X-Git-Url: https://git.opendaylight.org/gerrit/gitweb?a=blobdiff_plain;f=opendaylight%2Fsal%2Fapi%2Fsrc%2Ftest%2Fjava%2Forg%2Fopendaylight%2Fcontroller%2Fsal%2Fmatch%2FMatchTest.java;h=e3333cf78c9e4123e2a7876bf83df5837d15e061;hb=04187bee472c35e1f200bff6ef0daeb5163d36fa;hp=ae78e1acc8af45f8ef879b0ad16477bf9040330a;hpb=3e5c78a72ae6b2341240bee8f122b990427f1ee0;p=controller.git diff --git a/opendaylight/sal/api/src/test/java/org/opendaylight/controller/sal/match/MatchTest.java b/opendaylight/sal/api/src/test/java/org/opendaylight/controller/sal/match/MatchTest.java index ae78e1acc8..e3333cf78c 100644 --- a/opendaylight/sal/api/src/test/java/org/opendaylight/controller/sal/match/MatchTest.java +++ b/opendaylight/sal/api/src/test/java/org/opendaylight/controller/sal/match/MatchTest.java @@ -523,4 +523,107 @@ public class MatchTest { Assert.assertTrue(field.getValue().equals(new Short(vlan))); Assert.assertTrue(field.isValid()); } + + @Test + public void testIntersection() throws UnknownHostException { + Short ethType = Short.valueOf((short)0x800); + InetAddress ip1 = InetAddress.getByName("1.1.1.1"); + InetAddress ip2 = InetAddress.getByName("1.1.1.0"); + InetAddress ipm2 = InetAddress.getByName("255.255.255.0"); + InetAddress ip3 = InetAddress.getByName("1.3.0.0"); + InetAddress ipm3 = InetAddress.getByName("255.255.0.0"); + InetAddress ip4 = InetAddress.getByName("1.3.4.4"); + InetAddress ipm4 = InetAddress.getByName("255.255.255.0"); + + Match m1 = new Match(); + m1.setField(MatchType.DL_TYPE, ethType); + m1.setField(MatchType.NW_SRC, ip1); + + Match m2 = new Match(); + m2.setField(MatchType.DL_TYPE, ethType); + m2.setField(MatchType.NW_SRC, ip2, ipm2); + + Match m3 = new Match(); + m3.setField(MatchType.DL_TYPE, ethType); + m3.setField(MatchType.NW_SRC, ip3, ipm3); + m3.setField(MatchType.NW_PROTO, IPProtocols.TCP.byteValue()); + + Match m3r = m3.reverse(); + Assert.assertTrue(m3.intersetcs(m3r)); + + Assert.assertTrue(m1.intersetcs(m2)); + Assert.assertTrue(m2.intersetcs(m1)); + Assert.assertFalse(m1.intersetcs(m3)); + Assert.assertTrue(m1.intersetcs(m3r)); + Assert.assertFalse(m3.intersetcs(m1)); + Assert.assertTrue(m3.intersetcs(m1.reverse())); + Assert.assertFalse(m2.intersetcs(m3)); + Assert.assertFalse(m3.intersetcs(m2)); + Assert.assertTrue(m2.intersetcs(m3r)); + + + Match i = m1.getIntersection(m2); + Assert.assertTrue(((Short)i.getField(MatchType.DL_TYPE).getValue()).equals(ethType)); + // Verify intersection of IP addresses is correct + Assert.assertTrue(((InetAddress)i.getField(MatchType.NW_SRC).getValue()).equals(ip1)); + Assert.assertNull(i.getField(MatchType.NW_SRC).getMask()); + + // Empty set + i = m2.getIntersection(m3); + Assert.assertNull(i); + + Match m4 = new Match(); + m4.setField(MatchType.DL_TYPE, ethType); + m4.setField(MatchType.NW_PROTO, IPProtocols.TCP.byteValue()); + m3.setField(MatchType.NW_SRC, ip4, ipm4); + Assert.assertTrue(m4.intersetcs(m3)); + + // Verify intersection of IP and IP mask addresses is correct + Match ii = m3.getIntersection(m4); + Assert.assertTrue(((InetAddress)ii.getField(MatchType.NW_SRC).getValue()).equals(ip4)); + Assert.assertTrue(((InetAddress)ii.getField(MatchType.NW_SRC).getMask()).equals(ipm4)); + + Match m5 = new Match(); + m5.setField(MatchType.DL_TYPE, ethType); + m3.setField(MatchType.NW_SRC, ip3, ipm3); + m5.setField(MatchType.NW_PROTO, IPProtocols.UDP.byteValue()); + Assert.assertFalse(m5.intersetcs(m3)); + Assert.assertFalse(m5.intersetcs(m4)); + Assert.assertTrue(m5.intersetcs(m5)); + Assert.assertFalse(m3.intersetcs(m5)); + Assert.assertFalse(m4.intersetcs(m5)); + + + Match i2 = m4.getIntersection(m3); + Assert.assertFalse(i2.getMatches() == 0); + Assert.assertFalse(i2.getMatchesList().isEmpty()); + Assert.assertTrue(((InetAddress)i2.getField(MatchType.NW_SRC).getValue()).equals(ip3)); + Assert.assertTrue(((InetAddress)i2.getField(MatchType.NW_SRC).getMask()).equals(ipm3)); + Assert.assertTrue(((Byte)i2.getField(MatchType.NW_PROTO).getValue()).equals(IPProtocols.TCP.byteValue())); + + byte src[] = {(byte)0, (byte)0xab,(byte)0xbc,(byte)0xcd,(byte)0xde,(byte)0xef}; + byte dst[] = {(byte)0x10, (byte)0x11,(byte)0x12,(byte)0x13,(byte)0x14,(byte)0x15}; + Short srcPort = (short)1024; + Short dstPort = (short)80; + + // Check identity + Match m6 = new Match(); + m6.setField(MatchType.DL_SRC, src); + m6.setField(MatchType.DL_DST, dst); + m6.setField(MatchType.NW_SRC, ip2, ipm2); + m6.setField(MatchType.NW_DST, ip3, ipm3); + m6.setField(MatchType.NW_PROTO, IPProtocols.UDP.byteValue()); + m6.setField(MatchType.TP_SRC, srcPort); + m6.setField(MatchType.TP_DST, dstPort); + Assert.assertTrue(m6.intersetcs(m6)); + Assert.assertTrue(m6.getIntersection(m6).equals(m6)); + + // Empty match, represents the universal set (all packets) + Match u = new Match(); + Assert.assertTrue(m6.getIntersection(u).equals(m6)); + Assert.assertTrue(u.getIntersection(m6).equals(m6)); + + // No intersection with null match, empty set + Assert.assertNull(m6.getIntersection(null)); + } }