All Downloads are FREE. Search and download functionalities are using the official Maven repository.
Many resources are needed to download a project. Please understand that we have to compensate our server costs. Thank you in advance.
Project price only 1 $
You can buy this project and download/modify it how often you want.
io.undertow.protocols.ajp.AjpClientRequestClientStreamSinkChannel Maven / Gradle / Ivy
/*
* 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.protocols.ajp;
import static io.undertow.protocols.ajp.AjpConstants.ATTR_AUTH_TYPE;
import static io.undertow.protocols.ajp.AjpConstants.ATTR_QUERY_STRING;
import static io.undertow.protocols.ajp.AjpConstants.ATTR_REMOTE_USER;
import static io.undertow.protocols.ajp.AjpConstants.ATTR_ROUTE;
import static io.undertow.protocols.ajp.AjpConstants.ATTR_SECRET;
import static io.undertow.protocols.ajp.AjpConstants.ATTR_SSL_CERT;
import static io.undertow.protocols.ajp.AjpConstants.ATTR_SSL_CIPHER;
import static io.undertow.protocols.ajp.AjpConstants.ATTR_SSL_KEY_SIZE;
import static io.undertow.protocols.ajp.AjpConstants.ATTR_SSL_SESSION;
import static io.undertow.protocols.ajp.AjpConstants.ATTR_STORED_METHOD;
import static io.undertow.protocols.ajp.AjpUtils.notNull;
import static io.undertow.protocols.ajp.AjpUtils.putString;
import java.io.IOException;
import java.nio.BufferOverflowException;
import java.nio.ByteBuffer;
import org.xnio.ChannelListener;
import io.undertow.UndertowMessages;
import io.undertow.UndertowOptions;
import io.undertow.client.ProxiedRequestAttachments;
import io.undertow.connector.PooledByteBuffer;
import io.undertow.server.protocol.framed.SendFrameHeader;
import io.undertow.util.Attachable;
import io.undertow.util.HeaderMap;
import io.undertow.util.Headers;
import io.undertow.util.HexConverter;
import io.undertow.util.HttpString;
import io.undertow.util.ImmediatePooledByteBuffer;
/**
* AJP stream sink channel that corresponds to a request send from the load balancer to the backend
*
* @author Stuart Douglas
*/
public class AjpClientRequestClientStreamSinkChannel extends AbstractAjpClientStreamSinkChannel {
private final ChannelListener finishListener;
public static final int DEFAULT_MAX_DATA_SIZE = 8192;
private final HeaderMap headers;
private final String path;
private final HttpString method;
private final HttpString protocol;
private final Attachable attachable;
private boolean firstFrameWritten = false;
private long dataSize;
private int requestedChunkSize = -1;
private SendFrameHeader header;
/**
* When we are the client and the
*/
private boolean discardMode = false;
AjpClientRequestClientStreamSinkChannel(AjpClientChannel channel, ChannelListener finishListener, HeaderMap headers, String path, HttpString method, HttpString protocol, Attachable attachable) {
super(channel);
this.finishListener = finishListener;
this.headers = headers;
this.path = path;
this.method = method;
this.protocol = protocol;
this.attachable = attachable;
}
private SendFrameHeader createFrameHeaderImpl() {
if (discardMode) {
getBuffer().clear();
getBuffer().flip();
return new SendFrameHeader(new ImmediatePooledByteBuffer(ByteBuffer.wrap(new byte[0])));
}
PooledByteBuffer pooledHeaderBuffer = getChannel().getBufferPool().allocate();
try {
final ByteBuffer buffer = pooledHeaderBuffer.getBuffer();
ByteBuffer dataBuffer = getBuffer();
int dataInBuffer = dataBuffer.remaining();
if (!firstFrameWritten && requestedChunkSize == 0) {
//we are waiting on a read body chunk
return new SendFrameHeader(dataInBuffer, null);
}
int maxData = getChannel().getSettings().get(UndertowOptions.MAX_AJP_PACKET_SIZE, DEFAULT_MAX_DATA_SIZE) - 6;
if (!firstFrameWritten) {
String contentLength = headers.getFirst(Headers.CONTENT_LENGTH);
if (contentLength != null) {
dataSize = Long.parseLong(contentLength);
requestedChunkSize = maxData;
if (dataInBuffer > dataSize) {
throw UndertowMessages.MESSAGES.fixedLengthOverflow();
}
} else if (isWritesShutdown() && !headers.contains(Headers.TRANSFER_ENCODING)) {
//writes are shut down, go to fixed length
headers.put(Headers.CONTENT_LENGTH, dataInBuffer);
dataSize = dataInBuffer;
requestedChunkSize = maxData;
} else {
headers.put(Headers.TRANSFER_ENCODING, Headers.CHUNKED.toString());
dataSize = -1;
requestedChunkSize = 0;
}
firstFrameWritten = true;
final String path;
final String queryString;
int qsIndex = this.path.indexOf('?');
if (qsIndex == -1) {
path = this.path;
queryString = null;
} else {
path = this.path.substring(0, qsIndex);
queryString = this.path.substring(qsIndex + 1);
}
buffer.put((byte) 0x12);
buffer.put((byte) 0x34);
buffer.put((byte) 0); //we fill the size in later
buffer.put((byte) 0);
buffer.put((byte) 2);
boolean storeMethod = false;
Integer methodNp = AjpConstants.HTTP_METHODS_MAP.get(method);
if (methodNp == null) {
methodNp = 0xFF;
storeMethod = true;
}
buffer.put((byte) (int) methodNp);
AjpUtils.putHttpString(buffer, protocol);
putString(buffer, path);
putString(buffer, notNull(attachable.getAttachment(ProxiedRequestAttachments.REMOTE_ADDRESS)));
putString(buffer, notNull(attachable.getAttachment(ProxiedRequestAttachments.REMOTE_HOST)));
putString(buffer, notNull(attachable.getAttachment(ProxiedRequestAttachments.SERVER_NAME)));
AjpUtils.putInt(buffer, notNull(attachable.getAttachment(ProxiedRequestAttachments.SERVER_PORT)));
buffer.put((byte) (notNull(attachable.getAttachment(ProxiedRequestAttachments.IS_SSL)) ? 1 : 0));
int headers = 0;
//we need to count the headers
final HeaderMap responseHeaders = this.headers;
for (HttpString name : responseHeaders.getHeaderNames()) {
headers += responseHeaders.get(name).size();
}
AjpUtils.putInt(buffer, headers);
for (final HttpString header : responseHeaders.getHeaderNames()) {
for (String headerValue : responseHeaders.get(header)) {
Integer headerCode = AjpConstants.HEADER_MAP.get(header);
if (headerCode != null) {
AjpUtils.putInt(buffer, headerCode);
} else {
AjpUtils.putHttpString(buffer, header);
}
putString(buffer, headerValue);
}
}
if (queryString != null) {
buffer.put((byte) ATTR_QUERY_STRING); //query_string
putString(buffer, queryString);
}
String remoteUser = attachable.getAttachment(ProxiedRequestAttachments.REMOTE_USER);
if (remoteUser != null) {
buffer.put((byte) ATTR_REMOTE_USER);
putString(buffer, remoteUser);
}
String authType = attachable.getAttachment(ProxiedRequestAttachments.AUTH_TYPE);
if (authType != null) {
buffer.put((byte) ATTR_AUTH_TYPE);
putString(buffer, authType);
}
String route = attachable.getAttachment(ProxiedRequestAttachments.ROUTE);
if (route != null) {
buffer.put((byte) ATTR_ROUTE);
putString(buffer, route);
}
String sslCert = attachable.getAttachment(ProxiedRequestAttachments.SSL_CERT);
if (sslCert != null) {
buffer.put((byte) ATTR_SSL_CERT);
putString(buffer, sslCert);
}
String sslCypher = attachable.getAttachment(ProxiedRequestAttachments.SSL_CYPHER);
if (sslCypher != null) {
buffer.put((byte) ATTR_SSL_CIPHER);
putString(buffer, sslCypher);
}
byte[] sslSession = attachable.getAttachment(ProxiedRequestAttachments.SSL_SESSION_ID);
if (sslSession != null) {
buffer.put((byte) ATTR_SSL_SESSION);
putString(buffer, HexConverter.convertToHexString(sslSession));
}
Integer sslKeySize = attachable.getAttachment(ProxiedRequestAttachments.SSL_KEY_SIZE);
if (sslKeySize != null) {
buffer.put((byte) ATTR_SSL_KEY_SIZE);
putString(buffer, sslKeySize.toString());
}
String secret = attachable.getAttachment(ProxiedRequestAttachments.SECRET);
if (secret != null) {
buffer.put((byte) ATTR_SECRET);
putString(buffer, secret);
}
if (storeMethod) {
buffer.put((byte) ATTR_STORED_METHOD);
putString(buffer, method.toString());
}
buffer.put((byte) 0xFF);
int dataLength = buffer.position() - 4;
buffer.put(2, (byte) ((dataLength >> 8) & 0xFF));
buffer.put(3, (byte) (dataLength & 0xFF));
}
if (dataSize == 0) {
//no data, just write out this frame and we are done
buffer.flip();
return new SendFrameHeader(pooledHeaderBuffer);
} else if (requestedChunkSize > 0) {
if (isWritesShutdown() && dataInBuffer == 0) {
buffer.put((byte) 0x12);
buffer.put((byte) 0x34);
buffer.put((byte) 0x00);
buffer.put((byte) 0x02);
buffer.put((byte) 0x00);
buffer.put((byte) 0x00);
buffer.flip();
return new SendFrameHeader(pooledHeaderBuffer);
}
int remaining = dataInBuffer;
remaining = Math.min(remaining, maxData);
remaining = Math.min(remaining, requestedChunkSize);
int bodySize = remaining + 2;
buffer.put((byte) 0x12);
buffer.put((byte) 0x34);
buffer.put((byte) ((bodySize >> 8) & 0xFF));
buffer.put((byte) (bodySize & 0xFF));
buffer.put((byte) ((remaining >> 8) & 0xFF));
buffer.put((byte) (remaining & 0xFF));
requestedChunkSize = 0;
if (remaining < dataInBuffer) {
dataBuffer.limit(getBuffer().position() + remaining);
buffer.flip();
return new SendFrameHeader(dataInBuffer - remaining, pooledHeaderBuffer, dataSize < 0);
} else {
buffer.flip();
return new SendFrameHeader(0, pooledHeaderBuffer, dataSize < 0);
}
} else {
//chunked. We just write the headers, and leave all the data in the buffer
//they need to send us a read body chunk in order to get any data
buffer.flip();
if (buffer.remaining() == 0) {
pooledHeaderBuffer.close();
return new SendFrameHeader(dataInBuffer, null, true);
}
dataBuffer.limit(dataBuffer.position());
return new SendFrameHeader(dataInBuffer, pooledHeaderBuffer, true);
}
} catch (BufferOverflowException e) {
//TODO: UNDERTOW-901
pooledHeaderBuffer.close();
markBroken();
throw e;
}
}
SendFrameHeader generateSendFrameHeader() {
header = createFrameHeaderImpl();
return header;
}
void chunkRequested(int size) throws IOException {
requestedChunkSize = size;
getChannel().recalculateHeldFrames();
}
public void startDiscard() {
discardMode = true;
try {
getChannel().recalculateHeldFrames();
} catch (IOException e) {
markBroken();
}
}
@Override
protected final SendFrameHeader createFrameHeader() {
SendFrameHeader header = this.header;
this.header = null;
return header;
}
@Override
protected void handleFlushComplete(boolean finalFrame) {
super.handleFlushComplete(finalFrame);
if (finalFrame) {
getChannel().sinkDone();
}
if (finalFrame && finishListener != null) {
finishListener.handleEvent(this);
}
}
@Override
protected void channelForciblyClosed() throws IOException {
super.channelForciblyClosed();
getChannel().sinkDone();
finishListener.handleEvent(this);
}
public void clearHeader() {
header = null;
}
}
