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/*
 * Copyright 2011 Google Inc.
 *
 * 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 com.google.gwt.dev.javac;

import com.google.gwt.core.ext.TreeLogger;
import com.google.gwt.core.ext.TreeLogger.Type;
import com.google.gwt.core.ext.UnableToCompleteException;
import com.google.gwt.dev.jjs.InternalCompilerException;
import com.google.gwt.thirdparty.guava.common.annotations.VisibleForTesting;
import com.google.gwt.thirdparty.guava.common.base.Preconditions;
import com.google.gwt.thirdparty.guava.common.collect.Lists;

import java.io.File;
import java.util.List;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
import java.util.concurrent.Future;
import java.util.concurrent.RejectedExecutionException;
import java.util.concurrent.Semaphore;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.atomic.AtomicInteger;

/**
 * A class that manages a persistent cache of {@link CompilationUnit} instances.
 * Writes out {@link CompilationUnit} instances to a cache in a
 * background thread.
 * 

* The persistent cache is implemented as a directory of log files with a date * timestamp. A new log file gets created each time a new PersistentUnitCache is * instantiated, (once per invocation of the compiler or DevMode). The design is * intended to support only a single PersistentUnitCache instance in the * compiler at a time. *

* As new units are compiled, the cache data is appended to a log. This allows * Java serialization to efficiently store references. The next time the cache * is started, all logs are replayed and loaded into the cache in chronological * order, with newer units taking precedence. A new cache file is created for * any newly compiled units in this session. After a threshold of a certain * number of files in the directory is reached * {@link PersistentUnitCache#CACHE_FILE_THRESHOLD} , the cache files are * consolidated back into a single file. * *

* System Properties (see {@link UnitCacheSingleton}). * *

    *
  • gwt.persistentunitcache : enables the persistent cache (eventually will * be default)
  • *
  • gwt.persistentunitcachedir=: sets or overrides the cache directory
  • *
* *

* Known Issues: * *

    *
  • This design uses an eager cache to load every unit in the cache on the * first reference to find() or add(). When the cache is large (10000 units), it * uses lots of heap and takes 5-10 seconds. Once the PersistentUnitCache is * created, it starts eagerly loading the cache in a background thread).
  • * *
  • Although units logged to disk with the same resource path are eventually * cleaned up, the most recently compiled unit stays in the cache forever. This * means that stale units that are no longer referenced will never be purged, * unless by some external action (e.g. ant clean).
  • * *
  • Unless ant builds are made aware of the cache directory, the cache will * persist if a user does an ant clean.
  • *
* */ class PersistentUnitCache extends MemoryUnitCache { /** * If there are more than this many files in the cache, clean up the old * files. */ static final int CACHE_FILE_THRESHOLD = 40; /** * Note: to avoid deadlock, methods on backgroundService should not be called from * within a synchronized method. (The BackgroundService lock should be acquired first.) */ private final BackgroundService backgroundService; private Semaphore cleanupInProgress = new Semaphore(1); private AtomicInteger newUnitsSinceLastCleanup = new AtomicInteger(); PersistentUnitCache(final TreeLogger logger, File parentDir) throws UnableToCompleteException { this.backgroundService = new BackgroundService(logger, parentDir, this); } /** * Enqueue a unit to be written by the background thread. */ @Override public void add(CompilationUnit newUnit) { internalAdd(newUnit); } @VisibleForTesting Future internalAdd(CompilationUnit newUnit) { Preconditions.checkNotNull(newUnit); backgroundService.waitForCacheToLoad(); addNewUnit(newUnit); return backgroundService.asyncWriteUnit(newUnit); } @Override public void clear() throws UnableToCompleteException { backgroundService.asyncClearCache(); backgroundService.finishAndShutdown(); synchronized (this) { super.clear(); } backgroundService.start(); } /** * Rotates to a new file and/or starts garbage collection if needed after a compile is finished. * * Normally, only newly compiled units are written to the current log, but * when it is time to cleanup, valid units from older log files need to be * re-written. */ @Override public void cleanup(TreeLogger logger) { logger.log(Type.TRACE, "PersistentUnitCache cleanup requested"); backgroundService.waitForCacheToLoad(); if (backgroundService.isShutdown()) { logger.log(TreeLogger.TRACE, "Skipped PersistentUnitCache cleanup because it's shut down"); return; } if (!cleanupInProgress.tryAcquire()) { return; // some other thread is already doing this. } int addCallCount = newUnitsSinceLastCleanup.getAndSet(0); logger.log(TreeLogger.TRACE, "Added " + addCallCount + " units to PersistentUnitCache since last cleanup"); if (addCallCount == 0) { // Don't clean up until we compiled something. logger.log(TreeLogger.TRACE, "Skipped PersistentUnitCache because no units were added"); cleanupInProgress.release(); return; } int closedCount = backgroundService.getClosedCacheFileCount(); if (closedCount < CACHE_FILE_THRESHOLD) { // Not enough files yet, so just rotate to a new file. logger.log(TreeLogger.TRACE, "Rotating PersistentUnitCache file because only " + closedCount + " files were added."); backgroundService.asyncRotate(cleanupInProgress); return; } logger.log(Type.TRACE, "Compacting persistent unit cache files"); backgroundService.asyncCompact(getUnitsToSaveToDisk(), cleanupInProgress); } /** * Waits for any cleanup in progress to finish. */ @VisibleForTesting void waitForCleanup() throws InterruptedException { cleanupInProgress.acquire(); cleanupInProgress.release(); } @VisibleForTesting void shutdown() throws InterruptedException, ExecutionException { backgroundService.shutdown(); } // Methods that read or write the in-memory cache @Override public CompilationUnit find(ContentId contentId) { backgroundService.waitForCacheToLoad(); synchronized (this) { return super.find(contentId); } } @Override public CompilationUnit find(String resourcePath) { backgroundService.waitForCacheToLoad(); synchronized (this) { return super.find(resourcePath); } } @Override public synchronized void remove(CompilationUnit unit) { super.remove(unit); } /** * Saves a newly compiled unit to the in-memory cache. */ private synchronized void addNewUnit(CompilationUnit unit) { newUnitsSinceLastCleanup.incrementAndGet(); super.add(unit); } /** * Adds a compilation unit from disk into the in-memory cache. * (Callback from {@link PersistentUnitCacheDir}.) */ synchronized void maybeAddLoadedUnit(CachedCompilationUnit unit) { UnitCacheEntry entry = new UnitCacheEntry(unit, UnitOrigin.PERSISTENT); UnitCacheEntry existingEntry = unitMap.get(unit.getResourcePath()); /* * Don't assume that an existing entry is stale - an entry might have been loaded already from * another source that is more up to date. If the timestamps are the same, accept the latest * version. If it turns out to be stale, it will be recompiled and the updated unit will win * this test the next time the session starts. */ if (existingEntry != null && unit.getLastModified() >= existingEntry.getUnit().getLastModified()) { super.remove(existingEntry.getUnit()); unitMap.put(unit.getResourcePath(), entry); unitMapByContentId.put(unit.getContentId(), entry); } else if (existingEntry == null) { unitMap.put(unit.getResourcePath(), entry); unitMapByContentId.put(unit.getContentId(), entry); } } private synchronized List getUnitsToSaveToDisk() { List result = Lists.newArrayList(); for (UnitCacheEntry entry : unitMap.values()) { result.add(Preconditions.checkNotNull(entry.getUnit())); } return result; } /** * Implements async methods that run in the background. */ private static class BackgroundService { private final TreeLogger logger; private final PersistentUnitCacheDir cacheDir; private ExecutorService service; private PersistentUnitCache cacheToLoad; /** * Non-null while the unit cache is loading. */ private Future loadingDone; /** * Starts the background thread and starts loading the given unit cache in the background. */ BackgroundService(TreeLogger logger, File parentDir, final PersistentUnitCache cacheToLoad) throws UnableToCompleteException { this.logger = logger; this.cacheDir = new PersistentUnitCacheDir(logger, parentDir); this.cacheToLoad = cacheToLoad; start(); } /** * Blocks addition of any further tasks and waits for current tasks to finish. */ public void finishAndShutdown() throws UnableToCompleteException { service.shutdown(); try { if (!service.awaitTermination(30, TimeUnit.SECONDS)) { logger.log(TreeLogger.WARN, "Persistent Unit Cache shutdown tasks took longer than 30 seconds to complete."); throw new UnableToCompleteException(); } } catch (InterruptedException e) { // JVM is shutting down, ignore it. } } private void start() { assert service == null || service.isTerminated(); service = Executors.newSingleThreadExecutor(); Runtime.getRuntime().addShutdownHook(new Thread() { @Override public void run() { try { Future status = asyncShutdown(); // Don't let the shutdown hang more than 5 seconds status.get(5, TimeUnit.SECONDS); } catch (InterruptedException e) { // ignore } catch (RejectedExecutionException e) { // already shutdown, ignore } catch (ExecutionException e) { BackgroundService.this.logger.log(TreeLogger.ERROR, "Error during shutdown", e); } catch (TimeoutException e) { // ignore } finally { shutdownNow(); } } }); /** * Load up cached units from the persistent store in the background. The * {@link #add(CompilationUnit)} and {@link #find(String)} methods block if * invoked before this thread finishes. */ loadingDone = service.submit(new Runnable() { @Override public void run() { cacheDir.loadUnitMap(cacheToLoad); } }); } /** * Blocks until the background service is done loading units into the in-memory cache. * Note: don't call this from a synchronized method on PersistentUnitCache. */ synchronized void waitForCacheToLoad() { if (loadingDone == null) { return; // fast path } try { loadingDone.get(); loadingDone = null; } catch (InterruptedException e) { throw new InternalCompilerException( "Interrupted waiting for PersistentUnitCache to load.", e); } catch (ExecutionException e) { logger.log(TreeLogger.ERROR, "Failed to load PersistentUnitCache.", e); // Keep going. We didn't load anything but will still save units to the cache. loadingDone = null; } } boolean isShutdown() { return service.isShutdown(); } @VisibleForTesting void shutdown() throws InterruptedException, ExecutionException { logger.log(Type.INFO, "PersistentUnitCache shutdown requested"); try { asyncShutdown().get(); } catch (RejectedExecutionException ex) { // background thread is not running - ignore } } int getClosedCacheFileCount() { return cacheDir.getClosedCacheFileCount(); } /** * Rotates to a new file. * @param cleanupInProgress a semaphore to release when done. * (The permit must already be acquired.) */ Future asyncRotate(final Semaphore cleanupInProgress) { return service.submit(new Runnable() { @Override public void run() { try { cacheDir.rotate(); } catch (UnableToCompleteException e) { shutdownNow(); } finally { cleanupInProgress.release(); } } }); } /** * Compacts the persistent unit cache and then rotates to a new file. * There will be one closed file and one empty, open file when done. * @param unitsToSave all compilation units to keep * @param cleanupInProgress a semaphore to release when done. * (The permit must already be acquired.) */ Future asyncCompact(final List unitsToSave, final Semaphore cleanupInProgress) { return service.submit(new Runnable() { @Override public void run() { try { for (CompilationUnit unit : unitsToSave) { cacheDir.writeUnit(unit); } cacheDir.deleteClosedCacheFiles(); cacheDir.rotate(); // Move to a new, empty file. } catch (UnableToCompleteException e) { shutdownNow(); } finally { cleanupInProgress.release(); } } }); } Future asyncClearCache() { Future status = service.submit(new Runnable() { @Override public void run() { cacheDir.closeCurrentFile(); cacheDir.deleteClosedCacheFiles(); } }); service.shutdown(); // Don't allow more tasks to be scheduled. return status; } Future asyncWriteUnit(final CompilationUnit unit) { try { return service.submit(new Runnable() { @Override public void run() { try { cacheDir.writeUnit(unit); } catch (UnableToCompleteException e) { shutdownNow(); } } }); } catch (RejectedExecutionException ex) { // background thread is not running, ignore return null; } } Future asyncShutdown() { Future status = service.submit(new Runnable() { @Override public void run() { cacheDir.closeCurrentFile(); shutdownNow(); } }); service.shutdown(); // Don't allow more tasks to be scheduled. return status; } private void shutdownNow() { logger.log(TreeLogger.TRACE, "Shutting down PersistentUnitCache thread"); service.shutdownNow(); } } }




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