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Client library for EJB applications working against Wildfly - Java EE Variant
/*
* JBoss, Home of Professional Open Source.
* Copyright 2017 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 org.jboss.ejb.client;
import static java.lang.Math.max;
import static java.lang.Thread.holdsLock;
import java.lang.reflect.Method;
import java.lang.reflect.UndeclaredThrowableException;
import java.net.URI;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.Executor;
import java.util.concurrent.Future;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.function.Supplier;
import org.jboss.ejb._private.Logs;
import org.jboss.ejb.client.annotation.ClientTransactionPolicy;
import org.wildfly.common.Assert;
import org.wildfly.common.annotation.NotNull;
import org.wildfly.discovery.Discovery;
import org.wildfly.security.auth.client.AuthenticationContext;
/**
* An invocation context for Enterprise Beans invocations from an Enterprise Bean client
*
* @author David M. Lloyd
* @author Jaikiran Pai
*/
public final class EJBClientInvocationContext extends AbstractInvocationContext {
private static final Logs log = Logs.MAIN;
public static final String PRIVATE_ATTACHMENTS_KEY = "org.jboss.ejb.client.invocation.attachments";
/**
* A context data key that may contain a Set of Strings. Any context data on the server side invocation context
* stored under these keys will be returned to the client.
*/
public static final String RETURNED_CONTEXT_DATA_KEY = "jboss.returned.keys";
// Contextual stuff
private final EJBInvocationHandler> invocationHandler;
private final Discovery discoveryContext;
// Invocation data
private final Object invokedProxy;
private final Object[] parameters;
private final EJBProxyInformation.ProxyMethodInfo methodInfo;
private final EJBReceiverInvocationContext receiverInvocationContext = new EJBReceiverInvocationContext(this);
private final EJBClientContext.InterceptorList interceptorList;
private final long startTime = System.nanoTime();
private long timeout;
// Invocation state
private final Object lock = new Object();
private EJBReceiverInvocationContext.ResultProducer resultProducer;
private volatile boolean cancelRequested;
private boolean retryRequested;
private State state = State.SENDING;
private int remainingRetries;
private Supplier extends Throwable> pendingFailure;
private List> suppressedExceptions;
private Object cachedResult;
private int interceptorChainIndex;
private boolean blockingCaller;
private int waiters = 0;
EJBClientInvocationContext(final EJBInvocationHandler> invocationHandler, final EJBClientContext ejbClientContext, final Object invokedProxy, final Object[] parameters, final EJBProxyInformation.ProxyMethodInfo methodInfo, final int allowedRetries, final Supplier authenticationContextSupplier, final Discovery discoveryContext) {
super(invocationHandler.getLocator(), ejbClientContext, authenticationContextSupplier != null ? authenticationContextSupplier.get() : AuthenticationContext.captureCurrent());
this.invocationHandler = invocationHandler;
this.discoveryContext = discoveryContext;
this.invokedProxy = invokedProxy;
this.parameters = parameters;
this.methodInfo = methodInfo;
long timeout = invocationHandler.getInvocationTimeout();
if (timeout == -1) {
timeout = ejbClientContext.getInvocationTimeout();
}
this.timeout = timeout;
remainingRetries = allowedRetries;
interceptorList = getClientContext().getInterceptors(getViewClass(), getInvokedMethod());
}
enum State {
// waiting states
SENDING(true),
SENT(true),
WAITING(true),
// completion states
READY(false),
CONSUMING(false),
DONE(false),
;
private final boolean waiting;
State(final boolean waiting) {
this.waiting = waiting;
}
boolean isWaiting() {
return waiting;
}
}
/**
* Indicates to the server that a client side interceptor is interested in the context data that is stored
* under the given key. Any object on the context data map (i.e. {@code InvocationContext.getContextData()} that is
* present at the end of the server invocation will be serialised and returned to the client.
*
* If an object is present under this key and is not serializable then the request will fail.
*
* @param key The context data key the client interceptor is interested in
*/
public void addReturnedContextDataKey(String key) {
Object returnedData = getContextData().get(RETURNED_CONTEXT_DATA_KEY);
if(returnedData == null) {
getContextData().put(RETURNED_CONTEXT_DATA_KEY, returnedData = new HashSet<>());
} else if(!(returnedData instanceof Set)) {
throw Logs.INVOCATION.returnedContextDataKeyOfWrongType();
}
Set keys = (Set) returnedData;
keys.add(key);
}
/**
* Get a value attached to the proxy.
*
* @param key the attachment key
* @param the value type
* @return the value, or {@code null} if there is none
*/
public T getProxyAttachment(AttachmentKey key) {
return invocationHandler.getAttachment(key);
}
/**
* Remove a value attached to the proxy.
*
* @param key the attachment key
* @param the value type
* @return the value, or {@code null} if there is none
*/
public T removeProxyAttachment(final AttachmentKey key) {
return invocationHandler.removeAttachment(key);
}
/**
* Determine whether the method is marked client-asynchronous, meaning that invocation should be asynchronous regardless
* of whether the server-side method is asynchronous.
*
* @return {@code true} if the method is marked client-asynchronous, {@code false} otherwise
*/
public boolean isClientAsync() {
return invocationHandler.isAsyncHandler() || methodInfo.isClientAsync();
}
/**
* Determine whether the method is definitely synchronous, that is, it is not marked client-async, and the return
* value of the method is not {@code void} or {@code Future>}.
*
* @return {@code true} if the method is definitely synchronous, {@code false} if the method may be asynchronous
*/
public boolean isSynchronous() {
return ! isClientAsync() && methodInfo.isSynchronous();
}
/**
* Determine whether the method is marked idempotent, meaning that the method may be invoked more than one time with
* no additional effect.
*
* @return {@code true} if the method is marked idempotent, {@code false} otherwise
*/
public boolean isIdempotent() {
return methodInfo.isIdempotent();
}
/**
* Determine whether the method has an explicit transaction policy set.
*
* @return the transaction policy, if any, or {@code null} if none was explicitly set
*/
public ClientTransactionPolicy getTransactionPolicy() {
return methodInfo.getTransactionPolicy();
}
/**
* Determine whether the request is expected to be compressed.
*
* @return {@code true} if the request is expected to be compressed, {@code false} otherwise
*/
public boolean isCompressRequest() {
if (methodInfo.getCompressRequestHint() == EJBProxyInformation.ProxyMethodInfo.CompressionHint.NONE) {
return getClientContext().getDefaultCompression() != -1;
}
return methodInfo.getCompressRequestHint() == EJBProxyInformation.ProxyMethodInfo.CompressionHint.TRUE;
}
/**
* Determine whether the response is expected to be compressed.
*
* @return {@code true} if the response is expected to be compressed, {@code false} otherwise
*/
public boolean isCompressResponse() {
if (methodInfo.getCompressResponseHint() == EJBProxyInformation.ProxyMethodInfo.CompressionHint.NONE) {
return getClientContext().getDefaultCompression() != -1;
}
return methodInfo.getCompressResponseHint() == EJBProxyInformation.ProxyMethodInfo.CompressionHint.TRUE;
}
/**
* Get the compression hint level. If no compression hint is given, -1 is returned.
*
* @return the compression hint level, or -1 for no compression hint
*/
public int getCompressionLevel() {
if(methodInfo.getCompressionLevel() != -1){
return methodInfo.getCompressionLevel();
}
return getClientContext().getDefaultCompression();
}
/**
* Get the method type signature string, used to identify the method.
*
* @return the method signature string
*/
public String getMethodSignatureString() {
return methodInfo.getSignature();
}
/**
* Get the Enterprise Beans method locator.
*
* @return the Enterprise Beans method locator
*/
public EJBMethodLocator getMethodLocator() {
return methodInfo.getMethodLocator();
}
/**
* Determine whether this invocation is currently blocking the calling thread.
*
* @return {@code true} if the calling thread is being blocked; {@code false} otherwise
*/
public boolean isBlockingCaller() {
synchronized (lock) {
return blockingCaller;
}
}
/**
* Establish whether this invocation is currently blocking the calling thread.
*
* @param blockingCaller {@code true} if the calling thread is being blocked; {@code false} otherwise
*/
public void setBlockingCaller(final boolean blockingCaller) {
synchronized (lock) {
this.blockingCaller = blockingCaller;
}
}
/**
* Add a suppressed exception to the request.
*
* @param cause the suppressed exception (must not be {@code null})
*/
public void addSuppressed(Throwable cause) {
Assert.checkNotNullParam("cause", cause);
synchronized (lock) {
if (state == State.DONE) {
return;
}
if (suppressedExceptions == null) {
suppressedExceptions = new ArrayList<>();
}
suppressedExceptions.add(() -> cause);
checkStateInvariants();
}
}
/**
* Add a suppressed exception to the request.
*
* @param cause the suppressed exception (must not be {@code null})
*/
public void addSuppressed(Supplier extends Throwable> cause) {
Assert.checkNotNullParam("cause", cause);
synchronized (lock) {
if (state == State.DONE) {
return;
}
if (suppressedExceptions == null) {
suppressedExceptions = new ArrayList<>();
}
suppressedExceptions.add(cause);
checkStateInvariants();
}
}
public void requestRetry() {
if (Logs.INVOCATION.isDebugEnabled()) {
Logs.INVOCATION.debugf("Requesting retry of invocation!");
}
synchronized (lock) {
retryRequested = true;
}
}
void sendRequestInitial() {
assert checkState() == State.SENDING;
for (;;) {
assert interceptorChainIndex == 0;
try {
getAuthenticationContext().runExConsumer(EJBClientInvocationContext::sendRequest, this);
// back to the start of the chain; decide what to do next.
synchronized (lock) {
try {
assert state == State.SENT || state == State.READY;
// from here we can go to: READY, or WAITING, or retry SENDING.
Supplier extends Throwable> pendingFailure = this.pendingFailure;
EJBReceiverInvocationContext.ResultProducer resultProducer = this.resultProducer;
// now see if we're retrying or returning.
if (pendingFailure != null) {
if (resultProducer == null) {
this.resultProducer = new ThrowableResult(pendingFailure);
} else {
addSuppressed(pendingFailure);
}
// Run the result interceptor chain to see if a retry is necessary
this.pendingFailure = null;
transition(State.CONSUMING);
try {
getResult(true);
} catch (Throwable t) {
if (state == State.SENDING) {
// Retry has been requested
continue;
}
}
// Return with getResult's set state
return;
}
if (resultProducer != null) {
transition(State.READY);
return;
}
transition(State.WAITING);
return;
} finally {
checkStateInvariants();
}
}
// not reachable
} catch (Throwable t) {
log.tracef("Encountered exception when calling sendRequestInitial: exception = %s)", t.getMessage());
// back to the start of the chain; decide what to do next.
synchronized (lock) {
if (state == State.SENDING) {
// didn't make it to the end of the chain even... but we won't suppress the thrown exception
transition(State.SENT);
}
assert state == State.SENT || state == State.READY;
try {
// from here we can go to: FAILED, READY, or retry SENDING.
Supplier extends Throwable> pendingFailure = this.pendingFailure;
EJBReceiverInvocationContext.ResultProducer resultProducer = this.resultProducer;
if (resultProducer != null) {
// READY, even if we have a pending failure.
if (pendingFailure != null) {
addSuppressed(t);
addSuppressed(pendingFailure);
this.pendingFailure = null;
}
transition(State.READY);
return;
}
// FAILED, or retry SENDING.
if (! retryRequested || remainingRetries == 0) {
// nobody wants retry, or there are none left; go to FAILED
if (pendingFailure != null) {
addSuppressed(pendingFailure);
}
if (t instanceof Exception) {
this.resultProducer = new EJBReceiverInvocationContext.ResultProducer.Failed((Exception) t);
} else {
this.resultProducer = new EJBReceiverInvocationContext.ResultProducer.Failed(new UndeclaredThrowableException(t));
}
this.pendingFailure = null;
transition(State.READY);
return;
}
log.tracef("retrying the invocation!: remaining retries = %d", remainingRetries);
// retry SENDING
if (pendingFailure != null) {
addSuppressed(pendingFailure);
}
setReceiver(null);
this.pendingFailure = null;
transition(State.SENDING);
retryRequested = false;
remainingRetries --;
} finally {
checkStateInvariants();
}
}
// record for later
addSuppressed(t);
// redo the loop
//noinspection UnnecessaryContinue
continue;
}
}
}
State checkState() {
synchronized (lock) {
return state;
}
}
/**
* Proceed with sending the request normally.
*
* @throws Exception if the request was not successfully sent
*/
public void sendRequest() throws Exception {
final Object lock = this.lock;
Assert.assertNotHoldsLock(lock);
final EJBClientInterceptorInformation[] chain = interceptorList.getInformation();
synchronized (lock) {
if (state != State.SENDING) {
throw Logs.MAIN.sendRequestCalledDuringWrongPhase();
}
}
final int idx = interceptorChainIndex ++;
try {
if (cancelRequested) {
synchronized (lock) {
transition(State.SENT);
resultReady(CANCELLED);
checkStateInvariants();
}
} else if (chain.length == idx) {
// End of the chain processing; deliver to receiver or throw an exception.
final URI destination = getDestination();
final EJBReceiver receiver;
try {
if (Logs.INVOCATION.isDebugEnabled()) {
Logs.INVOCATION.debugf("sendRequest: setting receiver, strong affinity = %s, weak affinity = %s, remote destination is: %s",
getLocator().getAffinity(), invocationHandler.getWeakAffinity(), destination);
}
receiver = getClientContext().resolveReceiver(destination, getLocator());
} catch (Throwable t) {
synchronized (lock) {
if (state != State.SENT) {
transition(State.SENT);
}
checkStateInvariants();
}
throw t;
}
setReceiver(receiver);
synchronized (lock) {
transition(State.SENT);
checkStateInvariants();
}
try {
receiver.processInvocation(receiverInvocationContext);
} catch (Throwable t) {
synchronized (lock) {
if (state != State.SENT) {
transition(State.SENT);
}
checkStateInvariants();
}
throw t;
}
} else {
try {
if (Logs.INVOCATION.isDebugEnabled()) {
Logs.INVOCATION.debugf("sendRequest: calling interceptor: %s", chain[idx].getInterceptorInstance());
}
chain[idx].getInterceptorInstance().handleInvocation(this);
} catch (Throwable t) {
synchronized (lock) {
if (state != State.SENT) {
transition(State.SENT);
}
checkStateInvariants();
}
throw t;
}
synchronized (lock) {
try {
if (state != State.SENT && state != State.READY) {
assert state == State.SENDING;
transition(State.SENT);
throw Logs.INVOCATION.requestNotSent();
}
} finally {
checkStateInvariants();
}
}
}
} finally {
interceptorChainIndex--;
}
// return to enclosing interceptor
return;
}
/**
* Get the invocation result from this request. The result is not actually acquired unless all interceptors
* call this method. Should only be called from {@link EJBClientInterceptor#handleInvocationResult(EJBClientInvocationContext)}.
*
* @return the invocation result
* @throws Exception if the invocation did not succeed
*/
public Object getResult() throws Exception {
return getResult(false);
}
/**
* Get the invocation result (internal operation).
*
* @param retry {@code true} if the caller is the retry process, {@code false} for user call
* @return the invocation result
* @throws Exception if the invocation did not succeed
*/
Object getResult(boolean retry) throws Exception {
final EJBClientContext.InterceptorList list = getClientContext().getInterceptors(getViewClass(), getInvokedMethod());
final EJBClientInterceptorInformation[] chain = list.getInformation();
final EJBReceiverInvocationContext.ResultProducer resultProducer;
Throwable fail = null;
final int idx = this.interceptorChainIndex;
final Object lock = this.lock;
synchronized (lock) {
try {
if (idx == 0) {
if (retry) {
assert state == State.CONSUMING;
} else {
while (state == State.CONSUMING) try {
checkStateInvariants();
try {
waiters++;
lock.wait();
} finally {
waiters--;
}
} catch (InterruptedException e) {
Thread.currentThread().interrupt();
throw Logs.MAIN.operationInterrupted();
}
if (state == State.DONE) {
Supplier extends Throwable> pendingFailure = this.pendingFailure;
if (pendingFailure != null) {
fail = pendingFailure.get();
if (fail == null) {
return cachedResult;
}
} else {
return cachedResult;
}
} else if (state != State.READY) {
throw Logs.MAIN.getResultCalledDuringWrongPhase();
} else {
transition(State.CONSUMING);
}
}
}
resultProducer = this.resultProducer;
} finally {
checkStateInvariants();
}
}
if (fail != null) try {
throw fail;
} catch (Exception | Error e) {
throw e;
} catch (Throwable t) {
throw new UndeclaredThrowableException(t);
}
this.interceptorChainIndex = idx + 1;
try {
final Object result;
try {
if (idx == chain.length) {
result = resultProducer.getResult();
} else {
result = chain[idx].getInterceptorInstance().handleInvocationResult(this);
}
if (idx == 0) {
synchronized (lock) {
transition(State.DONE);
pendingFailure = null;
suppressedExceptions = null;
cachedResult = result;
this.resultProducer = null;
checkStateInvariants();
}
}
return result;
} catch (Throwable t) {
if (idx == 0) {
log.tracef("Encountered exception while calling getResult(): exception = %s", t.toString());
synchronized (lock) {
// retry if we can
this.resultProducer = null;
List> suppressedExceptions = this.suppressedExceptions;
final int remainingRetries = this.remainingRetries;
final boolean retryRequested = this.retryRequested;
if (retryRequested && remainingRetries > 0) {
log.tracef("Will retry (requested = %s, remaining = %d)", retryRequested, remainingRetries);
if (suppressedExceptions == null) {
suppressedExceptions = this.suppressedExceptions = new ArrayList<>();
}
suppressedExceptions.add(() -> t);
this.remainingRetries --;
this.retryRequested = false;
this.cachedResult = null;
this.pendingFailure = null;
setReceiver(null);
transition(State.SENDING);
checkStateInvariants();
} else {
log.tracef("Will not retry (requested = %s, remaining = %d)", retryRequested, remainingRetries);
pendingFailure = () -> t;
if (suppressedExceptions != null) {
this.suppressedExceptions = null;
for (Supplier extends Throwable> supplier : suppressedExceptions) {
try {
t.addSuppressed(supplier.get());
} catch (Throwable ignored) {}
}
}
transition(State.DONE);
checkStateInvariants();
}
}
}
throw t;
} finally {
if (idx == 0) {
if (Logs.INVOCATION.isDebugEnabled()) {
Logs.INVOCATION.debugf("getResult(): invocation returned, relocating EJB: strong affinity = %s, weak affinity = %s", getLocator().getAffinity(), getWeakAffinity());
}
// relocate the EJB
invocationHandler.setWeakAffinity(getWeakAffinity());
invocationHandler.setStrongAffinity(getLocator().getAffinity());
}
}
} finally {
interceptorChainIndex = idx;
}
}
/**
* Discard the result from this request. Should only be called from {@link EJBClientInterceptor#handleInvocationResult(EJBClientInvocationContext)}.
*
* @throws IllegalStateException if there is no result to discard
*/
public void discardResult() throws IllegalStateException {
resultReady(EJBClientInvocationContext.ONE_WAY);
}
void resultReady(EJBReceiverInvocationContext.ResultProducer resultProducer) {
Assert.checkNotNullParam("resultProducer", resultProducer);
synchronized (lock) {
if (state.isWaiting() && this.resultProducer == null) {
this.resultProducer = resultProducer;
if (state == State.WAITING || state == State.SENT) {
transition(State.READY);
}
checkStateInvariants();
if (log.isTraceEnabled()) {
log.tracef("Result is ready for %s: result producer: %s, current state: %s", this, resultProducer, state);
}
return;
}
checkStateInvariants();
if (log.isTraceEnabled()) {
log.tracef("Result discarded for %s: result producer: %s, current state: %s", this, resultProducer, state);
}
}
// for whatever reason, we don't care
resultProducer.discardResult();
}
/**
* Get the invoked proxy object.
*
* @return the invoked proxy
*/
public Object getInvokedProxy() {
return invokedProxy;
}
/**
* Get the invoked proxy method.
*
* @return the invoked method
*/
public Method getInvokedMethod() {
return methodInfo.getMethod();
}
/**
* Get the invocation method parameters.
*
* @return the invocation method parameters
*/
public Object[] getParameters() {
return parameters;
}
/**
* Get the remaining invocation time in the given unit. If there is no invocation timeout, {@link Long#MAX_VALUE} is
* always returned. If the invocation time has elapsed, 0 is returned.
*
* @param timeUnit the time unit (must not be {@code null})
* @return the invocation's remaining time in the provided unit
*/
public long getRemainingInvocationTime(TimeUnit timeUnit) {
Assert.checkNotNullParam("timeUnit", timeUnit);
final long timeout = this.timeout;
if (timeout <= 0L) {
return Long.MAX_VALUE;
}
return max(0L, timeUnit.convert(timeout - (System.nanoTime() - startTime) / 1_000_000L, TimeUnit.MILLISECONDS));
}
@Override
public void setLocator(EJBLocator locator) {
super.setLocator(locator);
Affinity affinity = locator.getAffinity();
if (affinity instanceof ClusterAffinity) {
ClusterAffinityInterest interest = invocationHandler.getAttachment(ClusterAffinityInterest.KEY);
if (interest != null) {
interest.notifyAssignment((ClusterAffinity)affinity);
}
}
}
@NotNull
Discovery getDiscovery() {
return discoveryContext;
}
Future> getFutureResponse() {
return new FutureResponse();
}
void proceedAsynchronously() {
if (getInvokedMethod().getReturnType() == void.class) {
resultReady(EJBReceiverInvocationContext.ResultProducer.NULL);
}
}
/**
* Transition to a new state, guarded by assertions.
*
* @param newState the state to transition to (must not be {@code null})
*/
private void transition(State newState) {
final Object lock = this.lock;
Assert.assertHoldsLock(lock);
final State oldState = this.state;
if (oldState == newState) {
return;
}
if (log.isTraceEnabled()) {
StackTraceElement caller = (new Exception()).getStackTrace()[1];
log.tracef("Transitioning %s from %s to %s (%s)", this, oldState, newState, caller);
}
switch (oldState) {
case SENDING: {
assert newState == State.SENT;
break;
}
case SENT: {
assert newState == State.READY || newState == State.SENDING || newState == State.DONE || newState == State.WAITING || newState == State.CONSUMING;
break;
}
case WAITING: {
assert newState == State.DONE || newState == State.READY || newState == State.CONSUMING;
break;
}
case READY: {
assert newState == State.CONSUMING;
break;
}
case CONSUMING: {
assert newState == State.SENDING || newState == State.DONE || newState == State.READY;
break;
}
default: {
assert false;
break;
}
}
switch (newState) {
case READY:
case DONE: {
this.remainingRetries = 0;
// fall thru
}
case WAITING:{
if(waiters > 0) {
lock.notifyAll();
}
break;
}
}
// everything is OK
this.state = newState;
}
/**
* Check the invariants of the current state with assertions before the caller releases the lock.
*/
private void checkStateInvariants() {
final Object lock = this.lock;
Assert.assertHoldsLock(lock);
final State state = this.state;
switch (state) {
case SENDING: {
assert resultProducer == null && cachedResult == null && getReceiver() == null;
break;
}
case SENT: {
assert cachedResult == null;
break;
}
case WAITING: {
assert resultProducer == null && pendingFailure == null && cachedResult == null;
break;
}
case READY: {
assert resultProducer != null && pendingFailure == null && cachedResult == null && remainingRetries == 0;
break;
}
case CONSUMING: {
assert resultProducer != null && pendingFailure == null && cachedResult == null;
break;
}
case DONE: {
assert resultProducer == null && (pendingFailure == null || pendingFailure != null && cachedResult == null) && remainingRetries == 0;
break;
}
default: {
assert false;
break;
}
}
}
/**
* Wait to determine whether this invocation was cancelled.
*
* @return {@code true} if the invocation was cancelled; {@code false} if it completed or failed or the thread was
* interrupted
*/
public boolean awaitCancellationResult() {
final Object lock = this.lock;
Assert.assertNotHoldsLock(lock);
synchronized (lock) {
for (;;) {
if (resultProducer == CANCELLED) {
return true;
} else if (! state.isWaiting()) {
return false;
}
try {
checkStateInvariants();
try {
waiters++;
lock.wait();
} finally {
waiters--;
}
} catch (InterruptedException ex) {
Thread.currentThread().interrupt();
return false;
}
}
}
}
Object awaitResponse() throws Exception {
Assert.assertNotHoldsLock(lock);
boolean intr = false, timedOut = false;
try {
final Object lock = this.lock;
final long timeout = this.timeout;
synchronized (lock) {
try {
out: for (;;) {
switch (state) {
case SENDING:
case SENT:
case CONSUMING:
case WAITING: {
if (timeout <= 0 || timedOut) {
// no timeout; lighter code path
try {
checkStateInvariants();
try {
waiters++;
lock.wait();
} finally {
waiters--;
}
} catch (InterruptedException e) {
intr = true;
}
} else {
// timeout in ms, elapsed time in nanosecs
long remaining = max(0L, timeout * 1_000_000L - max(0L, System.nanoTime() - startTime));
if (remaining == 0L) {
// timed out
timedOut = true;
this.timeout = 0;
if (state == State.CONSUMING) {
addSuppressed(new TimeoutException("No invocation response received in " + timeout + " milliseconds"));
transition(State.READY);
} else {
resultReady(new ThrowableResult(() -> new TimeoutException("No invocation response received in " + timeout + " milliseconds")));
}
} else try {
checkStateInvariants();
try {
waiters++;
lock.wait(remaining / 1_000_000L, (int) (remaining % 1_000_000L));
} finally {
waiters--;
}
} catch (InterruptedException e) {
intr = true;
}
}
break;
}
case READY: {
// we have to get the result, so break out of here.
checkStateInvariants();
break out;
}
case DONE: {
checkStateInvariants();
if (pendingFailure != null) {
try {
throw pendingFailure.get();
} catch (Error | Exception e) {
throw e;
} catch (Throwable t) {
throw new UndeclaredThrowableException(t);
}
}
return cachedResult;
}
default: {
throw new IllegalStateException();
}
}
}
} finally {
blockingCaller = false;
}
}
return getResult();
} finally {
if (intr) Thread.currentThread().interrupt();
if (timedOut) {
final EJBReceiver receiver = getReceiver();
if (receiver != null) receiver.cancelInvocation(receiverInvocationContext, true);
}
}
}
void setDiscardResult() {
final Object lock = this.lock;
assert !holdsLock(lock);
final EJBReceiverInvocationContext.ResultProducer resultProducer;
synchronized (lock) {
resultProducer = this.resultProducer;
this.resultProducer = EJBReceiverInvocationContext.ResultProducer.NULL;
// result is waiting, discard it
if (state == State.WAITING) {
transition(State.DONE);
}
// fall out of the lock to discard the old result (if any)
checkStateInvariants();
}
if (resultProducer != null) resultProducer.discardResult();
}
void cancelled() {
resultReady(CANCELLED);
}
void failed(Exception exception, Executor retryExecutor) {
final Object lock = this.lock;
synchronized (lock) {
log.tracef("Invocation marked failed, state is currently: %s", state);
switch (state) {
case CONSUMING:
case DONE: {
// ignore
return;
}
case SENDING: {
throw new IllegalStateException();
}
case SENT: {
final Supplier extends Throwable> pendingFailure = this.pendingFailure;
if (pendingFailure != null) {
addSuppressed(pendingFailure);
}
this.pendingFailure = () -> exception;
return;
}
case READY: {
addSuppressed(exception);
return;
}
case WAITING: {
// moving to CONSUMING, which requires a resultProducer.
this.resultProducer = new ThrowableResult(() -> exception);
this.pendingFailure = null;
// process result immediately, possibly retrying at the end
// retry SENDING via CONSUMING
transition(State.CONSUMING);
// redo the request
checkStateInvariants();
break;
}
default: {
throw Assert.impossibleSwitchCase(state);
}
}
}
retryExecutor.execute(this::retryOperation);
return;
}
void retryOperation() {
try {
getResult(true);
} catch (Throwable t) {
final boolean retry;
synchronized (lock) {
retry = state == State.SENDING;
}
if (retry) sendRequestInitial();
}
}
final class FutureResponse implements Future
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