (2,1) (1,3) (2,2) (3,1) (2,3))");
bt_assert(r.min = (1,3));
bt_assert(r.max = (3,1));
# iteration over clist
int x = 0;
for pair c in r do
x = x + c.asn * c.asn * c.data;
bt_assert(x = 36);
}
bt_test_suite(t_clist_new, "Testing lists of communities (new syntax)");
/*
* Testing Extended Communities
* ----------------------------
*/
function t_ec()
{
ec cc;
cc = (rt, 12345, 200000);
bt_assert(format(cc) = "(rt, 12345, 200000)");
bt_assert(cc = (rt, 12345, 200000));
bt_assert(cc < (rt, 12345, 200010));
bt_assert(cc != (rt, 12346, 200000));
bt_assert(cc != (ro, 12345, 200000));
bt_assert(!(cc > (rt, 12345, 200010)));
bt_assert(format((ro, 100000, 20000)) = "(ro, 100000, 20000)");
}
bt_test_suite(t_ec, "Testing extended communities");
/*
* Testing Extended Community List
* -------------------------------
*/
function t_eclist_old()
eclist el;
eclist el2;
eclist r;
{
# Deprecated syntax
el = -- empty --;
el = add(el, (rt, 10, 20));
el = add(el, (ro, 10.20.30.40, 100));
el = add(el, (ro, 11.21.31.41.mask(16), 200));
bt_assert(--empty-- = --empty--);
bt_assert(((rt, 10, 20)) !~ --empty--);
bt_assert(format(el) = "(eclist (rt, 10, 20) (ro, 10.20.30.40, 100) (ro, 11.21.0.0, 200))");
bt_assert(el.len = 3);
el = delete(el, (rt, 10, 20));
el = delete(el, (rt, 10, 30));
bt_assert(el = add(add(--empty--, (ro, 10.20.30.40, 100)), (ro, 11.21.0.0, 200)));
el = add(el, (unknown 2, ten, 1));
el = add(el, (unknown 5, ten, 1));
el = add(el, (rt, ten, one+one));
el = add(el, (rt, 10, 3));
el = add(el, (rt, 10, 4));
el = add(el, (rt, 10, 5));
el = add(el, (generic, 0x2000a, 3*ten));
el = delete(el, [(rt, 10, 2..ten)]);
bt_assert(el = add(add(add(add(add(--empty--, (ro, 10.20.30.40, 100)), (ro, 11.21.0.0, 200)), (rt, 10, 1)), (unknown 5, 10, 1)), (rt, 10, 30)));
el = filter(el, [(rt, 10, *)]);
bt_assert(el = add(add(--empty--, (rt, 10, 1)), (rt, 10, 30)));
bt_assert((rt, 10, 1) ~ el);
bt_assert(el ~ [(rt, 10, ten..40)]);
bt_assert((rt, 10, 20) !~ el);
bt_assert((ro, 10.20.30.40, 100) !~ el);
bt_assert(el !~ [(rt, 10, 35..40)]);
bt_assert(el !~ [(ro, 10, *)]);
bt_assert(el !~ []);
el = add(el, (rt, 10, 40));
el2 = filter(el, [(rt, 10, 20..40)] );
el2 = add(el2, (rt, 10, 50));
bt_assert(delete(el, []) = el);
bt_assert(filter(el, []) = --empty--);
# eclist A (1,30,40)
bt_assert(el = add(add(add(--empty--, (rt, 10, 1)), (rt, 10, 30)), (rt, 10, 40)));
bt_assert(format(el) = "(eclist (rt, 10, 1) (rt, 10, 30) (rt, 10, 40))");
# eclist B (30,40,50)
bt_assert(el2 = add(add(add(--empty--, (rt, 10, 30)), (rt, 10, 40)), (rt, 10, 50)));
bt_assert(format(el2) = "(eclist (rt, 10, 30) (rt, 10, 40) (rt, 10, 50))");
# eclist A union B
r = add(el2, el);
bt_assert(r = add(add(add(add(--empty--, (rt, 10, 30)), (rt, 10, 40)), (rt, 10, 50)), (rt, 10, 1)));
bt_assert(format(r) = "(eclist (rt, 10, 30) (rt, 10, 40) (rt, 10, 50) (rt, 10, 1))");
# eclist A isect B
r = filter(el, el2);
bt_assert(r = add(add(--empty--, (rt, 10, 30)), (rt, 10, 40)));
bt_assert(format(r) = "(eclist (rt, 10, 30) (rt, 10, 40))");
# eclist A \ B
r = delete(el, el2);
bt_assert(r = add(--empty--, (rt, 10, 1)));
bt_assert(format(r) = "(eclist (rt, 10, 1))");
# eclist in ec set
r = filter(el, [(rt, 10, 1), (rt, 10, 25..30), (ro, 10, 40)]);
bt_assert(r = add(add(--empty--, (rt, 10, 1)), (rt, 10, 30)));
bt_assert(format(r) = "(eclist (rt, 10, 1) (rt, 10, 30))");
# minimim & maximum element
r = add(add(add(add(add(--empty--, (rt, 2, 1)), (rt, 1, 3)), (rt, 2, 2)), (rt, 3, 1)), (rt, 2, 3));
bt_assert(format(r) = "(eclist (rt, 2, 1) (rt, 1, 3) (rt, 2, 2) (rt, 3, 1) (rt, 2, 3))");
bt_assert(r.min = (rt, 1, 3));
bt_assert(r.max = (rt, 3, 1));
# iteration over eclist
int x = 0;
for ec c in r do
if c > (rt, 2, 0) && c < (rt, 3, 0) then
x = x + 1;
bt_assert(x = 3);
}
bt_test_suite(t_eclist_old, "Testing lists of extended communities");
function t_eclist_new()
{
# New syntax
eclist el;
bt_assert(el = --empty--);
el.add((rt, 10, 20));
el.add((ro, 10.20.30.40, 100));
el.add((ro, 11.21.31.41.mask(16), 200));
bt_assert(--empty-- = --empty--);
bt_assert(((rt, 10, 20)) !~ --empty--);
bt_assert(format(el) = "(eclist (rt, 10, 20) (ro, 10.20.30.40, 100) (ro, 11.21.0.0, 200))");
bt_assert(el.len = 3);
el.delete((rt, 10, 20));
el.delete((rt, 10, 30));
bt_assert(el = (--empty--).add((ro, 10.20.30.40, 100)).add((ro, 11.21.0.0, 200)));
bt_assert(el.empty = --empty--);
el.add((unknown 2, ten, 1));
el.add((unknown 5, ten, 1));
el.add((rt, ten, one+one));
el.add((rt, 10, 3));
el.add((rt, 10, 4));
el.add((rt, 10, 5));
el.add((generic, 0x2000a, 3*ten));
el.delete([(rt, 10, 2..ten)]);
bt_assert(el = (--empty--).add((ro, 10.20.30.40, 100)).add((ro, 11.21.0.0, 200)).add((rt, 10, 1)).add((unknown 5, 10, 1)).add((rt, 10, 30)));
el.filter([(rt, 10, *)]);
bt_assert(el = (--empty--).add((rt, 10, 1)).add((rt, 10, 30)));
bt_assert((rt, 10, 1) ~ el);
bt_assert(el ~ [(rt, 10, ten..40)]);
bt_assert((rt, 10, 20) !~ el);
bt_assert((ro, 10.20.30.40, 100) !~ el);
bt_assert(el !~ [(rt, 10, 35..40)]);
bt_assert(el !~ [(ro, 10, *)]);
bt_assert(el !~ []);
el.add((rt, 10, 40));
eclist el2 = el.filter([(rt, 10, 20..40)] );
el2.add((rt, 10, 50));
bt_assert(el.delete([]) = el);
bt_assert(el.filter([]) = --empty--);
# eclist A (1,30,40)
bt_assert(el = --empty--.add((rt, 10, 1)).add((rt, 10, 30)).add((rt, 10, 40)));
bt_assert(format(el) = "(eclist (rt, 10, 1) (rt, 10, 30) (rt, 10, 40))");
# eclist B (30,40,50)
bt_assert(el2 = --empty--.add((rt, 10, 30)).add((rt, 10, 40)).add((rt, 10, 50)));
bt_assert(format(el2) = "(eclist (rt, 10, 30) (rt, 10, 40) (rt, 10, 50))");
# eclist A union B
eclist r = el2.add(el);
bt_assert(r = --empty--.add((rt, 10, 30)).add((rt, 10, 40)).add((rt, 10, 50)).add((rt, 10, 1)));
bt_assert(format(r) = "(eclist (rt, 10, 30) (rt, 10, 40) (rt, 10, 50) (rt, 10, 1))");
# eclist A isect B
r = el.filter(el2);
bt_assert(r = --empty--.add((rt, 10, 30)).add((rt, 10, 40)));
bt_assert(format(r) = "(eclist (rt, 10, 30) (rt, 10, 40))");
# eclist A \ B
r = el.delete(el2);
bt_assert(r = --empty--.add((rt, 10, 1)));
bt_assert(format(r) = "(eclist (rt, 10, 1))");
# eclist in ec set
r = el.filter([(rt, 10, 1), (rt, 10, 25..30), (ro, 10, 40)]);
bt_assert(r = --empty--.add((rt, 10, 1)).add((rt, 10, 30)));
bt_assert(format(r) = "(eclist (rt, 10, 1) (rt, 10, 30))");
# minimim & maximum element
r = --empty--.add((rt, 2, 1)).add((rt, 1, 3)).add((rt, 2, 2)).add((rt, 3, 1)).add((rt, 2, 3));
bt_assert(format(r) = "(eclist (rt, 2, 1) (rt, 1, 3) (rt, 2, 2) (rt, 3, 1) (rt, 2, 3))");
bt_assert(r.min = (rt, 1, 3));
bt_assert(r.max = (rt, 3, 1));
# iteration over eclist
int x = 0;
for ec c in r do
if c > (rt, 2, 0) && c < (rt, 3, 0) then
x = x + 1;
bt_assert(x = 3);
}
bt_test_suite(t_eclist_new, "Testing lists of extended communities");
/*
* Testing sets of Extended Communities
* ------------------------------------
*/
define ecs2 = [(rt, ten, (one+onef(0))*10), (ro, 100000, 100..200), (rt, 12345, *)];
function t_ec_set()
ec set ecs;
{
ecs = [(rt, ten, (one+onef(0))*10), (ro, 100000, 100..200), (rt, 12345, *)];
bt_assert(format(ecs) = "[(rt, 10, 20), (rt, 12345, 0)..(rt, 12345, 4294967295), (ro, 100000, 100)..(ro, 100000, 200)]");
bt_assert(format(ecs2) = "[(rt, 10, 20), (rt, 12345, 0)..(rt, 12345, 4294967295), (ro, 100000, 100)..(ro, 100000, 200)]");
bt_assert((rt, 10, 20) ~ ecs);
bt_assert((ro, 100000, 100) ~ ecs);
bt_assert((ro, 100000, 128) ~ ecs);
bt_assert((ro, 100000, 200) ~ ecs);
bt_assert((rt, 12345, 0) ~ ecs);
bt_assert((rt, 12345, 200000) ~ ecs);
bt_assert((rt, 12345, 4000000) ~ ecs);
bt_assert((ro, 10, 20) !~ ecs);
bt_assert((rt, 10, 21) !~ ecs);
bt_assert((ro, 100000, 99) !~ ecs);
bt_assert((ro, 12345, 10) !~ ecs);
bt_assert((rt, 12346, 0) !~ ecs);
bt_assert((ro, 0.1.134.160, 150) !~ ecs);
}
bt_test_suite(t_ec_set, "Testing sets of extended communities");
/*
* Testing Large Communities
* -------------------------
*/
function mktrip(int a) -> lc
{
return (a, 2*a, 3*a);
}
function t_lclist_old()
lclist ll;
lclist ll2;
lclist r;
{
bt_assert(---empty--- = ---empty---);
bt_assert((10, 20, 30) !~ ---empty---);
bt_assert((10, 20, 30).asn = 10);
bt_assert((10, 20, 30).data1 = 20);
bt_assert((10, 20, 30).data2 = 30);
ll = --- empty ---;
ll = add(ll, (ten, 20, 30));
ll = add(ll, (1000, 2000, 3000));
ll = add(ll, mktrip(100000));
bt_assert(format(ll) = "(lclist (10, 20, 30) (1000, 2000, 3000) (100000, 200000, 300000))");
bt_assert(ll.len = 3);
bt_assert(ll = add(add(add(---empty---, (10, 20, 30)), (1000, 2000, 3000)), (100000, 200000, 300000)));
bt_assert(mktrip(1000) ~ ll);
bt_assert(mktrip(100) !~ ll);
ll = --- empty ---;
ll = add(ll, (10, 10, 10));
ll = add(ll, (20, 20, 20));
ll = add(ll, (30, 30, 30));
ll2 = --- empty ---;
ll2 = add(ll2, (20, 20, 20));
ll2 = add(ll2, (30, 30, 30));
ll2 = add(ll2, (40, 40, 40));
bt_assert(delete(ll, []) = ll);
bt_assert(filter(ll, []) = ---empty---);
# lclist A (10, 20, 30)
bt_assert(format(ll) = "(lclist (10, 10, 10) (20, 20, 20) (30, 30, 30))");
# lclist B (20, 30, 40)
bt_assert(format(ll2) = "(lclist (20, 20, 20) (30, 30, 30) (40, 40, 40))");
# lclist A union B
r = add(ll, ll2);
bt_assert(r = add(add(add(add(---empty---, (10,10,10)), (20,20,20)), (30,30,30)), (40,40,40)));
bt_assert(format(r) = "(lclist (10, 10, 10) (20, 20, 20) (30, 30, 30) (40, 40, 40))");
# lclist A isect B
r = filter(ll, ll2);
bt_assert(r = add(add(---empty---, (20, 20, 20)), (30, 30, 30)));
bt_assert(format(r) = "(lclist (20, 20, 20) (30, 30, 30))");
# lclist A \ B
r = delete(ll, ll2);
bt_assert(r = add(---empty---, (10, 10, 10)));
bt_assert(format(r) = "(lclist (10, 10, 10))");
# lclist in lc set
r = filter(ll, [(5..15, *, *), (20, 15..25, *)]);
bt_assert(r = add(add(---empty---, (10, 10, 10)), (20, 20, 20)));
bt_assert(format(r) = "(lclist (10, 10, 10) (20, 20, 20))");
# minimim & maximum element
r = add(add(add(add(add(---empty---, (2, 3, 3)), (1, 2, 3)), (2, 3, 1)), (3, 1, 2)), (2, 1, 3));
bt_assert(format(r) = "(lclist (2, 3, 3) (1, 2, 3) (2, 3, 1) (3, 1, 2) (2, 1, 3))");
bt_assert(r.min = (1, 2, 3));
bt_assert(r.max = (3, 1, 2));
# iteration over lclist
int x = 0;
int y = 0;
lc mx = (0, 0, 0);
for lc c in r do {
int asn2 = c.asn * c.asn;
x = x + asn2 * c.data1;
y = y + asn2 * c.data2;
if c > mx then mx = c;
}
bt_assert(x = 39 && y = 49);
bt_assert(mx = r.max);
}
bt_test_suite(t_lclist_old, "Testing lists of large communities");
function t_lclist_new()
{
bt_assert(---empty--- = ---empty---);
bt_assert((10, 20, 30) !~ ---empty---);
bt_assert((10, 20, 30).asn = 10);
bt_assert((10, 20, 30).data1 = 20);
bt_assert((10, 20, 30).data2 = 30);
lclist ll;
bt_assert(ll = ---empty---);
ll.add((ten, 20, 30));
ll.add((1000, 2000, 3000));
ll.add(mktrip(100000));
bt_assert(ll.empty = ---empty---);
bt_assert(format(ll) = "(lclist (10, 20, 30) (1000, 2000, 3000) (100000, 200000, 300000))");
bt_assert(ll.len = 3);
bt_assert(ll = ---empty---.add((10, 20, 30)).add((1000, 2000, 3000)).add((100000, 200000, 300000)));
bt_assert(mktrip(1000) ~ ll);
bt_assert(mktrip(100) !~ ll);
ll.empty;
ll.add((10, 10, 10));
ll.add((20, 20, 20));
ll.add((30, 30, 30));
lclist ll2;
ll2.add((20, 20, 20));
ll2.add((30, 30, 30));
ll2.add((40, 40, 40));
bt_assert(ll.delete([]) = ll);
bt_assert(ll.filter([]) = ---empty---);
# lclist A (10, 20, 30)
bt_assert(format(ll) = "(lclist (10, 10, 10) (20, 20, 20) (30, 30, 30))");
# lclist B (20, 30, 40)
bt_assert(format(ll2) = "(lclist (20, 20, 20) (30, 30, 30) (40, 40, 40))");
# lclist A union B
lclist r = ll.add(ll2);
bt_assert(r = ---empty---.add((10,10,10)).add((20,20,20)).add((30,30,30)).add((40,40,40)));
bt_assert(format(r) = "(lclist (10, 10, 10) (20, 20, 20) (30, 30, 30) (40, 40, 40))");
# lclist A isect B
r = ll.filter(ll2);
bt_assert(r = ---empty---.add((20, 20, 20)).add((30, 30, 30)));
bt_assert(format(r) = "(lclist (20, 20, 20) (30, 30, 30))");
# lclist A \ B
r = ll.delete(ll2);
bt_assert(r = ---empty---.add((10, 10, 10)));
bt_assert(format(r) = "(lclist (10, 10, 10))");
# lclist in lc set
r = ll.filter([(5..15, *, *), (20, 15..25, *)]);
bt_assert(r = ---empty---.add((10, 10, 10)).add((20, 20, 20)));
bt_assert(format(r) = "(lclist (10, 10, 10) (20, 20, 20))");
# minimim & maximum element
r = ---empty---.add((2, 3, 3)).add((1, 2, 3)).add((2, 3, 1)).add((3, 1, 2)).add((2, 1, 3));
bt_assert(format(r) = "(lclist (2, 3, 3) (1, 2, 3) (2, 3, 1) (3, 1, 2) (2, 1, 3))");
bt_assert(r.min = (1, 2, 3));
bt_assert(r.max = (3, 1, 2));
# iteration over lclist
int x = 0;
int y = 0;
lc mx = (0, 0, 0);
for lc c in r do {
int asn2 = c.asn * c.asn;
x = x + asn2 * c.data1;
y = y + asn2 * c.data2;
if c > mx then mx = c;
}
bt_assert(x = 39 && y = 49);
bt_assert(mx = r.max);
}
bt_test_suite(t_lclist_new, "Testing lists of large communities");
/*
* Testing sets of Large Communities
* ---------------------------------
*/
function t_lclist_set()
lclist ll;
lc set lls;
{
ll = --- empty ---;
ll = add(ll, (10, 20, 30));
ll = add(ll, (1000, 2000, 3000));
ll = add(ll, mktrip(100000));
bt_assert(ll ~ [(5,10,15), (10,20,30)]);
bt_assert(ll ~ [(10,15..25,*)]);
bt_assert(ll ~ [(ten, *, *)]);
bt_assert(ll !~ [(5,10,15), (10,21,30)]);
bt_assert(ll !~ [(10,21..25,*)]);
bt_assert(ll !~ [(11, *, *)]);
bt_assert(ll !~ []);
lls = [(10, 10, 10), (20, 20, 15..25), (30, 30, *), (40, 35..45, *), (50, *, *), (55..65, *, *)];
bt_assert(format(lls) = "[(10, 10, 10), (20, 20, 15)..(20, 20, 25), (30, 30, 0)..(30, 30, 4294967295), (40, 35, 0)..(40, 45, 4294967295), (50, 0, 0)..(50, 4294967295, 4294967295), (55, 0, 0)..(65, 4294967295, 4294967295)]");
bt_assert((10, 10, 10) ~ lls);
bt_assert((20, 20, 25) ~ lls);
bt_assert((20, 20, 26) !~ lls);
bt_assert((30, 30, 0) ~ lls);
bt_assert((40, 35, 40) ~ lls);
bt_assert((40, 34, 40) !~ lls);
bt_assert((50, 0, 0) ~ lls);
bt_assert((60, 60, 60) ~ lls);
bt_assert((70, 60, 60) !~ lls);
}
bt_test_suite(t_lclist_set, "Testing sets of large communities");
/*
* Testing Route Distinguishers
* ----------------------------
*/
function t_rd()
rd x;
{
x = 12345:20000;
bt_assert(format(x) = "12345:20000");
bt_assert(x = 12345:20000);
bt_assert(x < 12345:20010);
bt_assert(x != 12346:20000);
bt_assert(x != 2:12345:20000);
bt_assert(!(x > 12345:200010));
bt_assert(format(0:1:2) = "1:2");
bt_assert(format(10.0.0.1:1000) = "10.0.0.1:1000");
bt_assert(format(100000:20000) = "100000:20000");
bt_assert(format(2:100000:20000) = "100000:20000");
bt_assert(format(2:1000:1000) = "2:1000:1000");
}
bt_test_suite(t_rd, "Testing route distinguishers");
/*
* Testing sets of Route Distinguishers
* ------------------------------------
*/
function t_rd_set()
rd set rds;
{
rds = [];
bt_assert(rds = []);
bt_assert(10:20 !~ rds);
rds = [10:20, 100000:100..100000:200];
bt_assert(format(rds) = "[10:20, 100000:100..100000:200]");
bt_assert(10:20 ~ rds);
bt_assert(10:21 !~ rds);
bt_assert(100000:90 !~ rds);
bt_assert(100000:100 ~ rds);
bt_assert(100000:128 ~ rds);
bt_assert(100000:200 ~ rds);
bt_assert(100010:150 !~ rds);
bt_assert(100010:150 !~ []);
}
bt_test_suite(t_rd_set, "Testing sets of route distinguishers");
/*
* Testing VPN nets
* ----------------
*/
function t_net_vpn()
{
prefix p;
p = 100:200 10.0.1.0/24;
bt_assert(format(p) = "100:200 10.0.1.0/24");
bt_assert(p.type = NET_VPN4);
bt_assert(p.len = 24);
bt_assert(p.ip = 10.0.1.0);
bt_assert(p.rd = 100:200);
p = 1012:2024 fe80:386c::/32;
bt_assert(format(p) = "1012:2024 fe80:386c::/32");
bt_assert(p.type = NET_VPN6);
bt_assert(p.len = 32);
bt_assert(p.ip = fe80:386c::);
bt_assert(p.rd = 1012:2024);
}
bt_test_suite(t_net_vpn, "Testing VPN nets");
/*
* Testing ROA nets
* ----------------
*/
function t_net_roa()
{
prefix p;
p = 12.13.0.0/16 max 24 as 1234;
bt_assert(format(p) = "12.13.0.0/16-24 AS1234");
bt_assert(p.type = NET_ROA4);
bt_assert(p.ip = 12.13.0.0);
bt_assert(p.len = 16);
bt_assert(p.maxlen = 24);
bt_assert(p.asn = 1234);
p = 1000::/8 max 32 as 1234;
bt_assert(format(p) = "1000::/8-32 AS1234");
bt_assert(p.type = NET_ROA6);
bt_assert(p.ip = 1000::);
bt_assert(p.len = 8);
bt_assert(p.maxlen = 32);
bt_assert(p.asn = 1234);
}
bt_test_suite(t_net_roa, "Testing ROA nets");
/*
* Testing Flowspec nets
* ---------------------
*/
function t_net_flowspec()
{
prefix p;
p = flow4 { dst 10.0.0.0/8; };
bt_assert(p.type = NET_FLOW4);
bt_assert(p.ip = 10.0.0.0);
bt_assert(p.len = 8);
bt_assert(p.src = 0.0.0.0/0);
bt_assert(p.dst = 10.0.0.0/8);
bt_assert(p !~ [ 10.0.0.0/8 ] );
bt_assert(p.dst ~ [ 10.0.0.0/8 ] );
p = flow6 { dst ::1/128; };
bt_assert(p.type = NET_FLOW6);
bt_assert(p.ip = ::1);
bt_assert(p.len = 128);
bt_assert(p.src = ::/0);
bt_assert(p.dst = ::1/128);
bt_assert(format(flow4 { dst 10.0.0.0/8; proto = 23; }) = "flow4 { dst 10.0.0.0/8; proto 23; }");
bt_assert(format(flow6 { dst ::1/128; src ::2/127; }) = "flow6 { dst ::1/128; src ::2/127; }");
bt_assert(format(flow6 { next header false 42; }) = "flow6 { next header false 42; }");
bt_assert(format(flow6 { port 80; }) = "flow6 { port 80; }");
bt_assert(format(flow6 { dport > 24 && < 30 || 40..50,60..70,80 && >= 90; }) = "flow6 { dport > 24 && < 30 || 40..50,60..70,80 && >= 90; }");
bt_assert(format(flow6 { sport 0..0x400; }) = "flow6 { sport 0..1024; }");
bt_assert(format(flow6 { icmp type 80; }) = "flow6 { icmp type 80; }");
bt_assert(format(flow6 { icmp code 90; }) = "flow6 { icmp code 90; }");
bt_assert(format(flow6 { tcp flags 0x03/0x0f; }) = "flow6 { tcp flags 0x3/0x3 && 0x0/0xc; }");
bt_assert(format(flow6 { length 0..65535; }) = "flow6 { length 0..65535; }");
bt_assert(format(flow6 { dscp = 63; }) = "flow6 { dscp 63; }");
bt_assert(format(flow6 { fragment is_fragment || !first_fragment; }) = "flow6 { fragment is_fragment || !first_fragment; }");
bt_assert(format(flow6 { label 1000..2000; }) = "flow6 { label 1000..2000; }");
bt_assert(format(flow6 { }) = "flow6 { }");
}
bt_test_suite(t_net_flowspec, "Testing flowspec networks");
/*
* Testing IPv6 SADR nets
* ----------------------
*/
function t_net_sadr()
{
prefix p;
p = fe80:386c::/32 from 2001:db8:1:13::/64;
bt_assert(format(p) = "fe80:386c::/32 from 2001:db8:1:13::/64");
bt_assert(p.type = NET_IP6_SADR);
bt_assert(p.ip = fe80:386c::);
bt_assert(p.len = 32);
bt_assert(p.src = 2001:db8:1:13::/64);
bt_assert(p.dst = fe80:386c::/32);
}
bt_test_suite(t_net_sadr, "Testing IPv6 SADR nets");
/*
* Testing defined() function
* --------------------------
*/
function test_undef(int a)
int b;
{
if a = 3 then {
b = 4;
bt_assert(defined(b));
}
else {
bt_assert(!defined(b));
}
}
function t_define()
int i;
{
test_undef(2);
test_undef(3);
test_undef(2);
bt_assert(defined(1));
bt_assert(defined(1.2.3.4));
}
bt_test_suite(t_define, "Testing defined() function");
/*
* Testing calling functions
* -------------------------
*/
function callme(int arg1; int arg2) -> int
int i;
{
case arg1 {
1, 42: return 42;
else: return arg1 * arg2;
}
return 0;
}
function callmeagain(int a; int b; int c) -> int
{
return a + b + c;
}
function fifteen() -> int
{
return 15;
}
function local_vars(int j)
{
int k = 10;
bt_assert(j = 5 && k = 10);
{
int j = 15;
k = 20;
bt_assert(j = 15 && k = 20);
}
bt_assert(j = 5 && k = 20);
if j < 10 then
{
int j = 25;
string k = "hello";
bt_assert(j = 25 && k = "hello");
}
bt_assert(j = 5 && k = 20);
int m = 100;
{
j = 35;
int k = 40;
bt_assert(j = 35 && k = 40 && m = 100);
}
bt_assert(j = 35 && k = 20 && m = 100);
}
function factorial(int x) -> int
{
if x = 0 then return 0;
if x = 1 then return 1;
else return x * factorial(x - 1);
}
function fibonacci(int x) -> int
{
if x = 0 then return 0;
if x = 1 then return 1;
else return fibonacci(x - 1) + fibonacci(x - 2);
}
function hanoi_init(int a; int b) -> bgppath
{
if b = 0
then return +empty+;
else return prepend(hanoi_init(a + 1, b - 1), a);
}
function hanoi_solve(int n; bgppath h_src; bgppath h_dst; bgppath h_aux; bool x; bool y) -> bgppath
{
# x -> return src or dst
# y -> print state
if n = 0 then { if x then return h_src; else return h_dst; }
bgppath tmp1 = hanoi_solve(n - 1, h_src, h_aux, h_dst, true, y);
bgppath tmp2 = hanoi_solve(n - 1, h_src, h_aux, h_dst, false, false);
h_src = tmp1;
h_aux = tmp2;
int v = h_src.first;
# bt_assert(h_dst = +empty+ || v < h_dst.first);
h_src = delete(h_src, v);
h_dst = prepend(h_dst, v);
if y then
print "move: ", v, " src: ", h_src, " dst:", h_dst, " aux:", h_aux;
tmp1 = hanoi_solve(n - 1, h_aux, h_dst, h_src, true, y);
tmp2 = hanoi_solve(n - 1, h_aux, h_dst, h_src, false, false);
h_aux = tmp1;
h_dst = tmp2;
if x then return h_src; else return h_dst;
}
function t_call_function()
bgppath h_src;
{
bt_assert(fifteen() = 15);
bt_assert(callme(1, 2) = 42);
bt_assert(callme(42, 2) = 42);
bt_assert(callme(2, 2) = 4);
bt_assert(callme(3, 2) = 6);
bt_assert(callme(4, 4) = 16);
bt_assert(callme(7, 2) = 14);
bt_assert(callmeagain(1, 2, 3) = 6);
local_vars(5);
bt_assert(factorial(5) = 120);
bt_assert(factorial(10) = 3628800);
bt_assert(fibonacci(10) = 55);
bt_assert(fibonacci(20) = 6765);
h_src = hanoi_init(1, 6);
bt_assert(format(h_src) = "(path 1 2 3 4 5 6)");
bt_assert(hanoi_solve(6, h_src, +empty+, +empty+, false, false) = h_src);
}
bt_test_suite(t_call_function, "Testing calling functions");
/*
* Test including another config file
* ----------------------------------
*/
function t_include()
int i;
{
i = 1;
include "test.conf.inc";
bt_assert(i = 42);
}
bt_test_suite(t_include, "Testing including another config file");
/*
* Test if-else statement
* ----------------------
*/
function t_if_else()
int i;
{
/* Empty blocks regression test */
if true then {}
else {}
if true then
bt_assert(true);
if false then
bt_assert(false);
else if true then
bt_assert(true);
else
bt_assert(false);
/* Empty blocks regression test */
if true then {}
else {}
}
bt_test_suite(t_if_else, "Testing if-else statement");
/*
* Test for-in statement
* ---------------------
*/
function t_for_in()
{
bgppath p = +empty+.prepend(5).prepend(4).prepend(3).prepend(2).prepend(1);
bgppath q = +empty+.prepend(30).prepend(20).prepend(10);
int a;
# basic for loop
a = 0;
for int i in p do {
a = 2 * a + i;
}
bt_assert(a = 57);
# basic for loop, no braces
a = 0;
for int i in p do a = 2 * a + i;
bt_assert(a = 57);
# for loop with empty body
a = 0;
for int i in p do { }
bt_assert(a = 0);
# for loop over empty path
a = 0;
for int i in +empty+ do a = 1;
bt_assert(a = 0);
# for loop with var name shadowing
a = 0;
for int p in p do {
a = 2 * a + p;
}
bt_assert(a = 57);
# nested for loops
a = 0;
int n = 1;
for int i in p do {
for int j in q do {
a = a + i * j * n;
n = n + 1;
}
}
bt_assert(a = 9300);
}
bt_test_suite(t_for_in, "Testing for-in statement");
/*
* Unused functions -- testing only parsing
* ----------------------------------------
*/
function __test1()
{
if source ~ [ RTS_BGP, RTS_STATIC ] then {
# ospf_metric1 = 65535;
# ospf_metric2 = 1000;
ospf_tag = 0x12345678;
accept;
}
reject;
}
function __test2()
{
if source ~ [ RTS_BGP, RTS_STATIC ] then {
# ospf_metric1 = 65535;
# ospf_metric2 = 1000;
ospf_tag = 0x12345678;
accept;
}
reject;
}
filter testf
int j;
{
print "Heya, filtering route to ", net.ip, " prefixlen ", net.len, " source ", source;
print "This route was from ", from;
j = 7;
j = 17;
if rip_metric > 15 then {
reject "RIP Metric is more than infinity";
}
rip_metric = 14;
unset(rip_metric);
accept "ok I take that";
}
filter roa_filter
{
if net ~ [ 10.0.0.0/8{16,24} ] || net ~ [ 2000::/3{16,96} ] then {
accept;
}
reject;
}
roa4 table r4;
roa6 table r6;
protocol static
{
roa4 { table r4; import filter roa_filter; };
route 10.110.0.0/16 max 16 as 1000;
route 10.120.0.0/16 max 24 as 1000;
route 10.130.0.0/16 max 24 as 2000;
route 10.130.128.0/18 max 24 as 3000;
}
protocol static
{
roa6 { table r6; import filter roa_filter; };
route 2001:0db8:85a3:8a2e::/64 max 96 as 1000;
}
function t_roa_check()
prefix pfx;
{
bt_assert(roa_check(r4, 10.10.0.0/16, 1000) = ROA_UNKNOWN);
bt_assert(roa_check(r4, 10.0.0.0/8, 1000) = ROA_UNKNOWN);
bt_assert(roa_check(r4, 10.110.0.0/16, 1000) = ROA_VALID);
bt_assert(roa_check(r4, 10.110.0.0/16, 2000) = ROA_INVALID);
bt_assert(roa_check(r4, 10.110.32.0/20, 1000) = ROA_INVALID);
bt_assert(roa_check(r4, 10.120.32.0/20, 1000) = ROA_VALID);
bt_assert(roa_check(r4, 10.120.32.0/20, 2000) = ROA_INVALID);
bt_assert(roa_check(r4, 10.120.32.32/28, 1000) = ROA_INVALID);
bt_assert(roa_check(r4, 10.130.130.0/24, 1000) = ROA_INVALID);
bt_assert(roa_check(r4, 10.130.130.0/24, 2000) = ROA_VALID);
bt_assert(roa_check(r4, 10.130.30.0/24, 3000) = ROA_INVALID);
bt_assert(roa_check(r4, 10.130.130.0/24, 3000) = ROA_VALID);
bt_assert(roa_check(r6, 2001:0db8:85a3:8a2e:1234::/80, 1000) = ROA_VALID);
bt_assert(roa_check(r6, 2001:0db8:85a3:8a2e:1234::/97, 1000) = ROA_INVALID);
bt_assert(roa_check(r6, 2001:0db8:85a3:8a2e::/64, 1000) = ROA_VALID);
bt_assert(roa_check(r6, 2001:0db8:85a3::/48, 1000) = ROA_UNKNOWN);
bt_assert(roa_check(r4, 10.10.0.0/16, 1000) = ROA_UNKNOWN);
bt_assert(roa_check(r4, 10.0.0.0/8, 1000) = ROA_UNKNOWN);
bt_assert(roa_check(r4, 10.110.0.0/16, 1000) = ROA_VALID);
bt_assert(roa_check(r4, 10.110.0.0/16, 2000) = ROA_INVALID);
bt_assert(roa_check(r4, 10.110.32.0/20, 1000) = ROA_INVALID);
bt_assert(roa_check(r4, 10.120.32.0/20, 1000) = ROA_VALID);
bt_assert(roa_check(r6, 2001:0db8:85a3:8a2e:1234::/80, 1000) = ROA_VALID);
bt_assert(roa_check(r6, 2001:0db8:85a3:8a2e:1234::/97, 1000) = ROA_INVALID);
bt_assert(roa_check(r6, 2001:0db8:85a3:8a2e::/64, 1000) = ROA_VALID);
bt_assert(roa_check(r6, 2001:0db8:85a3::/48, 1000) = ROA_UNKNOWN);
bt_assert(roa_check(r4, 2001:0db8:85a3:8a2e:1234::/97, 1000) = ROA_UNKNOWN);
bt_assert(roa_check(r6, 2001:0db8:85a3:8a2e:1234::/97, 1000) = ROA_INVALID);
bt_assert(roa_check(r4, 2001:0db8:85a3:8a2e:1234::/80, 1000) = ROA_UNKNOWN);
bt_assert(roa_check(r6, 2001:0db8:85a3:8a2e:1234::/80, 1000) = ROA_VALID);
bt_assert(roa_check(r4, 2001:0db8:85a3::/48, 1000) = ROA_UNKNOWN);
bt_assert(roa_check(r6, 2001:0db8:85a3::/48, 1000) = ROA_UNKNOWN);
bt_assert(10.130.130.0/24 ~ 0.0.0.0/0);
bt_assert(2001:0db8:85a3:8a2e::/64 ~ ::/0);
bt_assert(10.130.130.0/24 !~ ::/0);
bt_assert(2001:0db8:85a3:8a2e::/64 !~ 0.0.0.0/0);
}
bt_test_suite(t_roa_check, "Testing ROA");
filter vpn_filter
{
bt_assert(format(net) = "1:2 10.1.10.0/24");
bt_assert(net.type = NET_VPN4);
bt_assert(net.type != NET_IP4);
bt_assert(net.type != NET_IP6);
bt_assert(net.rd = 0:1:2);
bool b = false;
case (net.type) {
NET_IP4: print "IPV4";
NET_IP6: print "IPV6";
else: b = true;
}
bt_assert(b);
bt_check_assign(from, 10.20.30.40);
# bt_check_assign(gw, 55.55.55.44);
bgp_community.add((3,5));
bgp_ext_community.add((ro, 135, 999));
bgp_large_community.add((6464156, 89646354, 8675643));
mypath.prepend(65533);
mylclist.add((1234, 5678, 90123));
bgppath locpath;
lclist loclclist;
locpath.prepend(65533);
loclclist.add((1234, 5678, 90123));
accept;
}
vpn4 table v4;
vpn4 table v6;
protocol static
{
vpn4 { table v4; import filter vpn_filter; };
route 0:1:2 10.1.10.0/24 unreachable;
}
protocol static
{
ipv6 { import where false; };
route fd01::/48 unreachable;
}