// // Licensed to the Apache Software Foundation (ASF) under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you under the Apache License, Version 2.0 (the // "License"); you may not use this file except in compliance // with the License. You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, // software distributed under the License is distributed on an // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY // KIND, either express or implied. See the License for the // specific language governing permissions and limitations // under the License. // package com.cloud.utils.net; import com.googlecode.ipv6.IPv6Address; import org.apache.log4j.Logger; import org.junit.Test; import java.math.BigInteger; import java.util.SortedSet; import java.util.TreeSet; import static org.hamcrest.Matchers.anyOf; import static org.hamcrest.Matchers.contains; import static org.hamcrest.Matchers.equalTo; import static org.hamcrest.Matchers.greaterThanOrEqualTo; import static org.hamcrest.Matchers.lessThanOrEqualTo; import static org.hamcrest.Matchers.not; import static org.junit.Assert.assertEquals; import static org.junit.Assert.assertFalse; import static org.junit.Assert.assertNotNull; import static org.junit.Assert.assertThat; import static org.junit.Assert.assertTrue; public class NetUtilsTest { private static final Logger s_logger = Logger.getLogger(NetUtilsTest.class); @Test public void testGetRandomIpFromCidrWithSize24() throws Exception { String cidr = "192.168.124.1"; int size = 24; int netCharacters = 12; long ip = NetUtils.getRandomIpFromCidr(cidr, size, new TreeSet()); assertThat("The ip " + NetUtils.long2Ip(ip) + " retrieved must be within the cidr " + cidr + "/" + size, cidr.substring(0, netCharacters), equalTo(NetUtils.long2Ip(ip) .substring(0, netCharacters))); } @Test public void testGetRandomIpFromCidrWithSize16() throws Exception { String cidr = "192.168.124.1"; int size = 16; int netCharacters = 8; long ip = NetUtils.getRandomIpFromCidr(cidr, 16, new TreeSet()); assertThat("The ip " + NetUtils.long2Ip(ip) + " retrieved must be within the cidr " + cidr + "/" + size, cidr.substring(0, netCharacters), equalTo(NetUtils.long2Ip(ip) .substring(0, netCharacters))); } @Test public void testGetRandomIpFromCidrWithSize8() throws Exception { String cidr = "192.168.124.1"; int size = 8; int netCharacters = 4; long ip = NetUtils.getRandomIpFromCidr(cidr, 16, new TreeSet()); assertThat("The ip " + NetUtils.long2Ip(ip) + " retrieved must be within the cidr " + cidr + "/" + size, cidr.substring(0, netCharacters), equalTo(NetUtils.long2Ip(ip) .substring(0, netCharacters))); } @Test public void testGetRandomIpFromCidrUsignAvoid() throws Exception { String cidr = "192.168.124.1"; int size = 30; SortedSet avoid = new TreeSet(); long ip = NetUtils.getRandomIpFromCidr(cidr, size, avoid); assertThat("We should be able to retrieve an ip on the first call.", ip, not(equalTo(-1L))); avoid.add(ip); ip = NetUtils.getRandomIpFromCidr(cidr, size, avoid); assertThat("We should be able to retrieve an ip on the second call.", ip, not(equalTo(-1L))); assertThat("ip returned is not in the avoid list", avoid, not(contains(ip))); avoid.add(ip); ip = NetUtils.getRandomIpFromCidr(cidr, size, avoid); assertThat("We should be able to retrieve an ip on the third call.", ip, not(equalTo(-1L))); assertThat("ip returned is not in the avoid list", avoid, not(contains(ip))); avoid.add(ip); ip = NetUtils.getRandomIpFromCidr(cidr, size, avoid); assertEquals("This should be -1 because we ran out of ip addresses: " + ip, ip, -1); } @Test public void testIsValidS2SVpnPolicy() { assertTrue(NetUtils.isValidS2SVpnPolicy("aes128-sha1")); assertTrue(NetUtils.isValidS2SVpnPolicy("3des-sha1")); assertTrue(NetUtils.isValidS2SVpnPolicy("3des-sha1,aes256-sha1")); assertTrue(NetUtils.isValidS2SVpnPolicy("3des-md5;modp1024")); assertTrue(NetUtils.isValidS2SVpnPolicy("3des-sha1,aes128-sha1;modp1536")); assertFalse(NetUtils.isValidS2SVpnPolicy("des-md5;modp1024,aes128-sha1;modp1536")); assertFalse(NetUtils.isValidS2SVpnPolicy("des-sha1")); assertFalse(NetUtils.isValidS2SVpnPolicy("abc-123,ase-sha1")); assertFalse(NetUtils.isValidS2SVpnPolicy("de-sh,aes-sha1")); assertFalse(NetUtils.isValidS2SVpnPolicy("")); assertFalse(NetUtils.isValidS2SVpnPolicy(";modp1536")); assertFalse(NetUtils.isValidS2SVpnPolicy(",aes;modp1536,,,")); } @Test public void testGetIp6FromRange() { assertEquals(NetUtils.getIp6FromRange("1234:5678::1-1234:5678::1"), "1234:5678::1"); for (int i = 0; i < 5; i++) { String ip = NetUtils.getIp6FromRange("1234:5678::1-1234:5678::2"); assertThat(ip, anyOf(equalTo("1234:5678::1"), equalTo("1234:5678::2"))); s_logger.info("IP is " + ip); } String ipString = null; IPv6Address ipStart = IPv6Address.fromString("1234:5678::1"); IPv6Address ipEnd = IPv6Address.fromString("1234:5678::ffff:ffff:ffff:ffff"); for (int i = 0; i < 10; i++) { ipString = NetUtils.getIp6FromRange(ipStart.toString() + "-" + ipEnd.toString()); s_logger.info("IP is " + ipString); IPv6Address ip = IPv6Address.fromString(ipString); assertThat(ip, greaterThanOrEqualTo(ipStart)); assertThat(ip, lessThanOrEqualTo(ipEnd)); } } @Test public void testCountIp6InRange() { assertEquals(NetUtils.countIp6InRange("1234:5678::1-1234:5678::2"), new BigInteger("2")); assertEquals(NetUtils.countIp6InRange("1234:5678::2-1234:5678::0"), null); } @Test public void testGetIp6CidrSize() { assertEquals(NetUtils.getIp6CidrSize("1234:5678::1/32"), 32); assertEquals(NetUtils.getIp6CidrSize("1234:5678::1"), 0); } @Test public void testIsValidIp6Cidr() { assertTrue(NetUtils.isValidIp6Cidr("1234:5678::1/64")); assertFalse(NetUtils.isValidIp6Cidr("1234:5678::1")); } @Test public void testIsValidIpv6() { assertTrue(NetUtils.isValidIpv6("fc00::1")); assertFalse(NetUtils.isValidIpv6("")); assertFalse(NetUtils.isValidIpv6(null)); assertFalse(NetUtils.isValidIpv6("1234:5678::1/64")); } @Test public void testIsIp6InRange() { assertTrue(NetUtils.isIp6InRange("1234:5678:abcd::1", "1234:5678:abcd::1-1234:5678:abcd::1")); assertFalse(NetUtils.isIp6InRange("1234:5678:abcd::1", "1234:5678:abcd::2-1234:5678:abcd::1")); assertFalse(NetUtils.isIp6InRange("1234:5678:abcd::1", null)); assertTrue(NetUtils.isIp6InRange("1234:5678:abcd::1", "1234:5678::1-1234:5679::1")); } @Test public void testIsIp6InNetwork() { assertFalse(NetUtils.isIp6InNetwork("1234:5678:abcd::1", "1234:5678::/64")); assertTrue(NetUtils.isIp6InNetwork("1234:5678::1", "1234:5678::/64")); assertTrue(NetUtils.isIp6InNetwork("1234:5678::ffff:ffff:ffff:ffff", "1234:5678::/64")); assertTrue(NetUtils.isIp6InNetwork("1234:5678::", "1234:5678::/64")); } @Test public void testGetNextIp6InRange() { String range = "1234:5678::1-1234:5678::8000:0000"; assertEquals(NetUtils.getNextIp6InRange("1234:5678::8000:0", range), "1234:5678::1"); assertEquals(NetUtils.getNextIp6InRange("1234:5678::7fff:ffff", range), "1234:5678::8000:0"); assertEquals(NetUtils.getNextIp6InRange("1234:5678::1", range), "1234:5678::2"); range = "1234:5678::1-1234:5678::ffff:ffff:ffff:ffff"; assertEquals(NetUtils.getNextIp6InRange("1234:5678::ffff:ffff:ffff:ffff", range), "1234:5678::1"); } @Test public void testIsIp6RangeOverlap() { assertFalse(NetUtils.isIp6RangeOverlap("1234:5678::1-1234:5678::ffff", "1234:5678:1::1-1234:5678:1::ffff")); assertTrue(NetUtils.isIp6RangeOverlap("1234:5678::1-1234:5678::ffff", "1234:5678::2-1234:5678::f")); assertTrue(NetUtils.isIp6RangeOverlap("1234:5678::f-1234:5678::ffff", "1234:5678::2-1234:5678::f")); assertFalse(NetUtils.isIp6RangeOverlap("1234:5678::f-1234:5678::ffff", "1234:5678::2-1234:5678::e")); assertFalse(NetUtils.isIp6RangeOverlap("1234:5678::f-1234:5678::f", "1234:5678::2-1234:5678::e")); } @Test public void testStandardizeIp6Address() { assertEquals(NetUtils.standardizeIp6Address("1234:0000:0000:5678:0000:000:ABCD:0001"), "1234::5678:0:0:abcd:1"); assertEquals(NetUtils.standardizeIp6Cidr("1234:0000:0000:5678:0000:000:ABCD:0001/64"), "1234::5678:0:0:0:0/64"); } @Test public void testGenerateUriForPvlan() { assertEquals("pvlan://123-i456", NetUtils.generateUriForPvlan("123", "456").toString()); } @Test public void testGetPrimaryPvlanFromUri() { assertEquals("123", NetUtils.getPrimaryPvlanFromUri(NetUtils.generateUriForPvlan("123", "456"))); } @Test public void testGetIsolatedPvlanFromUri() { assertEquals("456", NetUtils.getIsolatedPvlanFromUri(NetUtils.generateUriForPvlan("123", "456"))); } @Test public void testIsValidCIDR() throws Exception { //Test to check IP Range of 2 CIDR String cidrFirst = "10.0.144.0/20"; String cidrSecond = "10.0.151.0/20"; String cidrThird = "10.0.144.0/21"; assertTrue(NetUtils.isValidCIDR(cidrFirst)); assertTrue(NetUtils.isValidCIDR(cidrSecond)); assertTrue(NetUtils.isValidCIDR(cidrThird)); } @Test public void testIsValidCidrList() throws Exception { String cidrFirst = "10.0.144.0/20,1.2.3.4/32,5.6.7.8/24"; String cidrSecond = "10.0.151.0/20,129.0.0.0/4"; String cidrThird = "10.0.144.0/21"; assertTrue(NetUtils.isValidCidrList(cidrFirst)); assertTrue(NetUtils.isValidCidrList(cidrSecond)); assertTrue(NetUtils.isValidCidrList(cidrThird)); } @Test public void testIsSameIpRange() { String cidrFirst = "10.0.144.0/20"; String cidrSecond = "10.0.151.0/20"; String cidrThird = "10.0.144.0/21"; //Check for exactly same CIDRs assertTrue(NetUtils.isSameIpRange(cidrFirst, cidrFirst)); //Check for 2 different CIDRs, but same IP Range assertTrue(NetUtils.isSameIpRange(cidrFirst, cidrSecond)); //Check for 2 different CIDRs and different IP Range assertFalse(NetUtils.isSameIpRange(cidrFirst, cidrThird)); //Check for Incorrect format of CIDR assertFalse(NetUtils.isSameIpRange(cidrFirst, "10.3.6.5/50")); } @Test public void testGenerateMacOnIncrease() { String mac = "06:01:23:00:45:67"; assertEquals("06:01:25:00:45:67", NetUtils.generateMacOnIncrease(mac, 2)); assertEquals("06:01:33:00:45:67", NetUtils.generateMacOnIncrease(mac, 16)); mac = "06:ff:ff:00:45:67"; assertEquals("06:00:00:00:45:67", NetUtils.generateMacOnIncrease(mac, 1)); assertEquals("06:00:0f:00:45:67", NetUtils.generateMacOnIncrease(mac, 16)); } @Test public void testGetLocalIPString() { assertNotNull(NetUtils.getLocalIPString()); } @Test public void testSameIsolationId() { assertTrue(NetUtils.isSameIsolationId("1", "vlan://1")); assertTrue(NetUtils.isSameIsolationId("", null)); assertTrue(NetUtils.isSameIsolationId("UnTagged", "vlan://uNtAGGED")); assertFalse(NetUtils.isSameIsolationId("2", "vlan://uNtAGGED")); assertFalse(NetUtils.isSameIsolationId("2", "vlan://3")); assertFalse(NetUtils.isSameIsolationId("bla", null)); } @Test public void testValidateGuestCidr() throws Exception { String guestCidr = "192.168.1.0/24"; assertTrue(NetUtils.validateGuestCidr(guestCidr)); } }