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The RabbitMQ Java client library allows Java applications to interface with RabbitMQ.
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// Copyright (c) 2007-2023 Broadcom. All Rights Reserved. The term "Broadcom" refers to Broadcom Inc. and/or its subsidiaries.
//
// This software, the RabbitMQ Java client library, is triple-licensed under the
// Mozilla Public License 2.0 ("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.impl;
import com.rabbitmq.client.*;
import com.rabbitmq.client.AMQP.Basic;
import com.rabbitmq.client.AMQP.Confirm;
import com.rabbitmq.client.AMQP.Exchange;
import com.rabbitmq.client.AMQP.Queue;
import com.rabbitmq.client.AMQP.Tx;
import com.rabbitmq.client.Method;
import com.rabbitmq.client.observation.ObservationCollector;
import com.rabbitmq.utility.BlockingValueOrException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import java.io.IOException;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.locks.Condition;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantLock;
import java.util.function.Supplier;
/**
* Base class modelling an AMQ channel. Subclasses implement
* {@link com.rabbitmq.client.Channel#close} and
* {@link #processAsync processAsync()}, and may choose to override
* {@link #processShutdownSignal processShutdownSignal()} and
* {@link #rpc rpc()}.
*
* @see ChannelN
* @see Connection
*/
public abstract class AMQChannel extends ShutdownNotifierComponent {
private static final Logger LOGGER = LoggerFactory.getLogger(AMQChannel.class);
protected static final int NO_RPC_TIMEOUT = 0;
/**
* Protected; used instead of synchronizing on the channel itself,
* so that clients can themselves use the channel to synchronize
* on.
*/
protected final Lock _channelLock = new ReentrantLock();
protected final Condition _channelLockCondition = _channelLock.newCondition();
/** The connection this channel is associated with. */
private final AMQConnection _connection;
/** This channel's channel number. */
private final int _channelNumber;
/** Command being assembled */
private AMQCommand _command;
/** The current outstanding RPC request, if any. (Could become a queue in future.) */
private RpcWrapper _activeRpc = null;
/** Whether transmission of content-bearing methods should be blocked */
protected volatile boolean _blockContent = false;
/** Timeout for RPC calls */
protected final int _rpcTimeout;
private final boolean _checkRpcResponseType;
private final TrafficListener _trafficListener;
private final int maxInboundMessageBodySize;
private final ObservationCollector.ConnectionInfo connectionInfo;
/**
* Construct a channel on the given connection, with the given channel number.
* @param connection the underlying connection for this channel
* @param channelNumber the allocated reference number for this channel
*/
public AMQChannel(AMQConnection connection, int channelNumber) {
this._connection = connection;
this._channelNumber = channelNumber;
if(connection.getChannelRpcTimeout() < 0) {
throw new IllegalArgumentException("Continuation timeout on RPC calls cannot be less than 0");
}
this._rpcTimeout = connection.getChannelRpcTimeout();
this._checkRpcResponseType = connection.willCheckRpcResponseType();
this._trafficListener = connection.getTrafficListener();
this.maxInboundMessageBodySize = connection.getMaxInboundMessageBodySize();
this._command = new AMQCommand(this.maxInboundMessageBodySize);
this.connectionInfo = connection.connectionInfo();
}
/**
* Public API - Retrieves this channel's channel number.
* @return the channel number
*/
public int getChannelNumber() {
return _channelNumber;
}
/**
* Private API - When the Connection receives a Frame for this
* channel, it passes it to this method.
* @param frame the incoming frame
* @throws IOException if an error is encountered
*/
public void handleFrame(Frame frame) throws IOException {
AMQCommand command = _command;
if (command.handleFrame(frame)) { // a complete command has rolled off the assembly line
_command = new AMQCommand(this.maxInboundMessageBodySize); // prepare for the next one
handleCompleteInboundCommand(command);
}
}
/**
* Placeholder until we address bug 15786 (implementing a proper exception hierarchy).
* In the meantime, this at least won't throw away any information from the wrapped exception.
* @param ex the exception to wrap
* @return the wrapped exception
*/
public static IOException wrap(ShutdownSignalException ex) {
return wrap(ex, null);
}
public static IOException wrap(ShutdownSignalException ex, String message) {
IOException ioe = new IOException(message);
ioe.initCause(ex);
return ioe;
}
/**
* Placeholder until we address bug 15786 (implementing a proper exception hierarchy).
*/
public AMQCommand exnWrappingRpc(Method m)
throws IOException
{
try {
return privateRpc(m);
} catch (AlreadyClosedException ace) {
// Do not wrap it since it means that connection/channel
// was closed in some action in the past
throw ace;
} catch (ShutdownSignalException ex) {
throw wrap(ex);
}
}
public CompletableFuture exnWrappingAsyncRpc(Method m)
throws IOException
{
try {
return privateAsyncRpc(m);
} catch (AlreadyClosedException ace) {
// Do not wrap it since it means that connection/channel
// was closed in some action in the past
throw ace;
} catch (ShutdownSignalException ex) {
throw wrap(ex);
}
}
/**
* Private API - handle a command which has been assembled
* @throws IOException if there's any problem
*
* @param command the incoming command
* @throws IOException
*/
public void handleCompleteInboundCommand(AMQCommand command) throws IOException {
// First, offer the command to the asynchronous-command
// handling mechanism, which gets to act as a filter on the
// incoming command stream. If processAsync() returns true,
// the command has been dealt with by the filter and so should
// not be processed further. It will return true for
// asynchronous commands (deliveries/returns/other events),
// and false for commands that should be passed on to some
// waiting RPC continuation.
this._trafficListener.read(command);
if (!processAsync(command)) {
// The filter decided not to handle/consume the command,
// so it must be a response to an earlier RPC.
if (_checkRpcResponseType) {
_channelLock.lock();
try {
// check if this reply command is intended for the current waiting request before calling nextOutstandingRpc()
if (_activeRpc != null && !_activeRpc.canHandleReply(command)) {
// this reply command is not intended for the current waiting request
// most likely a previous request timed out and this command is the reply for that.
// Throw this reply command away so we don't stop the current request from waiting for its reply
return;
}
} finally {
_channelLock.unlock();
}
}
final RpcWrapper nextOutstandingRpc = nextOutstandingRpc();
// the outstanding RPC can be null when calling Channel#asyncRpc
if(nextOutstandingRpc != null) {
nextOutstandingRpc.complete(command);
markRpcFinished();
}
}
}
public void enqueueRpc(RpcContinuation k)
{
doEnqueueRpc(() -> new RpcContinuationRpcWrapper(k));
}
public void enqueueAsyncRpc(Method method, CompletableFuture future) {
doEnqueueRpc(() -> new CompletableFutureRpcWrapper(method, future));
}
private void doEnqueueRpc(Supplier rpcWrapperSupplier) {
_channelLock.lock();
try {
boolean waitClearedInterruptStatus = false;
while (_activeRpc != null) {
try {
_channelLockCondition.await();
} catch (InterruptedException e) { //NOSONAR
waitClearedInterruptStatus = true;
// No Sonar: we re-interrupt the thread later
}
}
if (waitClearedInterruptStatus) {
Thread.currentThread().interrupt();
}
_activeRpc = rpcWrapperSupplier.get();
} finally {
_channelLock.unlock();
}
}
public boolean isOutstandingRpc()
{
_channelLock.lock();
try {
return (_activeRpc != null);
} finally {
_channelLock.unlock();
}
}
public RpcWrapper nextOutstandingRpc()
{
_channelLock.lock();
try {
RpcWrapper result = _activeRpc;
_activeRpc = null;
_channelLockCondition.signalAll();
return result;
} finally {
_channelLock.unlock();
}
}
protected void markRpcFinished() {
// no-op
}
public void ensureIsOpen()
throws AlreadyClosedException
{
if (!isOpen()) {
throw new AlreadyClosedException(getCloseReason());
}
}
/**
* Protected API - sends a {@link Method} to the broker and waits for the
* next in-bound Command from the broker: only for use from
* non-connection-MainLoop threads!
*/
public AMQCommand rpc(Method m)
throws IOException, ShutdownSignalException
{
return privateRpc(m);
}
public AMQCommand rpc(Method m, int timeout)
throws IOException, ShutdownSignalException, TimeoutException {
return privateRpc(m, timeout);
}
private AMQCommand privateRpc(Method m)
throws IOException, ShutdownSignalException
{
SimpleBlockingRpcContinuation k = new SimpleBlockingRpcContinuation(m);
rpc(m, k);
// At this point, the request method has been sent, and we
// should wait for the reply to arrive.
//
// Calling getReply() on the continuation puts us to sleep
// until the connection's reader-thread throws the reply over
// the fence or the RPC times out (if enabled)
if(_rpcTimeout == NO_RPC_TIMEOUT) {
return k.getReply();
} else {
try {
return k.getReply(_rpcTimeout);
} catch (TimeoutException e) {
throw wrapTimeoutException(m, e);
}
}
}
private void cleanRpcChannelState() {
try {
// clean RPC channel state
nextOutstandingRpc();
markRpcFinished();
} catch (Exception ex) {
LOGGER.warn("Error while cleaning timed out channel RPC: {}", ex.getMessage());
}
}
/** Cleans RPC channel state after a timeout and wraps the TimeoutException in a ChannelContinuationTimeoutException */
protected ChannelContinuationTimeoutException wrapTimeoutException(final Method m, final TimeoutException e) {
cleanRpcChannelState();
return new ChannelContinuationTimeoutException(e, this, this._channelNumber, m);
}
private CompletableFuture privateAsyncRpc(Method m)
throws IOException, ShutdownSignalException
{
CompletableFuture future = new CompletableFuture<>();
asyncRpc(m, future);
return future;
}
private AMQCommand privateRpc(Method m, int timeout)
throws IOException, ShutdownSignalException, TimeoutException {
SimpleBlockingRpcContinuation k = new SimpleBlockingRpcContinuation(m);
rpc(m, k);
try {
return k.getReply(timeout);
} catch (TimeoutException e) {
cleanRpcChannelState();
throw e;
}
}
public void rpc(Method m, RpcContinuation k)
throws IOException
{
_channelLock.lock();
try {
ensureIsOpen();
quiescingRpc(m, k);
} finally {
_channelLock.unlock();
}
}
public void quiescingRpc(Method m, RpcContinuation k)
throws IOException
{
_channelLock.lock();
try {
enqueueRpc(k);
quiescingTransmit(m);
} finally {
_channelLock.unlock();
}
}
public void asyncRpc(Method m, CompletableFuture future)
throws IOException
{
_channelLock.lock();
try {
ensureIsOpen();
quiescingAsyncRpc(m, future);
} finally {
_channelLock.unlock();
}
}
public void quiescingAsyncRpc(Method m, CompletableFuture future)
throws IOException
{
_channelLock.lock();
try {
enqueueAsyncRpc(m, future);
quiescingTransmit(m);
} finally {
_channelLock.unlock();
}
}
/**
* Protected API - called by nextCommand to check possibly handle an incoming Command before it is returned to the caller of nextCommand. If this method
* returns true, the command is considered handled and is not passed back to nextCommand's caller; if it returns false, nextCommand returns the command as
* usual. This is used in subclasses to implement handling of Basic.Return and Basic.Deliver messages, as well as Channel.Close and Connection.Close.
* @param command the command to handle asynchronously
* @return true if we handled the command; otherwise the caller should consider it "unhandled"
*/
public abstract boolean processAsync(Command command) throws IOException;
@Override public String toString() {
return "AMQChannel(" + _connection + "," + _channelNumber + ")";
}
/**
* Protected API - respond, in the driver thread, to a {@link ShutdownSignalException}.
* @param signal the signal to handle
* @param ignoreClosed the flag indicating whether to ignore the AlreadyClosedException
* thrown when the channel is already closed
* @param notifyRpc the flag indicating whether any remaining rpc continuation should be
* notified with the given signal
*/
public void processShutdownSignal(ShutdownSignalException signal,
boolean ignoreClosed,
boolean notifyRpc) {
try {
_channelLock.lock();
try {
if (!setShutdownCauseIfOpen(signal)) {
if (!ignoreClosed)
throw new AlreadyClosedException(getCloseReason());
}
_channelLockCondition.signalAll();
} finally {
_channelLock.unlock();
}
} finally {
if (notifyRpc)
notifyOutstandingRpc(signal);
}
}
public void notifyOutstandingRpc(ShutdownSignalException signal) {
RpcWrapper k = nextOutstandingRpc();
if (k != null) {
k.shutdown(signal);
}
}
public void transmit(Method m) throws IOException {
_channelLock.lock();
try {
transmit(new AMQCommand(m));
} finally {
_channelLock.unlock();
}
}
public void transmit(AMQCommand c) throws IOException {
_channelLock.lock();
try {
ensureIsOpen();
quiescingTransmit(c);
} finally {
_channelLock.unlock();
}
}
public void quiescingTransmit(Method m) throws IOException {
_channelLock.lock();
try {
quiescingTransmit(new AMQCommand(m));
} finally {
_channelLock.unlock();
}
}
public void quiescingTransmit(AMQCommand c) throws IOException {
_channelLock.lock();
try {
if (c.getMethod().hasContent()) {
while (_blockContent) {
try {
_channelLockCondition.await();
} catch (InterruptedException ignored) {
Thread.currentThread().interrupt();
}
// This is to catch a situation when the thread wakes up during
// shutdown. Currently, no command that has content is allowed
// to send anything in a closing state.
ensureIsOpen();
}
}
this._trafficListener.write(c);
c.transmit(this);
} finally {
_channelLock.unlock();
}
}
public AMQConnection getConnection() {
return _connection;
}
public interface RpcContinuation {
void handleCommand(AMQCommand command);
/** @return true if the reply command can be handled for this request */
boolean canHandleReply(AMQCommand command);
void handleShutdownSignal(ShutdownSignalException signal);
}
public static abstract class BlockingRpcContinuation implements RpcContinuation {
public final BlockingValueOrException _blocker =
new BlockingValueOrException();
protected final Method request;
public BlockingRpcContinuation() {
request = null;
}
public BlockingRpcContinuation(final Method request) {
this.request = request;
}
@Override
public void handleCommand(AMQCommand command) {
_blocker.setValue(transformReply(command));
}
@Override
public void handleShutdownSignal(ShutdownSignalException signal) {
_blocker.setException(signal);
}
public T getReply() throws ShutdownSignalException
{
return _blocker.uninterruptibleGetValue();
}
public T getReply(int timeout)
throws ShutdownSignalException, TimeoutException
{
return _blocker.uninterruptibleGetValue(timeout);
}
@Override
public boolean canHandleReply(AMQCommand command) {
return isResponseCompatibleWithRequest(request, command.getMethod());
}
public abstract T transformReply(AMQCommand command);
public static boolean isResponseCompatibleWithRequest(Method request, Method response) {
// make a best effort attempt to ensure the reply was intended for this rpc request
// Ideally each rpc request would tag an id on it that could be returned and referenced on its reply.
// But because that would be a very large undertaking to add passively this logic at least protects against ClassCastExceptions
if (request != null) {
if (request instanceof Basic.Qos) {
return response instanceof Basic.QosOk;
} else if (request instanceof Basic.Get) {
return response instanceof Basic.GetOk || response instanceof Basic.GetEmpty;
} else if (request instanceof Basic.Consume) {
if (!(response instanceof Basic.ConsumeOk))
return false;
// can also check the consumer tags match here. handle case where request consumer tag is empty and server-generated.
final String consumerTag = ((Basic.Consume) request).getConsumerTag();
return consumerTag == null || consumerTag.equals("") || consumerTag.equals(((Basic.ConsumeOk) response).getConsumerTag());
} else if (request instanceof Basic.Cancel) {
if (!(response instanceof Basic.CancelOk))
return false;
// can also check the consumer tags match here
return ((Basic.Cancel) request).getConsumerTag().equals(((Basic.CancelOk) response).getConsumerTag());
} else if (request instanceof Basic.Recover) {
return response instanceof Basic.RecoverOk;
} else if (request instanceof Exchange.Declare) {
return response instanceof Exchange.DeclareOk;
} else if (request instanceof Exchange.Delete) {
return response instanceof Exchange.DeleteOk;
} else if (request instanceof Exchange.Bind) {
return response instanceof Exchange.BindOk;
} else if (request instanceof Exchange.Unbind) {
return response instanceof Exchange.UnbindOk;
} else if (request instanceof Queue.Declare) {
// we cannot check the queue name, as the server can strip some characters
// see QueueLifecycle test and https://github.com/rabbitmq/rabbitmq-server/issues/710
return response instanceof Queue.DeclareOk;
} else if (request instanceof Queue.Delete) {
return response instanceof Queue.DeleteOk;
} else if (request instanceof Queue.Bind) {
return response instanceof Queue.BindOk;
} else if (request instanceof Queue.Unbind) {
return response instanceof Queue.UnbindOk;
} else if (request instanceof Queue.Purge) {
return response instanceof Queue.PurgeOk;
} else if (request instanceof Tx.Select) {
return response instanceof Tx.SelectOk;
} else if (request instanceof Tx.Commit) {
return response instanceof Tx.CommitOk;
} else if (request instanceof Tx.Rollback) {
return response instanceof Tx.RollbackOk;
} else if (request instanceof Confirm.Select) {
return response instanceof Confirm.SelectOk;
}
}
// for passivity default to true
return true;
}
}
public static class SimpleBlockingRpcContinuation
extends BlockingRpcContinuation
{
public SimpleBlockingRpcContinuation() {
super();
}
public SimpleBlockingRpcContinuation(final Method method) {
super(method);
}
@Override
public AMQCommand transformReply(AMQCommand command) {
return command;
}
}
protected ObservationCollector.ConnectionInfo connectionInfo() {
return this.connectionInfo;
}
}