/* * Copyright (C) 2013 The Android Open Source Project * * Licensed 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 android.net; import java.net.Inet4Address; import java.net.Inet6Address; import java.net.InetAddress; import java.net.InterfaceAddress; import java.net.NetworkInterface; import java.net.SocketException; import java.util.Arrays; import java.util.Collections; import java.util.Comparator; import java.util.List; import android.net.LinkAddress; import android.os.Parcel; import android.test.AndroidTestCase; import static android.test.MoreAsserts.assertNotEqual; import android.test.suitebuilder.annotation.SmallTest; import static android.system.OsConstants.IFA_F_DEPRECATED; import static android.system.OsConstants.IFA_F_PERMANENT; import static android.system.OsConstants.IFA_F_TENTATIVE; import static android.system.OsConstants.RT_SCOPE_HOST; import static android.system.OsConstants.RT_SCOPE_LINK; import static android.system.OsConstants.RT_SCOPE_SITE; import static android.system.OsConstants.RT_SCOPE_UNIVERSE; /** * Tests for {@link LinkAddress}. */ public class LinkAddressTest extends AndroidTestCase { private static final String V4 = "192.0.2.1"; private static final String V6 = "2001:db8::1"; private static final InetAddress V4_ADDRESS = NetworkUtils.numericToInetAddress(V4); private static final InetAddress V6_ADDRESS = NetworkUtils.numericToInetAddress(V6); public void testConstants() { // RT_SCOPE_UNIVERSE = 0, but all the other constants should be nonzero. assertNotEqual(0, RT_SCOPE_HOST); assertNotEqual(0, RT_SCOPE_LINK); assertNotEqual(0, RT_SCOPE_SITE); assertNotEqual(0, IFA_F_DEPRECATED); assertNotEqual(0, IFA_F_PERMANENT); assertNotEqual(0, IFA_F_TENTATIVE); } public void testConstructors() throws SocketException { LinkAddress address; // Valid addresses work as expected. address = new LinkAddress(V4_ADDRESS, 25); assertEquals(V4_ADDRESS, address.getAddress()); assertEquals(25, address.getPrefixLength()); assertEquals(0, address.getFlags()); assertEquals(RT_SCOPE_UNIVERSE, address.getScope()); address = new LinkAddress(V6_ADDRESS, 127); assertEquals(V6_ADDRESS, address.getAddress()); assertEquals(127, address.getPrefixLength()); assertEquals(0, address.getFlags()); assertEquals(RT_SCOPE_UNIVERSE, address.getScope()); // Nonsensical flags/scopes or combinations thereof are acceptable. address = new LinkAddress(V6 + "/64", IFA_F_DEPRECATED | IFA_F_PERMANENT, RT_SCOPE_LINK); assertEquals(V6_ADDRESS, address.getAddress()); assertEquals(64, address.getPrefixLength()); assertEquals(IFA_F_DEPRECATED | IFA_F_PERMANENT, address.getFlags()); assertEquals(RT_SCOPE_LINK, address.getScope()); address = new LinkAddress(V4 + "/23", 123, 456); assertEquals(V4_ADDRESS, address.getAddress()); assertEquals(23, address.getPrefixLength()); assertEquals(123, address.getFlags()); assertEquals(456, address.getScope()); // InterfaceAddress doesn't have a constructor. Fetch some from an interface. List addrs = NetworkInterface.getByName("lo").getInterfaceAddresses(); // We expect to find 127.0.0.1/8 and ::1/128, in any order. LinkAddress ipv4Loopback, ipv6Loopback; assertEquals(2, addrs.size()); if (addrs.get(0).getAddress() instanceof Inet4Address) { ipv4Loopback = new LinkAddress(addrs.get(0)); ipv6Loopback = new LinkAddress(addrs.get(1)); } else { ipv4Loopback = new LinkAddress(addrs.get(1)); ipv6Loopback = new LinkAddress(addrs.get(0)); } assertEquals(NetworkUtils.numericToInetAddress("127.0.0.1"), ipv4Loopback.getAddress()); assertEquals(8, ipv4Loopback.getPrefixLength()); assertEquals(NetworkUtils.numericToInetAddress("::1"), ipv6Loopback.getAddress()); assertEquals(128, ipv6Loopback.getPrefixLength()); // Null addresses are rejected. try { address = new LinkAddress(null, 24); fail("Null InetAddress should cause IllegalArgumentException"); } catch(IllegalArgumentException expected) {} try { address = new LinkAddress((String) null, IFA_F_PERMANENT, RT_SCOPE_UNIVERSE); fail("Null string should cause IllegalArgumentException"); } catch(IllegalArgumentException expected) {} try { address = new LinkAddress((InterfaceAddress) null); fail("Null string should cause NullPointerException"); } catch(NullPointerException expected) {} // Invalid prefix lengths are rejected. try { address = new LinkAddress(V4_ADDRESS, -1); fail("Negative IPv4 prefix length should cause IllegalArgumentException"); } catch(IllegalArgumentException expected) {} try { address = new LinkAddress(V6_ADDRESS, -1); fail("Negative IPv6 prefix length should cause IllegalArgumentException"); } catch(IllegalArgumentException expected) {} try { address = new LinkAddress(V4_ADDRESS, 33); fail("/33 IPv4 prefix length should cause IllegalArgumentException"); } catch(IllegalArgumentException expected) {} try { address = new LinkAddress(V4 + "/33", IFA_F_PERMANENT, RT_SCOPE_UNIVERSE); fail("/33 IPv4 prefix length should cause IllegalArgumentException"); } catch(IllegalArgumentException expected) {} try { address = new LinkAddress(V6_ADDRESS, 129, IFA_F_PERMANENT, RT_SCOPE_UNIVERSE); fail("/129 IPv6 prefix length should cause IllegalArgumentException"); } catch(IllegalArgumentException expected) {} try { address = new LinkAddress(V6 + "/129", IFA_F_PERMANENT, RT_SCOPE_UNIVERSE); fail("/129 IPv6 prefix length should cause IllegalArgumentException"); } catch(IllegalArgumentException expected) {} // Multicast addresses are rejected. try { address = new LinkAddress("224.0.0.2/32"); fail("IPv4 multicast address should cause IllegalArgumentException"); } catch(IllegalArgumentException expected) {} try { address = new LinkAddress("ff02::1/128"); fail("IPv6 multicast address should cause IllegalArgumentException"); } catch(IllegalArgumentException expected) {} } public void testAddressScopes() { assertEquals(RT_SCOPE_HOST, new LinkAddress("::/128").getScope()); assertEquals(RT_SCOPE_HOST, new LinkAddress("0.0.0.0/32").getScope()); assertEquals(RT_SCOPE_LINK, new LinkAddress("::1/128").getScope()); assertEquals(RT_SCOPE_LINK, new LinkAddress("127.0.0.5/8").getScope()); assertEquals(RT_SCOPE_LINK, new LinkAddress("fe80::ace:d00d/64").getScope()); assertEquals(RT_SCOPE_LINK, new LinkAddress("169.254.5.12/16").getScope()); assertEquals(RT_SCOPE_SITE, new LinkAddress("fec0::dead/64").getScope()); assertEquals(RT_SCOPE_UNIVERSE, new LinkAddress("10.1.2.3/21").getScope()); assertEquals(RT_SCOPE_UNIVERSE, new LinkAddress("192.0.2.1/25").getScope()); assertEquals(RT_SCOPE_UNIVERSE, new LinkAddress("2001:db8::/64").getScope()); assertEquals(RT_SCOPE_UNIVERSE, new LinkAddress("5000::/127").getScope()); } private void assertIsSameAddressAs(LinkAddress l1, LinkAddress l2) { assertTrue(l1 + " unexpectedly does not have same address as " + l2, l1.isSameAddressAs(l2)); assertTrue(l2 + " unexpectedly does not have same address as " + l1, l2.isSameAddressAs(l1)); } private void assertIsNotSameAddressAs(LinkAddress l1, LinkAddress l2) { assertFalse(l1 + " unexpectedly has same address as " + l2, l1.isSameAddressAs(l2)); assertFalse(l2 + " unexpectedly has same address as " + l1, l1.isSameAddressAs(l2)); } private void assertLinkAddressesEqual(LinkAddress l1, LinkAddress l2) { assertTrue(l1 + " unexpectedly not equal to " + l2, l1.equals(l2)); assertTrue(l2 + " unexpectedly not equal to " + l1, l2.equals(l1)); assertEquals(l1.hashCode(), l2.hashCode()); } private void assertLinkAddressesNotEqual(LinkAddress l1, LinkAddress l2) { assertFalse(l1 + " unexpectedly equal to " + l2, l1.equals(l2)); assertFalse(l2 + " unexpectedly equal to " + l1, l2.equals(l1)); } public void testEqualsAndSameAddressAs() { LinkAddress l1, l2, l3; l1 = new LinkAddress("2001:db8::1/64"); l2 = new LinkAddress("2001:db8::1/64"); assertLinkAddressesEqual(l1, l2); assertIsSameAddressAs(l1, l2); l2 = new LinkAddress("2001:db8::1/65"); assertLinkAddressesNotEqual(l1, l2); assertIsNotSameAddressAs(l1, l2); l2 = new LinkAddress("2001:db8::2/64"); assertLinkAddressesNotEqual(l1, l2); assertIsNotSameAddressAs(l1, l2); l1 = new LinkAddress("192.0.2.1/24"); l2 = new LinkAddress("192.0.2.1/24"); assertLinkAddressesEqual(l1, l2); assertIsSameAddressAs(l1, l2); l2 = new LinkAddress("192.0.2.1/23"); assertLinkAddressesNotEqual(l1, l2); assertIsNotSameAddressAs(l1, l2); l2 = new LinkAddress("192.0.2.2/24"); assertLinkAddressesNotEqual(l1, l2); assertIsNotSameAddressAs(l1, l2); // Check equals() and isSameAddressAs() on identical addresses with different flags. l1 = new LinkAddress(V6_ADDRESS, 64); l2 = new LinkAddress(V6_ADDRESS, 64, 0, RT_SCOPE_UNIVERSE); assertLinkAddressesEqual(l1, l2); assertIsSameAddressAs(l1, l2); l2 = new LinkAddress(V6_ADDRESS, 64, IFA_F_DEPRECATED, RT_SCOPE_UNIVERSE); assertLinkAddressesNotEqual(l1, l2); assertIsSameAddressAs(l1, l2); // Check equals() and isSameAddressAs() on identical addresses with different scope. l1 = new LinkAddress(V4_ADDRESS, 24); l2 = new LinkAddress(V4_ADDRESS, 24, 0, RT_SCOPE_UNIVERSE); assertLinkAddressesEqual(l1, l2); assertIsSameAddressAs(l1, l2); l2 = new LinkAddress(V4_ADDRESS, 24, 0, RT_SCOPE_HOST); assertLinkAddressesNotEqual(l1, l2); assertIsSameAddressAs(l1, l2); // Addresses with the same start or end bytes aren't equal between families. l1 = new LinkAddress("32.1.13.184/24"); l2 = new LinkAddress("2001:db8::1/24"); l3 = new LinkAddress("::2001:db8/24"); byte[] ipv4Bytes = l1.getAddress().getAddress(); byte[] l2FirstIPv6Bytes = Arrays.copyOf(l2.getAddress().getAddress(), 4); byte[] l3LastIPv6Bytes = Arrays.copyOfRange(l3.getAddress().getAddress(), 12, 16); assertTrue(Arrays.equals(ipv4Bytes, l2FirstIPv6Bytes)); assertTrue(Arrays.equals(ipv4Bytes, l3LastIPv6Bytes)); assertLinkAddressesNotEqual(l1, l2); assertIsNotSameAddressAs(l1, l2); assertLinkAddressesNotEqual(l1, l3); assertIsNotSameAddressAs(l1, l3); // Because we use InetAddress, an IPv4 address is equal to its IPv4-mapped address. // TODO: Investigate fixing this. String addressString = V4 + "/24"; l1 = new LinkAddress(addressString); l2 = new LinkAddress("::ffff:" + addressString); assertLinkAddressesEqual(l1, l2); assertIsSameAddressAs(l1, l2); } public void testHashCode() { LinkAddress l; l = new LinkAddress(V4_ADDRESS, 23); assertEquals(-982787, l.hashCode()); l = new LinkAddress(V4_ADDRESS, 23, 0, RT_SCOPE_HOST); assertEquals(-971865, l.hashCode()); l = new LinkAddress(V4_ADDRESS, 27); assertEquals(-982743, l.hashCode()); l = new LinkAddress(V6_ADDRESS, 64); assertEquals(1076522926, l.hashCode()); l = new LinkAddress(V6_ADDRESS, 128); assertEquals(1076523630, l.hashCode()); l = new LinkAddress(V6_ADDRESS, 128, IFA_F_TENTATIVE, RT_SCOPE_UNIVERSE); assertEquals(1076524846, l.hashCode()); } private LinkAddress passThroughParcel(LinkAddress l) { Parcel p = Parcel.obtain(); LinkAddress l2 = null; try { l.writeToParcel(p, 0); p.setDataPosition(0); l2 = LinkAddress.CREATOR.createFromParcel(p); } finally { p.recycle(); } assertNotNull(l2); return l2; } private void assertParcelingIsLossless(LinkAddress l) { LinkAddress l2 = passThroughParcel(l); assertEquals(l, l2); } public void testParceling() { LinkAddress l; l = new LinkAddress(V6_ADDRESS, 64, 123, 456); assertParcelingIsLossless(l); l = new LinkAddress(V4 + "/28", IFA_F_PERMANENT, RT_SCOPE_LINK); assertParcelingIsLossless(l); } }