public void testCompatIPv4Addresses() {
String[] nonCompatAddresses = {
"3ffe::1", "::", "::1",
};
for (int i = 0; i < nonCompatAddresses.length; i++) {
InetAddress ip = InetAddresses.forString(nonCompatAddresses[i]);
assertFalse(InetAddresses.isCompatIPv4Address((Inet6Address) ip));
try {
InetAddresses.getCompatIPv4Address((Inet6Address) ip);
fail("IllegalArgumentException expected for '" + nonCompatAddresses[i] + "'");
} catch (IllegalArgumentException expected) {
// expected behavior
}
}
String[] validCompatAddresses = {
"::1.2.3.4", "::102:304",
};
String compatStr = "1.2.3.4";
InetAddress compat = InetAddresses.forString(compatStr);
for (int i = 0; i < validCompatAddresses.length; i++) {
InetAddress ip = InetAddresses.forString(validCompatAddresses[i]);
assertTrue("checking '" + validCompatAddresses[i] + "'", ip instanceof Inet6Address);
assertTrue(
"checking '" + validCompatAddresses[i] + "'",
InetAddresses.isCompatIPv4Address((Inet6Address) ip));
assertEquals(
"checking '" + validCompatAddresses[i] + "'",
compat,
InetAddresses.getCompatIPv4Address((Inet6Address) ip));
}
}
public void testTeredoAddress_nullServer() {
InetAddresses.TeredoInfo info = new InetAddresses.TeredoInfo(null, null, 80, 1000);
assertEquals(InetAddresses.forString("0.0.0.0"), info.getServer());
assertEquals(InetAddresses.forString("0.0.0.0"), info.getClient());
assertEquals(80, info.getPort());
assertEquals(1000, info.getFlags());
}
public void testTeredoAddresses() {
String[] nonTeredoAddresses = {
"::1.2.3.4", "3ffe::1", "::", "::1",
};
for (int i = 0; i < nonTeredoAddresses.length; i++) {
InetAddress ip = InetAddresses.forString(nonTeredoAddresses[i]);
assertFalse(InetAddresses.isTeredoAddress((Inet6Address) ip));
try {
InetAddresses.getTeredoInfo((Inet6Address) ip);
fail("IllegalArgumentException expected for '" + nonTeredoAddresses[i] + "'");
} catch (IllegalArgumentException expected) {
// expected behavior
}
}
String validTeredoAddress = "2001:0000:4136:e378:8000:63bf:3fff:fdd2";
String serverStr = "65.54.227.120";
String clientStr = "192.0.2.45";
int port = 40000;
int flags = 0x8000;
InetAddress ip = InetAddresses.forString(validTeredoAddress);
assertTrue(InetAddresses.isTeredoAddress((Inet6Address) ip));
InetAddresses.TeredoInfo teredo = InetAddresses.getTeredoInfo((Inet6Address) ip);
InetAddress server = InetAddresses.forString(serverStr);
assertEquals(server, teredo.getServer());
InetAddress client = InetAddresses.forString(clientStr);
assertEquals(client, teredo.getClient());
assertEquals(port, teredo.getPort());
assertEquals(flags, teredo.getFlags());
}
public void testGetEmbeddedIPv4ClientAddress() {
Inet6Address testIp;
// Test regular global unicast address.
testIp = (Inet6Address) InetAddresses.forString("2001:db8::1");
assertFalse(InetAddresses.hasEmbeddedIPv4ClientAddress(testIp));
// Test ISATAP address.
testIp = (Inet6Address) InetAddresses.forString("2001:db8::5efe:102:304");
assertFalse(InetAddresses.hasEmbeddedIPv4ClientAddress(testIp));
// Test compat address.
testIp = (Inet6Address) InetAddresses.forString("::1.2.3.4");
assertTrue(InetAddresses.hasEmbeddedIPv4ClientAddress(testIp));
InetAddress ipv4 = InetAddresses.forString("1.2.3.4");
assertEquals(ipv4, InetAddresses.getEmbeddedIPv4ClientAddress(testIp));
// Test 6to4 address.
testIp = (Inet6Address) InetAddresses.forString("2002:0102:0304::1");
assertTrue(InetAddresses.hasEmbeddedIPv4ClientAddress(testIp));
ipv4 = InetAddresses.forString("1.2.3.4");
assertEquals(ipv4, InetAddresses.getEmbeddedIPv4ClientAddress(testIp));
// Test Teredo address.
testIp = (Inet6Address) InetAddresses.forString("2001:0000:4136:e378:8000:63bf:3fff:fdd2");
assertTrue(InetAddresses.hasEmbeddedIPv4ClientAddress(testIp));
ipv4 = InetAddresses.forString("192.0.2.45");
assertEquals(ipv4, InetAddresses.getEmbeddedIPv4ClientAddress(testIp));
}
public void testToUriStringIPv6() {
// Unfortunately the InetAddress.toString() method for IPv6 addresses
// does not collapse contiguous shorts of zeroes with the :: abbreviation.
String ipStr = "3ffe::1";
InetAddress ip = InetAddresses.forString(ipStr);
assertEquals("[3ffe::1]", InetAddresses.toUriString(ip));
}
private boolean isValid() {
if (myUseHTTPProxyRb.isSelected()) {
String host = getText(myProxyHostTextField);
if (host == null) {
return false;
}
try {
HostAndPort parsedHost = HostAndPort.fromString(host);
if (parsedHost.hasPort()) {
return false;
}
host = parsedHost.getHostText();
try {
InetAddresses.forString(host);
return true;
} catch (IllegalArgumentException e) {
// it is not an IPv4 or IPv6 literal
}
InternetDomainName.from(host);
} catch (IllegalArgumentException e) {
return false;
}
if (myProxyAuthCheckBox.isSelected()) {
return !StringUtil.isEmptyOrSpaces(myProxyLoginTextField.getText())
&& myProxyPasswordTextField.getPassword().length > 0;
}
}
return true;
}
/**
* Returns a {@code HostSpecifier} built from the provided {@code specifier}, which is already
* known to be valid. If the {@code specifier} might be invalid, use {@link #from(String)}
* instead.
*
* <p>The specifier must be in one of these formats:
*
* <ul>
* <li>A domain name, like {@code google.com}
* <li>A IPv4 address string, like {@code 127.0.0.1}
* <li>An IPv6 address string with or without brackets, like {@code [2001:db8::1]} or {@code
* 2001:db8::1}
* </ul>
*
* @throws IllegalArgumentException if the specifier is not valid.
*/
public static HostSpecifier fromValid(String specifier) {
// Verify that no port was specified, and strip optional brackets from
// IPv6 literals.
final HostAndPort parsedHost = HostAndPort.fromString(specifier);
Preconditions.checkArgument(!parsedHost.hasPort());
final String host = parsedHost.getHostText();
// Try to interpret the specifier as an IP address. Note we build
// the address rather than using the .is* methods because we want to
// use InetAddresses.toUriString to convert the result to a string in
// canonical form.
InetAddress addr = null;
try {
addr = InetAddresses.forString(host);
} catch (IllegalArgumentException e) {
// It is not an IPv4 or IPv6 literal
}
if (addr != null) {
return new HostSpecifier(InetAddresses.toUriString(addr));
}
// It is not any kind of IP address; must be a domain name or invalid.
// TODO(user): different versions of this for different factories?
final InternetDomainName domain = InternetDomainName.from(host);
if (domain.hasPublicSuffix()) {
return new HostSpecifier(domain.name());
}
throw new IllegalArgumentException(
"Domain name does not have a recognized public suffix: " + host);
}
public void testForStringIPv6Input() throws UnknownHostException {
String ipStr = "3ffe::1";
InetAddress ipv6Addr = null;
// Shouldn't hit DNS, because it's an IP string literal.
ipv6Addr = InetAddress.getByName(ipStr);
assertEquals(ipv6Addr, InetAddresses.forString(ipStr));
assertTrue(InetAddresses.isInetAddress(ipStr));
}
public void test3ff31() {
try {
InetAddresses.forString("3ffe:::1");
fail("IllegalArgumentException expected");
} catch (IllegalArgumentException expected) {
// expected behavior
}
assertFalse(InetAddresses.isInetAddress("016.016.016.016"));
}
/**
* Converts an IPv6 string literal (e.g., "1111:2222::8888") into an IP address.
*
* @param value an IPv6 address value in string form
* @return an IPv6 address
* @throws IllegalArgumentException if the argument is invalid
*/
public static Ip6Address valueOf(String value) {
InetAddress inetAddress = null;
try {
inetAddress = InetAddresses.forString(value);
} catch (IllegalArgumentException e) {
final String msg = "Invalid IP address string: " + value;
throw new IllegalArgumentException(msg);
}
return valueOf(inetAddress);
}
@Override
public boolean apply(String input) {
try {
// Note we can do this, as InetAddress is now on the white list
return (InetAddresses.forString(input) instanceof Inet4Address);
} catch (IllegalArgumentException e) {
// could be a hostname
return true;
}
}
public InetAddress getInetAddress() {
if (!fields.containsKey("gl2_remote_ip")) {
return null;
}
final String ipAddr = (String) fields.get("gl2_remote_ip");
try {
return InetAddresses.forString(ipAddr);
} catch (IllegalArgumentException ignored) {
return null;
}
}
public void testConvertDottedQuadToHex() throws UnknownHostException {
String[] ipStrings = {
"7::0.128.0.127", "7::0.128.0.128", "7::128.128.0.127", "7::0.128.128.127"
};
for (String ipString : ipStrings) {
// Shouldn't hit DNS, because it's an IP string literal.
InetAddress ipv6Addr = InetAddress.getByName(ipString);
assertEquals(ipv6Addr, InetAddresses.forString(ipString));
assertTrue(InetAddresses.isInetAddress(ipString));
}
}
private String getConsumerEndpoint(String endpoint) {
if (Strings.isNullOrEmpty(endpoint)) {
Optional<InetAddress> address = getOneControlInetAddress();
if (!address.isPresent()) {
logger.warn("Could not determine MTOSI/OneControl consumer end point");
return getEndPoint(InetAddresses.forString("127.0.0.1"));
}
return getEndPoint(address.get());
}
return endpoint;
}
@Override
public IpAddress evaluate(FunctionArgs args, EvaluationContext context) {
final String ipString = String.valueOf(ipParam.required(args, context));
try {
final InetAddress inetAddress = InetAddresses.forString(ipString);
return new IpAddress(inetAddress);
} catch (IllegalArgumentException e) {
final Optional<String> defaultValue = defaultParam.optional(args, context);
if (!defaultValue.isPresent()) {
return new IpAddress(ANYV4);
}
try {
return new IpAddress(InetAddresses.forString(defaultValue.get()));
} catch (IllegalFormatException e1) {
log.warn(
"Parameter `default` for to_ip() is not a valid IP address: {}", defaultValue.get());
throw e1;
}
}
}
private static InetAddress parseInetAddress(String addrStr) {
if (addrStr == null || addrStr.isEmpty()) {
return null;
}
try {
return InetAddresses.forString(addrStr);
} catch (IllegalArgumentException e) {
log.error(String.format("Failed to parse Inet address string: %s", addrStr), e);
return null;
}
}
public void testForStringIPv6EightColons() throws UnknownHostException {
String[] eightColons = {
"::7:6:5:4:3:2:1", "::7:6:5:4:3:2:0", "7:6:5:4:3:2:1::", "0:6:5:4:3:2:1::",
};
for (int i = 0; i < eightColons.length; i++) {
InetAddress ipv6Addr = null;
// Shouldn't hit DNS, because it's an IP string literal.
ipv6Addr = InetAddress.getByName(eightColons[i]);
assertEquals(ipv6Addr, InetAddresses.forString(eightColons[i]));
assertTrue(InetAddresses.isInetAddress(eightColons[i]));
}
}
public void testMappedIPv4Addresses() throws UnknownHostException {
/*
* Verify that it is not possible to instantiate an Inet6Address
* from an "IPv4 mapped" IPv6 address. Our String-based method can
* at least identify them, however.
*/
String mappedStr = "::ffff:192.168.0.1";
assertTrue(InetAddresses.isMappedIPv4Address(mappedStr));
InetAddress mapped = InetAddresses.forString(mappedStr);
assertThat(mapped).isNotInstanceOf(Inet6Address.class);
assertEquals(InetAddress.getByName("192.168.0.1"), mapped);
// check upper case
mappedStr = "::FFFF:192.168.0.1";
assertTrue(InetAddresses.isMappedIPv4Address(mappedStr));
mapped = InetAddresses.forString(mappedStr);
assertThat(mapped).isNotInstanceOf(Inet6Address.class);
assertEquals(InetAddress.getByName("192.168.0.1"), mapped);
mappedStr = "0:00:000:0000:0:ffff:1.2.3.4";
assertTrue(InetAddresses.isMappedIPv4Address(mappedStr));
mapped = InetAddresses.forString(mappedStr);
assertThat(mapped).isNotInstanceOf(Inet6Address.class);
assertEquals(InetAddress.getByName("1.2.3.4"), mapped);
mappedStr = "::ffff:0102:0304";
assertTrue(InetAddresses.isMappedIPv4Address(mappedStr));
mapped = InetAddresses.forString(mappedStr);
assertThat(mapped).isNotInstanceOf(Inet6Address.class);
assertEquals(InetAddress.getByName("1.2.3.4"), mapped);
assertFalse(InetAddresses.isMappedIPv4Address("::"));
assertFalse(InetAddresses.isMappedIPv4Address("::ffff"));
assertFalse(InetAddresses.isMappedIPv4Address("::ffff:0"));
assertFalse(InetAddresses.isMappedIPv4Address("::fffe:0:0"));
assertFalse(InetAddresses.isMappedIPv4Address("::1:ffff:0:0"));
assertFalse(InetAddresses.isMappedIPv4Address("foo"));
assertFalse(InetAddresses.isMappedIPv4Address("192.0.2.1"));
}
public void testIsatapAddresses() {
InetAddress ipv4 = InetAddresses.forString("1.2.3.4");
String[] validIsatapAddresses = {
"2001:db8::5efe:102:304",
"2001:db8::100:5efe:102:304", // Private Multicast? Not likely.
"2001:db8::200:5efe:102:304",
"2001:db8::300:5efe:102:304" // Public Multicast? Also unlikely.
};
String[] nonIsatapAddresses = {
"::1.2.3.4",
"3ffe::1",
"::",
"::1",
"2001:db8::0040:5efe:102:304",
"2001:db8::5ffe:102:304",
"2001:db8::5eff:102:304",
"2001:0:102:203:200:5efe:506:708", // Teredo address; not ISATAP
};
for (int i = 0; i < validIsatapAddresses.length; i++) {
InetAddress ip = InetAddresses.forString(validIsatapAddresses[i]);
assertTrue(InetAddresses.isIsatapAddress((Inet6Address) ip));
assertEquals(
"checking '" + validIsatapAddresses[i] + "'",
ipv4,
InetAddresses.getIsatapIPv4Address((Inet6Address) ip));
}
for (int i = 0; i < nonIsatapAddresses.length; i++) {
InetAddress ip = InetAddresses.forString(nonIsatapAddresses[i]);
assertFalse(InetAddresses.isIsatapAddress((Inet6Address) ip));
try {
InetAddresses.getIsatapIPv4Address((Inet6Address) ip);
fail("IllegalArgumentException expected for '" + nonIsatapAddresses[i] + "'");
} catch (IllegalArgumentException expected) {
// expected behavior
}
}
}
public class IpAddressConversion extends AbstractFunction<IpAddress> {
public static final String NAME = "to_ip";
private static final InetAddress ANYV4 = InetAddresses.forString("0.0.0.0");
private final ParameterDescriptor<Object, Object> ipParam;
private final ParameterDescriptor<String, String> defaultParam;
public IpAddressConversion() {
ipParam = ParameterDescriptor.object("ip").description("Value to convert").build();
defaultParam =
ParameterDescriptor.string("default")
.optional()
.description("Used when 'ip' is null or malformed, defaults to '0.0.0.0'")
.build();
}
@Override
public IpAddress evaluate(FunctionArgs args, EvaluationContext context) {
final String ipString = String.valueOf(ipParam.required(args, context));
try {
final InetAddress inetAddress = InetAddresses.forString(ipString);
return new IpAddress(inetAddress);
} catch (IllegalArgumentException e) {
final Optional<String> defaultValue = defaultParam.optional(args, context);
if (!defaultValue.isPresent()) {
return new IpAddress(ANYV4);
}
try {
return new IpAddress(InetAddresses.forString(defaultValue.get()));
} catch (IllegalFormatException e1) {
log.warn(
"Parameter `default` for to_ip() is not a valid IP address: {}", defaultValue.get());
throw e1;
}
}
}
@Override
public FunctionDescriptor<IpAddress> descriptor() {
return FunctionDescriptor.<IpAddress>builder()
.name(NAME)
.returnType(IpAddress.class)
.params(of(ipParam, defaultParam))
.description("Converts a value to an IPAddress using its string representation")
.build();
}
}
public void test6to4Addresses() {
String[] non6to4Addresses = {
"::1.2.3.4", "3ffe::1", "::", "::1",
};
for (int i = 0; i < non6to4Addresses.length; i++) {
InetAddress ip = InetAddresses.forString(non6to4Addresses[i]);
assertFalse(InetAddresses.is6to4Address((Inet6Address) ip));
try {
InetAddresses.get6to4IPv4Address((Inet6Address) ip);
fail("IllegalArgumentException expected for '" + non6to4Addresses[i] + "'");
} catch (IllegalArgumentException expected) {
// expected behavior
}
}
String valid6to4Address = "2002:0102:0304::1";
String ipv4Str = "1.2.3.4";
InetAddress ipv4 = InetAddresses.forString(ipv4Str);
InetAddress ip = InetAddresses.forString(valid6to4Address);
assertTrue(InetAddresses.is6to4Address((Inet6Address) ip));
assertEquals(ipv4, InetAddresses.get6to4IPv4Address((Inet6Address) ip));
}
@Override
public Session toManagementSession() {
SessionBuilder builder = new SessionBuilder();
builder.setSessionId(getSessionId());
IpAddress address;
InetAddress address1 = InetAddresses.forString(header.getAddress());
if (address1 instanceof Inet4Address) {
address = new IpAddress(new Ipv4Address(header.getAddress()));
} else {
address = new IpAddress(new Ipv6Address(header.getAddress()));
}
builder.setSourceHost(new Host(address));
Preconditions.checkState(DateAndTime.PATTERN_CONSTANTS.size() == 1);
String formattedDateTime = dateFormatter.format(loginTime);
Matcher matcher = dateTimePattern.matcher(formattedDateTime);
Preconditions.checkState(
matcher.matches(),
"Formatted datetime %s does not match pattern %s",
formattedDateTime,
dateTimePattern);
builder.setLoginTime(new DateAndTime(formattedDateTime));
builder.setInBadRpcs(new ZeroBasedCounter32(inRpcFail));
builder.setInRpcs(new ZeroBasedCounter32(inRpcSuccess));
builder.setOutRpcErrors(new ZeroBasedCounter32(outRpcError));
builder.setUsername(header.getUserName());
builder.setTransport(getTransportForString(header.getTransport()));
builder.setOutNotifications(new ZeroBasedCounter32(outNotification));
builder.setKey(new SessionKey(getSessionId()));
Session1Builder builder1 = new Session1Builder();
builder1.setSessionIdentifier(header.getSessionIdentifier());
builder.addAugmentation(Session1.class, builder1.build());
return builder.build();
}
public void testForUriStringIPv6() {
Inet6Address expected = (Inet6Address) InetAddresses.forString("3ffe:0:0:0:0:0:0:1");
assertEquals(expected, InetAddresses.forUriString("[3ffe:0:0:0:0:0:0:1]"));
}
public final class TcpStreamSocketConnectionTest {
private static final int LISTEN_PORT = 1234;
private static final InetSocketAddress address =
new InetSocketAddress(InetAddresses.forString("127.0.0.1"), LISTEN_PORT);
@Before
public void setUp() throws Exception {
ByteBufPool.clear();
ByteBufPool.setSizes(0, Integer.MAX_VALUE);
}
@Test
public void test() throws Exception {
final List<Integer> source = Lists.newArrayList();
for (int i = 0; i < 5; i++) {
source.add(i);
}
final NioEventloop eventloop = new NioEventloop();
final StreamConsumers.ToList<Integer> consumerToList = StreamConsumers.toList(eventloop);
SimpleNioServer server =
new SimpleNioServer(eventloop) {
@Override
protected SocketConnection createConnection(SocketChannel socketChannel) {
return new TcpStreamSocketConnection(eventloop, socketChannel) {
@Override
protected void wire(
StreamProducer<ByteBuf> socketReader, StreamConsumer<ByteBuf> socketWriter) {
StreamBinaryDeserializer<Integer> streamDeserializer =
new StreamBinaryDeserializer<>(eventloop, intSerializer(), 10);
streamDeserializer.streamTo(consumerToList);
socketReader.streamTo(streamDeserializer);
}
};
}
};
server.setListenAddress(address).acceptOnce();
server.listen();
final StreamBinarySerializer<Integer> streamSerializer =
new StreamBinarySerializer<>(eventloop, intSerializer(), 1, 10, 0, false);
reconnect(
eventloop,
address,
defaultSocketSettings(),
3,
100L,
new ConnectCallback() {
@Override
public void onConnect(SocketChannel socketChannel) {
SocketConnection connection =
new TcpStreamSocketConnection(eventloop, socketChannel) {
@Override
protected void wire(
StreamProducer<ByteBuf> socketReader, StreamConsumer<ByteBuf> socketWriter) {
streamSerializer.streamTo(socketWriter);
StreamProducers.ofIterable(eventloop, source).streamTo(streamSerializer);
}
};
connection.register();
}
@Override
public void onException(Exception exception) {
fail();
}
});
eventloop.run();
assertEquals(source, consumerToList.getList());
assertEquals(getPoolItemsString(), ByteBufPool.getCreatedItems(), ByteBufPool.getPoolItems());
}
@Test
public void testLoopback() throws Exception {
final List<Integer> source = Lists.newArrayList();
for (int i = 0; i < 1; i++) {
source.add(i);
}
final NioEventloop eventloop = new NioEventloop();
final StreamConsumers.ToList<Integer> consumerToList = StreamConsumers.toList(eventloop);
SimpleNioServer server =
new SimpleNioServer(eventloop) {
@Override
protected SocketConnection createConnection(SocketChannel socketChannel) {
return new TcpStreamSocketConnection(eventloop, socketChannel) {
@Override
protected void wire(
StreamProducer<ByteBuf> socketReader, StreamConsumer<ByteBuf> socketWriter) {
socketReader.streamTo(socketWriter);
}
};
}
};
server.setListenAddress(address).acceptOnce();
server.listen();
final StreamBinarySerializer<Integer> streamSerializer =
new StreamBinarySerializer<>(eventloop, intSerializer(), 1, 10, 0, false);
final StreamBinaryDeserializer<Integer> streamDeserializer =
new StreamBinaryDeserializer<>(eventloop, intSerializer(), 10);
reconnect(
eventloop,
address,
defaultSocketSettings(),
3,
100L,
new ConnectCallback() {
@Override
public void onConnect(SocketChannel socketChannel) {
SocketConnection connection =
new TcpStreamSocketConnection(eventloop, socketChannel) {
@Override
protected void wire(
StreamProducer<ByteBuf> socketReader, StreamConsumer<ByteBuf> socketWriter) {
streamSerializer.streamTo(socketWriter);
socketReader.streamTo(streamDeserializer);
}
};
connection.register();
StreamProducers.ofIterable(eventloop, source).streamTo(streamSerializer);
streamDeserializer.streamTo(consumerToList);
}
@Override
public void onException(Exception exception) {
fail();
}
});
eventloop.run();
assertEquals(source, consumerToList.getList());
assertEquals(getPoolItemsString(), ByteBufPool.getCreatedItems(), ByteBufPool.getPoolItems());
}
}
public void testForUriStringIPv4Mapped() {
Inet4Address expected = (Inet4Address) InetAddresses.forString("192.0.2.1");
assertEquals(expected, InetAddresses.forUriString("[::ffff:192.0.2.1]"));
}
public static PeerAddress localhost(NetworkParameters params) {
return new PeerAddress(InetAddresses.forString("127.0.0.1"), params.getPort());
}
public void testFromInteger() {
assertEquals(InetAddresses.fromInteger(0x7f000001), InetAddresses.forString("127.0.0.1"));
}
public void testToInteger() {
InetAddress ipv4Addr = InetAddresses.forString("127.0.0.1");
assertEquals(0x7f000001, InetAddresses.coerceToInteger(ipv4Addr));
}
public void testGetCoercedIPv4Address() {
// Check that a coerced IPv4 address is unaltered.
InetAddress localHost4 = InetAddresses.forString("127.0.0.1");
assertEquals(localHost4, InetAddresses.getCoercedIPv4Address(localHost4));
// ::1 special case
assertEquals(localHost4, InetAddresses.getCoercedIPv4Address(InetAddresses.forString("::1")));
// :: special case
assertEquals(
InetAddresses.forString("0.0.0.0"),
InetAddresses.getCoercedIPv4Address(InetAddresses.forString("::")));
// test compat address (should be hashed)
assertTrue(
InetAddresses.forString("1.2.3.4")
!= InetAddresses.getCoercedIPv4Address(InetAddresses.forString("::1.2.3.4")));
// test 6to4 address (should be hashed)
assertTrue(
InetAddresses.forString("1.2.3.4")
!= InetAddresses.getCoercedIPv4Address(InetAddresses.forString("2002:0102:0304::1")));
// 2 6to4 addresses differing in the embedded IPv4 address should
// hash to the different values.
assertTrue(
InetAddresses.getCoercedIPv4Address(InetAddresses.forString("2002:0102:0304::1"))
!= InetAddresses.getCoercedIPv4Address(InetAddresses.forString("2002:0506:0708::1")));
// 2 6to4 addresses NOT differing in the embedded IPv4 address should
// hash to the same value.
assertTrue(
InetAddresses.getCoercedIPv4Address(InetAddresses.forString("2002:0102:0304::1"))
!= InetAddresses.getCoercedIPv4Address(InetAddresses.forString("2002:0102:0304::2")));
// test Teredo address (should be hashed)
assertTrue(
InetAddresses.forString("192.0.2.45")
!= InetAddresses.getCoercedIPv4Address(
InetAddresses.forString("2001:0000:4136:e378:8000:63bf:3fff:fdd2")));
// 2 Teredo addresses differing in the embedded IPv4 address should
// hash to the different values.
assertTrue(
InetAddresses.getCoercedIPv4Address(
InetAddresses.forString("2001:0000:4136:e378:8000:63bf:3fff:fdd2"))
!= InetAddresses.getCoercedIPv4Address(
InetAddresses.forString("2001:0000:4136:e379:8000:63bf:3fff:fdd2")));
// 2 Teredo addresses NOT differing in the embedded IPv4 address should
// hash to the same value.
assertEquals(
InetAddresses.getCoercedIPv4Address(
InetAddresses.forString("2001:0000:4136:e378:8000:63bf:3fff:fdd2")),
InetAddresses.getCoercedIPv4Address(
InetAddresses.forString("2001:0000:4136:e378:9000:63bf:3fff:fdd2")));
// Test that an address hashes in to the 224.0.0.0/3 number-space.
InetAddress coerced =
InetAddresses.getCoercedIPv4Address(InetAddresses.forString("2001:4860::1"));
assertTrue(0xe0000000 <= InetAddresses.coerceToInteger(coerced));
assertTrue(InetAddresses.coerceToInteger(coerced) <= 0xfffffffe);
}
public void testForStringBogusInput() {
String[] bogusInputs = {
"",
"016.016.016.016",
"016.016.016",
"016.016",
"016",
"000.000.000.000",
"000",
"0x0a.0x0a.0x0a.0x0a",
"0x0a.0x0a.0x0a",
"0x0a.0x0a",
"0x0a",
"42.42.42.42.42",
"42.42.42",
"42.42",
"42",
"42..42.42",
"42..42.42.42",
"42.42.42.42.",
"42.42.42.42...",
".42.42.42.42",
"...42.42.42.42",
"42.42.42.-0",
"42.42.42.+0",
".",
"...",
"bogus",
"bogus.com",
"192.168.0.1.com",
"12345.67899.-54321.-98765",
"257.0.0.0",
"42.42.42.-42",
"3ffe::1.net",
"3ffe::1::1",
"1::2::3::4:5",
"::7:6:5:4:3:2:", // should end with ":0"
":6:5:4:3:2:1::", // should begin with "0:"
"2001::db:::1",
"FEDC:9878",
"+1.+2.+3.4",
"1.2.3.4e0",
"::7:6:5:4:3:2:1:0", // too many parts
"7:6:5:4:3:2:1:0::", // too many parts
"9:8:7:6:5:4:3::2:1", // too many parts
"0:1:2:3::4:5:6:7", // :: must remove at least one 0.
"3ffe:0:0:0:0:0:0:0:1", // too many parts (9 instead of 8)
"3ffe::10000", // hextet exceeds 16 bits
"3ffe::goog",
"3ffe::-0",
"3ffe::+0",
"3ffe::-1",
":",
":::",
"::1.2.3",
"::1.2.3.4.5",
"::1.2.3.4:",
"1.2.3.4::",
"2001:db8::1:",
":2001:db8::1",
":1:2:3:4:5:6:7",
"1:2:3:4:5:6:7:",
":1:2:3:4:5:6:"
};
for (int i = 0; i < bogusInputs.length; i++) {
try {
InetAddresses.forString(bogusInputs[i]);
fail("IllegalArgumentException expected for '" + bogusInputs[i] + "'");
} catch (IllegalArgumentException expected) {
// expected behavior
}
assertFalse(InetAddresses.isInetAddress(bogusInputs[i]));
}
}
