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//
//  ========================================================================
//  Copyright (c) 1995-2013 Mort Bay Consulting Pty. Ltd.
//  ------------------------------------------------------------------------
//  All rights reserved. This program and the accompanying materials
//  are made available under the terms of the Eclipse Public License v1.0
//  and Apache License v2.0 which accompanies this distribution.
//
//      The Eclipse Public License is available at
//      http://www.eclipse.org/legal/epl-v10.html
//
//      The Apache License v2.0 is available at
//      http://www.opensource.org/licenses/apache2.0.php
//
//  You may elect to redistribute this code under either of these licenses.
//  ========================================================================
//

package org.eclipse.jetty.io;

import java.io.IOException;
import java.nio.ByteBuffer;
import java.nio.channels.ClosedChannelException;
import java.nio.channels.WritePendingException;
import java.util.EnumMap;
import java.util.EnumSet;
import java.util.Set;
import java.util.concurrent.atomic.AtomicReference;

import org.eclipse.jetty.util.BufferUtil;
import org.eclipse.jetty.util.Callback;
import org.eclipse.jetty.util.log.Log;
import org.eclipse.jetty.util.log.Logger;


/**
 * A Utility class to help implement {@link EndPoint#write(Callback, ByteBuffer...)} by calling
 * {@link EndPoint#flush(ByteBuffer...)} until all content is written.
 * The abstract method {@link #onIncompleteFlushed()} is called when not all content has been written after a call to
 * flush and should organise for the {@link #completeWrite()} method to be called when a subsequent call to flush
 * should  be able to make more progress.
 * 

*/ abstract public class WriteFlusher { private static final Logger LOG = Log.getLogger(WriteFlusher.class); private static final boolean DEBUG = LOG.isDebugEnabled(); // Easy for the compiler to remove the code if DEBUG==false private static final ByteBuffer[] EMPTY_BUFFERS = new ByteBuffer[0]; private static final EnumMap> __stateTransitions = new EnumMap<>(StateType.class); private static final State __IDLE = new IdleState(); private static final State __WRITING = new WritingState(); private static final State __COMPLETING = new CompletingState(); private final EndPoint _endPoint; private final AtomicReference _state = new AtomicReference<>(); static { // fill the state machine __stateTransitions.put(StateType.IDLE, EnumSet.of(StateType.WRITING)); __stateTransitions.put(StateType.WRITING, EnumSet.of(StateType.IDLE, StateType.PENDING, StateType.FAILED)); __stateTransitions.put(StateType.PENDING, EnumSet.of(StateType.COMPLETING,StateType.IDLE)); __stateTransitions.put(StateType.COMPLETING, EnumSet.of(StateType.IDLE, StateType.PENDING, StateType.FAILED)); __stateTransitions.put(StateType.FAILED, EnumSet.of(StateType.IDLE)); } // A write operation may either complete immediately: // IDLE-->WRITING-->IDLE // Or it may not completely flush and go via the PENDING state // IDLE-->WRITING-->PENDING-->COMPLETING-->IDLE // Or it may take several cycles to complete // IDLE-->WRITING-->PENDING-->COMPLETING-->PENDING-->COMPLETING-->IDLE // // If a failure happens while in IDLE, it is a noop since there is no operation to tell of the failure. // If a failure happens while in WRITING, but the the write has finished successfully or with an IOExceptions, // the callback's complete or respectively failed methods will be called. // If a failure happens in PENDING state, then the fail method calls the pending callback and moves to IDLE state // // IDLE--(fail)-->IDLE // IDLE-->WRITING--(fail)-->FAILED-->IDLE // IDLE-->WRITING-->PENDING--(fail)-->IDLE // IDLE-->WRITING-->PENDING-->COMPLETING--(fail)-->FAILED-->IDLE // // So a call to fail in the PENDING state will be directly handled and the state changed to IDLE // A call to fail in the WRITING or COMPLETING states will just set the state to FAILED and the failure will be // handled with the write or completeWrite methods try to move the state from what they thought it was. // protected WriteFlusher(EndPoint endPoint) { _state.set(__IDLE); _endPoint = endPoint; } private enum StateType { IDLE, WRITING, PENDING, COMPLETING, FAILED } /** * Tries to update the current state to the given new state. * @param previous the expected current state * @param next the desired new state * @return the previous state or null if the state transition failed * @throws WritePendingException if currentState is WRITING and new state is WRITING (api usage error) */ private boolean updateState(State previous,State next) { if (!isTransitionAllowed(previous,next)) throw new IllegalStateException(); boolean updated = _state.compareAndSet(previous, next); if (DEBUG) LOG.debug("update {}:{}{}{}", this, previous, updated?"-->":"!->",next); return updated; } private void fail(PendingState pending) { State current = _state.get(); if (current.getType()==StateType.FAILED) { FailedState failed=(FailedState)current; if (updateState(failed,__IDLE)) { pending.fail(failed.getCause()); return; } } throw new IllegalStateException(); } private void ignoreFail() { State current = _state.get(); while (current.getType()==StateType.FAILED) { if (updateState(current,__IDLE)) return; current = _state.get(); } } private boolean isTransitionAllowed(State currentState, State newState) { Set allowedNewStateTypes = __stateTransitions.get(currentState.getType()); if (!allowedNewStateTypes.contains(newState.getType())) { LOG.warn("{}: {} -> {} not allowed", this, currentState, newState); return false; } return true; } /** * State represents a State of WriteFlusher. */ private static class State { private final StateType _type; private State(StateType stateType) { _type = stateType; } public StateType getType() { return _type; } @Override public String toString() { return String.format("%s", _type); } } /** * In IdleState WriteFlusher is idle and accepts new writes */ private static class IdleState extends State { private IdleState() { super(StateType.IDLE); } } /** * In WritingState WriteFlusher is currently writing. */ private static class WritingState extends State { private WritingState() { super(StateType.WRITING); } } /** * In FailedState no more operations are allowed. The current implementation will never recover from this state. */ private static class FailedState extends State { private final Throwable _cause; private FailedState(Throwable cause) { super(StateType.FAILED); _cause=cause; } public Throwable getCause() { return _cause; } } /** * In CompletingState WriteFlusher is flushing buffers that have not been fully written in write(). If write() * didn't flush all buffers in one go, it'll switch the State to PendingState. completeWrite() will then switch to * this state and try to flush the remaining buffers. */ private static class CompletingState extends State { private CompletingState() { super(StateType.COMPLETING); } } /** * In PendingState not all buffers could be written in one go. Then write() will switch to PendingState() and * preserve the state by creating a new PendingState object with the given parameters. */ private class PendingState extends State { private final Callback _callback; private final ByteBuffer[] _buffers; private PendingState(ByteBuffer[] buffers, Callback callback) { super(StateType.PENDING); _buffers = compact(buffers); _callback = callback; } public ByteBuffer[] getBuffers() { return _buffers; } protected void fail(Throwable cause) { if (_callback!=null) _callback.failed(cause); } protected void complete() { if (_callback!=null) _callback.succeeded(); } /** * Compacting the buffers is needed because the semantic of WriteFlusher is * to write the buffers and if the caller sees that the buffer is consumed, * then it can recycle it. * If we do not compact, then it is possible that we store a consumed buffer, * which is then recycled and refilled; when the WriteFlusher is invoked to * complete the write, it will write the refilled bytes, garbling the content. * * @param buffers the buffers to compact * @return the compacted buffers */ private ByteBuffer[] compact(ByteBuffer[] buffers) { int length = buffers.length; // Just one element, no need to compact if (length < 2) return buffers; // How many still have content ? int consumed = 0; while (consumed < length && BufferUtil.isEmpty(buffers[consumed])) ++consumed; // All of them still have content, no need to compact if (consumed == 0) return buffers; // None has content, return empty if (consumed == length) return EMPTY_BUFFERS; int newLength = length - consumed; ByteBuffer[] result = new ByteBuffer[newLength]; System.arraycopy(buffers, consumed, result, 0, newLength); return result; } } /** * Abstract call to be implemented by specific WriteFlushers. It should schedule a call to {@link #completeWrite()} * or {@link #onFail(Throwable)} when appropriate. */ abstract protected void onIncompleteFlushed(); /** * Tries to switch state to WRITING. If successful it writes the given buffers to the EndPoint. If state transition * fails it'll fail the callback. * * If not all buffers can be written in one go it creates a new {@link PendingState} object to preserve the state * and then calls {@link #onIncompleteFlushed()}. The remaining buffers will be written in {@link #completeWrite()}. * * If all buffers have been written it calls callback.complete(). * * @param callback the callback to call on either failed or complete * @param buffers the buffers to flush to the endpoint */ public void write(Callback callback, ByteBuffer... buffers) throws WritePendingException { if (DEBUG) LOG.debug("write: {} {}", this, BufferUtil.toDetailString(buffers)); if (!updateState(__IDLE,__WRITING)) throw new WritePendingException(); try { boolean flushed=_endPoint.flush(buffers); if (DEBUG) LOG.debug("flushed {}", flushed); // Are we complete? for (ByteBuffer b : buffers) { if (!flushed||BufferUtil.hasContent(b)) { PendingState pending=new PendingState(buffers, callback); if (updateState(__WRITING,pending)) onIncompleteFlushed(); else fail(pending); return; } } // If updateState didn't succeed, we don't care as our buffers have been written if (!updateState(__WRITING,__IDLE)) ignoreFail(); if (callback!=null) callback.succeeded(); } catch (IOException e) { if (DEBUG) LOG.debug("write exception", e); if (updateState(__WRITING,__IDLE)) { if (callback!=null) callback.failed(e); } else fail(new PendingState(buffers, callback)); } } /** * Complete a write that has not completed and that called {@link #onIncompleteFlushed()} to request a call to this * method when a call to {@link EndPoint#flush(ByteBuffer...)} is likely to be able to progress. * * It tries to switch from PENDING to COMPLETING. If state transition fails, then it does nothing as the callback * should have been already failed. That's because the only way to switch from PENDING outside this method is * {@link #onFail(Throwable)} or {@link #onClose()} */ public void completeWrite() { if (DEBUG) LOG.debug("completeWrite: {}", this); State previous = _state.get(); if (previous.getType()!=StateType.PENDING) return; // failure already handled. PendingState pending = (PendingState)previous; if (!updateState(pending,__COMPLETING)) return; // failure already handled. try { ByteBuffer[] buffers = pending.getBuffers(); boolean flushed=_endPoint.flush(buffers); if (DEBUG) LOG.debug("flushed {}", flushed); // Are we complete? for (ByteBuffer b : buffers) { if (!flushed || BufferUtil.hasContent(b)) { if (updateState(__COMPLETING,pending)) onIncompleteFlushed(); else fail(pending); return; } } // If updateState didn't succeed, we don't care as our buffers have been written if (!updateState(__COMPLETING,__IDLE)) ignoreFail(); pending.complete(); } catch (IOException e) { if (DEBUG) LOG.debug("completeWrite exception", e); if(updateState(__COMPLETING,__IDLE)) pending.fail(e); else fail(pending); } } public void onFail(Throwable cause) { if (DEBUG) LOG.debug("failed: {} {}", this, cause); // Keep trying to handle the failure until we get to IDLE or FAILED state while(true) { State current=_state.get(); switch(current.getType()) { case IDLE: case FAILED: return; case PENDING: PendingState pending = (PendingState)current; if (updateState(pending,__IDLE)) { pending.fail(cause); return; } break; default: if (updateState(current,new FailedState(cause))) return; break; } } } public void onClose() { if (_state.get()==__IDLE) return; onFail(new ClosedChannelException()); } boolean isIdle() { return _state.get().getType() == StateType.IDLE; } public boolean isInProgress() { switch(_state.get().getType()) { case WRITING: case PENDING: case COMPLETING: return true; default: return false; } } @Override public String toString() { return String.format("WriteFlusher@%x{%s}", hashCode(), _state.get()); } }





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