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Java file server with SMB, FTP/FTPS and NFS support, virtual filesystems, database filesystems

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/*
 * Copyright (C) 2006-2010 Alfresco Software Limited.
 *
 * This file is part of Alfresco
 *
 * Alfresco 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 3 of the License, or
 * (at your option) any later version.
 *
 * Alfresco 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 Alfresco. If not, see .
 */

package org.filesys.smb.server.nio;

import java.io.IOException;
import java.nio.channels.CancelledKeyException;
import java.nio.channels.ClosedChannelException;
import java.nio.channels.SelectionKey;
import java.nio.channels.Selector;
import java.nio.channels.SocketChannel;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;

import org.filesys.debug.Debug;
import org.filesys.server.SrvSessionQueue;
import org.filesys.server.core.NoPooledMemoryException;
import org.filesys.server.thread.ThreadRequest;
import org.filesys.server.thread.ThreadRequestPool;
import org.filesys.smb.server.SMBSrvSession;
import org.filesys.smb.server.SessionState;
import org.filesys.smb.server.VirtualCircuit;
import org.filesys.smb.server.VirtualCircuitList;

/**
 * SMB Request Handler Class
 *
 * 

Handles the receiving of SMB requests for a number of SMB sessions. * * @author gkspencer */ public class SMBRequestHandler extends RequestHandler implements Runnable { // Request handler index, used to generate the thread name private static int _handlerId; // Selector used to monitor a group of socket channels for incoming requests private Selector m_selector; // List of thread requests, used during socket event processing private List m_reqList = new ArrayList(); // Count of the number of selector channels, maintained by the main thread private AtomicInteger m_sessionCount = new AtomicInteger(); // Thread that the request handler runs in private Thread m_thread; // Thread pool for processing requests private ThreadRequestPool m_threadPool; // Queue of sessions that are pending setup with the selector private SrvSessionQueue m_sessQueue; // Client socket session timeout private int m_clientSocketTimeout; // Flag to indicate the idle session reaper should be run by the main thread private AtomicBoolean m_runIdleSessReaper = new AtomicBoolean(); // Shutdown request flag private boolean m_shutdown; /** * Class constructor * * @param threadPool ThreadRequestPool * @param maxSess int * @param sockTmo int * @param debug boolean */ public SMBRequestHandler(ThreadRequestPool threadPool, int maxSess, int sockTmo, boolean debug) { super(maxSess); // Set the thread pool to use for request processing m_threadPool = threadPool; // Set the client socket timeout m_clientSocketTimeout = sockTmo; // Create the session queue m_sessQueue = new SrvSessionQueue(); // Set the debug output enable setDebug(debug); // Start the request handler in a seperate thread m_thread = new Thread(this); m_thread.setName("SMBRequestHandler_" + ++_handlerId); m_thread.setDaemon(false); m_thread.start(); } /** * Return the current session count * * @return int */ public final int getCurrentSessionCount() { return m_sessionCount.get(); } /** * Check if this request handler has free session slots available * * @return boolean */ public final boolean hasFreeSessionSlot() { return (getCurrentSessionCount() + m_sessQueue.numberOfSessions()) < getMaximumSessionCount() ? true : false; } /** * Return the client socket timeout, in milliseconds * * @return int */ public final int getSocketTimeout() { return m_clientSocketTimeout; } /** * Set the client socket timeout, in milliseconds * * @param tmo int */ public final void setSocketTimeout(int tmo) { m_clientSocketTimeout = tmo; } /** * Queue a new session to the request handler, wakeup the request handler thread to register it with the * selector. * * @param sess SMBSrvSession */ public final void queueSessionToHandler(SMBSrvSession sess) { // Add the new session to the pending queue m_sessQueue.addSession(sess); // Wakeup the main thread to process the new session queue if (m_selector != null) m_selector.wakeup(); } /** * Return the request handler name * * @return String */ public final String getName() { if (m_thread != null) return m_thread.getName(); return "SMBRequestHandler"; } /** * Enable/disable thread pool debugging * * @param dbg boolean */ public final void setThreadDebug(boolean dbg) { m_threadPool.setDebug(dbg); } /** * Run the main processing in a seperate thread */ public void run() { // Clear the shutdown flag, may have been restarted m_shutdown = false; // Initialize the socket selector try { // Create the selector m_selector = Selector.open(); } catch (IOException ex) { // DEBUG if (Debug.EnableInfo && hasDebug()) { Debug.println("[SMB] Error opening/registering Selector"); Debug.println(ex); } m_shutdown = true; } // Loop until shutdown while (m_shutdown == false) { try { // Check if there are any sessions registered int sessCnt = 0; m_sessionCount.set(m_selector.keys().size()); if (m_sessionCount.get() == 0) { // Indicate that this request handler has no active sessions fireRequestHandlerEmptyEvent(); // DEBUG if (Debug.EnableInfo && hasDebug()) Debug.println("[SMB] Request handler " + m_thread.getName() + " waiting for session ..."); // Wait for a session to be added to the handler try { m_sessQueue.waitWhileEmpty(); } catch (InterruptedException ex) { } } else { // Wait for client requests try { sessCnt = m_selector.select(); } catch (CancelledKeyException ex) { // DEBUG if (Debug.EnableError && hasDebug() && m_shutdown == false) { Debug.println("[SMB] Request handler error waiting for events"); Debug.println(ex); } } catch (IOException ex) { // DEBUG if (Debug.EnableError && hasDebug()) { Debug.println("[SMB] Request handler error waiting for events"); Debug.println(ex); } } } // Check if the shutdown flag has been set if (m_shutdown == true) continue; // Check if there are any events to process if (sessCnt > 0) { try { // Process the socket events processSocketEvents(); } catch (Throwable ex) { Debug.println(Thread.currentThread().getName() + ": Exception in processSocketEvents()"); Debug.println(ex); } } // Check if there are any new sessions that need to be registered with the selector, or sessions to be removed if (m_sessQueue.numberOfSessions() > 0) { try { // Add new sessions to the selector addNewSockets(); } catch (Throwable ex) { Debug.println(Thread.currentThread().getName() + ": Exception in addNewSockets()"); Debug.println(ex); } } // Check if the idle session reaper should be run to remove stale sessions if (m_runIdleSessReaper.get() == true) { try { // Run the idle session reaper int remCnt = runIdleSessionsReaper(); // DEBUG if (remCnt > 0 && Debug.EnableError && hasDebug()) Debug.println("[SMB] Idle session reaper removed " + remCnt + " sessions"); } catch (Throwable ex) { Debug.println(Thread.currentThread().getName() + ": Exception in runIdleSessionsReaper()"); Debug.println(ex); } } } catch (Throwable ex) { Debug.println(Thread.currentThread().getName() + ": Exception in run() method"); Debug.println(ex); } } // Close all sessions if (m_selector != null) { // Enumerate the selector keys to get the session list Iterator selKeys = m_selector.keys().iterator(); while (selKeys.hasNext()) { // Get the current session via the selection key SelectionKey curKey = selKeys.next(); SMBSrvSession sess = (SMBSrvSession) curKey.attachment(); // Close the session sess.closeSession(); if (Debug.EnableInfo && hasDebug()) Debug.println("[SMB] Closed session, " + sess.getUniqueId() + ", addr=" + sess.getRemoteAddress().getHostAddress()); } // Close the selector try { m_selector.close(); } catch (IOException ex) { if (Debug.EnableInfo && hasDebug()) { Debug.println("[SMB] Error closing Selector"); Debug.println(ex); } } } // DEBUG if (Debug.EnableInfo && hasDebug()) Debug.println("[SMB] Closed SMB request handler, " + m_thread.getName()); } /** * Process socket events, queue sessions/sockets to the thread pool for processing */ private void processSocketEvents() { // DEBUG // if ( Debug.EnableInfo && hasDebug()) // && sessCnt > 1) // Debug.println( "[SMB] Request handler " + m_thread.getName() + " session events, sessCnt=" + sessCnt + "/" + m_selector.keys().size()); // Clear the thread request list m_reqList.clear(); // Iterate the selected keys Iterator keysIter = m_selector.selectedKeys().iterator(); long timeNow = System.currentTimeMillis(); while (keysIter.hasNext()) { // Get the current selection key and check if has an incoming request SelectionKey selKey = keysIter.next(); keysIter.remove(); if (selKey.isValid() == false) { // Remove the selection key Debug.println("SMBRequestHandler: Cancelling selection key - " + selKey); selKey.cancel(); // DEBUG if (Debug.EnableInfo && hasDebug()) Debug.println("[SMB] NIO Selection key not valid, sess=" + selKey.attachment()); } else if (selKey.isReadable()) { // DEBUG // if ( Debug.EnableInfo && hasDebug()) // Debug.println("[SMB] Socket read event"); // Switch off read events for this channel until the current processing is complete selKey.interestOps(selKey.interestOps() & ~SelectionKey.OP_READ); // Get the associated session and queue a request to the thread pool to read and process the SMB request SMBSrvSession sess = (SMBSrvSession) selKey.attachment(); m_reqList.add(new NIOSMBThreadRequest(sess, selKey)); // Update the last I/O time for the session sess.setLastIOTime(timeNow); // Check if there are enough thread requests to be queued if (m_reqList.size() >= 5) { // DEBUG // if ( Debug.EnableInfo && hasDebug()) // Debug.println( "[SMB] Queueing " + reqList.size() + " thread requests"); // Queue the requests to the thread pool m_threadPool.queueRequests(m_reqList); m_reqList.clear(); } } else if (selKey.isValid() == false) { // Remove the selection key Debug.println("SMBRequestHandler: Cancelling selection key - " + selKey); selKey.cancel(); // DEBUG if (Debug.EnableInfo && hasDebug()) Debug.println("[SMB] NIO Selection key not valid, sess=" + selKey.attachment()); } else { // DEBUG if (Debug.EnableInfo && hasDebug()) Debug.println("[SMB] Unprocessed selection key, " + selKey); } } // Queue the thread requests if (m_reqList.size() > 0) { // DEBUG // if ( Debug.EnableInfo && hasDebug()) // && reqList.size() > 1) // Debug.println( "[SMB] Queueing " + reqList.size() + " thread requests (last)"); // Queue the requests to the thread pool m_threadPool.queueRequests(m_reqList); m_reqList.clear(); } } /** * Add new sockets/sessions to the event listener list */ private void addNewSockets() { // Register the new sessions with the selector while (m_sessQueue.numberOfSessions() > 0) { // Get a new session from the queue SMBSrvSession sess = (SMBSrvSession) m_sessQueue.removeSessionNoWait(); if (sess != null) { // Check the session state, if the session is in a setup state it is a new session if (sess.getState() == SessionState.NETBIOS_SESS_REQUEST || sess.getState() == SessionState.SMB_NEGOTIATE) { // DEBUG if (Debug.EnableError && hasDebug()) Debug.println("[SMB] Register session with request handler, handler=" + m_thread.getName() + ", sess=" + sess.getUniqueId()); // Get the socket channel from the sessions packet handler if (sess.getPacketHandler() instanceof ChannelPacketHandler) { // Get the channel packet handler and register the socket channel with the selector ChannelPacketHandler chanPktHandler = (ChannelPacketHandler) sess.getPacketHandler(); SocketChannel sessChannel = chanPktHandler.getSocketChannel(); try { // Register the session channel with the selector sessChannel.configureBlocking(false); sessChannel.register(m_selector, SelectionKey.OP_READ, sess); // Update the last I/O time for the session sess.setLastIOTime(System.currentTimeMillis()); } catch (ClosedChannelException ex) { // DEBUG if (Debug.EnableError && hasDebug()) Debug.println("[SMB] Failed to register session channel, closed channel"); } catch (IOException ex) { // DEBUG if (Debug.EnableError && hasDebug()) Debug.println("[SMB] Failed to set channel blocking mode, " + ex.getMessage()); } } } else { // Remove the session // TODO: } } } } /** * Close the request handler */ public final void closeHandler() { // Check if the thread is running if (m_thread != null) { m_shutdown = true; try { m_thread.interrupt(); if (m_selector != null) m_selector.wakeup(); } catch (Exception ex) { } } } /** * Check for idle sessions * * @return int */ protected final int checkForIdleSessions() { // Set the idle session reaper flag and wakeup the main thread if (m_thread != null && m_selector != null && m_sessionCount.get() > 0) { // Check if the idle session run flag is still set, this indicates that the main thread has hung if (m_runIdleSessReaper.get() == true) { // Main thread appears to have hung, dump out details dumpHandlerDetails(); } // Trigger the idle session reaper m_runIdleSessReaper.set(true); // Wakeup the main selector thread m_selector.wakeup(); } // Indicate no sessions closed, not run yet return 0; } /** * Run the idle session check * * @return int */ private int runIdleSessionsReaper() { // Clear the idle session reaper run flag m_runIdleSessReaper.set(false); // Check if the request handler has any active sessions int idleCnt = 0; if (m_selector != null && m_sessionCount.get() > 0) { // Time to check long checkTime = System.currentTimeMillis() - (long) m_clientSocketTimeout; // Enumerate the selector keys to get the session list Iterator selKeys = m_selector.keys().iterator(); while (selKeys.hasNext()) { // Get the current session via the selection key SelectionKey curKey = selKeys.next(); SMBSrvSession sess = (SMBSrvSession) curKey.attachment(); // Check if the session or any virtual circuits have been idle for longer than the check interval if (sess != null) { // Check the time of the last I/O request on this session if (sess.getLastIOTime() < checkTime || sess.numberOfVirtualCircuits() == 0) { // DEBUG if (Debug.EnableInfo && hasDebug()) Debug.println("[SMB] Closing idle session, " + sess.getUniqueId() + ", addr=" + sess.getRemoteAddressString()); // Close the session sess.closeSession(); sess.processPacket(null); // Update the idle session count idleCnt++; } else { // Check for any idle virtual circuits VirtualCircuitList vcList = sess.getVirtualCircuitList(); Iterator vcIter = vcList.iterator(); List remList = null; while ( vcIter.hasNext()) { // Get the current virtual circuit and check if has been idle too long VirtualCircuit curVC = vcIter.next(); if ( curVC.getLastIOTime() < checkTime) { // Add the virtual circuit id to the list of virtual circuits to be removed // // Cannot remove now as we are iterating the list if ( remList == null) remList = new ArrayList(); remList.add( curVC.getId()); } } // Check if there are any virtual circuits to be removed if ( remList != null) { for ( Integer vcId : remList) { // Get the virtual circuit details VirtualCircuit curVC = sess.findVirtualCircuit( vcId); // DEBUG if (Debug.EnableInfo && hasDebug()) Debug.println("[SMB] Closing idle virtual circuit, sess=" + sess.getUniqueId() + ", VC=" + curVC.getId() + ", client=" + curVC.getClientInformation()); // Remove and close the virtual circuit vcList.removeCircuit( curVC.getId(), sess); } } // Check if there are no remaining virtual circuits on the session if ( sess.numberOfVirtualCircuits() == 0) { // DEBUG if (Debug.EnableInfo && hasDebug()) Debug.println("[SMB] Closing empty session, " + sess.getUniqueId() + ", addr=" + sess.getRemoteAddressString()); // Close the session sess.closeSession(); sess.processPacket(null); // Update the idle session count idleCnt++; } } } } // If any sessions were closed then wakeup the selector thread if (idleCnt > 0) m_selector.wakeup(); } // Return the count of idle sessions that were closed return idleCnt; } /** * Dump the request handler details */ private void dumpHandlerDetails() { // Dump out the request handler details Debug.println("SMBRequestHandler details:"); Debug.println(" Thread: " + m_thread); if (m_thread != null) { Debug.println(" Name : " + m_thread.getName()); Debug.println(" State : " + m_thread.getState()); StackTraceElement[] thStack = m_thread.getStackTrace(); if (thStack != null) { Debug.println(" Stack : "); for (StackTraceElement stElem : thStack) { Debug.println(" " + stElem); } } else Debug.println(" No Stack"); } Debug.println(" Sessions: " + m_sessionCount.get()); Debug.println(" Session Queue: " + m_sessQueue.numberOfSessions()); Debug.println(" Selector: " + m_selector); Debug.println(" ThreadRequestPool: queue=" + m_threadPool.getNumberOfRequests()); Debug.println(" NoPooledMemoryException: count=" + NoPooledMemoryException.getExceptionCounter()); } }





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