branch-0.23.1/hadoop-common-project/hadoop-common/src/test/java/org/apache/hadoop/ipc/TestRPC.java - hadoop - Git at Google

 /**
  * 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.ipc;

 import java.io.IOException;
 import java.net.ConnectException;
 import java.net.InetSocketAddress;
 import java.lang.management.ManagementFactory;
 import java.lang.management.ThreadInfo;
 import java.lang.management.ThreadMXBean;
 import java.lang.reflect.Method;
 import java.util.Arrays;

 import junit.framework.TestCase;

 import org.apache.commons.logging.*;
 import org.apache.hadoop.conf.Configuration;
 import org.apache.hadoop.fs.CommonConfigurationKeys;
 import org.apache.hadoop.io.UTF8;
 import org.apache.hadoop.io.Writable;
 import org.apache.hadoop.metrics2.MetricsRecordBuilder;
 import org.apache.hadoop.net.NetUtils;
 import org.apache.hadoop.security.authorize.AuthorizationException;
 import org.apache.hadoop.security.authorize.PolicyProvider;
 import org.apache.hadoop.security.authorize.Service;
 import org.apache.hadoop.security.AccessControlException;

 import com.google.protobuf.DescriptorProtos;
 import com.google.protobuf.DescriptorProtos.EnumDescriptorProto;

 import static org.apache.hadoop.test.MetricsAsserts.*;

 import static org.mockito.Mockito.*;

 /** Unit tests for RPC. */
 public class TestRPC extends TestCase {
   private static final String ADDRESS = "0.0.0.0";

   public static final Log LOG =
     LogFactory.getLog(TestRPC.class);

   private static Configuration conf = new Configuration();

   int datasize = 1024*100;
   int numThreads = 50;

   public TestRPC(String name) { super(name); }

   public interface TestProtocol extends VersionedProtocol {
     public static final long versionID = 1L;

     void ping() throws IOException;
     void slowPing(boolean shouldSlow) throws IOException;
     String echo(String value) throws IOException;
     String[] echo(String[] value) throws IOException;
     Writable echo(Writable value) throws IOException;
     int add(int v1, int v2) throws IOException;
     int add(int[] values) throws IOException;
     int error() throws IOException;
     void testServerGet() throws IOException;
     int[] exchange(int[] values) throws IOException;

     DescriptorProtos.EnumDescriptorProto exchangeProto(
         DescriptorProtos.EnumDescriptorProto arg);
   }

   public static class TestImpl implements TestProtocol {
     int fastPingCounter = 0;

     public long getProtocolVersion(String protocol, long clientVersion) {
       return TestProtocol.versionID;
     }

     public ProtocolSignature getProtocolSignature(String protocol, long clientVersion,
         int hashcode) {
       return new ProtocolSignature(TestProtocol.versionID, null);
     }

     public void ping() {}

     public synchronized void slowPing(boolean shouldSlow) {
       if (shouldSlow) {
         while (fastPingCounter < 2) {
           try {
           wait();  // slow response until two fast pings happened
           } catch (InterruptedException ignored) {}
         }
         fastPingCounter -= 2;
       } else {
         fastPingCounter++;
         notify();
       }
     }

     public String echo(String value) throws IOException { return value; }

     public String[] echo(String[] values) throws IOException { return values; }

     public Writable echo(Writable writable) {
       return writable;
     }
     public int add(int v1, int v2) {
       return v1 + v2;
     }

     public int add(int[] values) {
       int sum = 0;
       for (int i = 0; i < values.length; i++) {
         sum += values[i];
       }
       return sum;
     }

     public int error() throws IOException {
       throw new IOException("bobo");
     }

     public void testServerGet() throws IOException {
       if (!(Server.get() instanceof RPC.Server)) {
         throw new IOException("Server.get() failed");
       }
     }

     public int[] exchange(int[] values) {
       for (int i = 0; i < values.length; i++) {
         values[i] = i;
       }
       return values;
     }

     @Override
     public EnumDescriptorProto exchangeProto(EnumDescriptorProto arg) {
       return arg;
     }
   }

   //
   // an object that does a bunch of transactions
   //
   static class Transactions implements Runnable {
     int datasize;
     TestProtocol proxy;

     Transactions(TestProtocol proxy, int datasize) {
       this.proxy = proxy;
       this.datasize = datasize;
     }

     // do two RPC that transfers data.
     public void run() {
       int[] indata = new int[datasize];
       int[] outdata = null;
       int val = 0;
       try {
         outdata = proxy.exchange(indata);
         val = proxy.add(1,2);
       } catch (IOException e) {
         assertTrue("Exception from RPC exchange() "  + e, false);
       }
       assertEquals(indata.length, outdata.length);
       assertEquals(val, 3);
       for (int i = 0; i < outdata.length; i++) {
         assertEquals(outdata[i], i);
       }
     }
   }

   //
   // A class that does an RPC but does not read its response.
   //
   static class SlowRPC implements Runnable {
     private TestProtocol proxy;
     private volatile boolean done;

     SlowRPC(TestProtocol proxy) {
       this.proxy = proxy;
       done = false;
     }

     boolean isDone() {
       return done;
     }

     public void run() {
       try {
         proxy.slowPing(true);   // this would hang until two fast pings happened
         done = true;
       } catch (IOException e) {
         assertTrue("SlowRPC ping exception " + e, false);
       }
     }
   }

   public void testConfRpc() throws Exception {
     Server server = RPC.getServer(TestProtocol.class,
                                   new TestImpl(), ADDRESS, 0, 1, false, conf, null);
     // Just one handler
     int confQ = conf.getInt(
               CommonConfigurationKeys.IPC_SERVER_HANDLER_QUEUE_SIZE_KEY,
               CommonConfigurationKeys.IPC_SERVER_HANDLER_QUEUE_SIZE_DEFAULT);
     assertEquals(confQ, server.getMaxQueueSize());

     int confReaders = conf.getInt(
               CommonConfigurationKeys.IPC_SERVER_RPC_READ_THREADS_KEY,
               CommonConfigurationKeys.IPC_SERVER_RPC_READ_THREADS_DEFAULT);
     assertEquals(confReaders, server.getNumReaders());
     server.stop();

     server = RPC.getServer(TestProtocol.class,
                                   new TestImpl(), ADDRESS, 0, 1, 3, 200, false, conf, null);
     assertEquals(3, server.getNumReaders());
     assertEquals(200, server.getMaxQueueSize());
     server.stop();
   }

   public void testSlowRpc() throws Exception {
     System.out.println("Testing Slow RPC");
     // create a server with two handlers
     Server server = RPC.getServer(TestProtocol.class,
                                   new TestImpl(), ADDRESS, 0, 2, false, conf, null);
     TestProtocol proxy = null;

     try {
     server.start();

     InetSocketAddress addr = NetUtils.getConnectAddress(server);

     // create a client
     proxy = (TestProtocol)RPC.getProxy(
         TestProtocol.class, TestProtocol.versionID, addr, conf);

     SlowRPC slowrpc = new SlowRPC(proxy);
     Thread thread = new Thread(slowrpc, "SlowRPC");
     thread.start(); // send a slow RPC, which won't return until two fast pings
     assertTrue("Slow RPC should not have finished1.", !slowrpc.isDone());

     proxy.slowPing(false); // first fast ping

     // verify that the first RPC is still stuck
     assertTrue("Slow RPC should not have finished2.", !slowrpc.isDone());

     proxy.slowPing(false); // second fast ping

     // Now the slow ping should be able to be executed
     while (!slowrpc.isDone()) {
       System.out.println("Waiting for slow RPC to get done.");
       try {
         Thread.sleep(1000);
       } catch (InterruptedException e) {}
     }
     } finally {
       server.stop();
       if (proxy != null) {
         RPC.stopProxy(proxy);
       }
       System.out.println("Down slow rpc testing");
     }
   }

   public void testRPCConf(Configuration conf) throws Exception {

   }

   public void testCalls(Configuration conf) throws Exception {
     Server server = RPC.getServer(TestProtocol.class,
                                   new TestImpl(), ADDRESS, 0, conf);
     TestProtocol proxy = null;
     try {
     server.start();

     InetSocketAddress addr = NetUtils.getConnectAddress(server);
     proxy = (TestProtocol)RPC.getProxy(
         TestProtocol.class, TestProtocol.versionID, addr, conf);

     proxy.ping();

     String stringResult = proxy.echo("foo");
     assertEquals(stringResult, "foo");

     stringResult = proxy.echo((String)null);
     assertEquals(stringResult, null);

     // Check rpcMetrics
     MetricsRecordBuilder rb = getMetrics(server.rpcMetrics.name());
     assertCounter("RpcProcessingTimeNumOps", 3L, rb);
     assertCounterGt("SentBytes", 0L, rb);
     assertCounterGt("ReceivedBytes", 0L, rb);

     // Number of calls to echo method should be 2
     rb = getMetrics(server.rpcDetailedMetrics.name());
     assertCounter("EchoNumOps", 2L, rb);

     // Number of calls to ping method should be 1
     assertCounter("PingNumOps", 1L, rb);

     String[] stringResults = proxy.echo(new String[]{"foo","bar"});
     assertTrue(Arrays.equals(stringResults, new String[]{"foo","bar"}));

     stringResults = proxy.echo((String[])null);
     assertTrue(Arrays.equals(stringResults, null));

     UTF8 utf8Result = (UTF8)proxy.echo(new UTF8("hello world"));
     assertEquals(utf8Result, new UTF8("hello world"));

     utf8Result = (UTF8)proxy.echo((UTF8)null);
     assertEquals(utf8Result, null);

     int intResult = proxy.add(1, 2);
     assertEquals(intResult, 3);

     intResult = proxy.add(new int[] {1, 2});
     assertEquals(intResult, 3);

     // Test protobufs
     EnumDescriptorProto sendProto =
       EnumDescriptorProto.newBuilder().setName("test").build();
     EnumDescriptorProto retProto = proxy.exchangeProto(sendProto);
     assertEquals(sendProto, retProto);
     assertNotSame(sendProto, retProto);

     boolean caught = false;
     try {
       proxy.error();
     } catch (IOException e) {
       if(LOG.isDebugEnabled()) {
         LOG.debug("Caught " + e);
       }
       caught = true;
     }
     assertTrue(caught);

     proxy.testServerGet();

     // create multiple threads and make them do large data transfers
     System.out.println("Starting multi-threaded RPC test...");
     server.setSocketSendBufSize(1024);
     Thread threadId[] = new Thread[numThreads];
     for (int i = 0; i < numThreads; i++) {
       Transactions trans = new Transactions(proxy, datasize);
       threadId[i] = new Thread(trans, "TransactionThread-" + i);
       threadId[i].start();
     }

     // wait for all transactions to get over
     System.out.println("Waiting for all threads to finish RPCs...");
     for (int i = 0; i < numThreads; i++) {
       try {
         threadId[i].join();
       } catch (InterruptedException e) {
         i--;      // retry
       }
     }

     // try some multi-calls
     Method echo =
       TestProtocol.class.getMethod("echo", new Class[] { String.class });
     String[] strings = (String[])RPC.call(echo, new String[][]{{"a"},{"b"}},
                                           new InetSocketAddress[] {addr, addr}, conf);
     assertTrue(Arrays.equals(strings, new String[]{"a","b"}));

     Method ping = TestProtocol.class.getMethod("ping", new Class[] {});
     Object[] voids = RPC.call(ping, new Object[][]{{},{}},
                               new InetSocketAddress[] {addr, addr}, conf);
     assertEquals(voids, null);
     } finally {
       server.stop();
       if(proxy!=null) RPC.stopProxy(proxy);
     }
   }

   public void testStandaloneClient() throws IOException {
     try {
       TestProtocol proxy = RPC.waitForProxy(TestProtocol.class,
         TestProtocol.versionID, new InetSocketAddress(ADDRESS, 20), conf, 15000L);
       proxy.echo("");
       fail("We should not have reached here");
     } catch (ConnectException ioe) {
       //this is what we expected
     }
   }

   private static final String ACL_CONFIG = "test.protocol.acl";

   private static class TestPolicyProvider extends PolicyProvider {

     @Override
     public Service[] getServices() {
       return new Service[] { new Service(ACL_CONFIG, TestProtocol.class) };
     }

   }

   private void doRPCs(Configuration conf, boolean expectFailure) throws Exception {
     Server server = RPC.getServer(TestProtocol.class,
                                   new TestImpl(), ADDRESS, 0, 5, true, conf, null);

     server.refreshServiceAcl(conf, new TestPolicyProvider());

     TestProtocol proxy = null;

     server.start();

     InetSocketAddress addr = NetUtils.getConnectAddress(server);

     try {
       proxy = (TestProtocol)RPC.getProxy(
           TestProtocol.class, TestProtocol.versionID, addr, conf);
       proxy.ping();

       if (expectFailure) {
         fail("Expect RPC.getProxy to fail with AuthorizationException!");
       }
     } catch (RemoteException e) {
       if (expectFailure) {
         assertTrue(e.unwrapRemoteException() instanceof AuthorizationException);
       } else {
         throw e;
       }
     } finally {
       server.stop();
       if (proxy != null) {
         RPC.stopProxy(proxy);
       }
       MetricsRecordBuilder rb = getMetrics(server.rpcMetrics.name());
       if (expectFailure) {
         assertCounter("RpcAuthorizationFailures", 1, rb);
       } else {
         assertCounter("RpcAuthorizationSuccesses", 1, rb);
       }
       //since we don't have authentication turned ON, we should see
       // 0 for the authentication successes and 0 for failure
       assertCounter("RpcAuthenticationFailures", 0, rb);
       assertCounter("RpcAuthenticationSuccesses", 0, rb);
     }
   }

   public void testAuthorization() throws Exception {
     Configuration conf = new Configuration();
     conf.setBoolean(CommonConfigurationKeys.HADOOP_SECURITY_AUTHORIZATION,
         true);

     // Expect to succeed
     conf.set(ACL_CONFIG, "*");
     doRPCs(conf, false);

     // Reset authorization to expect failure
     conf.set(ACL_CONFIG, "invalid invalid");
     doRPCs(conf, true);

     conf.setInt(CommonConfigurationKeys.IPC_SERVER_RPC_READ_THREADS_KEY, 2);
     // Expect to succeed
     conf.set(ACL_CONFIG, "*");
     doRPCs(conf, false);

     // Reset authorization to expect failure
     conf.set(ACL_CONFIG, "invalid invalid");
     doRPCs(conf, true);
   }

   /**
    * Switch off setting socketTimeout values on RPC sockets.
    * Verify that RPC calls still work ok.
    */
   public void testNoPings() throws Exception {
     Configuration conf = new Configuration();

     conf.setBoolean("ipc.client.ping", false);
     new TestRPC("testnoPings").testCalls(conf);

     conf.setInt(CommonConfigurationKeys.IPC_SERVER_RPC_READ_THREADS_KEY, 2);
     new TestRPC("testnoPings").testCalls(conf);
   }

   /**
    * Test stopping a non-registered proxy
    * @throws Exception
    */
   public void testStopNonRegisteredProxy() throws Exception {
     RPC.stopProxy(mock(TestProtocol.class));
   }

   public void testErrorMsgForInsecureClient() throws Exception {
     final Server server = RPC.getServer(TestProtocol.class,
         new TestImpl(), ADDRESS, 0, 5, true, conf, null);
     server.enableSecurity();
     server.start();
     boolean succeeded = false;
     final InetSocketAddress addr = NetUtils.getConnectAddress(server);
     TestProtocol proxy = null;
     try {
       proxy = (TestProtocol) RPC.getProxy(TestProtocol.class,
           TestProtocol.versionID, addr, conf);
       proxy.echo("");
     } catch (RemoteException e) {
       LOG.info("LOGGING MESSAGE: " + e.getLocalizedMessage());
       assertTrue(e.unwrapRemoteException() instanceof AccessControlException);
       succeeded = true;
     } finally {
       server.stop();
       if (proxy != null) {
         RPC.stopProxy(proxy);
       }
     }
     assertTrue(succeeded);

     conf.setInt(CommonConfigurationKeys.IPC_SERVER_RPC_READ_THREADS_KEY, 2);

     final Server multiServer = RPC.getServer(TestProtocol.class,
         new TestImpl(), ADDRESS, 0, 5, true, conf, null);
     multiServer.enableSecurity();
     multiServer.start();
     succeeded = false;
     final InetSocketAddress mulitServerAddr =
                       NetUtils.getConnectAddress(multiServer);
     proxy = null;
     try {
       proxy = (TestProtocol) RPC.getProxy(TestProtocol.class,
           TestProtocol.versionID, mulitServerAddr, conf);
       proxy.echo("");
     } catch (RemoteException e) {
       LOG.info("LOGGING MESSAGE: " + e.getLocalizedMessage());
       assertTrue(e.unwrapRemoteException() instanceof AccessControlException);
       succeeded = true;
     } finally {
       multiServer.stop();
       if (proxy != null) {
         RPC.stopProxy(proxy);
       }
     }
     assertTrue(succeeded);
   }

   /**
    * Count the number of threads that have a stack frame containing
    * the given string
    */
   private static int countThreads(String search) {
     ThreadMXBean threadBean = ManagementFactory.getThreadMXBean();

     int count = 0;
     ThreadInfo[] infos = threadBean.getThreadInfo(threadBean.getAllThreadIds(), 20);
     for (ThreadInfo info : infos) {
       if (info == null) continue;
       for (StackTraceElement elem : info.getStackTrace()) {
         if (elem.getClassName().contains(search)) {
           count++;
           break;
         }
       }
     }
     return count;
   }


   /**
    * Test that server.stop() properly stops all threads
    */
   public void testStopsAllThreads() throws Exception {
     int threadsBefore = countThreads("Server$Listener$Reader");
     assertEquals("Expect no Reader threads running before test",
       0, threadsBefore);

     final Server server = RPC.getServer(TestProtocol.class,
         new TestImpl(), ADDRESS, 0, 5, true, conf, null);
     server.start();
     try {
       int threadsRunning = countThreads("Server$Listener$Reader");
       assertTrue(threadsRunning > 0);
     } finally {
       server.stop();
     }
     int threadsAfter = countThreads("Server$Listener$Reader");
     assertEquals("Expect no Reader threads left running after test",
       0, threadsAfter);
   }

   public static void main(String[] args) throws Exception {

     new TestRPC("test").testCalls(conf);

   }
 }
	/**
	* 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.ipc;

	import java.io.IOException;
	import java.net.ConnectException;
	import java.net.InetSocketAddress;
	import java.lang.management.ManagementFactory;
	import java.lang.management.ThreadInfo;
	import java.lang.management.ThreadMXBean;
	import java.lang.reflect.Method;
	import java.util.Arrays;

	import junit.framework.TestCase;

	import org.apache.commons.logging.*;
	import org.apache.hadoop.conf.Configuration;
	import org.apache.hadoop.fs.CommonConfigurationKeys;
	import org.apache.hadoop.io.UTF8;
	import org.apache.hadoop.io.Writable;
	import org.apache.hadoop.metrics2.MetricsRecordBuilder;
	import org.apache.hadoop.net.NetUtils;
	import org.apache.hadoop.security.authorize.AuthorizationException;
	import org.apache.hadoop.security.authorize.PolicyProvider;
	import org.apache.hadoop.security.authorize.Service;
	import org.apache.hadoop.security.AccessControlException;

	import com.google.protobuf.DescriptorProtos;
	import com.google.protobuf.DescriptorProtos.EnumDescriptorProto;

	import static org.apache.hadoop.test.MetricsAsserts.*;

	import static org.mockito.Mockito.*;

	/** Unit tests for RPC. */
	public class TestRPC extends TestCase {
	private static final String ADDRESS = "0.0.0.0";

	public static final Log LOG =
	LogFactory.getLog(TestRPC.class);

	private static Configuration conf = new Configuration();

	int datasize = 1024*100;
	int numThreads = 50;

	public TestRPC(String name) { super(name); }

	public interface TestProtocol extends VersionedProtocol {
	public static final long versionID = 1L;

	void ping() throws IOException;
	void slowPing(boolean shouldSlow) throws IOException;
	String echo(String value) throws IOException;
	String[] echo(String[] value) throws IOException;
	Writable echo(Writable value) throws IOException;
	int add(int v1, int v2) throws IOException;
	int add(int[] values) throws IOException;
	int error() throws IOException;
	void testServerGet() throws IOException;
	int[] exchange(int[] values) throws IOException;

	DescriptorProtos.EnumDescriptorProto exchangeProto(
	DescriptorProtos.EnumDescriptorProto arg);
	}

	public static class TestImpl implements TestProtocol {
	int fastPingCounter = 0;

	public long getProtocolVersion(String protocol, long clientVersion) {
	return TestProtocol.versionID;
	}

	public ProtocolSignature getProtocolSignature(String protocol, long clientVersion,
	int hashcode) {
	return new ProtocolSignature(TestProtocol.versionID, null);
	}

	public void ping() {}

	public synchronized void slowPing(boolean shouldSlow) {
	if (shouldSlow) {
	while (fastPingCounter < 2) {
	try {
	wait(); // slow response until two fast pings happened
	} catch (InterruptedException ignored) {}
	}
	fastPingCounter -= 2;
	} else {
	fastPingCounter++;
	notify();
	}
	}

	public String echo(String value) throws IOException { return value; }

	public String[] echo(String[] values) throws IOException { return values; }

	public Writable echo(Writable writable) {
	return writable;
	}
	public int add(int v1, int v2) {
	return v1 + v2;
	}

	public int add(int[] values) {
	int sum = 0;
	for (int i = 0; i < values.length; i++) {
	sum += values[i];
	}
	return sum;
	}

	public int error() throws IOException {
	throw new IOException("bobo");
	}

	public void testServerGet() throws IOException {
	if (!(Server.get() instanceof RPC.Server)) {
	throw new IOException("Server.get() failed");
	}
	}

	public int[] exchange(int[] values) {
	for (int i = 0; i < values.length; i++) {
	values[i] = i;
	}
	return values;
	}

	@Override
	public EnumDescriptorProto exchangeProto(EnumDescriptorProto arg) {
	return arg;
	}
	}

	//
	// an object that does a bunch of transactions
	//
	static class Transactions implements Runnable {
	int datasize;
	TestProtocol proxy;

	Transactions(TestProtocol proxy, int datasize) {
	this.proxy = proxy;
	this.datasize = datasize;
	}

	// do two RPC that transfers data.
	public void run() {
	int[] indata = new int[datasize];
	int[] outdata = null;
	int val = 0;
	try {
	outdata = proxy.exchange(indata);
	val = proxy.add(1,2);
	} catch (IOException e) {
	assertTrue("Exception from RPC exchange() " + e, false);
	}
	assertEquals(indata.length, outdata.length);
	assertEquals(val, 3);
	for (int i = 0; i < outdata.length; i++) {
	assertEquals(outdata[i], i);
	}
	}
	}

	//
	// A class that does an RPC but does not read its response.
	//
	static class SlowRPC implements Runnable {
	private TestProtocol proxy;
	private volatile boolean done;

	SlowRPC(TestProtocol proxy) {
	this.proxy = proxy;
	done = false;
	}

	boolean isDone() {
	return done;
	}

	public void run() {
	try {
	proxy.slowPing(true); // this would hang until two fast pings happened
	done = true;
	} catch (IOException e) {
	assertTrue("SlowRPC ping exception " + e, false);
	}
	}
	}

	public void testConfRpc() throws Exception {
	Server server = RPC.getServer(TestProtocol.class,
	new TestImpl(), ADDRESS, 0, 1, false, conf, null);
	// Just one handler
	int confQ = conf.getInt(
	CommonConfigurationKeys.IPC_SERVER_HANDLER_QUEUE_SIZE_KEY,
	CommonConfigurationKeys.IPC_SERVER_HANDLER_QUEUE_SIZE_DEFAULT);
	assertEquals(confQ, server.getMaxQueueSize());

	int confReaders = conf.getInt(
	CommonConfigurationKeys.IPC_SERVER_RPC_READ_THREADS_KEY,
	CommonConfigurationKeys.IPC_SERVER_RPC_READ_THREADS_DEFAULT);
	assertEquals(confReaders, server.getNumReaders());
	server.stop();

	server = RPC.getServer(TestProtocol.class,
	new TestImpl(), ADDRESS, 0, 1, 3, 200, false, conf, null);
	assertEquals(3, server.getNumReaders());
	assertEquals(200, server.getMaxQueueSize());
	server.stop();
	}

	public void testSlowRpc() throws Exception {
	System.out.println("Testing Slow RPC");
	// create a server with two handlers
	Server server = RPC.getServer(TestProtocol.class,
	new TestImpl(), ADDRESS, 0, 2, false, conf, null);
	TestProtocol proxy = null;

	try {
	server.start();

	InetSocketAddress addr = NetUtils.getConnectAddress(server);

	// create a client
	proxy = (TestProtocol)RPC.getProxy(
	TestProtocol.class, TestProtocol.versionID, addr, conf);

	SlowRPC slowrpc = new SlowRPC(proxy);
	Thread thread = new Thread(slowrpc, "SlowRPC");
	thread.start(); // send a slow RPC, which won't return until two fast pings
	assertTrue("Slow RPC should not have finished1.", !slowrpc.isDone());

	proxy.slowPing(false); // first fast ping

	// verify that the first RPC is still stuck
	assertTrue("Slow RPC should not have finished2.", !slowrpc.isDone());

	proxy.slowPing(false); // second fast ping

	// Now the slow ping should be able to be executed
	while (!slowrpc.isDone()) {
	System.out.println("Waiting for slow RPC to get done.");
	try {
	Thread.sleep(1000);
	} catch (InterruptedException e) {}
	}
	} finally {
	server.stop();
	if (proxy != null) {
	RPC.stopProxy(proxy);
	}
	System.out.println("Down slow rpc testing");
	}
	}

	public void testRPCConf(Configuration conf) throws Exception {

	}

	public void testCalls(Configuration conf) throws Exception {
	Server server = RPC.getServer(TestProtocol.class,
	new TestImpl(), ADDRESS, 0, conf);
	TestProtocol proxy = null;
	try {
	server.start();

	InetSocketAddress addr = NetUtils.getConnectAddress(server);
	proxy = (TestProtocol)RPC.getProxy(
	TestProtocol.class, TestProtocol.versionID, addr, conf);

	proxy.ping();

	String stringResult = proxy.echo("foo");
	assertEquals(stringResult, "foo");

	stringResult = proxy.echo((String)null);
	assertEquals(stringResult, null);

	// Check rpcMetrics
	MetricsRecordBuilder rb = getMetrics(server.rpcMetrics.name());
	assertCounter("RpcProcessingTimeNumOps", 3L, rb);
	assertCounterGt("SentBytes", 0L, rb);
	assertCounterGt("ReceivedBytes", 0L, rb);

	// Number of calls to echo method should be 2
	rb = getMetrics(server.rpcDetailedMetrics.name());
	assertCounter("EchoNumOps", 2L, rb);

	// Number of calls to ping method should be 1
	assertCounter("PingNumOps", 1L, rb);

	String[] stringResults = proxy.echo(new String[]{"foo","bar"});
	assertTrue(Arrays.equals(stringResults, new String[]{"foo","bar"}));

	stringResults = proxy.echo((String[])null);
	assertTrue(Arrays.equals(stringResults, null));

	UTF8 utf8Result = (UTF8)proxy.echo(new UTF8("hello world"));
	assertEquals(utf8Result, new UTF8("hello world"));

	utf8Result = (UTF8)proxy.echo((UTF8)null);
	assertEquals(utf8Result, null);

	int intResult = proxy.add(1, 2);
	assertEquals(intResult, 3);

	intResult = proxy.add(new int[] {1, 2});
	assertEquals(intResult, 3);

	// Test protobufs
	EnumDescriptorProto sendProto =
	EnumDescriptorProto.newBuilder().setName("test").build();
	EnumDescriptorProto retProto = proxy.exchangeProto(sendProto);
	assertEquals(sendProto, retProto);
	assertNotSame(sendProto, retProto);

	boolean caught = false;
	try {
	proxy.error();
	} catch (IOException e) {
	if(LOG.isDebugEnabled()) {
	LOG.debug("Caught " + e);
	}
	caught = true;
	}
	assertTrue(caught);

	proxy.testServerGet();

	// create multiple threads and make them do large data transfers
	System.out.println("Starting multi-threaded RPC test...");
	server.setSocketSendBufSize(1024);
	Thread threadId[] = new Thread[numThreads];
	for (int i = 0; i < numThreads; i++) {
	Transactions trans = new Transactions(proxy, datasize);
	threadId[i] = new Thread(trans, "TransactionThread-" + i);
	threadId[i].start();
	}

	// wait for all transactions to get over
	System.out.println("Waiting for all threads to finish RPCs...");
	for (int i = 0; i < numThreads; i++) {
	try {
	threadId[i].join();
	} catch (InterruptedException e) {
	i--; // retry
	}
	}

	// try some multi-calls
	Method echo =
	TestProtocol.class.getMethod("echo", new Class[] { String.class });
	String[] strings = (String[])RPC.call(echo, new String[][]{{"a"},{"b"}},
	new InetSocketAddress[] {addr, addr}, conf);
	assertTrue(Arrays.equals(strings, new String[]{"a","b"}));

	Method ping = TestProtocol.class.getMethod("ping", new Class[] {});
	Object[] voids = RPC.call(ping, new Object[][]{{},{}},
	new InetSocketAddress[] {addr, addr}, conf);
	assertEquals(voids, null);
	} finally {
	server.stop();
	if(proxy!=null) RPC.stopProxy(proxy);
	}
	}

	public void testStandaloneClient() throws IOException {
	try {
	TestProtocol proxy = RPC.waitForProxy(TestProtocol.class,
	TestProtocol.versionID, new InetSocketAddress(ADDRESS, 20), conf, 15000L);
	proxy.echo("");
	fail("We should not have reached here");
	} catch (ConnectException ioe) {
	//this is what we expected
	}
	}

	private static final String ACL_CONFIG = "test.protocol.acl";

	private static class TestPolicyProvider extends PolicyProvider {

	@Override
	public Service[] getServices() {
	return new Service[] { new Service(ACL_CONFIG, TestProtocol.class) };
	}

	}

	private void doRPCs(Configuration conf, boolean expectFailure) throws Exception {
	Server server = RPC.getServer(TestProtocol.class,
	new TestImpl(), ADDRESS, 0, 5, true, conf, null);

	server.refreshServiceAcl(conf, new TestPolicyProvider());

	TestProtocol proxy = null;

	server.start();

	InetSocketAddress addr = NetUtils.getConnectAddress(server);

	try {
	proxy = (TestProtocol)RPC.getProxy(
	TestProtocol.class, TestProtocol.versionID, addr, conf);
	proxy.ping();

	if (expectFailure) {
	fail("Expect RPC.getProxy to fail with AuthorizationException!");
	}
	} catch (RemoteException e) {
	if (expectFailure) {
	assertTrue(e.unwrapRemoteException() instanceof AuthorizationException);
	} else {
	throw e;
	}
	} finally {
	server.stop();
	if (proxy != null) {
	RPC.stopProxy(proxy);
	}
	MetricsRecordBuilder rb = getMetrics(server.rpcMetrics.name());
	if (expectFailure) {
	assertCounter("RpcAuthorizationFailures", 1, rb);
	} else {
	assertCounter("RpcAuthorizationSuccesses", 1, rb);
	}
	//since we don't have authentication turned ON, we should see
	// 0 for the authentication successes and 0 for failure
	assertCounter("RpcAuthenticationFailures", 0, rb);
	assertCounter("RpcAuthenticationSuccesses", 0, rb);
	}
	}

	public void testAuthorization() throws Exception {
	Configuration conf = new Configuration();
	conf.setBoolean(CommonConfigurationKeys.HADOOP_SECURITY_AUTHORIZATION,
	true);

	// Expect to succeed
	conf.set(ACL_CONFIG, "*");
	doRPCs(conf, false);

	// Reset authorization to expect failure
	conf.set(ACL_CONFIG, "invalid invalid");
	doRPCs(conf, true);

	conf.setInt(CommonConfigurationKeys.IPC_SERVER_RPC_READ_THREADS_KEY, 2);
	// Expect to succeed
	conf.set(ACL_CONFIG, "*");
	doRPCs(conf, false);

	// Reset authorization to expect failure
	conf.set(ACL_CONFIG, "invalid invalid");
	doRPCs(conf, true);
	}

	/**
	* Switch off setting socketTimeout values on RPC sockets.
	* Verify that RPC calls still work ok.
	*/
	public void testNoPings() throws Exception {
	Configuration conf = new Configuration();

	conf.setBoolean("ipc.client.ping", false);
	new TestRPC("testnoPings").testCalls(conf);

	conf.setInt(CommonConfigurationKeys.IPC_SERVER_RPC_READ_THREADS_KEY, 2);
	new TestRPC("testnoPings").testCalls(conf);
	}

	/**
	* Test stopping a non-registered proxy
	* @throws Exception
	*/
	public void testStopNonRegisteredProxy() throws Exception {
	RPC.stopProxy(mock(TestProtocol.class));
	}

	public void testErrorMsgForInsecureClient() throws Exception {
	final Server server = RPC.getServer(TestProtocol.class,
	new TestImpl(), ADDRESS, 0, 5, true, conf, null);
	server.enableSecurity();
	server.start();
	boolean succeeded = false;
	final InetSocketAddress addr = NetUtils.getConnectAddress(server);
	TestProtocol proxy = null;
	try {
	proxy = (TestProtocol) RPC.getProxy(TestProtocol.class,
	TestProtocol.versionID, addr, conf);
	proxy.echo("");
	} catch (RemoteException e) {
	LOG.info("LOGGING MESSAGE: " + e.getLocalizedMessage());
	assertTrue(e.unwrapRemoteException() instanceof AccessControlException);
	succeeded = true;
	} finally {
	server.stop();
	if (proxy != null) {
	RPC.stopProxy(proxy);
	}
	}
	assertTrue(succeeded);

	conf.setInt(CommonConfigurationKeys.IPC_SERVER_RPC_READ_THREADS_KEY, 2);

	final Server multiServer = RPC.getServer(TestProtocol.class,
	new TestImpl(), ADDRESS, 0, 5, true, conf, null);
	multiServer.enableSecurity();
	multiServer.start();
	succeeded = false;
	final InetSocketAddress mulitServerAddr =
	NetUtils.getConnectAddress(multiServer);
	proxy = null;
	try {
	proxy = (TestProtocol) RPC.getProxy(TestProtocol.class,
	TestProtocol.versionID, mulitServerAddr, conf);
	proxy.echo("");
	} catch (RemoteException e) {
	LOG.info("LOGGING MESSAGE: " + e.getLocalizedMessage());
	assertTrue(e.unwrapRemoteException() instanceof AccessControlException);
	succeeded = true;
	} finally {
	multiServer.stop();
	if (proxy != null) {
	RPC.stopProxy(proxy);
	}
	}
	assertTrue(succeeded);
	}

	/**
	* Count the number of threads that have a stack frame containing
	* the given string
	*/
	private static int countThreads(String search) {
	ThreadMXBean threadBean = ManagementFactory.getThreadMXBean();

	int count = 0;
	ThreadInfo[] infos = threadBean.getThreadInfo(threadBean.getAllThreadIds(), 20);
	for (ThreadInfo info : infos) {
	if (info == null) continue;
	for (StackTraceElement elem : info.getStackTrace()) {
	if (elem.getClassName().contains(search)) {
	count++;
	break;
	}
	}
	}
	return count;
	}


	/**
	* Test that server.stop() properly stops all threads
	*/
	public void testStopsAllThreads() throws Exception {
	int threadsBefore = countThreads("Server$Listener$Reader");
	assertEquals("Expect no Reader threads running before test",
	0, threadsBefore);

	final Server server = RPC.getServer(TestProtocol.class,
	new TestImpl(), ADDRESS, 0, 5, true, conf, null);
	server.start();
	try {
	int threadsRunning = countThreads("Server$Listener$Reader");
	assertTrue(threadsRunning > 0);
	} finally {
	server.stop();
	}
	int threadsAfter = countThreads("Server$Listener$Reader");
	assertEquals("Expect no Reader threads left running after test",
	0, threadsAfter);
	}

	public static void main(String[] args) throws Exception {

	new TestRPC("test").testCalls(conf);

	}
	}