tests/net/common/java/android/net/RouteInfoTest.java - platform/frameworks/base - Gitiles

 /*
  * Copyright (C) 2010 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 static android.net.RouteInfo.RTN_UNREACHABLE;

 import static com.android.testutils.MiscAssertsKt.assertEqualBothWays;
 import static com.android.testutils.MiscAssertsKt.assertFieldCountEquals;
 import static com.android.testutils.MiscAssertsKt.assertNotEqualEitherWay;
 import static com.android.testutils.ParcelUtilsKt.assertParcelingIsLossless;

 import static org.junit.Assert.assertEquals;
 import static org.junit.Assert.assertFalse;
 import static org.junit.Assert.assertNull;
 import static org.junit.Assert.assertTrue;
 import static org.junit.Assert.fail;

 import android.os.Build;

 import androidx.test.filters.SmallTest;
 import androidx.test.runner.AndroidJUnit4;

 import com.android.testutils.DevSdkIgnoreRule;
 import com.android.testutils.DevSdkIgnoreRule.IgnoreAfter;
 import com.android.testutils.DevSdkIgnoreRule.IgnoreUpTo;

 import org.junit.Rule;
 import org.junit.Test;
 import org.junit.runner.RunWith;

 import java.net.Inet4Address;
 import java.net.Inet6Address;
 import java.net.InetAddress;

 @RunWith(AndroidJUnit4.class)
 @SmallTest
 public class RouteInfoTest {
     @Rule
     public final DevSdkIgnoreRule ignoreRule = new DevSdkIgnoreRule();

     private static final int INVALID_ROUTE_TYPE = -1;

     private InetAddress Address(String addr) {
         return InetAddress.parseNumericAddress(addr);
     }

     private IpPrefix Prefix(String prefix) {
         return new IpPrefix(prefix);
     }

     @Test
     public void testConstructor() {
         RouteInfo r;
         // Invalid input.
         try {
             r = new RouteInfo((IpPrefix) null, null, "rmnet0");
             fail("Expected RuntimeException:  destination and gateway null");
         } catch (RuntimeException e) { }

         try {
             r = new RouteInfo(Prefix("2001:db8:ace::/49"), Address("2001:db8::1"), "rmnet0",
                     INVALID_ROUTE_TYPE);
             fail("Invalid route type should cause exception");
         } catch (IllegalArgumentException e) { }

         try {
             r = new RouteInfo(Prefix("2001:db8:ace::/49"), Address("192.0.2.1"), "rmnet0",
                     RTN_UNREACHABLE);
             fail("Address family mismatch should cause exception");
         } catch (IllegalArgumentException e) { }

         try {
             r = new RouteInfo(Prefix("0.0.0.0/0"), Address("2001:db8::1"), "rmnet0",
                     RTN_UNREACHABLE);
             fail("Address family mismatch should cause exception");
         } catch (IllegalArgumentException e) { }

         // Null destination is default route.
         r = new RouteInfo((IpPrefix) null, Address("2001:db8::1"), null);
         assertEquals(Prefix("::/0"), r.getDestination());
         assertEquals(Address("2001:db8::1"), r.getGateway());
         assertNull(r.getInterface());

         r = new RouteInfo((IpPrefix) null, Address("192.0.2.1"), "wlan0");
         assertEquals(Prefix("0.0.0.0/0"), r.getDestination());
         assertEquals(Address("192.0.2.1"), r.getGateway());
         assertEquals("wlan0", r.getInterface());

         // Null gateway sets gateway to unspecified address (why?).
         r = new RouteInfo(Prefix("2001:db8:beef:cafe::/48"), null, "lo");
         assertEquals(Prefix("2001:db8:beef::/48"), r.getDestination());
         assertEquals(Address("::"), r.getGateway());
         assertEquals("lo", r.getInterface());

         r = new RouteInfo(Prefix("192.0.2.5/24"), null);
         assertEquals(Prefix("192.0.2.0/24"), r.getDestination());
         assertEquals(Address("0.0.0.0"), r.getGateway());
         assertNull(r.getInterface());
     }

     @Test
     public void testMatches() {
         class PatchedRouteInfo {
             private final RouteInfo mRouteInfo;

             public PatchedRouteInfo(IpPrefix destination, InetAddress gateway, String iface) {
                 mRouteInfo = new RouteInfo(destination, gateway, iface);
             }

             public boolean matches(InetAddress destination) {
                 return mRouteInfo.matches(destination);
             }
         }

         PatchedRouteInfo r;

         r = new PatchedRouteInfo(Prefix("2001:db8:f00::ace:d00d/127"), null, "rmnet0");
         assertTrue(r.matches(Address("2001:db8:f00::ace:d00c")));
         assertTrue(r.matches(Address("2001:db8:f00::ace:d00d")));
         assertFalse(r.matches(Address("2001:db8:f00::ace:d00e")));
         assertFalse(r.matches(Address("2001:db8:f00::bad:d00d")));
         assertFalse(r.matches(Address("2001:4868:4860::8888")));
         assertFalse(r.matches(Address("8.8.8.8")));

         r = new PatchedRouteInfo(Prefix("192.0.2.0/23"), null, "wlan0");
         assertTrue(r.matches(Address("192.0.2.43")));
         assertTrue(r.matches(Address("192.0.3.21")));
         assertFalse(r.matches(Address("192.0.0.21")));
         assertFalse(r.matches(Address("8.8.8.8")));

         PatchedRouteInfo ipv6Default = new PatchedRouteInfo(Prefix("::/0"), null, "rmnet0");
         assertTrue(ipv6Default.matches(Address("2001:db8::f00")));
         assertFalse(ipv6Default.matches(Address("192.0.2.1")));

         PatchedRouteInfo ipv4Default = new PatchedRouteInfo(Prefix("0.0.0.0/0"), null, "rmnet0");
         assertTrue(ipv4Default.matches(Address("255.255.255.255")));
         assertTrue(ipv4Default.matches(Address("192.0.2.1")));
         assertFalse(ipv4Default.matches(Address("2001:db8::f00")));
     }

     @Test
     public void testEquals() {
         // IPv4
         RouteInfo r1 = new RouteInfo(Prefix("2001:db8:ace::/48"), Address("2001:db8::1"), "wlan0");
         RouteInfo r2 = new RouteInfo(Prefix("2001:db8:ace::/48"), Address("2001:db8::1"), "wlan0");
         assertEqualBothWays(r1, r2);

         RouteInfo r3 = new RouteInfo(Prefix("2001:db8:ace::/49"), Address("2001:db8::1"), "wlan0");
         RouteInfo r4 = new RouteInfo(Prefix("2001:db8:ace::/48"), Address("2001:db8::2"), "wlan0");
         RouteInfo r5 = new RouteInfo(Prefix("2001:db8:ace::/48"), Address("2001:db8::1"), "rmnet0");
         assertNotEqualEitherWay(r1, r3);
         assertNotEqualEitherWay(r1, r4);
         assertNotEqualEitherWay(r1, r5);

         // IPv6
         r1 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.1"), "wlan0");
         r2 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.1"), "wlan0");
         assertEqualBothWays(r1, r2);

         r3 = new RouteInfo(Prefix("192.0.2.0/24"), Address("192.0.2.1"), "wlan0");
         r4 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.2"), "wlan0");
         r5 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.1"), "rmnet0");
         assertNotEqualEitherWay(r1, r3);
         assertNotEqualEitherWay(r1, r4);
         assertNotEqualEitherWay(r1, r5);

         // Interfaces (but not destinations or gateways) can be null.
         r1 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.1"), null);
         r2 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.1"), null);
         r3 = new RouteInfo(Prefix("192.0.2.0/24"), Address("192.0.2.1"), "wlan0");
         assertEqualBothWays(r1, r2);
         assertNotEqualEitherWay(r1, r3);
     }

     @Test
     public void testHostAndDefaultRoutes() {
         RouteInfo r;

         r = new RouteInfo(Prefix("0.0.0.0/0"), Address("0.0.0.0"), "wlan0");
         assertFalse(r.isHostRoute());
         assertTrue(r.isDefaultRoute());
         assertTrue(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(Prefix("::/0"), Address("::"), "wlan0");
         assertFalse(r.isHostRoute());
         assertTrue(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertTrue(r.isIPv6Default());

         r = new RouteInfo(Prefix("192.0.2.0/24"), null, "wlan0");
         assertFalse(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(Prefix("2001:db8::/48"), null, "wlan0");
         assertFalse(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(Prefix("192.0.2.0/32"), Address("0.0.0.0"), "wlan0");
         assertTrue(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(Prefix("2001:db8::/128"), Address("::"), "wlan0");
         assertTrue(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(Prefix("192.0.2.0/32"), null, "wlan0");
         assertTrue(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(Prefix("2001:db8::/128"), null, "wlan0");
         assertTrue(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(Prefix("::/128"), Address("fe80::"), "wlan0");
         assertTrue(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(Prefix("0.0.0.0/32"), Address("192.0.2.1"), "wlan0");
         assertTrue(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(Prefix("0.0.0.0/32"), Address("192.0.2.1"), "wlan0");
         assertTrue(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(new IpPrefix(Inet4Address.ANY, 0), RTN_UNREACHABLE);
         assertFalse(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());

         r = new RouteInfo(new IpPrefix(Inet6Address.ANY, 0), RTN_UNREACHABLE);
         assertFalse(r.isHostRoute());
         assertFalse(r.isDefaultRoute());
         assertFalse(r.isIPv4Default());
         assertFalse(r.isIPv6Default());
     }

     @Test
     public void testTruncation() {
       LinkAddress l;
       RouteInfo r;

       l = new LinkAddress("192.0.2.5/30");
       r = new RouteInfo(l, Address("192.0.2.1"), "wlan0");
       assertEquals("192.0.2.4", r.getDestination().getAddress().getHostAddress());

       l = new LinkAddress("2001:db8:1:f::5/63");
       r = new RouteInfo(l, Address("2001:db8:5::1"), "wlan0");
       assertEquals("2001:db8:1:e::", r.getDestination().getAddress().getHostAddress());
     }

     // Make sure that creating routes to multicast addresses doesn't throw an exception. Even though
     // there's nothing we can do with them, we don't want to crash if, e.g., someone calls
     // requestRouteToHostAddress("230.0.0.0", MOBILE_HIPRI);
     @Test
     public void testMulticastRoute() {
       RouteInfo r;
       r = new RouteInfo(Prefix("230.0.0.0/32"), Address("192.0.2.1"), "wlan0");
       r = new RouteInfo(Prefix("ff02::1/128"), Address("2001:db8::1"), "wlan0");
       // No exceptions? Good.
     }

     @Test
     public void testParceling() {
         RouteInfo r;
         r = new RouteInfo(Prefix("192.0.2.0/24"), Address("192.0.2.1"), null);
         assertParcelingIsLossless(r);
         r = new RouteInfo(Prefix("192.0.2.0/24"), null, "wlan0");
         assertParcelingIsLossless(r);
         r = new RouteInfo(Prefix("192.0.2.0/24"), Address("192.0.2.1"), "wlan0", RTN_UNREACHABLE);
         assertParcelingIsLossless(r);
     }

     @Test @IgnoreUpTo(Build.VERSION_CODES.Q)
     public void testMtuParceling() {
         final RouteInfo r = new RouteInfo(Prefix("ff02::1/128"), Address("2001:db8::"), "testiface",
                 RTN_UNREACHABLE, 1450 /* mtu */);
         assertParcelingIsLossless(r);
     }

     @Test @IgnoreAfter(Build.VERSION_CODES.Q)
     public void testFieldCount_Q() {
         assertFieldCountEquals(6, RouteInfo.class);
     }

     @Test @IgnoreUpTo(Build.VERSION_CODES.Q)
     public void testFieldCount() {
         // Make sure any new field is covered by the above parceling tests when changing this number
         assertFieldCountEquals(7, RouteInfo.class);
     }

     @Test @IgnoreUpTo(Build.VERSION_CODES.Q)
     public void testMtu() {
         RouteInfo r;
         r = new RouteInfo(Prefix("0.0.0.0/0"), Address("0.0.0.0"), "wlan0",
                 RouteInfo.RTN_UNICAST, 1500);
         assertEquals(1500, r.getMtu());

         r = new RouteInfo(Prefix("0.0.0.0/0"), Address("0.0.0.0"), "wlan0");
         assertEquals(0, r.getMtu());
     }
 }
	/*
	* Copyright (C) 2010 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 static android.net.RouteInfo.RTN_UNREACHABLE;

	import static com.android.testutils.MiscAssertsKt.assertEqualBothWays;
	import static com.android.testutils.MiscAssertsKt.assertFieldCountEquals;
	import static com.android.testutils.MiscAssertsKt.assertNotEqualEitherWay;
	import static com.android.testutils.ParcelUtilsKt.assertParcelingIsLossless;

	import static org.junit.Assert.assertEquals;
	import static org.junit.Assert.assertFalse;
	import static org.junit.Assert.assertNull;
	import static org.junit.Assert.assertTrue;
	import static org.junit.Assert.fail;

	import android.os.Build;

	import androidx.test.filters.SmallTest;
	import androidx.test.runner.AndroidJUnit4;

	import com.android.testutils.DevSdkIgnoreRule;
	import com.android.testutils.DevSdkIgnoreRule.IgnoreAfter;
	import com.android.testutils.DevSdkIgnoreRule.IgnoreUpTo;

	import org.junit.Rule;
	import org.junit.Test;
	import org.junit.runner.RunWith;

	import java.net.Inet4Address;
	import java.net.Inet6Address;
	import java.net.InetAddress;

	@RunWith(AndroidJUnit4.class)
	@SmallTest
	public class RouteInfoTest {
	@Rule
	public final DevSdkIgnoreRule ignoreRule = new DevSdkIgnoreRule();

	private static final int INVALID_ROUTE_TYPE = -1;

	private InetAddress Address(String addr) {
	return InetAddress.parseNumericAddress(addr);
	}

	private IpPrefix Prefix(String prefix) {
	return new IpPrefix(prefix);
	}

	@Test
	public void testConstructor() {
	RouteInfo r;
	// Invalid input.
	try {
	r = new RouteInfo((IpPrefix) null, null, "rmnet0");
	fail("Expected RuntimeException: destination and gateway null");
	} catch (RuntimeException e) { }

	try {
	r = new RouteInfo(Prefix("2001:db8:ace::/49"), Address("2001:db8::1"), "rmnet0",
	INVALID_ROUTE_TYPE);
	fail("Invalid route type should cause exception");
	} catch (IllegalArgumentException e) { }

	try {
	r = new RouteInfo(Prefix("2001:db8:ace::/49"), Address("192.0.2.1"), "rmnet0",
	RTN_UNREACHABLE);
	fail("Address family mismatch should cause exception");
	} catch (IllegalArgumentException e) { }

	try {
	r = new RouteInfo(Prefix("0.0.0.0/0"), Address("2001:db8::1"), "rmnet0",
	RTN_UNREACHABLE);
	fail("Address family mismatch should cause exception");
	} catch (IllegalArgumentException e) { }

	// Null destination is default route.
	r = new RouteInfo((IpPrefix) null, Address("2001:db8::1"), null);
	assertEquals(Prefix("::/0"), r.getDestination());
	assertEquals(Address("2001:db8::1"), r.getGateway());
	assertNull(r.getInterface());

	r = new RouteInfo((IpPrefix) null, Address("192.0.2.1"), "wlan0");
	assertEquals(Prefix("0.0.0.0/0"), r.getDestination());
	assertEquals(Address("192.0.2.1"), r.getGateway());
	assertEquals("wlan0", r.getInterface());

	// Null gateway sets gateway to unspecified address (why?).
	r = new RouteInfo(Prefix("2001:db8:beef:cafe::/48"), null, "lo");
	assertEquals(Prefix("2001:db8:beef::/48"), r.getDestination());
	assertEquals(Address("::"), r.getGateway());
	assertEquals("lo", r.getInterface());

	r = new RouteInfo(Prefix("192.0.2.5/24"), null);
	assertEquals(Prefix("192.0.2.0/24"), r.getDestination());
	assertEquals(Address("0.0.0.0"), r.getGateway());
	assertNull(r.getInterface());
	}

	@Test
	public void testMatches() {
	class PatchedRouteInfo {
	private final RouteInfo mRouteInfo;

	public PatchedRouteInfo(IpPrefix destination, InetAddress gateway, String iface) {
	mRouteInfo = new RouteInfo(destination, gateway, iface);
	}

	public boolean matches(InetAddress destination) {
	return mRouteInfo.matches(destination);
	}
	}

	PatchedRouteInfo r;

	r = new PatchedRouteInfo(Prefix("2001:db8:f00::ace:d00d/127"), null, "rmnet0");
	assertTrue(r.matches(Address("2001:db8:f00::ace:d00c")));
	assertTrue(r.matches(Address("2001:db8:f00::ace:d00d")));
	assertFalse(r.matches(Address("2001:db8:f00::ace:d00e")));
	assertFalse(r.matches(Address("2001:db8:f00::bad:d00d")));
	assertFalse(r.matches(Address("2001:4868:4860::8888")));
	assertFalse(r.matches(Address("8.8.8.8")));

	r = new PatchedRouteInfo(Prefix("192.0.2.0/23"), null, "wlan0");
	assertTrue(r.matches(Address("192.0.2.43")));
	assertTrue(r.matches(Address("192.0.3.21")));
	assertFalse(r.matches(Address("192.0.0.21")));
	assertFalse(r.matches(Address("8.8.8.8")));

	PatchedRouteInfo ipv6Default = new PatchedRouteInfo(Prefix("::/0"), null, "rmnet0");
	assertTrue(ipv6Default.matches(Address("2001:db8::f00")));
	assertFalse(ipv6Default.matches(Address("192.0.2.1")));

	PatchedRouteInfo ipv4Default = new PatchedRouteInfo(Prefix("0.0.0.0/0"), null, "rmnet0");
	assertTrue(ipv4Default.matches(Address("255.255.255.255")));
	assertTrue(ipv4Default.matches(Address("192.0.2.1")));
	assertFalse(ipv4Default.matches(Address("2001:db8::f00")));
	}

	@Test
	public void testEquals() {
	// IPv4
	RouteInfo r1 = new RouteInfo(Prefix("2001:db8:ace::/48"), Address("2001:db8::1"), "wlan0");
	RouteInfo r2 = new RouteInfo(Prefix("2001:db8:ace::/48"), Address("2001:db8::1"), "wlan0");
	assertEqualBothWays(r1, r2);

	RouteInfo r3 = new RouteInfo(Prefix("2001:db8:ace::/49"), Address("2001:db8::1"), "wlan0");
	RouteInfo r4 = new RouteInfo(Prefix("2001:db8:ace::/48"), Address("2001:db8::2"), "wlan0");
	RouteInfo r5 = new RouteInfo(Prefix("2001:db8:ace::/48"), Address("2001:db8::1"), "rmnet0");
	assertNotEqualEitherWay(r1, r3);
	assertNotEqualEitherWay(r1, r4);
	assertNotEqualEitherWay(r1, r5);

	// IPv6
	r1 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.1"), "wlan0");
	r2 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.1"), "wlan0");
	assertEqualBothWays(r1, r2);

	r3 = new RouteInfo(Prefix("192.0.2.0/24"), Address("192.0.2.1"), "wlan0");
	r4 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.2"), "wlan0");
	r5 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.1"), "rmnet0");
	assertNotEqualEitherWay(r1, r3);
	assertNotEqualEitherWay(r1, r4);
	assertNotEqualEitherWay(r1, r5);

	// Interfaces (but not destinations or gateways) can be null.
	r1 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.1"), null);
	r2 = new RouteInfo(Prefix("192.0.2.0/25"), Address("192.0.2.1"), null);
	r3 = new RouteInfo(Prefix("192.0.2.0/24"), Address("192.0.2.1"), "wlan0");
	assertEqualBothWays(r1, r2);
	assertNotEqualEitherWay(r1, r3);
	}

	@Test
	public void testHostAndDefaultRoutes() {
	RouteInfo r;

	r = new RouteInfo(Prefix("0.0.0.0/0"), Address("0.0.0.0"), "wlan0");
	assertFalse(r.isHostRoute());
	assertTrue(r.isDefaultRoute());
	assertTrue(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(Prefix("::/0"), Address("::"), "wlan0");
	assertFalse(r.isHostRoute());
	assertTrue(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertTrue(r.isIPv6Default());

	r = new RouteInfo(Prefix("192.0.2.0/24"), null, "wlan0");
	assertFalse(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(Prefix("2001:db8::/48"), null, "wlan0");
	assertFalse(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(Prefix("192.0.2.0/32"), Address("0.0.0.0"), "wlan0");
	assertTrue(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(Prefix("2001:db8::/128"), Address("::"), "wlan0");
	assertTrue(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(Prefix("192.0.2.0/32"), null, "wlan0");
	assertTrue(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(Prefix("2001:db8::/128"), null, "wlan0");
	assertTrue(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(Prefix("::/128"), Address("fe80::"), "wlan0");
	assertTrue(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(Prefix("0.0.0.0/32"), Address("192.0.2.1"), "wlan0");
	assertTrue(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(Prefix("0.0.0.0/32"), Address("192.0.2.1"), "wlan0");
	assertTrue(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(new IpPrefix(Inet4Address.ANY, 0), RTN_UNREACHABLE);
	assertFalse(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());

	r = new RouteInfo(new IpPrefix(Inet6Address.ANY, 0), RTN_UNREACHABLE);
	assertFalse(r.isHostRoute());
	assertFalse(r.isDefaultRoute());
	assertFalse(r.isIPv4Default());
	assertFalse(r.isIPv6Default());
	}

	@Test
	public void testTruncation() {
	LinkAddress l;
	RouteInfo r;

	l = new LinkAddress("192.0.2.5/30");
	r = new RouteInfo(l, Address("192.0.2.1"), "wlan0");
	assertEquals("192.0.2.4", r.getDestination().getAddress().getHostAddress());

	l = new LinkAddress("2001:db8:1:f::5/63");
	r = new RouteInfo(l, Address("2001:db8:5::1"), "wlan0");
	assertEquals("2001:db8:1:e::", r.getDestination().getAddress().getHostAddress());
	}

	// Make sure that creating routes to multicast addresses doesn't throw an exception. Even though
	// there's nothing we can do with them, we don't want to crash if, e.g., someone calls
	// requestRouteToHostAddress("230.0.0.0", MOBILE_HIPRI);
	@Test
	public void testMulticastRoute() {
	RouteInfo r;
	r = new RouteInfo(Prefix("230.0.0.0/32"), Address("192.0.2.1"), "wlan0");
	r = new RouteInfo(Prefix("ff02::1/128"), Address("2001:db8::1"), "wlan0");
	// No exceptions? Good.
	}

	@Test
	public void testParceling() {
	RouteInfo r;
	r = new RouteInfo(Prefix("192.0.2.0/24"), Address("192.0.2.1"), null);
	assertParcelingIsLossless(r);
	r = new RouteInfo(Prefix("192.0.2.0/24"), null, "wlan0");
	assertParcelingIsLossless(r);
	r = new RouteInfo(Prefix("192.0.2.0/24"), Address("192.0.2.1"), "wlan0", RTN_UNREACHABLE);
	assertParcelingIsLossless(r);
	}

	@Test @IgnoreUpTo(Build.VERSION_CODES.Q)
	public void testMtuParceling() {
	final RouteInfo r = new RouteInfo(Prefix("ff02::1/128"), Address("2001:db8::"), "testiface",
	RTN_UNREACHABLE, 1450 /* mtu */);
	assertParcelingIsLossless(r);
	}

	@Test @IgnoreAfter(Build.VERSION_CODES.Q)
	public void testFieldCount_Q() {
	assertFieldCountEquals(6, RouteInfo.class);
	}

	@Test @IgnoreUpTo(Build.VERSION_CODES.Q)
	public void testFieldCount() {
	// Make sure any new field is covered by the above parceling tests when changing this number
	assertFieldCountEquals(7, RouteInfo.class);
	}

	@Test @IgnoreUpTo(Build.VERSION_CODES.Q)
	public void testMtu() {
	RouteInfo r;
	r = new RouteInfo(Prefix("0.0.0.0/0"), Address("0.0.0.0"), "wlan0",
	RouteInfo.RTN_UNICAST, 1500);
	assertEquals(1500, r.getMtu());

	r = new RouteInfo(Prefix("0.0.0.0/0"), Address("0.0.0.0"), "wlan0");
	assertEquals(0, r.getMtu());
	}
	}