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The RabbitMQ Java client library allows Java applications to interface with RabbitMQ.
// Copyright (c) 2007-Present Pivotal Software, Inc. All rights reserved.
//
// This software, the RabbitMQ Java client library, is triple-licensed under the
// Mozilla Public License 1.1 ("MPL"), the GNU General Public License version 2
// ("GPL") and the Apache License version 2 ("ASL"). For the MPL, please see
// LICENSE-MPL-RabbitMQ. For the GPL, please see LICENSE-GPL2. For the ASL,
// please see LICENSE-APACHE2.
//
// This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND,
// either express or implied. See the LICENSE file for specific language governing
// rights and limitations of this software.
//
// If you have any questions regarding licensing, please contact us at
// [email protected] .
package com.rabbitmq.client;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.EOFException;
import java.io.IOException;
import java.util.Date;
import java.util.HashMap;
import java.util.Map;
import java.util.Map.Entry;
import java.util.concurrent.TimeoutException;
import java.util.function.Function;
import com.rabbitmq.client.impl.MethodArgumentReader;
import com.rabbitmq.client.impl.MethodArgumentWriter;
import com.rabbitmq.client.impl.ValueReader;
import com.rabbitmq.client.impl.ValueWriter;
import com.rabbitmq.utility.BlockingCell;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* Convenience class which manages simple RPC-style communication.
* The class is agnostic about the format of RPC arguments / return values.
* It simply provides a mechanism for sending a message to an exchange with a given routing key,
* and waiting for a response.
*/
public class RpcClient {
private static final Logger LOGGER = LoggerFactory.getLogger(RpcClient.class);
/** Channel we are communicating on */
private final Channel _channel;
/** Exchange to send requests to */
private final String _exchange;
/** Routing key to use for requests */
private final String _routingKey;
/** Queue where the server should put the reply */
private final String _replyTo;
/** timeout to use on call responses */
private final int _timeout;
/** NO_TIMEOUT value must match convention on {@link BlockingCell#uninterruptibleGet(int)} */
protected final static int NO_TIMEOUT = -1;
/** Whether to publish RPC requests with the mandatory flag or not. */
private final boolean _useMandatory;
public final static Function DEFAULT_REPLY_HANDLER = reply -> {
if (reply instanceof ShutdownSignalException) {
ShutdownSignalException sig = (ShutdownSignalException) reply;
ShutdownSignalException wrapper =
new ShutdownSignalException(sig.isHardError(),
sig.isInitiatedByApplication(),
sig.getReason(),
sig.getReference());
wrapper.initCause(sig);
throw wrapper;
} else if (reply instanceof UnroutableRpcRequestException) {
throw (UnroutableRpcRequestException) reply;
} else {
return (Response) reply;
}
};
private final Function _replyHandler;
/** Map from request correlation ID to continuation BlockingCell */
private final Map> _continuationMap = new HashMap>();
/** Contains the most recently-used request correlation ID */
private int _correlationId;
/** Consumer attached to our reply queue */
private DefaultConsumer _consumer;
/**
* Construct a {@link RpcClient} with the passed-in {@link RpcClientParams}.
*
* @param params
* @throws IOException
* @see RpcClientParams
* @since 5.6.0
*/
public RpcClient(RpcClientParams params) throws
IOException {
_channel = params.getChannel();
_exchange = params.getExchange();
_routingKey = params.getRoutingKey();
_replyTo = params.getReplyTo();
if (params.getTimeout() < NO_TIMEOUT) {
throw new IllegalArgumentException("Timeout argument must be NO_TIMEOUT(-1) or non-negative.");
}
_timeout = params.getTimeout();
_useMandatory = params.shouldUseMandatory();
_replyHandler = params.getReplyHandler();
_correlationId = 0;
_consumer = setupConsumer();
if (_useMandatory) {
this._channel.addReturnListener(returnMessage -> {
synchronized (_continuationMap) {
String replyId = returnMessage.getProperties().getCorrelationId();
BlockingCell blocker = _continuationMap.remove(replyId);
if (blocker == null) {
// Entry should have been removed if request timed out,
// log a warning nevertheless.
LOGGER.warn("No outstanding request for correlation ID {}", replyId);
} else {
blocker.set(new UnroutableRpcRequestException(returnMessage));
}
}
});
}
}
/**
* Construct a new RpcClient that will communicate on the given channel, sending
* requests to the given exchange with the given routing key.
*
* Causes the creation of a temporary private autodelete queue. The name of this queue can be specified.
* @param channel the channel to use for communication
* @param exchange the exchange to connect to
* @param routingKey the routing key
* @param replyTo the queue where the server should put the reply
* @param timeout milliseconds before timing out on wait for response
* @throws IOException if an error is encountered
* @deprecated use {@link RpcClient#RpcClient(RpcClientParams)} instead, will be removed in 6.0.0
*/
@Deprecated
public RpcClient(Channel channel, String exchange, String routingKey, String replyTo, int timeout) throws
IOException {
this(new RpcClientParams()
.channel(channel).exchange(exchange).routingKey(routingKey)
.replyTo(replyTo).timeout(timeout)
.useMandatory(false)
);
}
/**
* Construct a new RpcClient that will communicate on the given channel, sending
* requests to the given exchange with the given routing key.
*
* Causes the creation of a temporary private autodelete queue.
* The name of the queue can be provided (only relevant for RabbitMQ servers
* that do not support Direct Reply-to .
*
* Waits forever for responses (that is, no timeout).
* @param channel the channel to use for communication
* @param exchange the exchange to connect to
* @param routingKey the routing key
* @param replyTo the queue where the server should put the reply
* @throws IOException if an error is encountered
* @deprecated use {@link RpcClient#RpcClient(RpcClientParams)} instead, will be removed in 6.0.0
*/
@Deprecated
public RpcClient(Channel channel, String exchange, String routingKey, String replyTo) throws IOException {
this(channel, exchange, routingKey, replyTo, NO_TIMEOUT);
}
/**
* Construct a new RpcClient that will communicate on the given channel, sending
* requests to the given exchange with the given routing key.
*
* Direct Reply-to will be used
* for response propagation.
*
* Waits forever for responses (that is, no timeout).
* @param channel the channel to use for communication
* @param exchange the exchange to connect to
* @param routingKey the routing key
* @throws IOException if an error is encountered
* @deprecated use {@link RpcClient#RpcClient(RpcClientParams)} instead, will be removed in 6.0.0
*/
@Deprecated
public RpcClient(Channel channel, String exchange, String routingKey) throws IOException {
this(channel, exchange, routingKey, "amq.rabbitmq.reply-to", NO_TIMEOUT);
}
/**
*
* Construct a new RpcClient that will communicate on the given channel, sending
* requests to the given exchange with the given routing key.
*
*
* Causes the creation of a temporary private autodelete queue. The name of this queue will be
* "amq.rabbitmq.reply-to".
* @param channel the channel to use for communication
* @param exchange the exchange to connect to
* @param routingKey the routing key
* @param timeout milliseconds before timing out on wait for response
* @throws IOException if an error is encountered
* @deprecated use {@link RpcClient#RpcClient(RpcClientParams)} instead, will be removed in 6.0.0
*/
@Deprecated
public RpcClient(Channel channel, String exchange, String routingKey, int timeout) throws IOException {
this(channel, exchange, routingKey, "amq.rabbitmq.reply-to", timeout);
}
/**
* Private API - ensures the RpcClient is correctly open.
* @throws IOException if an error is encountered
*/
public void checkConsumer() throws IOException {
if (_consumer == null) {
throw new EOFException("RpcClient is closed");
}
}
/**
* Public API - cancels the consumer, thus deleting the temporary queue, and marks the RpcClient as closed.
* @throws IOException if an error is encountered
*/
public void close() throws IOException {
if (_consumer != null) {
_channel.basicCancel(_consumer.getConsumerTag());
_consumer = null;
}
}
/**
* Registers a consumer on the reply queue.
* @throws IOException if an error is encountered
* @return the newly created and registered consumer
*/
protected DefaultConsumer setupConsumer() throws IOException {
DefaultConsumer consumer = new DefaultConsumer(_channel) {
@Override
public void handleShutdownSignal(String consumerTag,
ShutdownSignalException signal) {
synchronized (_continuationMap) {
for (Entry> entry : _continuationMap.entrySet()) {
entry.getValue().set(signal);
}
_consumer = null;
}
}
@Override
public void handleDelivery(String consumerTag,
Envelope envelope,
AMQP.BasicProperties properties,
byte[] body)
throws IOException {
synchronized (_continuationMap) {
String replyId = properties.getCorrelationId();
BlockingCell blocker =_continuationMap.remove(replyId);
if (blocker == null) {
// Entry should have been removed if request timed out,
// log a warning nevertheless.
LOGGER.warn("No outstanding request for correlation ID {}", replyId);
} else {
blocker.set(new Response(consumerTag, envelope, properties, body));
}
}
}
};
_channel.basicConsume(_replyTo, true, consumer);
return consumer;
}
public void publish(AMQP.BasicProperties props, byte[] message)
throws IOException
{
_channel.basicPublish(_exchange, _routingKey, _useMandatory, props, message);
}
public Response doCall(AMQP.BasicProperties props, byte[] message)
throws IOException, TimeoutException {
return doCall(props, message, _timeout);
}
public Response doCall(AMQP.BasicProperties props, byte[] message, int timeout)
throws IOException, ShutdownSignalException, TimeoutException {
checkConsumer();
BlockingCell k = new BlockingCell();
String replyId;
synchronized (_continuationMap) {
_correlationId++;
replyId = "" + _correlationId;
props = ((props==null) ? new AMQP.BasicProperties.Builder() : props.builder())
.correlationId(replyId).replyTo(_replyTo).build();
_continuationMap.put(replyId, k);
}
publish(props, message);
Object reply;
try {
reply = k.uninterruptibleGet(timeout);
} catch (TimeoutException ex) {
// Avoid potential leak. This entry is no longer needed by caller.
_continuationMap.remove(replyId);
throw ex;
}
return _replyHandler.apply(reply);
}
public byte[] primitiveCall(AMQP.BasicProperties props, byte[] message)
throws IOException, ShutdownSignalException, TimeoutException
{
return primitiveCall(props, message, _timeout);
}
public byte[] primitiveCall(AMQP.BasicProperties props, byte[] message, int timeout)
throws IOException, ShutdownSignalException, TimeoutException
{
return doCall(props, message, timeout).getBody();
}
/**
* Perform a simple byte-array-based RPC roundtrip.
* @param message the byte array request message to send
* @return the byte array response received
* @throws ShutdownSignalException if the connection dies during our wait
* @throws IOException if an error is encountered
* @throws TimeoutException if a response is not received within the configured timeout
*/
public byte[] primitiveCall(byte[] message)
throws IOException, ShutdownSignalException, TimeoutException {
return primitiveCall(null, message);
}
/**
* Perform a simple byte-array-based RPC roundtrip
*
* Useful if you need to get at more than just the body of the message
*
* @param message the byte array request message to send
* @return The response object is an envelope that contains all of the data provided to the `handleDelivery` consumer
* @throws ShutdownSignalException if the connection dies during our wait
* @throws IOException if an error is encountered
* @throws TimeoutException if a response is not received within the configured timeout
*/
public Response responseCall(byte[] message) throws IOException, ShutdownSignalException, TimeoutException {
return responseCall(message, _timeout);
}
/**
* Perform a simple byte-array-based RPC roundtrip
*
* Useful if you need to get at more than just the body of the message
*
* @param message the byte array request message to send
* @param timeout milliseconds before timing out on wait for response
* @return The response object is an envelope that contains all of the data provided to the `handleDelivery` consumer
* @throws ShutdownSignalException if the connection dies during our wait
* @throws IOException if an error is encountered
* @throws TimeoutException if a response is not received within the configured timeout
*/
public Response responseCall(byte[] message, int timeout) throws IOException, ShutdownSignalException, TimeoutException {
return doCall(null, message, timeout);
}
/**
* Perform a simple string-based RPC roundtrip.
* @param message the string request message to send
* @return the string response received
* @throws ShutdownSignalException if the connection dies during our wait
* @throws IOException if an error is encountered
* @throws TimeoutException if a timeout occurs before the response is received
*/
@SuppressWarnings("unused")
public String stringCall(String message)
throws IOException, ShutdownSignalException, TimeoutException
{
byte[] request;
try {
request = message.getBytes(StringRpcServer.STRING_ENCODING);
} catch (IOException _e) {
request = message.getBytes();
}
byte[] reply = primitiveCall(request);
try {
return new String(reply, StringRpcServer.STRING_ENCODING);
} catch (IOException _e) {
return new String(reply);
}
}
/**
* Perform an AMQP wire-protocol-table based RPC roundtrip
*
* There are some restrictions on the values appearing in the table:
* they must be of type {@link String}, {@link LongString}, {@link Integer}, {@link java.math.BigDecimal}, {@link Date},
* or (recursively) a {@link Map} of the enclosing type.
*
* @param message the table to send
* @return the table received
* @throws ShutdownSignalException if the connection dies during our wait
* @throws IOException if an error is encountered
* @throws TimeoutException if a timeout occurs before a response is received
*/
public Map mapCall(Map message)
throws IOException, ShutdownSignalException, TimeoutException
{
ByteArrayOutputStream buffer = new ByteArrayOutputStream();
MethodArgumentWriter writer = new MethodArgumentWriter(new ValueWriter(new DataOutputStream(buffer)));
writer.writeTable(message);
writer.flush();
byte[] reply = primitiveCall(buffer.toByteArray());
MethodArgumentReader reader =
new MethodArgumentReader(new ValueReader(new DataInputStream(new ByteArrayInputStream(reply))));
return reader.readTable();
}
/**
* Perform an AMQP wire-protocol-table based RPC roundtrip, first
* constructing the table from an array of alternating keys (in
* even-numbered elements, starting at zero) and values (in
* odd-numbered elements, starting at one)
* Restrictions on value arguments apply as in {@link RpcClient#mapCall(Map)}.
*
* @param keyValuePairs alternating {key, value, key, value, ...} data to send
* @return the table received
* @throws ShutdownSignalException if the connection dies during our wait
* @throws IOException if an error is encountered
* @throws TimeoutException if a timeout occurs before a response is received
*/
public Map mapCall(Object[] keyValuePairs)
throws IOException, ShutdownSignalException, TimeoutException
{
Map message = new HashMap();
for (int i = 0; i < keyValuePairs.length; i += 2) {
message.put((String) keyValuePairs[i], keyValuePairs[i + 1]);
}
return mapCall(message);
}
/**
* Retrieve the channel.
* @return the channel to which this client is connected
*/
public Channel getChannel() {
return _channel;
}
/**
* Retrieve the exchange.
* @return the exchange to which this client is connected
*/
public String getExchange() {
return _exchange;
}
/**
* Retrieve the routing key.
* @return the routing key for messages to this client
*/
public String getRoutingKey() {
return _routingKey;
}
/**
* Retrieve the continuation map.
* @return the map of objects to blocking cells for this client
*/
public Map> getContinuationMap() {
return _continuationMap;
}
/**
* Retrieve the correlation id.
* @return the most recently used correlation id
*/
public int getCorrelationId() {
return _correlationId;
}
/**
* Retrieve the consumer.
* @return an interface to the client's consumer object
*/
public Consumer getConsumer() {
return _consumer;
}
/**
* The response object is an envelope that contains all of the data provided to the `handleDelivery` consumer
*/
public static class Response {
protected String consumerTag;
protected Envelope envelope;
protected AMQP.BasicProperties properties;
protected byte[] body;
public Response() {
}
public Response(
final String consumerTag, final Envelope envelope, final AMQP.BasicProperties properties,
final byte[] body) {
this.consumerTag = consumerTag;
this.envelope = envelope;
this.properties = properties;
this.body = body;
}
public String getConsumerTag() {
return consumerTag;
}
public Envelope getEnvelope() {
return envelope;
}
public AMQP.BasicProperties getProperties() {
return properties;
}
public byte[] getBody() {
return body;
}
}
}