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/*
 * Copyright 2015 The gRPC Authors
 *
 * 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.apache.ratis.thirdparty.io.grpc;

import org.apache.ratis.thirdparty.io.grpc.Context.CheckReturnValue;
import java.io.Closeable;
import java.util.ArrayList;
import java.util.concurrent.Callable;
import java.util.concurrent.Executor;
import java.util.concurrent.ScheduledExecutorService;
import java.util.concurrent.ScheduledFuture;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.atomic.AtomicReference;
import java.util.logging.Level;
import java.util.logging.Logger;

/**
 * A context propagation mechanism which can carry scoped-values across API boundaries and between
 * threads. Examples of state propagated via context include:
 * 
    *
  • Security principals and credentials.
  • *
  • Local and distributed tracing information.
  • *
* *

A Context object can be {@link #attach attached} to the {@link Storage}, which effectively * forms a scope for the context. The scope is bound to the current thread. Within a scope, * its Context is accessible even across API boundaries, through {@link #current}. The scope is * later exited by {@link #detach detaching} the Context. * *

Context objects are immutable and inherit state from their parent. To add or overwrite the * current state a new context object must be created and then attached, replacing the previously * bound context. For example: * *

 *   Context withCredential = Context.current().withValue(CRED_KEY, cred);
 *   withCredential.run(new Runnable() {
 *     public void run() {
 *        readUserRecords(userId, CRED_KEY.get());
 *     }
 *   });
 * 
* *

Contexts are also used to represent a scoped unit of work. When the unit of work is done the * context can be cancelled. This cancellation will also cascade to all descendant contexts. You can * add a {@link CancellationListener} to a context to be notified when it or one of its ancestors * has been cancelled. Cancellation does not release the state stored by a context and it's * perfectly valid to {@link #attach()} an already cancelled context to make it current. To cancel a * context (and its descendants) you first create a {@link CancellableContext} and when you need to * signal cancellation call {@link CancellableContext#cancel} or {@link * CancellableContext#detachAndCancel}. For example: *

 *   CancellableContext withCancellation = Context.current().withCancellation();
 *   try {
 *     withCancellation.run(new Runnable() {
 *       public void run() {
 *         while (waitingForData() && !Context.current().isCancelled()) {}
 *       }
 *     });
 *     doSomeWork();
 *   } catch (Throwable t) {
 *      withCancellation.cancel(t);
 *   }
 * 
* *

Contexts can also be created with a timeout relative to the system nano clock which will * cause it to automatically cancel at the desired time. * * *

Notes and cautions on use: *

    *
  • Every {@code attach()} should have a {@code detach()} in the same method. And every * CancellableContext should be cancelled at some point. Breaking these rules may lead to memory * leaks. *
  • While Context objects are immutable they do not place such a restriction on the state * they store.
  • *
  • Context is not intended for passing optional parameters to an API and developers should * take care to avoid excessive dependence on context when designing an API.
  • *
  • Do not mock this class. Use {@link #ROOT} for a non-null instance. *
*/ /* @DoNotMock("Use ROOT for a non-null Context") // commented out to avoid dependencies */ @CheckReturnValue public class Context { static final Logger log = Logger.getLogger(Context.class.getName()); private static final PersistentHashArrayMappedTrie, Object> EMPTY_ENTRIES = new PersistentHashArrayMappedTrie<>(); // Long chains of contexts are suspicious and usually indicate a misuse of Context. // The threshold is arbitrarily chosen. // VisibleForTesting static final int CONTEXT_DEPTH_WARN_THRESH = 1000; /** * The logical root context which is the ultimate ancestor of all contexts. This context * is not cancellable and so will not cascade cancellation or retain listeners. * *

Never assume this is the default context for new threads, because {@link Storage} may define * a default context that is different from ROOT. */ public static final Context ROOT = new Context(null, EMPTY_ENTRIES); // Visible For testing static Storage storage() { return LazyStorage.storage; } // Lazy-loaded storage. Delaying storage initialization until after class initialization makes it // much easier to avoid circular loading since there can still be references to Context as long as // they don't depend on storage, like key() and currentContextExecutor(). It also makes it easier // to handle exceptions. private static final class LazyStorage { static final Storage storage; static { AtomicReference deferredStorageFailure = new AtomicReference<>(); storage = createStorage(deferredStorageFailure); Throwable failure = deferredStorageFailure.get(); // Logging must happen after storage has been set, as loggers may use Context. if (failure != null) { log.log(Level.FINE, "Storage override doesn't exist. Using default", failure); } } private static Storage createStorage( AtomicReference deferredStorageFailure) { try { Class clazz = Class.forName("org.apache.ratis.thirdparty.io.grpc.override.ContextStorageOverride"); // The override's constructor is prohibited from triggering any code that can loop back to // Context return clazz.asSubclass(Storage.class).getConstructor().newInstance(); } catch (ClassNotFoundException e) { deferredStorageFailure.set(e); return new ThreadLocalContextStorage(); } catch (Exception e) { throw new RuntimeException("Storage override failed to initialize", e); } } } /** * Create a {@link Key} with the given debug name. Multiple different keys may have the same name; * the name is intended for debugging purposes and does not impact behavior. */ public static Key key(String name) { return new Key<>(name); } /** * Create a {@link Key} with the given debug name and default value. Multiple different keys may * have the same name; the name is intended for debugging purposes and does not impact behavior. */ public static Key keyWithDefault(String name, T defaultValue) { return new Key<>(name, defaultValue); } /** * Return the context associated with the current scope, will never return {@code null}. * *

Will never return {@link CancellableContext} even if one is attached, instead a * {@link Context} is returned with the same properties and lifetime. This is to avoid * code stealing the ability to cancel arbitrarily. */ public static Context current() { Context current = storage().current(); if (current == null) { return ROOT; } return current; } private ArrayList listeners; private CancellationListener parentListener = new ParentListener(); final CancellableContext cancellableAncestor; final PersistentHashArrayMappedTrie, Object> keyValueEntries; // The number parents between this context and the root context. final int generation; /** * Construct a context that cannot be cancelled and will not cascade cancellation from its parent. */ private Context(PersistentHashArrayMappedTrie, Object> keyValueEntries, int generation) { cancellableAncestor = null; this.keyValueEntries = keyValueEntries; this.generation = generation; validateGeneration(generation); } /** * Construct a context that cannot be cancelled but will cascade cancellation from its parent if * it is cancellable. */ private Context(Context parent, PersistentHashArrayMappedTrie, Object> keyValueEntries) { cancellableAncestor = cancellableAncestor(parent); this.keyValueEntries = keyValueEntries; this.generation = parent == null ? 0 : parent.generation + 1; validateGeneration(generation); } /** * Create a new context which is independently cancellable and also cascades cancellation from * its parent. Callers must ensure that either {@link * CancellableContext#cancel(Throwable)} or {@link CancellableContext#detachAndCancel(Context, * Throwable)} are called at a later point, in order to allow this context to be garbage * collected. * *

Sample usage: *

   *   Context.CancellableContext withCancellation = Context.current().withCancellation();
   *   try {
   *     withCancellation.run(new Runnable() {
   *       public void run() {
   *         Context current = Context.current();
   *         while (!current.isCancelled()) {
   *           keepWorking();
   *         }
   *       }
   *     });
   *   } finally {
   *     withCancellation.cancel(null);
   *   }
   * 
*/ public CancellableContext withCancellation() { return new CancellableContext(this); } /** * Create a new context which will cancel itself after the given {@code duration} from now. * The returned context will cascade cancellation of its parent. Callers may explicitly cancel * the returned context prior to the deadline just as for {@link #withCancellation()}. If the unit * of work completes before the deadline, the context should be explicitly cancelled to allow * it to be garbage collected. * *

Sample usage: *

   *   Context.CancellableContext withDeadline = Context.current()
   *       .withDeadlineAfter(5, TimeUnit.SECONDS, scheduler);
   *   try {
   *     withDeadline.run(new Runnable() {
   *       public void run() {
   *         Context current = Context.current();
   *         while (!current.isCancelled()) {
   *           keepWorking();
   *         }
   *       }
   *     });
   *   } finally {
   *     withDeadline.cancel(null);
   *   }
   * 
*/ public CancellableContext withDeadlineAfter(long duration, TimeUnit unit, ScheduledExecutorService scheduler) { return withDeadline(Deadline.after(duration, unit), scheduler); } /** * Create a new context which will cancel itself at the given {@link Deadline}. * The returned context will cascade cancellation of its parent. Callers may explicitly cancel * the returned context prior to the deadline just as for {@link #withCancellation()}. If the unit * of work completes before the deadline, the context should be explicitly cancelled to allow * it to be garbage collected. * *

Sample usage: *

   *   Context.CancellableContext withDeadline = Context.current()
   *      .withDeadline(someReceivedDeadline, scheduler);
   *   try {
   *     withDeadline.run(new Runnable() {
   *       public void run() {
   *         Context current = Context.current();
   *         while (!current.isCancelled() && moreWorkToDo()) {
   *           keepWorking();
   *         }
   *       }
   *     });
   *   } finally {
   *     withDeadline.cancel(null);
   *   }
   * 
*/ public CancellableContext withDeadline(Deadline newDeadline, ScheduledExecutorService scheduler) { checkNotNull(newDeadline, "deadline"); checkNotNull(scheduler, "scheduler"); Deadline existingDeadline = getDeadline(); boolean scheduleDeadlineCancellation = true; if (existingDeadline != null && existingDeadline.compareTo(newDeadline) <= 0) { // The new deadline won't have an effect, so ignore it newDeadline = existingDeadline; scheduleDeadlineCancellation = false; } CancellableContext newCtx = new CancellableContext(this, newDeadline); if (scheduleDeadlineCancellation) { newCtx.setUpDeadlineCancellation(newDeadline, scheduler); } return newCtx; } /** * Create a new context with the given key value set. The new context will cascade cancellation * from its parent. *
   *   Context withCredential = Context.current().withValue(CRED_KEY, cred);
   *   withCredential.run(new Runnable() {
   *     public void run() {
   *        readUserRecords(userId, CRED_KEY.get());
   *     }
   *   });
   * 
* *

Note that multiple calls to {@link #withValue} can be chained together. * That is, * *

   * context.withValues(K1, V1, K2, V2);
   * // is the same as
   * context.withValue(K1, V1).withValue(K2, V2);
   * 
* *

Nonetheless, {@link Context} should not be treated like a general purpose * map with a large number of keys and values — combine multiple related items * together into a single key instead of separating them. But if the items * are unrelated, have separate keys for them. */ public Context withValue(Key k1, V v1) { PersistentHashArrayMappedTrie, Object> newKeyValueEntries = keyValueEntries.put(k1, v1); return new Context(this, newKeyValueEntries); } /** * Create a new context with the given key value set. The new context will cascade cancellation * from its parent. */ public Context withValues(Key k1, V1 v1, Key k2, V2 v2) { PersistentHashArrayMappedTrie, Object> newKeyValueEntries = keyValueEntries.put(k1, v1).put(k2, v2); return new Context(this, newKeyValueEntries); } /** * Create a new context with the given key value set. The new context will cascade cancellation * from its parent. */ public Context withValues(Key k1, V1 v1, Key k2, V2 v2, Key k3, V3 v3) { PersistentHashArrayMappedTrie, Object> newKeyValueEntries = keyValueEntries.put(k1, v1).put(k2, v2).put(k3, v3); return new Context(this, newKeyValueEntries); } /** * Create a new context with the given key value set. The new context will cascade cancellation * from its parent. * *

For more than 4 key-value pairs, note that multiple calls to * {@link #withValue} can be chained together. That is, * *

   * context.withValues(K1, V1, K2, V2);
   * // is the same as
   * context.withValue(K1, V1).withValue(K2, V2);
   * 
* *

Nonetheless, {@link Context} should not be treated like a general purpose * map with a large number of keys and values — combine multiple related items * together into a single key instead of separating them. But if the items * are unrelated, have separate keys for them. */ public Context withValues(Key k1, V1 v1, Key k2, V2 v2, Key k3, V3 v3, Key k4, V4 v4) { PersistentHashArrayMappedTrie, Object> newKeyValueEntries = keyValueEntries.put(k1, v1).put(k2, v2).put(k3, v3).put(k4, v4); return new Context(this, newKeyValueEntries); } /** * Create a new context which propagates the values of this context but does not cascade its * cancellation. */ public Context fork() { return new Context(keyValueEntries, generation + 1); } boolean canBeCancelled() { return cancellableAncestor != null; } /** * Attach this context, thus enter a new scope within which this context is {@link #current}. The * previously current context is returned. It is allowed to attach contexts where {@link * #isCancelled()} is {@code true}. * *

Instead of using {@code attach()} and {@link #detach(Context)} most use-cases are better * served by using the {@link #run(Runnable)} or {@link #call(java.util.concurrent.Callable)} to * execute work immediately within a context's scope. If work needs to be done in other threads it * is recommended to use the 'wrap' methods or to use a propagating executor. * *

All calls to {@code attach()} should have a corresponding {@link #detach(Context)} within * the same method: *

{@code Context previous = someContext.attach();
   * try {
   *   // Do work
   * } finally {
   *   someContext.detach(previous);
   * }}
*/ public Context attach() { Context prev = storage().doAttach(this); if (prev == null) { return ROOT; } return prev; } /** * Reverse an {@code attach()}, restoring the previous context and exiting the current scope. * *

This context should be the same context that was previously {@link #attach attached}. The * provided replacement should be what was returned by the same {@link #attach attach()} call. If * an {@code attach()} and a {@code detach()} meet above requirements, they match. * *

It is expected that between any pair of matching {@code attach()} and {@code detach()}, all * {@code attach()}es and {@code detach()}es are called in matching pairs. If this method finds * that this context is not {@link #current current}, either you or some code in-between are not * detaching correctly, and a SEVERE message will be logged but the context to attach will still * be bound. Never use {@code Context.current().detach()}, as this will * compromise this error-detecting mechanism. */ public void detach(Context toAttach) { checkNotNull(toAttach, "toAttach"); storage().detach(this, toAttach); } // Visible for testing boolean isCurrent() { return current() == this; } /** * Is this context cancelled. */ public boolean isCancelled() { if (cancellableAncestor == null) { return false; } else { return cancellableAncestor.isCancelled(); } } /** * If a context {@link #isCancelled()} then return the cause of the cancellation or * {@code null} if context was cancelled without a cause. If the context is not yet cancelled * will always return {@code null}. * *

The cancellation cause is provided for informational purposes only and implementations * should generally assume that it has already been handled and logged properly. */ public Throwable cancellationCause() { if (cancellableAncestor == null) { return null; } else { return cancellableAncestor.cancellationCause(); } } /** * A context may have an associated {@link Deadline} at which it will be automatically cancelled. * @return A {@link org.apache.ratis.thirdparty.io.grpc.Deadline} or {@code null} if no deadline is set. */ public Deadline getDeadline() { if (cancellableAncestor == null) { return null; } return cancellableAncestor.getDeadline(); } /** * Add a listener that will be notified when the context becomes cancelled. */ public void addListener(final CancellationListener cancellationListener, final Executor executor) { checkNotNull(cancellationListener, "cancellationListener"); checkNotNull(executor, "executor"); if (canBeCancelled()) { ExecutableListener executableListener = new ExecutableListener(executor, cancellationListener); synchronized (this) { if (isCancelled()) { executableListener.deliver(); } else { if (listeners == null) { // Now that we have a listener we need to listen to our parent so // we can cascade listener notification. listeners = new ArrayList<>(); listeners.add(executableListener); if (cancellableAncestor != null) { cancellableAncestor.addListener(parentListener, DirectExecutor.INSTANCE); } } else { listeners.add(executableListener); } } } } } /** * Remove a {@link CancellationListener}. */ public void removeListener(CancellationListener cancellationListener) { if (!canBeCancelled()) { return; } synchronized (this) { if (listeners != null) { for (int i = listeners.size() - 1; i >= 0; i--) { if (listeners.get(i).listener == cancellationListener) { listeners.remove(i); // Just remove the first matching listener, given that we allow duplicate // adds we should allow for duplicates after remove. break; } } // We have no listeners so no need to listen to our parent if (listeners.isEmpty()) { if (cancellableAncestor != null) { cancellableAncestor.removeListener(parentListener); } listeners = null; } } } } /** * Notify all listeners that this context has been cancelled and immediately release * any reference to them so that they may be garbage collected. */ void notifyAndClearListeners() { if (!canBeCancelled()) { return; } ArrayList tmpListeners; synchronized (this) { if (listeners == null) { return; } tmpListeners = listeners; listeners = null; } // Deliver events to non-child context listeners before we notify child contexts. We do this // to cancel higher level units of work before child units. This allows for a better error // handling paradigm where the higher level unit of work knows it is cancelled and so can // ignore errors that bubble up as a result of cancellation of lower level units. for (int i = 0; i < tmpListeners.size(); i++) { if (!(tmpListeners.get(i).listener instanceof ParentListener)) { tmpListeners.get(i).deliver(); } } for (int i = 0; i < tmpListeners.size(); i++) { if (tmpListeners.get(i).listener instanceof ParentListener) { tmpListeners.get(i).deliver(); } } if (cancellableAncestor != null) { cancellableAncestor.removeListener(parentListener); } } // Used in tests to ensure that listeners are defined and released when cancellation cascades. // It's very important to ensure that we do not accidentally retain listeners. int listenerCount() { synchronized (this) { return listeners == null ? 0 : listeners.size(); } } /** * Immediately run a {@link Runnable} with this context as the {@link #current} context. * @param r {@link Runnable} to run. */ public void run(Runnable r) { Context previous = attach(); try { r.run(); } finally { detach(previous); } } /** * Immediately call a {@link Callable} with this context as the {@link #current} context. * @param c {@link Callable} to call. * @return result of call. */ @CanIgnoreReturnValue public V call(Callable c) throws Exception { Context previous = attach(); try { return c.call(); } finally { detach(previous); } } /** * Wrap a {@link Runnable} so that it executes with this context as the {@link #current} context. */ public Runnable wrap(final Runnable r) { return new Runnable() { @Override public void run() { Context previous = attach(); try { r.run(); } finally { detach(previous); } } }; } /** * Wrap a {@link Callable} so that it executes with this context as the {@link #current} context. */ public Callable wrap(final Callable c) { return new Callable() { @Override public C call() throws Exception { Context previous = attach(); try { return c.call(); } finally { detach(previous); } } }; } /** * Wrap an {@link Executor} so that it always executes with this context as the {@link #current} * context. It is generally expected that {@link #currentContextExecutor(Executor)} would be * used more commonly than this method. * *

One scenario in which this executor may be useful is when a single thread is sharding work * to multiple threads. * * @see #currentContextExecutor(Executor) */ public Executor fixedContextExecutor(final Executor e) { final class FixedContextExecutor implements Executor { @Override public void execute(Runnable r) { e.execute(wrap(r)); } } return new FixedContextExecutor(); } /** * Create an executor that propagates the {@link #current} context when {@link Executor#execute} * is called as the {@link #current} context of the {@code Runnable} scheduled. Note that this * is a static method. * * @see #fixedContextExecutor(Executor) */ public static Executor currentContextExecutor(final Executor e) { final class CurrentContextExecutor implements Executor { @Override public void execute(Runnable r) { e.execute(Context.current().wrap(r)); } } return new CurrentContextExecutor(); } /** * Lookup the value for a key in the context inheritance chain. */ Object lookup(Key key) { return keyValueEntries.get(key); } /** * A context which inherits cancellation from its parent but which can also be independently * cancelled and which will propagate cancellation to its descendants. To avoid leaking memory, * every CancellableContext must have a defined lifetime, after which it is guaranteed to be * cancelled. * *

This class must be cancelled by either calling {@link #close} or {@link #cancel}. * {@link #close} is equivalent to calling {@code cancel(null)}. It is safe to call the methods * more than once, but only the first call will have any effect. Because it's safe to call the * methods multiple times, users are encouraged to always call {@link #close} at the end of * the operation, and disregard whether {@link #cancel} was already called somewhere else. * *

Blocking code can use the try-with-resources idiom: *

   * try (CancellableContext c = Context.current()
   *     .withDeadlineAfter(100, TimeUnit.MILLISECONDS, executor)) {
   *   Context toRestore = c.attach();
   *   try {
   *     // do some blocking work
   *   } finally {
   *     c.detach(toRestore);
   *   }
   * }
* *

Asynchronous code will have to manually track the end of the CancellableContext's lifetime, * and cancel the context at the appropriate time. */ public static final class CancellableContext extends Context implements Closeable { private final Deadline deadline; private final Context uncancellableSurrogate; private boolean cancelled; private Throwable cancellationCause; private ScheduledFuture pendingDeadline; /** * Create a cancellable context that does not have a deadline. */ private CancellableContext(Context parent) { super(parent, parent.keyValueEntries); deadline = parent.getDeadline(); // Create a surrogate that inherits from this to attach so that you cannot retrieve a // cancellable context from Context.current() uncancellableSurrogate = new Context(this, keyValueEntries); } /** * Create a cancellable context that has a deadline. */ private CancellableContext(Context parent, Deadline deadline) { super(parent, parent.keyValueEntries); this.deadline = deadline; this.uncancellableSurrogate = new Context(this, keyValueEntries); } private void setUpDeadlineCancellation(Deadline deadline, ScheduledExecutorService scheduler) { if (!deadline.isExpired()) { final class CancelOnExpiration implements Runnable { @Override public void run() { try { cancel(new TimeoutException("context timed out")); } catch (Throwable t) { log.log(Level.SEVERE, "Cancel threw an exception, which should not happen", t); } } } synchronized (this) { pendingDeadline = deadline.runOnExpiration(new CancelOnExpiration(), scheduler); } } else { // Cancel immediately if the deadline is already expired. cancel(new TimeoutException("context timed out")); } } @Override public Context attach() { return uncancellableSurrogate.attach(); } @Override public void detach(Context toAttach) { uncancellableSurrogate.detach(toAttach); } /** * Returns true if the Context is the current context. * * @deprecated This method violates some GRPC class encapsulation and should not be used. * If you must know whether a Context is the current context, check whether it is the same * object returned by {@link Context#current()}. */ //TODO(spencerfang): The superclass's method is package-private, so this should really match. @Override @Deprecated public boolean isCurrent() { return uncancellableSurrogate.isCurrent(); } /** * Cancel this context and optionally provide a cause (can be {@code null}) for the * cancellation. This will trigger notification of listeners. It is safe to call this method * multiple times. Only the first call will have any effect. * *

Calling {@code cancel(null)} is the same as calling {@link #close}. * * @return {@code true} if this context cancelled the context and notified listeners, * {@code false} if the context was already cancelled. */ @CanIgnoreReturnValue public boolean cancel(Throwable cause) { boolean triggeredCancel = false; synchronized (this) { if (!cancelled) { cancelled = true; if (pendingDeadline != null) { // If we have a scheduled cancellation pending attempt to cancel it. pendingDeadline.cancel(false); pendingDeadline = null; } this.cancellationCause = cause; triggeredCancel = true; } } if (triggeredCancel) { notifyAndClearListeners(); } return triggeredCancel; } /** * Cancel this context and detach it as the current context. * * @param toAttach context to make current. * @param cause of cancellation, can be {@code null}. */ public void detachAndCancel(Context toAttach, Throwable cause) { try { detach(toAttach); } finally { cancel(cause); } } @Override public boolean isCancelled() { synchronized (this) { if (cancelled) { return true; } } // Detect cancellation of parent in the case where we have no listeners and // record it. if (super.isCancelled()) { cancel(super.cancellationCause()); return true; } return false; } @Override public Throwable cancellationCause() { if (isCancelled()) { return cancellationCause; } return null; } @Override public Deadline getDeadline() { return deadline; } @Override boolean canBeCancelled() { return true; } /** * Cleans up this object by calling {@code cancel(null)}. */ @Override public void close() { cancel(null); } } /** * A listener notified on context cancellation. */ public interface CancellationListener { /** * @param context the newly cancelled context. */ void cancelled(Context context); } /** * Key for indexing values stored in a context. */ public static final class Key { private final String name; private final T defaultValue; Key(String name) { this(name, null); } Key(String name, T defaultValue) { this.name = checkNotNull(name, "name"); this.defaultValue = defaultValue; } /** * Get the value from the {@link #current()} context for this key. */ @SuppressWarnings("unchecked") public T get() { return get(Context.current()); } /** * Get the value from the specified context for this key. */ @SuppressWarnings("unchecked") public T get(Context context) { T value = (T) context.lookup(this); return value == null ? defaultValue : value; } @Override public String toString() { return name; } } /** * Defines the mechanisms for attaching and detaching the "current" context. The constructor for * extending classes must not trigger any activity that can use Context, which includes * logging, otherwise it can trigger an infinite initialization loop. Extending classes must not * assume that only one instance will be created; Context guarantees it will only use one * instance, but it may create multiple and then throw away all but one. * *

The default implementation will put the current context in a {@link ThreadLocal}. If an * alternative implementation named {@code org.apache.ratis.thirdparty.io.grpc.override.ContextStorageOverride} exists in the * classpath, it will be used instead of the default implementation. * *

This API is experimental and * subject to change. */ public abstract static class Storage { /** * @deprecated This is an old API that is no longer used. */ @Deprecated public void attach(Context toAttach) { throw new UnsupportedOperationException("Deprecated. Do not call."); } /** * Implements {@link org.apache.ratis.thirdparty.io.grpc.Context#attach}. * *

Caution: {@link Context#attach()} interprets a return value of {@code null} to mean * the same thing as {@link Context#ROOT}. * *

See also: {@link #current()}. * @param toAttach the context to be attached * @return A {@link Context} that should be passed back into {@link #detach(Context, Context)} * as the {@code toRestore} parameter. {@code null} is a valid return value, but see * caution note. */ public Context doAttach(Context toAttach) { // This is a default implementation to help migrate existing Storage implementations that // have an attach() method but no doAttach() method. Context current = current(); attach(toAttach); return current; } /** * Implements {@link org.apache.ratis.thirdparty.io.grpc.Context#detach} * * @param toDetach the context to be detached. Should be, or be equivalent to, the current * context of the current scope * @param toRestore the context to be the current. Should be, or be equivalent to, the context * of the outer scope */ public abstract void detach(Context toDetach, Context toRestore); /** * Implements {@link org.apache.ratis.thirdparty.io.grpc.Context#current}. * *

Caution: {@link Context} interprets a return value of {@code null} to mean the same * thing as {@code Context{@link #ROOT}}. * *

See also {@link #doAttach(Context)}. * * @return The context of the current scope. {@code null} is a valid return value, but see * caution note. */ public abstract Context current(); } /** * Stores listener and executor pair. */ private final class ExecutableListener implements Runnable { private final Executor executor; final CancellationListener listener; ExecutableListener(Executor executor, CancellationListener listener) { this.executor = executor; this.listener = listener; } void deliver() { try { executor.execute(this); } catch (Throwable t) { log.log(Level.INFO, "Exception notifying context listener", t); } } @Override public void run() { listener.cancelled(Context.this); } } private final class ParentListener implements CancellationListener { @Override public void cancelled(Context context) { if (Context.this instanceof CancellableContext) { // Record cancellation with its cancellationCause. ((CancellableContext) Context.this).cancel(context.cancellationCause()); } else { notifyAndClearListeners(); } } } @CanIgnoreReturnValue static T checkNotNull(T reference, Object errorMessage) { if (reference == null) { throw new NullPointerException(String.valueOf(errorMessage)); } return reference; } private enum DirectExecutor implements Executor { INSTANCE; @Override public void execute(Runnable command) { command.run(); } @Override public String toString() { return "Context.DirectExecutor"; } } /** * Returns {@code parent} if it is a {@link CancellableContext}, otherwise returns the parent's * {@link #cancellableAncestor}. */ static CancellableContext cancellableAncestor(Context parent) { if (parent == null) { return null; } if (parent instanceof CancellableContext) { return (CancellableContext) parent; } // The parent simply cascades cancellations. // Bypass the parent and reference the ancestor directly (may be null). return parent.cancellableAncestor; } /** * If the ancestry chain length is unreasonably long, then print an error to the log and record * the stack trace. */ private static void validateGeneration(int generation) { if (generation == CONTEXT_DEPTH_WARN_THRESH) { log.log( Level.SEVERE, "Context ancestry chain length is abnormally long. " + "This suggests an error in application code. " + "Length exceeded: " + CONTEXT_DEPTH_WARN_THRESH, new Exception()); } } // Not using the standard com.google.errorprone.annotations.CheckReturnValue because that will // introduce dependencies that some org.apache.ratis.thirdparty.io.grpc.Context API consumers may not want. @interface CheckReturnValue {} @interface CanIgnoreReturnValue {} }





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