/**
* 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 org.apache.hadoop.net;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.net.NetworkInterface;
import java.net.Socket;
import java.net.SocketAddress;
import java.net.SocketException;
import java.net.URI;
import java.net.URISyntaxException;
import java.net.UnknownHostException;
import java.net.ConnectException;
import java.nio.channels.SocketChannel;
import java.util.Map.Entry;
import java.util.*;
import java.util.concurrent.ConcurrentHashMap;
import javax.net.SocketFactory;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.commons.net.util.SubnetUtils;
import org.apache.commons.net.util.SubnetUtils.SubnetInfo;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.ipc.Server;
import org.apache.hadoop.ipc.VersionedProtocol;
import org.apache.hadoop.security.SecurityUtil;
import org.apache.hadoop.util.ReflectionUtils;
public class NetUtils {
private static final Log LOG = LogFactory.getLog(NetUtils.class);
private static Map<String, String> hostToResolved =
new HashMap<String, String>();
/**
* Get the socket factory for the given class according to its
* configuration parameter
* <tt>hadoop.rpc.socket.factory.class.<ClassName></tt>. When no
* such parameter exists then fall back on the default socket factory as
* configured by <tt>hadoop.rpc.socket.factory.class.default</tt>. If
* this default socket factory is not configured, then fall back on the JVM
* default socket factory.
*
* @param conf the configuration
* @param clazz the class (usually a {@link VersionedProtocol})
* @return a socket factory
*/
public static SocketFactory getSocketFactory(Configuration conf,
Class<?> clazz) {
SocketFactory factory = null;
String propValue =
conf.get("hadoop.rpc.socket.factory.class." + clazz.getSimpleName());
if ((propValue != null) && (propValue.length() > 0))
factory = getSocketFactoryFromProperty(conf, propValue);
if (factory == null)
factory = getDefaultSocketFactory(conf);
return factory;
}
/**
* Get the default socket factory as specified by the configuration
* parameter <tt>hadoop.rpc.socket.factory.default</tt>
*
* @param conf the configuration
* @return the default socket factory as specified in the configuration or
* the JVM default socket factory if the configuration does not
* contain a default socket factory property.
*/
public static SocketFactory getDefaultSocketFactory(Configuration conf) {
String propValue = conf.get("hadoop.rpc.socket.factory.class.default");
if ((propValue == null) || (propValue.length() == 0))
return SocketFactory.getDefault();
return getSocketFactoryFromProperty(conf, propValue);
}
/**
* Get the socket factory corresponding to the given proxy URI. If the
* given proxy URI corresponds to an absence of configuration parameter,
* returns null. If the URI is malformed raises an exception.
*
* @param propValue the property which is the class name of the
* SocketFactory to instantiate; assumed non null and non empty.
* @return a socket factory as defined in the property value.
*/
public static SocketFactory getSocketFactoryFromProperty(
Configuration conf, String propValue) {
try {
Class<?> theClass = conf.getClassByName(propValue);
return (SocketFactory) ReflectionUtils.newInstance(theClass, conf);
} catch (ClassNotFoundException cnfe) {
throw new RuntimeException("Socket Factory class not found: " + cnfe);
}
}
/**
* Util method to build socket addr from either:
* <host>:<post>
* <fs>://<host>:<port>/<path>
*/
public static InetSocketAddress createSocketAddr(String target) {
return createSocketAddr(target, -1);
}
/**
* Util method to build socket addr from either:
* <host>
* <host>:<post>
* <fs>://<host>:<port>/<path>
*/
public static InetSocketAddress createSocketAddr(String target,
int defaultPort) {
if (target == null) {
throw new IllegalArgumentException("Socket address is null");
}
boolean hasScheme = target.contains("://");
URI uri = null;
try {
uri = hasScheme ? URI.create(target) : URI.create("dummyscheme://"+target);
} catch (IllegalArgumentException e) {
throw new IllegalArgumentException(
"Does not contain a valid host:port authority: " + target
);
}
String host = uri.getHost();
int port = uri.getPort();
if (port == -1) {
port = defaultPort;
}
String path = uri.getPath();
if ((host == null) || (port < 0) ||
(!hasScheme && path != null && !path.isEmpty()))
{
throw new IllegalArgumentException(
"Does not contain a valid host:port authority: " + target
);
}
return makeSocketAddr(host, port);
}
/**
* Create a socket address with the given host and port. The hostname
* might be replaced with another host that was set via
* {@link #addStaticResolution(String, String)}. The value of
* hadoop.security.token.service.use_ip will determine whether the
* standard java host resolver is used, or if the fully qualified resolver
* is used.
* @param host the hostname or IP use to instantiate the object
* @param port the port number
* @return InetSocketAddress
*/
public static InetSocketAddress makeSocketAddr(String host, int port) {
String staticHost = getStaticResolution(host);
String resolveHost = (staticHost != null) ? staticHost : host;
InetSocketAddress addr;
try {
InetAddress iaddr = SecurityUtil.getByName(resolveHost);
// if there is a static entry for the host, make the returned
// address look like the original given host
if (staticHost != null) {
iaddr = InetAddress.getByAddress(host, iaddr.getAddress());
}
addr = new InetSocketAddress(iaddr, port);
} catch (UnknownHostException e) {
addr = InetSocketAddress.createUnresolved(host, port);
}
return addr;
}
/**
* Resolve the uri's hostname and add the default port if not in the uri
* @param uri to resolve
* @param defaultPort if none is given
* @return URI
* @throws UnknownHostException
*/
public static URI getCanonicalUri(URI uri, int defaultPort) {
// skip if there is no authority, ie. "file" scheme or relative uri
String host = uri.getHost();
if (host == null) {
return uri;
}
String fqHost = canonicalizeHost(host);
int port = uri.getPort();
// short out if already canonical with a port
if (host.equals(fqHost) && port != -1) {
return uri;
}
// reconstruct the uri with the canonical host and port
try {
uri = new URI(uri.getScheme(), uri.getUserInfo(),
fqHost, (port == -1) ? defaultPort : port,
uri.getPath(), uri.getQuery(), uri.getFragment());
} catch (URISyntaxException e) {
throw new IllegalArgumentException(e);
}
return uri;
}
// cache the canonicalized hostnames; the cache currently isn't expired,
// but the canonicals will only change if the host's resolver configuration
// changes
private static ConcurrentHashMap<String, String> canonicalizedHostCache =
new ConcurrentHashMap<String, String>();
private static String canonicalizeHost(String host) {
// check if the host has already been canonicalized
String fqHost = canonicalizedHostCache.get(host);
if (fqHost == null) {
try {
fqHost = SecurityUtil.getByName(host).getHostName();
// slight race condition, but won't hurt
canonicalizedHostCache.put(host, fqHost);
} catch (UnknownHostException e) {
fqHost = host;
}
}
return fqHost;
}
/**
* Handle the transition from pairs of attributes specifying a host and port
* to a single colon separated one.
* @param conf the configuration to check
* @param oldBindAddressName the old address attribute name
* @param oldPortName the old port attribute name
* @param newBindAddressName the new combined name
* @return the complete address from the configuration
*/
@Deprecated
public static String getServerAddress(Configuration conf,
String oldBindAddressName,
String oldPortName,
String newBindAddressName) {
String oldAddr = conf.get(oldBindAddressName);
String oldPort = conf.get(oldPortName);
String newAddrPort = conf.get(newBindAddressName);
if (oldAddr == null && oldPort == null) {
return newAddrPort;
}
String[] newAddrPortParts = newAddrPort.split(":",2);
if (newAddrPortParts.length != 2) {
throw new IllegalArgumentException("Invalid address/port: " +
newAddrPort);
}
if (oldAddr == null) {
oldAddr = newAddrPortParts[0];
} else {
LOG.warn("Configuration parameter " + oldBindAddressName +
" is deprecated. Use " + newBindAddressName + " instead.");
}
if (oldPort == null) {
oldPort = newAddrPortParts[1];
} else {
LOG.warn("Configuration parameter " + oldPortName +
" is deprecated. Use " + newBindAddressName + " instead.");
}
return oldAddr + ":" + oldPort;
}
/**
* Adds a static resolution for host. This can be used for setting up
* hostnames with names that are fake to point to a well known host. For e.g.
* in some testcases we require to have daemons with different hostnames
* running on the same machine. In order to create connections to these
* daemons, one can set up mappings from those hostnames to "localhost".
* {@link NetUtils#getStaticResolution(String)} can be used to query for
* the actual hostname.
* @param host
* @param resolvedName
*/
public static void addStaticResolution(String host, String resolvedName) {
synchronized (hostToResolved) {
hostToResolved.put(host, resolvedName);
}
}
/**
* Retrieves the resolved name for the passed host. The resolved name must
* have been set earlier using
* {@link NetUtils#addStaticResolution(String, String)}
* @param host
* @return the resolution
*/
public static String getStaticResolution(String host) {
synchronized (hostToResolved) {
return hostToResolved.get(host);
}
}
/**
* This is used to get all the resolutions that were added using
* {@link NetUtils#addStaticResolution(String, String)}. The return
* value is a List each element of which contains an array of String
* of the form String[0]=hostname, String[1]=resolved-hostname
* @return the list of resolutions
*/
public static List <String[]> getAllStaticResolutions() {
synchronized (hostToResolved) {
Set <Entry <String, String>>entries = hostToResolved.entrySet();
if (entries.size() == 0) {
return null;
}
List <String[]> l = new ArrayList<String[]>(entries.size());
for (Entry<String, String> e : entries) {
l.add(new String[] {e.getKey(), e.getValue()});
}
return l;
}
}
/**
* Returns InetSocketAddress that a client can use to
* connect to the server. Server.getListenerAddress() is not correct when
* the server binds to "0.0.0.0". This returns "127.0.0.1:port" when
* the getListenerAddress() returns "0.0.0.0:port".
*
* @param server
* @return socket address that a client can use to connect to the server.
*/
public static InetSocketAddress getConnectAddress(Server server) {
InetSocketAddress addr = server.getListenerAddress();
if (addr.getAddress().isAnyLocalAddress()) {
addr = makeSocketAddr("127.0.0.1", addr.getPort());
}
return addr;
}
/**
* Same as getInputStream(socket, socket.getSoTimeout()).<br><br>
*
* From documentation for {@link #getInputStream(Socket, long)}:<br>
* Returns InputStream for the socket. If the socket has an associated
* SocketChannel then it returns a
* {@link SocketInputStream} with the given timeout. If the socket does not
* have a channel, {@link Socket#getInputStream()} is returned. In the later
* case, the timeout argument is ignored and the timeout set with
* {@link Socket#setSoTimeout(int)} applies for reads.<br><br>
*
* Any socket created using socket factories returned by {@link NetUtils},
* must use this interface instead of {@link Socket#getInputStream()}.
*
* @see #getInputStream(Socket, long)
*
* @param socket
* @return InputStream for reading from the socket.
* @throws IOException
*/
public static InputStream getInputStream(Socket socket)
throws IOException {
return getInputStream(socket, socket.getSoTimeout());
}
/**
* Returns InputStream for the socket. If the socket has an associated
* SocketChannel then it returns a
* {@link SocketInputStream} with the given timeout. If the socket does not
* have a channel, {@link Socket#getInputStream()} is returned. In the later
* case, the timeout argument is ignored and the timeout set with
* {@link Socket#setSoTimeout(int)} applies for reads.<br><br>
*
* Any socket created using socket factories returned by {@link NetUtils},
* must use this interface instead of {@link Socket#getInputStream()}.
*
* @see Socket#getChannel()
*
* @param socket
* @param timeout timeout in milliseconds. This may not always apply. zero
* for waiting as long as necessary.
* @return InputStream for reading from the socket.
* @throws IOException
*/
public static InputStream getInputStream(Socket socket, long timeout)
throws IOException {
return (socket.getChannel() == null) ?
socket.getInputStream() : new SocketInputStream(socket, timeout);
}
/**
* Same as getOutputStream(socket, 0). Timeout of zero implies write will
* wait until data is available.<br><br>
*
* From documentation for {@link #getOutputStream(Socket, long)} : <br>
* Returns OutputStream for the socket. If the socket has an associated
* SocketChannel then it returns a
* {@link SocketOutputStream} with the given timeout. If the socket does not
* have a channel, {@link Socket#getOutputStream()} is returned. In the later
* case, the timeout argument is ignored and the write will wait until
* data is available.<br><br>
*
* Any socket created using socket factories returned by {@link NetUtils},
* must use this interface instead of {@link Socket#getOutputStream()}.
*
* @see #getOutputStream(Socket, long)
*
* @param socket
* @return OutputStream for writing to the socket.
* @throws IOException
*/
public static OutputStream getOutputStream(Socket socket)
throws IOException {
return getOutputStream(socket, 0);
}
/**
* Returns OutputStream for the socket. If the socket has an associated
* SocketChannel then it returns a
* {@link SocketOutputStream} with the given timeout. If the socket does not
* have a channel, {@link Socket#getOutputStream()} is returned. In the later
* case, the timeout argument is ignored and the write will wait until
* data is available.<br><br>
*
* Any socket created using socket factories returned by {@link NetUtils},
* must use this interface instead of {@link Socket#getOutputStream()}.
*
* @see Socket#getChannel()
*
* @param socket
* @param timeout timeout in milliseconds. This may not always apply. zero
* for waiting as long as necessary.
* @return OutputStream for writing to the socket.
* @throws IOException
*/
public static OutputStream getOutputStream(Socket socket, long timeout)
throws IOException {
return (socket.getChannel() == null) ?
socket.getOutputStream() : new SocketOutputStream(socket, timeout);
}
/**
* This is a drop-in replacement for
* {@link Socket#connect(SocketAddress, int)}.
* In the case of normal sockets that don't have associated channels, this
* just invokes <code>socket.connect(endpoint, timeout)</code>. If
* <code>socket.getChannel()</code> returns a non-null channel,
* connect is implemented using Hadoop's selectors. This is done mainly
* to avoid Sun's connect implementation from creating thread-local
* selectors, since Hadoop does not have control on when these are closed
* and could end up taking all the available file descriptors.
*
* @see java.net.Socket#connect(java.net.SocketAddress, int)
*
* @param socket
* @param address the remote address
* @param timeout timeout in milliseconds
*/
public static void connect(Socket socket,
SocketAddress address,
int timeout) throws IOException {
connect(socket, address, null, timeout);
}
/**
* Like {@link NetUtils#connect(Socket, SocketAddress, int)} but
* also takes a local address and port to bind the socket to.
*
* @param socket
* @param endpoint the remote address
* @param localAddr the local address to bind the socket to
* @param timeout timeout in milliseconds
*/
public static void connect(Socket socket,
SocketAddress endpoint,
SocketAddress localAddr,
int timeout) throws IOException {
if (socket == null || endpoint == null || timeout < 0) {
throw new IllegalArgumentException("Illegal argument for connect()");
}
SocketChannel ch = socket.getChannel();
if (localAddr != null) {
socket.bind(localAddr);
}
if (ch == null) {
// let the default implementation handle it.
socket.connect(endpoint, timeout);
} else {
SocketIOWithTimeout.connect(ch, endpoint, timeout);
}
// There is a very rare case allowed by the TCP specification, such that
// if we are trying to connect to an endpoint on the local machine,
// and we end up choosing an ephemeral port equal to the destination port,
// we will actually end up getting connected to ourself (ie any data we
// send just comes right back). This is only possible if the target
// daemon is down, so we'll treat it like connection refused.
if (socket.getLocalPort() == socket.getPort() &&
socket.getLocalAddress().equals(socket.getInetAddress())) {
LOG.info("Detected a loopback TCP socket, disconnecting it");
socket.close();
throw new ConnectException(
"Localhost targeted connection resulted in a loopback. " +
"No daemon is listening on the target port.");
}
}
/**
* Given a string representation of a host, return its ip address
* in textual presentation.
*
* @param name a string representation of a host:
* either a textual representation its IP address or its host name
* @return its IP address in the string format
*/
public static String normalizeHostName(String name) {
if (Character.digit(name.charAt(0), 10) != -1) { //FIXME
return name;
} else {
try {
InetAddress ipAddress = InetAddress.getByName(name);
return ipAddress.getHostAddress();
} catch (UnknownHostException e) {
return name;
}
}
}
/**
* Given a collection of string representation of hosts, return a list of
* corresponding IP addresses in the textual representation.
*
* @param names a collection of string representations of hosts
* @return a list of corresponding IP addresses in the string format
* @see #normalizeHostName(String)
*/
public static List<String> normalizeHostNames(Collection<String> names) {
List<String> hostNames = new ArrayList<String>(names.size());
for (String name : names) {
hostNames.add(normalizeHostName(name));
}
return hostNames;
}
/**
* Performs a sanity check on the list of hostnames/IPs to verify they at least
* appear to be valid.
* @param names - List of hostnames/IPs
* @throws UnknownHostException
*/
public static void verifyHostnames(String[] names) throws UnknownHostException {
for (String name: names) {
if (name == null) {
throw new UnknownHostException("null hostname found");
}
// The first check supports URL formats (e.g. hdfs://, etc.).
// java.net.URI requires a schema, so we add a dummy one if it doesn't
// have one already.
URI uri = null;
try {
uri = new URI(name);
if (uri.getHost() == null) {
uri = new URI("http://" + name);
}
} catch (URISyntaxException e) {
uri = null;
}
if (uri == null || uri.getHost() == null) {
throw new UnknownHostException(name + " is not a valid Inet address");
}
}
}
/**
* Checks if {@code host} is a local host name and return {@link InetAddress}
* corresponding to that address.
*
* @param host the specified host
* @return a valid local {@link InetAddress} or null
* @throws SocketException if an I/O error occurs
*/
public static InetAddress getLocalInetAddress(String host)
throws SocketException {
if (host == null) {
return null;
}
InetAddress addr = null;
try {
addr = InetAddress.getByName(host);
if (NetworkInterface.getByInetAddress(addr) == null) {
addr = null; // Not a local address
}
} catch (UnknownHostException ignore) { }
return addr;
}
/**
* @return true if the given string is a subnet specified
* using CIDR notation, false otherwise
*/
public static boolean isValidSubnet(String subnet) {
try {
new SubnetUtils(subnet);
return true;
} catch (IllegalArgumentException iae) {
return false;
}
}
/**
* Add all addresses associated with the given nif in the
* given subnet to the given list.
*/
private static void addMatchingAddrs(NetworkInterface nif,
SubnetInfo subnetInfo, List<InetAddress> addrs) {
Enumeration<InetAddress> ifAddrs = nif.getInetAddresses();
while (ifAddrs.hasMoreElements()) {
InetAddress ifAddr = ifAddrs.nextElement();
if (subnetInfo.isInRange(ifAddr.getHostAddress())) {
addrs.add(ifAddr);
}
}
}
/**
* Return an InetAddress for each interface that matches the
* given subnet specified using CIDR notation.
*
* @param subnet subnet specified using CIDR notation
* @param returnSubinterfaces
* whether to return IPs associated with subinterfaces
* @throws IllegalArgumentException if subnet is invalid
*/
public static List<InetAddress> getIPs(String subnet,
boolean returnSubinterfaces) {
List<InetAddress> addrs = new ArrayList<InetAddress>();
SubnetInfo subnetInfo = new SubnetUtils(subnet).getInfo();
Enumeration<NetworkInterface> nifs;
try {
nifs = NetworkInterface.getNetworkInterfaces();
} catch (SocketException e) {
LOG.error("Unable to get host interfaces", e);
return addrs;
}
while (nifs.hasMoreElements()) {
NetworkInterface nif = nifs.nextElement();
// NB: adding addresses even if the nif is not up
addMatchingAddrs(nif, subnetInfo, addrs);
if (!returnSubinterfaces) {
continue;
}
Enumeration<NetworkInterface> subNifs = nif.getSubInterfaces();
while (subNifs.hasMoreElements()) {
addMatchingAddrs(subNifs.nextElement(), subnetInfo, addrs);
}
}
return addrs;
}
}