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This artifact provides a single jar that contains all classes required to use remote EJB and JMS, including all dependencies. It is intended for use by those not using maven, maven users should just import the EJB and JMS BOM's instead (shaded JAR's cause lots of problems with maven, as it is very easy to inadvertently end up with different versions on classes on the class path).

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/*
 * JBoss, Home of Professional Open Source.
 * Copyright 2014 Red Hat, Inc., and individual contributors
 * as indicated by the @author tags.
 *
 * Licensed 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 io.undertow.server.protocol.http;

import static org.xnio.Bits.allAreClear;
import static org.xnio.Bits.allAreSet;

import java.io.IOException;
import java.nio.ByteBuffer;
import java.nio.channels.ClosedChannelException;
import java.nio.channels.FileChannel;

import org.xnio.Buffers;
import org.xnio.IoUtils;
import org.xnio.XnioWorker;
import org.xnio.channels.StreamSourceChannel;
import org.xnio.conduits.AbstractStreamSinkConduit;
import org.xnio.conduits.ConduitWritableByteChannel;
import org.xnio.conduits.Conduits;
import org.xnio.conduits.StreamSinkConduit;

import io.undertow.UndertowMessages;
import io.undertow.connector.ByteBufferPool;
import io.undertow.connector.PooledByteBuffer;
import io.undertow.server.Connectors;
import io.undertow.server.HttpServerExchange;
import io.undertow.util.HeaderMap;
import io.undertow.util.HeaderValues;
import io.undertow.util.HttpString;
import io.undertow.util.Protocols;
import io.undertow.util.StatusCodes;

/**
 * @author David M. Lloyd
 */
final class HttpResponseConduit extends AbstractStreamSinkConduit {

    private final ByteBufferPool pool;
    private final HttpServerConnection connection;

    private int state = STATE_START;

    private long fiCookie = -1L;
    private String string;
    private HeaderValues headerValues;
    private int valueIdx;
    private int charIndex;
    private PooledByteBuffer pooledBuffer;
    private PooledByteBuffer pooledFileTransferBuffer;
    private HttpServerExchange exchange;

    private ByteBuffer[] writevBuffer;
    private boolean done = false;

    private static final int STATE_BODY = 0; // Message body, normal pass-through operation
    private static final int STATE_START = 1; // No headers written yet
    private static final int STATE_HDR_NAME = 2; // Header name indexed by charIndex
    private static final int STATE_HDR_D = 3; // Header delimiter ':'
    private static final int STATE_HDR_DS = 4; // Header delimiter ': '
    private static final int STATE_HDR_VAL = 5; // Header value
    private static final int STATE_HDR_EOL_CR = 6; // Header line CR
    private static final int STATE_HDR_EOL_LF = 7; // Header line LF
    private static final int STATE_HDR_FINAL_CR = 8; // Final CR
    private static final int STATE_HDR_FINAL_LF = 9; // Final LF
    private static final int STATE_BUF_FLUSH = 10; // flush the buffer and go to writing body

    private static final int MASK_STATE = 0x0000000F;
    private static final int FLAG_SHUTDOWN = 0x00000010;

    HttpResponseConduit(final StreamSinkConduit next, final ByteBufferPool pool, HttpServerConnection connection) {
        super(next);
        this.pool = pool;
        this.connection = connection;
    }

    HttpResponseConduit(final StreamSinkConduit next, final ByteBufferPool pool, HttpServerConnection connection, HttpServerExchange exchange) {
        super(next);
        this.pool = pool;
        this.connection = connection;
        this.exchange = exchange;
    }
    void reset(HttpServerExchange exchange) {

        this.exchange = exchange;
        state = STATE_START;
        fiCookie = -1L;
        string = null;
        headerValues = null;
        valueIdx = 0;
        charIndex = 0;
    }

    /**
     * Handles writing out the header data. It can also take a byte buffer of user
     * data, to enable both user data and headers to be written out in a single operation,
     * which has a noticeable performance impact.
     * 

* It is up to the caller to note the current position of this buffer before and after they * call this method, and use this to figure out how many bytes (if any) have been written. * * @param state * @param userData * @return * @throws IOException */ private int processWrite(int state, final Object userData, int pos, int length) throws IOException { if (done || exchange == null) { throw new ClosedChannelException(); } try { assert state != STATE_BODY; if (state == STATE_BUF_FLUSH) { final ByteBuffer byteBuffer = pooledBuffer.getBuffer(); do { long res = 0; ByteBuffer[] data; if (userData == null || length == 0) { res = next.write(byteBuffer); } else if (userData instanceof ByteBuffer) { data = writevBuffer; if (data == null) { data = writevBuffer = new ByteBuffer[2]; } data[0] = byteBuffer; data[1] = (ByteBuffer) userData; res = next.write(data, 0, 2); } else { data = writevBuffer; if (data == null || data.length < length + 1) { data = writevBuffer = new ByteBuffer[length + 1]; } data[0] = byteBuffer; System.arraycopy(userData, pos, data, 1, length); res = next.write(data, 0, length + 1); } if (res == 0) { return STATE_BUF_FLUSH; } } while (byteBuffer.hasRemaining()); bufferDone(); return STATE_BODY; } else if (state != STATE_START) { return processStatefulWrite(state, userData, pos, length); } //merge the cookies into the header map Connectors.flattenCookies(exchange); if (pooledBuffer == null) { pooledBuffer = pool.allocate(); } ByteBuffer buffer = pooledBuffer.getBuffer(); assert buffer.remaining() >= 50; Protocols.HTTP_1_1.appendTo(buffer); buffer.put((byte) ' '); int code = exchange.getStatusCode(); assert 999 >= code && code >= 100; buffer.put((byte) (code / 100 + '0')); buffer.put((byte) (code / 10 % 10 + '0')); buffer.put((byte) (code % 10 + '0')); buffer.put((byte) ' '); String string = exchange.getReasonPhrase(); if(string == null) { string = StatusCodes.getReason(code); } if(string.length() > buffer.remaining()) { pooledBuffer.close(); pooledBuffer = null; truncateWrites(); throw UndertowMessages.MESSAGES.reasonPhraseToLargeForBuffer(string); } writeString(buffer, string); buffer.put((byte) '\r').put((byte) '\n'); int remaining = buffer.remaining(); HeaderMap headers = exchange.getResponseHeaders(); long fiCookie = headers.fastIterateNonEmpty(); while (fiCookie != -1) { HeaderValues headerValues = headers.fiCurrent(fiCookie); HttpString header = headerValues.getHeaderName(); int headerSize = header.length(); int valueIdx = 0; while (valueIdx < headerValues.size()) { remaining -= (headerSize + 2); if (remaining < 0) { this.fiCookie = fiCookie; this.string = string; this.headerValues = headerValues; this.valueIdx = valueIdx; this.charIndex = 0; this.state = STATE_HDR_NAME; buffer.flip(); return processStatefulWrite(STATE_HDR_NAME, userData, pos, length); } header.appendTo(buffer); buffer.put((byte) ':').put((byte) ' '); string = headerValues.get(valueIdx++); remaining -= (string.length() + 2); if (remaining < 2) {//we use 2 here, to make sure we always have room for the final \r\n this.fiCookie = fiCookie; this.string = string; this.headerValues = headerValues; this.valueIdx = valueIdx; this.charIndex = 0; this.state = STATE_HDR_VAL; buffer.flip(); return processStatefulWrite(STATE_HDR_VAL, userData, pos, length); } writeString(buffer, string); buffer.put((byte) '\r').put((byte) '\n'); } fiCookie = headers.fiNextNonEmpty(fiCookie); } buffer.put((byte) '\r').put((byte) '\n'); buffer.flip(); do { long res = 0; ByteBuffer[] data; if (userData == null) { res = next.write(buffer); } else if (userData instanceof ByteBuffer) { data = writevBuffer; if (data == null) { data = writevBuffer = new ByteBuffer[2]; } data[0] = buffer; data[1] = (ByteBuffer) userData; res = next.write(data, 0, 2); } else { data = writevBuffer; if (data == null || data.length < length + 1) { data = writevBuffer = new ByteBuffer[length + 1]; } data[0] = buffer; System.arraycopy(userData, pos, data, 1, length); res = next.write(data, 0, length + 1); } if (res == 0) { return STATE_BUF_FLUSH; } } while (buffer.hasRemaining()); bufferDone(); return STATE_BODY; } catch (IOException | RuntimeException | Error e) { //WFLY-4696, just to be safe if (pooledBuffer != null) { pooledBuffer.close(); pooledBuffer = null; } throw e; } } private void bufferDone() { if(exchange == null) { return; } HttpServerConnection connection = (HttpServerConnection)exchange.getConnection(); if(connection.getExtraBytes() != null && connection.isOpen() && exchange.isRequestComplete()) { //if we are pipelining we hold onto the buffer pooledBuffer.getBuffer().clear(); } else { pooledBuffer.close(); pooledBuffer = null; this.exchange = null; } } public void freeContinueResponse() { if (pooledBuffer != null) { pooledBuffer.close(); pooledBuffer = null; } } private static void writeString(ByteBuffer buffer, String string) { int length = string.length(); for (int charIndex = 0; charIndex < length; charIndex++) { char c = string.charAt(charIndex); byte b = (byte) c; if(b != '\r' && b != '\n') { buffer.put(b); } else { buffer.put((byte) ' '); } } } /** * Handles writing out the header data in the case where is is too big to fit into a buffer. This is a much slower code path. */ private int processStatefulWrite(int state, final Object userData, int pos, int len) throws IOException { ByteBuffer buffer = pooledBuffer.getBuffer(); long fiCookie = this.fiCookie; int valueIdx = this.valueIdx; int charIndex = this.charIndex; int length; String string = this.string; HeaderValues headerValues = this.headerValues; int res; // BUFFER IS FLIPPED COMING IN if (buffer.hasRemaining()) { do { res = next.write(buffer); if (res == 0) { return state; } } while (buffer.hasRemaining()); } buffer.clear(); HeaderMap headers = exchange.getResponseHeaders(); // BUFFER IS NOW EMPTY FOR FILLING for (; ; ) { switch (state) { case STATE_HDR_NAME: { final HttpString headerName = headerValues.getHeaderName(); length = headerName.length(); while (charIndex < length) { if (buffer.hasRemaining()) { buffer.put(headerName.byteAt(charIndex++)); } else { buffer.flip(); do { res = next.write(buffer); if (res == 0) { this.string = string; this.headerValues = headerValues; this.charIndex = charIndex; this.fiCookie = fiCookie; this.valueIdx = valueIdx; return STATE_HDR_NAME; } } while (buffer.hasRemaining()); buffer.clear(); } } // fall thru } case STATE_HDR_D: { if (!buffer.hasRemaining()) { buffer.flip(); do { res = next.write(buffer); if (res == 0) { this.string = string; this.headerValues = headerValues; this.charIndex = charIndex; this.fiCookie = fiCookie; this.valueIdx = valueIdx; return STATE_HDR_D; } } while (buffer.hasRemaining()); buffer.clear(); } buffer.put((byte) ':'); // fall thru } case STATE_HDR_DS: { if (!buffer.hasRemaining()) { buffer.flip(); do { res = next.write(buffer); if (res == 0) { this.string = string; this.headerValues = headerValues; this.charIndex = charIndex; this.fiCookie = fiCookie; this.valueIdx = valueIdx; return STATE_HDR_DS; } } while (buffer.hasRemaining()); buffer.clear(); } buffer.put((byte) ' '); string = headerValues.get(valueIdx++); charIndex = 0; // fall thru } case STATE_HDR_VAL: { length = string.length(); while (charIndex < length) { if (buffer.hasRemaining()) { buffer.put((byte) string.charAt(charIndex++)); } else { buffer.flip(); do { res = next.write(buffer); if (res == 0) { this.string = string; this.headerValues = headerValues; this.charIndex = charIndex; this.fiCookie = fiCookie; this.valueIdx = valueIdx; return STATE_HDR_VAL; } } while (buffer.hasRemaining()); buffer.clear(); } } charIndex = 0; if (valueIdx == headerValues.size()) { if (!buffer.hasRemaining()) { if (flushHeaderBuffer(buffer, string, headerValues, charIndex, fiCookie, valueIdx)) return STATE_HDR_EOL_CR; } buffer.put((byte) 13); // CR if (!buffer.hasRemaining()) { if (flushHeaderBuffer(buffer, string, headerValues, charIndex, fiCookie, valueIdx)) return STATE_HDR_EOL_LF; } buffer.put((byte) 10); // LF if ((fiCookie = headers.fiNextNonEmpty(fiCookie)) != -1L) { headerValues = headers.fiCurrent(fiCookie); valueIdx = 0; state = STATE_HDR_NAME; break; } else { if (!buffer.hasRemaining()) { if (flushHeaderBuffer(buffer, string, headerValues, charIndex, fiCookie, valueIdx)) return STATE_HDR_FINAL_CR; } buffer.put((byte) 13); // CR if (!buffer.hasRemaining()) { if (flushHeaderBuffer(buffer, string, headerValues, charIndex, fiCookie, valueIdx)) return STATE_HDR_FINAL_LF; } buffer.put((byte) 10); // LF this.fiCookie = -1; this.valueIdx = 0; this.string = null; buffer.flip(); //for performance reasons we use a gather write if there is user data if (userData == null) { do { res = next.write(buffer); if (res == 0) { return STATE_BUF_FLUSH; } } while (buffer.hasRemaining()); } else if(userData instanceof ByteBuffer) { ByteBuffer[] b = {buffer, (ByteBuffer) userData}; do { long r = next.write(b, 0, b.length); if (r == 0 && buffer.hasRemaining()) { return STATE_BUF_FLUSH; } } while (buffer.hasRemaining()); } else { ByteBuffer[] b = new ByteBuffer[1 + len]; b[0] = buffer; System.arraycopy(userData, pos, b, 1, len); do { long r = next.write(b, 0, b.length); if (r == 0 && buffer.hasRemaining()) { return STATE_BUF_FLUSH; } } while (buffer.hasRemaining()); } bufferDone(); return STATE_BODY; } // not reached } // fall thru } // Clean-up states case STATE_HDR_EOL_CR: { if (!buffer.hasRemaining()) { if (flushHeaderBuffer(buffer, string, headerValues, charIndex, fiCookie, valueIdx)) return STATE_HDR_EOL_CR; } buffer.put((byte) 13); // CR } case STATE_HDR_EOL_LF: { if (!buffer.hasRemaining()) { if (flushHeaderBuffer(buffer, string, headerValues, charIndex, fiCookie, valueIdx)) return STATE_HDR_EOL_LF; } buffer.put((byte) 10); // LF if (valueIdx < headerValues.size()) { state = STATE_HDR_NAME; break; } else if ((fiCookie = headers.fiNextNonEmpty(fiCookie)) != -1L) { headerValues = headers.fiCurrent(fiCookie); valueIdx = 0; state = STATE_HDR_NAME; break; } // fall thru } case STATE_HDR_FINAL_CR: { if (!buffer.hasRemaining()) { if (flushHeaderBuffer(buffer, string, headerValues, charIndex, fiCookie, valueIdx)) return STATE_HDR_FINAL_CR; } buffer.put((byte) 13); // CR // fall thru } case STATE_HDR_FINAL_LF: { if (!buffer.hasRemaining()) { if (flushHeaderBuffer(buffer, string, headerValues, charIndex, fiCookie, valueIdx)) return STATE_HDR_FINAL_LF; } buffer.put((byte) 10); // LF this.fiCookie = -1L; this.valueIdx = 0; this.string = null; buffer.flip(); //for performance reasons we use a gather write if there is user data if (userData == null) { do { res = next.write(buffer); if (res == 0) { return STATE_BUF_FLUSH; } } while (buffer.hasRemaining()); } else if(userData instanceof ByteBuffer) { ByteBuffer[] b = {buffer, (ByteBuffer) userData}; do { long r = next.write(b, 0, b.length); if (r == 0 && buffer.hasRemaining()) { return STATE_BUF_FLUSH; } } while (buffer.hasRemaining()); } else { ByteBuffer[] b = new ByteBuffer[1 + len]; b[0] = buffer; System.arraycopy(userData, pos, b, 1, len); do { long r = next.write(b, 0, b.length); if (r == 0 && buffer.hasRemaining()) { return STATE_BUF_FLUSH; } } while (buffer.hasRemaining()); } // fall thru } case STATE_BUF_FLUSH: { // buffer was successfully flushed above bufferDone(); return STATE_BODY; } default: { throw new IllegalStateException(); } } } } private boolean flushHeaderBuffer(ByteBuffer buffer, String string, HeaderValues headerValues, int charIndex, long fiCookie, int valueIdx) throws IOException { int res; buffer.flip(); do { res = next.write(buffer); if (res == 0) { this.string = string; this.headerValues = headerValues; this.charIndex = charIndex; this.fiCookie = fiCookie; this.valueIdx = valueIdx; return true; } } while (buffer.hasRemaining()); buffer.clear(); return false; } public int write(final ByteBuffer src) throws IOException { try { int oldState = this.state; int state = oldState & MASK_STATE; int alreadyWritten = 0; int originalRemaining = -1; try { if (state != 0) { originalRemaining = src.remaining(); state = processWrite(state, src, -1, -1); if (state != 0) { return 0; } alreadyWritten = originalRemaining - src.remaining(); if (allAreSet(oldState, FLAG_SHUTDOWN)) { next.terminateWrites(); throw new ClosedChannelException(); } } if (alreadyWritten != originalRemaining) { return next.write(src) + alreadyWritten; } return alreadyWritten; } finally { this.state = oldState & ~MASK_STATE | state; } } catch(IOException|RuntimeException|Error e) { IoUtils.safeClose(connection); throw e; } } public long write(final ByteBuffer[] srcs) throws IOException { return write(srcs, 0, srcs.length); } public long write(final ByteBuffer[] srcs, final int offset, final int length) throws IOException { if (length == 0) { return 0L; } int oldVal = state; int state = oldVal & MASK_STATE; try { if (state != 0) { long rem = Buffers.remaining(srcs, offset, length); state = processWrite(state, srcs, offset, length); long ret = rem - Buffers.remaining(srcs, offset, length); if (state != 0) { return ret; } if (allAreSet(oldVal, FLAG_SHUTDOWN)) { next.terminateWrites(); throw new ClosedChannelException(); } //we don't attempt to write again return ret; } return length == 1 ? next.write(srcs[offset]) : next.write(srcs, offset, length); } catch (IOException | RuntimeException | Error e) { IoUtils.safeClose(connection); throw e; } finally { this.state = oldVal & ~MASK_STATE | state; } } public long transferFrom(final FileChannel src, final long position, final long count) throws IOException { try { if (pooledFileTransferBuffer != null) { try { return write(pooledFileTransferBuffer.getBuffer()); } catch (IOException | RuntimeException | Error e) { if (pooledFileTransferBuffer != null) { pooledFileTransferBuffer.close(); pooledFileTransferBuffer = null; } throw e; } finally { if (pooledFileTransferBuffer != null) { if (!pooledFileTransferBuffer.getBuffer().hasRemaining()) { pooledFileTransferBuffer.close(); pooledFileTransferBuffer = null; } } } } else if (state != 0) { final PooledByteBuffer pooled = exchange.getConnection().getByteBufferPool().allocate(); ByteBuffer buffer = pooled.getBuffer(); try { int res = src.read(buffer); buffer.flip(); if (res <= 0) { return res; } return write(buffer); } finally { if (buffer.hasRemaining()) { pooledFileTransferBuffer = pooled; } else { pooled.close(); } } } else { return next.transferFrom(src, position, count); } } catch (IOException | RuntimeException | Error e) { IoUtils.safeClose(connection); throw e; } } public long transferFrom(final StreamSourceChannel source, final long count, final ByteBuffer throughBuffer) throws IOException { try { if (state != 0) { return IoUtils.transfer(source, count, throughBuffer, new ConduitWritableByteChannel(this)); } else { return next.transferFrom(source, count, throughBuffer); } } catch (IOException| RuntimeException | Error e) { IoUtils.safeClose(connection); throw e; } } @Override public int writeFinal(ByteBuffer src) throws IOException { try { return Conduits.writeFinalBasic(this, src); } catch (IOException | RuntimeException | Error e) { IoUtils.safeClose(connection); throw e; } } @Override public long writeFinal(ByteBuffer[] srcs, int offset, int length) throws IOException { try { return Conduits.writeFinalBasic(this, srcs, offset, length); } catch (IOException | RuntimeException | Error e) { IoUtils.safeClose(connection); throw e; } } public boolean flush() throws IOException { int oldVal = state; int state = oldVal & MASK_STATE; try { if (state != 0) { state = processWrite(state, null, -1, -1); if (state != 0) { return false; } if (allAreSet(oldVal, FLAG_SHUTDOWN)) { next.terminateWrites(); // fall out to the flush } } return next.flush(); } catch (IOException | RuntimeException | Error e) { IoUtils.safeClose(connection); throw e; } finally { this.state = oldVal & ~MASK_STATE | state; } } public void terminateWrites() throws IOException { try { int oldVal = this.state; if (allAreClear(oldVal, MASK_STATE)) { next.terminateWrites(); return; } this.state = oldVal | FLAG_SHUTDOWN; } catch (IOException | RuntimeException | Error e) { IoUtils.safeClose(connection); throw e; } } public void truncateWrites() throws IOException { try { next.truncateWrites(); } catch (IOException | RuntimeException | Error e) { IoUtils.safeClose(connection); throw e; } finally { if (pooledBuffer != null) { bufferDone(); } if(pooledFileTransferBuffer != null) { pooledFileTransferBuffer.close(); pooledFileTransferBuffer = null; } } } public XnioWorker getWorker() { return next.getWorker(); } void freeBuffers() { done = true; if(pooledBuffer != null) { bufferDone(); } if(pooledFileTransferBuffer != null) { pooledFileTransferBuffer.close(); pooledFileTransferBuffer = null; } } }





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