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JCIFS is an Open Source client library that implements the CIFS/SMB networking protocol in 100% Java
/* jcifs smb client library in Java
* Copyright (C) 2000 "Michael B. Allen"
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
package jcifs.netbios;
import java.io.IOException;
import java.io.InterruptedIOException;
import java.net.DatagramPacket;
import java.net.DatagramSocket;
import java.net.InetAddress;
import java.net.SocketTimeoutException;
import java.net.UnknownHostException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import jcifs.CIFSContext;
import jcifs.Configuration;
import jcifs.NameServiceClient;
import jcifs.NetbiosAddress;
import jcifs.ResolverType;
import jcifs.RuntimeCIFSException;
import jcifs.SmbConstants;
import jcifs.util.Hexdump;
/**
*
* @author mbechler
*
*/
public class NameServiceClientImpl implements Runnable, NameServiceClient {
private static final int NAME_SERVICE_UDP_PORT = 137;
static final byte[] UNKNOWN_MAC_ADDRESS = new byte[] {
(byte) 0x00, (byte) 0x00, (byte) 0x00, (byte) 0x00, (byte) 0x00, (byte) 0x00
};
private static final Logger log = LoggerFactory.getLogger(NameServiceClientImpl.class);
private final Object LOCK = new Object();
private int nbnsIndex = 0;
private final Map addressCache = new HashMap<>();
private final Set inFlightLookups = new HashSet<>();
private int lport, closeTimeout;
private byte[] snd_buf, rcv_buf;
private DatagramSocket socket;
private DatagramPacket in, out;
private Map responseTable = new HashMap<>();
private Thread thread;
private int nextNameTrnId = 0;
private List resolveOrder = new ArrayList<>();
private InetAddress laddr, baddr;
private CIFSContext transportContext;
private NbtAddress localhostAddress;
private Lmhosts lmhosts = new Lmhosts();
private Name unknownName;
private NbtAddress unknownAddress;
/**
*
* @param tc
*/
public NameServiceClientImpl ( CIFSContext tc ) {
this(tc.getConfig().getNetbiosLocalPort(), tc.getConfig().getNetbiosLocalAddress(), tc);
}
NameServiceClientImpl ( int lport, InetAddress laddr, CIFSContext tc ) {
this.lport = lport;
this.laddr = laddr;
this.transportContext = tc;
this.baddr = tc.getConfig().getBroadcastAddress();
this.snd_buf = new byte[tc.getConfig().getNetbiosSndBufSize()];
this.rcv_buf = new byte[tc.getConfig().getNetbiosRcvBufSize()];
this.out = new DatagramPacket(this.snd_buf, tc.getConfig().getNetbiosSndBufSize(), this.baddr, NAME_SERVICE_UDP_PORT);
this.in = new DatagramPacket(this.rcv_buf, tc.getConfig().getNetbiosRcvBufSize());
this.resolveOrder = tc.getConfig().getResolveOrder();
initCache(tc);
}
static final class CacheEntry {
Name hostName;
NbtAddress address;
long expiration;
CacheEntry ( Name hostName, NbtAddress address, long expiration ) {
this.hostName = hostName;
this.address = address;
this.expiration = expiration;
}
}
/**
*
*/
private void initCache ( CIFSContext tc ) {
this.unknownName = new Name(tc.getConfig(), "0.0.0.0", 0x00, null);
this.unknownAddress = new NbtAddress(this.unknownName, 0, false, NbtAddress.B_NODE);
this.addressCache.put(this.unknownName, new CacheEntry(this.unknownName, this.unknownAddress, SmbConstants.FOREVER));
/*
* Determine the InetAddress of the local interface
* if one was not specified.
*/
InetAddress localInetAddress = tc.getConfig().getNetbiosLocalAddress();
if ( localInetAddress == null ) {
try {
localInetAddress = InetAddress.getLocalHost();
}
catch ( UnknownHostException uhe ) {
/*
* Java cannot determine the localhost. This is basically a config
* issue on the host. There's not much we can do about it. Just
* to suppress NPEs that would result we can create a possibly bogus
* address. Pretty sure the below cannot actually thrown a UHE tho.
*/
try {
localInetAddress = InetAddress.getByName("127.0.0.1");
}
catch ( UnknownHostException ignored ) {
throw new RuntimeCIFSException(ignored);
}
}
}
/*
* If a local hostname was not provided a name like
* JCIFS34_172_A6 will be dynamically generated for the
* client. This is primarily (exclusively?) used as a
* CallingName during session establishment.
*/
String localHostname = tc.getConfig().getNetbiosHostname();
if ( localHostname == null || localHostname.length() == 0 ) {
byte[] addr = localInetAddress.getAddress();
localHostname = "JCIFS" + ( addr[ 2 ] & 0xFF ) + "_" + ( addr[ 3 ] & 0xFF ) + "_"
+ Hexdump.toHexString((int) ( Math.random() * 0xFF ), 2);
}
/*
* Create an NbtAddress for the local interface with
* the name deduced above possibly with scope applied and
* cache it forever.
*/
Name localName = new Name(tc.getConfig(), localHostname, 0x00, tc.getConfig().getNetbiosScope());
this.localhostAddress = new NbtAddress(
localName,
localInetAddress.hashCode(),
false,
NbtAddress.B_NODE,
false,
false,
true,
false,
UNKNOWN_MAC_ADDRESS);
cacheAddress(localName, this.localhostAddress, SmbConstants.FOREVER);
}
NbtAddress doNameQuery ( Name name, InetAddress svr ) throws UnknownHostException {
NbtAddress addr;
if ( name.hexCode == 0x1d && svr == null ) {
svr = this.baddr; // bit of a hack but saves a lookup
}
name.srcHashCode = svr != null ? svr.hashCode() : 0;
addr = getCachedAddress(name);
if ( addr == null ) {
/*
* This is almost exactly like InetAddress.java. See the
* comments there for a description of how the LOOKUP_TABLE prevents
* redundant queries from going out on the wire.
*/
if ( ( addr = (NbtAddress) checkLookupTable(name) ) == null ) {
try {
addr = getByName(name, svr);
}
catch ( UnknownHostException uhe ) {
addr = this.unknownAddress;
}
finally {
cacheAddress(name, addr);
updateLookupTable(name);
}
}
}
if ( addr == this.unknownAddress ) {
throw new UnknownHostException(name.toString());
}
return addr;
}
private Object checkLookupTable ( Name name ) {
Object obj;
synchronized ( this.inFlightLookups ) {
if ( this.inFlightLookups.contains(name) == false ) {
this.inFlightLookups.add(name);
return null;
}
while ( this.inFlightLookups.contains(name) ) {
try {
this.inFlightLookups.wait();
}
catch ( InterruptedException e ) {
log.trace("Interrupted", e);
}
}
}
obj = getCachedAddress(name);
if ( obj == null ) {
synchronized ( this.inFlightLookups ) {
this.inFlightLookups.add(name);
}
}
return obj;
}
private void updateLookupTable ( Name name ) {
synchronized ( this.inFlightLookups ) {
this.inFlightLookups.remove(name);
this.inFlightLookups.notifyAll();
}
}
void cacheAddress ( Name hostName, NbtAddress addr ) {
if ( this.transportContext.getConfig().getNetbiosCachePolicy() == 0 ) {
return;
}
long expiration = -1;
if ( this.transportContext.getConfig().getNetbiosCachePolicy() != SmbConstants.FOREVER ) {
expiration = System.currentTimeMillis() + this.transportContext.getConfig().getNetbiosCachePolicy() * 1000;
}
cacheAddress(hostName, addr, expiration);
}
void cacheAddress ( Name hostName, NbtAddress addr, long expiration ) {
if ( this.transportContext.getConfig().getNetbiosCachePolicy() == 0 ) {
return;
}
synchronized ( this.addressCache ) {
CacheEntry entry = this.addressCache.get(hostName);
if ( entry == null ) {
entry = new CacheEntry(hostName, addr, expiration);
this.addressCache.put(hostName, entry);
}
else {
entry.address = addr;
entry.expiration = expiration;
}
}
}
void cacheAddressArray ( NbtAddress[] addrs ) {
if ( this.transportContext.getConfig().getNetbiosCachePolicy() == 0 ) {
return;
}
long expiration = -1;
if ( this.transportContext.getConfig().getNetbiosCachePolicy() != SmbConstants.FOREVER ) {
expiration = System.currentTimeMillis() + this.transportContext.getConfig().getNetbiosCachePolicy() * 1000;
}
synchronized ( this.addressCache ) {
for ( int i = 0; i < addrs.length; i++ ) {
CacheEntry entry = this.addressCache.get(addrs[ i ].hostName);
if ( entry == null ) {
entry = new CacheEntry(addrs[ i ].hostName, addrs[ i ], expiration);
this.addressCache.put(addrs[ i ].hostName, entry);
}
else {
entry.address = addrs[ i ];
entry.expiration = expiration;
}
}
}
}
NbtAddress getCachedAddress ( Name hostName ) {
if ( this.transportContext.getConfig().getNetbiosCachePolicy() == 0 ) {
return null;
}
synchronized ( this.addressCache ) {
CacheEntry entry = this.addressCache.get(hostName);
if ( entry != null && entry.expiration < System.currentTimeMillis() && entry.expiration >= 0 ) {
entry = null;
}
return entry != null ? entry.address : null;
}
}
int getNextNameTrnId () {
if ( ( ++this.nextNameTrnId & 0xFFFF ) == 0 ) {
this.nextNameTrnId = 1;
}
return this.nextNameTrnId;
}
void ensureOpen ( int timeout ) throws IOException {
this.closeTimeout = 0;
if ( this.transportContext.getConfig().getNetbiosSoTimeout() != 0 ) {
this.closeTimeout = Math.max(this.transportContext.getConfig().getNetbiosSoTimeout(), timeout);
}
// If socket is still good, the new closeTimeout will
// be ignored; see tryClose comment.
if ( this.socket == null ) {
this.socket = new DatagramSocket(this.lport, this.laddr);
this.thread = new Thread(this, "JCIFS-NameServiceClient");
this.thread.setDaemon(true);
this.thread.start();
}
}
void tryClose () {
synchronized ( this.LOCK ) {
/*
* Yes, there is the potential to drop packets
* because we might close the socket during a
* request. However the chances are slim and the
* retry code should ensure the overall request
* is serviced. The alternative complicates things
* more than I think is worth it.
*/
if ( this.socket != null ) {
this.socket.close();
this.socket = null;
}
this.thread = null;
this.responseTable.clear();
}
}
@Override
public void run () {
try {
while ( this.thread == Thread.currentThread() ) {
this.in.setLength(this.transportContext.getConfig().getNetbiosRcvBufSize());
this.socket.setSoTimeout(this.closeTimeout);
this.socket.receive(this.in);
log.trace("NetBIOS: new data read from socket");
int nameTrnId = NameServicePacket.readNameTrnId(this.rcv_buf, 0);
NameServicePacket response = this.responseTable.get(new Integer(nameTrnId));
if ( response == null || response.received ) {
continue;
}
synchronized ( response ) {
response.readWireFormat(this.rcv_buf, 0);
response.received = true;
if ( log.isTraceEnabled() ) {
log.trace(response.toString());
log.trace(Hexdump.toHexString(this.rcv_buf, 0, this.in.getLength()));
}
response.notify();
}
}
}
catch ( SocketTimeoutException ste ) {
log.trace("Socket timeout", ste);
}
catch ( Exception ex ) {
log.warn("Uncaught exception in NameServiceClient", ex);
}
finally {
tryClose();
}
}
void send ( NameServicePacket request, NameServicePacket response, int timeout ) throws IOException {
Integer nid = null;
int max = this.transportContext.getConfig().getWinsServers().length;
if ( max == 0 ) {
max = 1; /* No WINs, try only bcast addr */
}
synchronized ( response ) {
while ( max-- > 0 ) {
try {
synchronized ( this.LOCK ) {
request.nameTrnId = getNextNameTrnId();
nid = new Integer(request.nameTrnId);
this.out.setAddress(request.addr);
this.out.setLength(request.writeWireFormat(this.snd_buf, 0));
response.received = false;
this.responseTable.put(nid, response);
ensureOpen(timeout + 1000);
this.socket.send(this.out);
if ( log.isTraceEnabled() ) {
log.trace(request.toString());
log.trace(Hexdump.toHexString(this.snd_buf, 0, this.out.getLength()));
}
}
long start = System.currentTimeMillis();
while ( timeout > 0 ) {
response.wait(timeout);
/*
* JetDirect printer can respond to regular broadcast query
* with node status so we need to check to make sure that
* the record type matches the question type and if not,
* loop around and try again.
*/
if ( response.received && request.questionType == response.recordType )
return;
response.received = false;
timeout -= System.currentTimeMillis() - start;
}
}
catch ( InterruptedException ie ) {
throw new InterruptedIOException();
}
finally {
this.responseTable.remove(nid);
}
synchronized ( this.LOCK ) {
if ( isWINS(request.addr) == false )
break;
/*
* Message was sent to WINS but
* failed to receive response.
* Try a different WINS server.
*/
if ( request.addr == getWINSAddress() )
switchWINS();
request.addr = getWINSAddress();
}
}
}
}
NbtAddress[] getAllByName ( Name name, InetAddress addr ) throws UnknownHostException {
int n;
Configuration config = this.transportContext.getConfig();
NameQueryRequest request = new NameQueryRequest(config, name);
NameQueryResponse response = new NameQueryResponse(config);
request.addr = addr != null ? addr : getWINSAddress();
request.isBroadcast = request.addr == null;
if ( request.isBroadcast ) {
request.addr = this.baddr;
n = config.getNetbiosRetryCount();
}
else {
request.isBroadcast = false;
n = 1;
}
do {
try {
send(request, response, config.getNetbiosRetryTimeout());
}
catch ( InterruptedIOException ioe ) {
// second query thread to finish gets interrupted so this is expected
if ( log.isTraceEnabled() ) {
log.trace("Failed to send nameservice request for " + name.name, ioe);
}
throw new UnknownHostException(name.name);
}
catch ( IOException ioe ) {
log.info("Failed to send nameservice request for " + name.name, ioe);
throw new UnknownHostException(name.name);
}
if ( response.received && response.resultCode == 0 ) {
return response.addrEntry;
}
}
while ( --n > 0 && request.isBroadcast );
throw new UnknownHostException(name.name);
}
NbtAddress getByName ( Name name, InetAddress addr ) throws UnknownHostException {
NameQueryRequest request = new NameQueryRequest(this.transportContext.getConfig(), name);
NameQueryResponse response = new NameQueryResponse(this.transportContext.getConfig());
if ( addr != null ) { /*
* UniAddress calls always use this
* because it specifies addr
*/
request.addr = addr; /* if addr ends with 255 flag it bcast */
request.isBroadcast = ( addr.getAddress()[ 3 ] == (byte) 0xFF );
int n = this.transportContext.getConfig().getNetbiosRetryCount();
do {
try {
send(request, response, this.transportContext.getConfig().getNetbiosRetryTimeout());
}
catch ( InterruptedIOException ioe ) {
if ( log.isTraceEnabled() ) {
log.trace("Timeout waiting for response " + name.name, ioe);
}
throw new UnknownHostException(name.name);
}
catch ( IOException ioe ) {
log.info("Failed to send nameservice request for " + name.name, ioe);
throw new UnknownHostException(name.name);
}
if ( response.received && response.resultCode == 0 ) {
int last = response.addrEntry.length - 1;
response.addrEntry[ last ].hostName.srcHashCode = addr.hashCode();
return response.addrEntry[ last ];
}
}
while ( --n > 0 && request.isBroadcast );
throw new UnknownHostException(name.name);
}
/*
* If a target address to query was not specified explicitly
* with the addr parameter we fall into this resolveOrder routine.
*/
for ( ResolverType resolverType : this.resolveOrder ) {
try {
switch ( resolverType ) {
case RESOLVER_LMHOSTS:
NbtAddress ans = this.lmhosts.getByName(name, this.transportContext);
if ( ans != null ) {
ans.hostName.srcHashCode = 0; // just has to be different
// from other methods
return ans;
}
break;
case RESOLVER_WINS:
case RESOLVER_BCAST:
if ( resolverType == ResolverType.RESOLVER_WINS && name.name != NbtAddress.MASTER_BROWSER_NAME && name.hexCode != 0x1d ) {
request.addr = getWINSAddress();
request.isBroadcast = false;
}
else {
request.addr = this.baddr;
request.isBroadcast = true;
}
int n = this.transportContext.getConfig().getNetbiosRetryCount();
while ( n-- > 0 ) {
try {
send(request, response, this.transportContext.getConfig().getNetbiosRetryTimeout());
}
catch ( IOException ioe ) {
log.info("Failed to send nameservice request for " + name.name, ioe);
throw new UnknownHostException(name.name);
}
if ( response.received && response.resultCode == 0 ) {
/*
* Before we return, in anticipation of this address being cached we must
* augment the addresses name's hashCode to distinguish those resolved by
* Lmhosts, WINS, or BCAST. Otherwise a failed query from say WINS would
* get pulled out of the cache for a BCAST on the same name.
*/
response.addrEntry[ 0 ].hostName.srcHashCode = request.addr.hashCode();
return response.addrEntry[ 0 ];
}
else if ( resolverType == ResolverType.RESOLVER_WINS ) {
/*
* If WINS reports negative, no point in retry
*/
break;
}
}
break;
default:
break;
}
}
catch ( IOException ioe ) {
log.debug("Failed to lookup name", ioe);
}
}
throw new UnknownHostException(name.name);
}
@Override
public NbtAddress[] getNodeStatus ( NetbiosAddress addr ) throws UnknownHostException {
NodeStatusResponse response = new NodeStatusResponse(this.transportContext.getConfig(), addr.unwrap(NbtAddress.class));
NodeStatusRequest request = new NodeStatusRequest(
this.transportContext.getConfig(),
new Name(this.transportContext.getConfig(), NbtAddress.ANY_HOSTS_NAME, 0x00, null));
request.addr = addr.toInetAddress();
int n = this.transportContext.getConfig().getNetbiosRetryCount();
while ( n-- > 0 ) {
try {
send(request, response, this.transportContext.getConfig().getNetbiosRetryTimeout());
}
catch ( IOException ioe ) {
log.info("Failed to send node status request for " + addr, ioe);
throw new UnknownHostException(addr.toString());
}
if ( response.received && response.resultCode == 0 ) {
/*
* For name queries resolved by different sources (e.g. WINS,
* BCAST, Node Status) we need to augment the hashcode generated
* for the addresses hostname or failed lookups for one type will
* be cached and cause other types to fail even though they may
* not be the authority for the name. For example, if a WINS lookup
* for FOO fails and caches unknownAddress for FOO, a subsequent
* lookup for FOO using BCAST should not fail because of that
* name cached from WINS.
*
* So, here we apply the source addresses hashCode to each name to
* make them specific to who resolved the name.
*/
int srcHashCode = request.addr.hashCode();
for ( int i = 0; i < response.addressArray.length; i++ ) {
response.addressArray[ i ].hostName.srcHashCode = srcHashCode;
}
return response.addressArray;
}
}
throw new UnknownHostException(addr.getHostName());
}
@Override
public NbtAddress getNbtByName ( String host ) throws UnknownHostException {
return getNbtByName(host, 0x00, null);
}
@Override
public NbtAddress getNbtByName ( String host, int type, String scope ) throws UnknownHostException {
return getNbtByName(host, type, scope, null);
}
@Override
public NbtAddress getNbtByName ( String host, int type, String scope, InetAddress svr ) throws UnknownHostException {
if ( host == null || host.length() == 0 ) {
return getLocalHost();
}
Name name = new Name(this.transportContext.getConfig(), host, type, scope);
if ( !Character.isDigit(host.charAt(0)) ) {
return doNameQuery(name, svr);
}
int IP = 0x00;
int hitDots = 0;
char[] data = host.toCharArray();
for ( int i = 0; i < data.length; i++ ) {
char c = data[ i ];
if ( c < 48 || c > 57 ) {
return doNameQuery(name, svr);
}
int b = 0x00;
while ( c != '.' ) {
if ( c < 48 || c > 57 ) {
return doNameQuery(name, svr);
}
b = b * 10 + c - '0';
if ( ++i >= data.length )
break;
c = data[ i ];
}
if ( b > 0xFF ) {
return doNameQuery(name, svr);
}
IP = ( IP << 8 ) + b;
hitDots++;
}
if ( hitDots != 4 || host.endsWith(".") ) {
return doNameQuery(name, svr);
}
return new NbtAddress(getUnknownName(), IP, false, NbtAddress.B_NODE);
}
@Override
public NbtAddress[] getNbtAllByName ( String host, int type, String scope, InetAddress svr ) throws UnknownHostException {
return getAllByName(new Name(this.transportContext.getConfig(), host, type, scope), svr);
}
@Override
public NbtAddress[] getNbtAllByAddress ( String host ) throws UnknownHostException {
return getNbtAllByAddress(getNbtByName(host, 0x00, null));
}
@Override
public NbtAddress[] getNbtAllByAddress ( String host, int type, String scope ) throws UnknownHostException {
return getNbtAllByAddress(getNbtByName(host, type, scope));
}
@Override
public NbtAddress[] getNbtAllByAddress ( NetbiosAddress addr ) throws UnknownHostException {
try {
NbtAddress[] addrs = getNodeStatus(addr);
cacheAddressArray(addrs);
return addrs;
}
catch ( UnknownHostException uhe ) {
throw new UnknownHostException(
"no name with type 0x" + Hexdump.toHexString(addr.getNameType(), 2)
+ ( ( ( addr.getName().getScope() == null ) || ( addr.getName().getScope().isEmpty() ) ) ? " with no scope"
: " with scope " + addr.getName().getScope() )
+ " for host " + addr.getHostAddress());
}
}
/**
*
* @param tc
* @return address of active WINS server
*/
protected InetAddress getWINSAddress () {
return this.transportContext.getConfig().getWinsServers().length == 0 ? null
: this.transportContext.getConfig().getWinsServers()[ this.nbnsIndex ];
}
/**
*
* @param svr
* @return whether the given address is a WINS server
*/
protected boolean isWINS ( InetAddress svr ) {
for ( int i = 0; svr != null && i < this.transportContext.getConfig().getWinsServers().length; i++ ) {
if ( svr.hashCode() == this.transportContext.getConfig().getWinsServers()[ i ].hashCode() ) {
return true;
}
}
return false;
}
protected InetAddress switchWINS () {
this.nbnsIndex = ( this.nbnsIndex + 1 ) < this.transportContext.getConfig().getWinsServers().length ? this.nbnsIndex + 1 : 0;
return this.transportContext.getConfig().getWinsServers().length == 0 ? null
: this.transportContext.getConfig().getWinsServers()[ this.nbnsIndex ];
}
static class Sem {
Sem ( int count ) {
this.count = count;
}
int count;
}
static class QueryThread extends Thread {
private Sem sem;
private String host, scope;
private int type;
private NetbiosAddress[] ans = null;
private InetAddress svr;
private UnknownHostException uhe;
private CIFSContext tc;
QueryThread ( Sem sem, String host, int type, String scope, InetAddress svr, CIFSContext tc ) {
super("JCIFS-QueryThread: " + host);
this.sem = sem;
this.host = host;
this.type = type;
this.scope = scope;
this.svr = svr;
this.tc = tc;
}
@Override
public void run () {
try {
this.ans = this.tc.getNameServiceClient().getNbtAllByName(this.host, this.type, this.scope, this.svr);
}
catch ( UnknownHostException ex ) {
this.uhe = ex;
}
catch ( Exception ex ) {
this.uhe = new UnknownHostException(ex.getMessage());
}
finally {
synchronized ( this.sem ) {
this.sem.count--;
this.sem.notify();
}
}
}
/**
* @return the ans
*/
public NetbiosAddress[] getAnswer () {
return this.ans;
}
/**
* @return the uhe
*/
public UnknownHostException getException () {
return this.uhe;
}
}
NetbiosAddress[] lookupServerOrWorkgroup ( String name, InetAddress svr ) throws UnknownHostException {
Sem sem = new Sem(2);
int type = isWINS(svr) ? 0x1b : 0x1d;
QueryThread q1x = new QueryThread(sem, name, type, null, svr, this.transportContext);
QueryThread q20 = new QueryThread(sem, name, 0x20, null, svr, this.transportContext);
q1x.setDaemon(true);
q20.setDaemon(true);
try {
synchronized ( sem ) {
q1x.start();
q20.start();
while ( sem.count > 0 && q1x.getAnswer() == null && q20.getAnswer() == null ) {
sem.wait();
}
}
}
catch ( InterruptedException ie ) {
throw new UnknownHostException(name);
}
waitForQueryThreads(q1x, q20);
if ( q1x.getAnswer() != null ) {
return q1x.getAnswer();
}
else if ( q20.getAnswer() != null ) {
return q20.getAnswer();
}
else {
throw q1x.getException();
}
}
private static void waitForQueryThreads ( QueryThread q1x, QueryThread q20 ) {
interruptThreadSafely(q1x);
joinThread(q1x);
interruptThreadSafely(q20);
joinThread(q20);
}
private static void interruptThreadSafely ( QueryThread thread ) {
try {
thread.interrupt();
}
catch ( SecurityException e ) {
e.printStackTrace();
}
}
private static void joinThread ( Thread thread ) {
try {
thread.join();
}
catch ( InterruptedException e ) {
e.printStackTrace();
}
}
private static boolean isAllDigits ( String hostname ) {
for ( int i = 0; i < hostname.length(); i++ ) {
if ( Character.isDigit(hostname.charAt(i)) == false ) {
return false;
}
}
return true;
}
@Override
public UniAddress getByName ( String hostname ) throws UnknownHostException {
return getByName(hostname, false);
}
@Override
public UniAddress getByName ( String hostname, boolean possibleNTDomainOrWorkgroup ) throws UnknownHostException {
return getAllByName(hostname, possibleNTDomainOrWorkgroup)[ 0 ];
}
@Override
public UniAddress[] getAllByName ( String hostname, boolean possibleNTDomainOrWorkgroup ) throws UnknownHostException {
if ( hostname == null || hostname.length() == 0 ) {
throw new UnknownHostException();
}
if ( UniAddress.isDotQuadIP(hostname) ) {
return new UniAddress[] {
new UniAddress(getNbtByName(hostname))
};
}
if ( log.isTraceEnabled() ) {
log.trace("Resolver order is " + this.transportContext.getConfig().getResolveOrder());
}
for ( ResolverType resolver : this.transportContext.getConfig().getResolveOrder() ) {
NetbiosAddress[] addr = null;
try {
switch ( resolver ) {
case RESOLVER_LMHOSTS:
NbtAddress lmaddr;
if ( ( lmaddr = getLmhosts().getByName(hostname, this.transportContext) ) == null ) {
continue;
}
addr = new NetbiosAddress[] {
lmaddr
};
break;
case RESOLVER_WINS:
if ( hostname.equals(NbtAddress.MASTER_BROWSER_NAME) || hostname.length() > 15 ) {
// invalid netbios name
continue;
}
if ( possibleNTDomainOrWorkgroup ) {
addr = lookupServerOrWorkgroup(hostname, getWINSAddress());
}
else {
addr = getNbtAllByName(hostname, 0x20, null, getWINSAddress());
}
break;
case RESOLVER_BCAST:
if ( hostname.length() > 15 ) {
// invalid netbios name
continue;
}
if ( possibleNTDomainOrWorkgroup ) {
addr = lookupServerOrWorkgroup(hostname, this.transportContext.getConfig().getBroadcastAddress());
}
else {
addr = getNbtAllByName(hostname, 0x20, null, this.transportContext.getConfig().getBroadcastAddress());
}
break;
case RESOLVER_DNS:
if ( isAllDigits(hostname) ) {
throw new UnknownHostException(hostname);
}
UniAddress[] addrs = wrapInetAddresses(InetAddress.getAllByName(hostname));
if ( log.isDebugEnabled() ) {
log.debug("Resolved '{}' to {} using DNS", hostname, Arrays.toString(addrs));
}
return addrs; // Success
default:
throw new UnknownHostException(hostname);
}
if ( addr != null ) { // Success
if ( log.isDebugEnabled() ) {
log.debug("Resolved '{}' to addrs {} via {}", hostname, Arrays.toString(addr), resolver);
}
return wrapNetbiosAddresses(addr);
}
}
catch ( IOException ioe ) {
// Failure
log.trace("Resolving {} via {} failed:", hostname, resolver);
log.trace("Exception is", ioe);
}
}
throw new UnknownHostException(hostname);
}
private static UniAddress[] wrapInetAddresses ( InetAddress[] iaddrs ) {
UniAddress[] addrs = new UniAddress[iaddrs.length];
for ( int ii = 0; ii < iaddrs.length; ii++ ) {
addrs[ ii ] = new UniAddress(iaddrs[ ii ]);
}
return addrs;
}
private static UniAddress[] wrapNetbiosAddresses ( NetbiosAddress[] addr ) {
UniAddress[] addrs = new UniAddress[addr.length];
for ( int i = 0; i < addr.length; i++ ) {
addrs[ i ] = new UniAddress(addr[ i ]);
}
return addrs;
}
/**
* {@inheritDoc}
*
* @see jcifs.NameServiceClient#getLocalHost()
*/
@Override
public NbtAddress getLocalHost () {
return this.localhostAddress;
}
/**
* {@inheritDoc}
*
* @see jcifs.NameServiceClient#getLocalName()
*/
@Override
public Name getLocalName () {
if ( this.localhostAddress != null ) {
return this.localhostAddress.hostName;
}
return null;
}
/**
*
* @return lmhosts file used
*/
public Lmhosts getLmhosts () {
return this.lmhosts;
}
/**
* {@inheritDoc}
*
* @see jcifs.NameServiceClient#getUnknownName()
*/
@Override
public Name getUnknownName () {
return this.unknownName;
}
}
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