/* * Copyright (C) 2010 The Android Open Source Project * * 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 android.app; import android.content.SharedPreferences; import android.os.FileUtils.FileStatus; import android.os.FileUtils; import android.os.Looper; import android.util.Log; import com.google.android.collect.Maps; import com.android.internal.util.XmlUtils; import dalvik.system.BlockGuard; import org.xmlpull.v1.XmlPullParserException; import java.io.BufferedInputStream; import java.io.File; import java.io.FileInputStream; import java.io.FileNotFoundException; import java.io.FileOutputStream; import java.io.IOException; import java.util.ArrayList; import java.util.HashMap; import java.util.HashSet; import java.util.List; import java.util.Map; import java.util.Set; import java.util.WeakHashMap; import java.util.concurrent.CountDownLatch; import java.util.concurrent.ExecutorService; final class SharedPreferencesImpl implements SharedPreferences { private static final String TAG = "SharedPreferencesImpl"; private static final boolean DEBUG = false; // Lock ordering rules: // - acquire SharedPreferencesImpl.this before EditorImpl.this // - acquire mWritingToDiskLock before EditorImpl.this private final File mFile; private final File mBackupFile; private final int mMode; private Map mMap; // guarded by 'this' private int mDiskWritesInFlight = 0; // guarded by 'this' private boolean mLoaded = false; // guarded by 'this' private long mStatTimestamp; // guarded by 'this' private long mStatSize; // guarded by 'this' private final Object mWritingToDiskLock = new Object(); private static final Object mContent = new Object(); private final WeakHashMap mListeners = new WeakHashMap(); SharedPreferencesImpl(File file, int mode) { mFile = file; mBackupFile = makeBackupFile(file); mMode = mode; mLoaded = false; mMap = null; startLoadFromDisk(); } private void startLoadFromDisk() { synchronized (this) { mLoaded = false; } new Thread("SharedPreferencesImpl-load") { public void run() { synchronized (SharedPreferencesImpl.this) { loadFromDiskLocked(); } } }.start(); } private void loadFromDiskLocked() { if (mLoaded) { return; } if (mBackupFile.exists()) { mFile.delete(); mBackupFile.renameTo(mFile); } // Debugging if (mFile.exists() && !mFile.canRead()) { Log.w(TAG, "Attempt to read preferences file " + mFile + " without permission"); } Map map = null; FileStatus stat = new FileStatus(); if (FileUtils.getFileStatus(mFile.getPath(), stat) && mFile.canRead()) { try { BufferedInputStream str = new BufferedInputStream( new FileInputStream(mFile), 16*1024); map = XmlUtils.readMapXml(str); str.close(); } catch (XmlPullParserException e) { Log.w(TAG, "getSharedPreferences", e); } catch (FileNotFoundException e) { Log.w(TAG, "getSharedPreferences", e); } catch (IOException e) { Log.w(TAG, "getSharedPreferences", e); } } mLoaded = true; if (map != null) { mMap = map; mStatTimestamp = stat.mtime; mStatSize = stat.size; } else { mMap = new HashMap(); } notifyAll(); } private static File makeBackupFile(File prefsFile) { return new File(prefsFile.getPath() + ".bak"); } void startReloadIfChangedUnexpectedly() { synchronized (this) { // TODO: wait for any pending writes to disk? if (!hasFileChangedUnexpectedly()) { return; } startLoadFromDisk(); } } // Has the file changed out from under us? i.e. writes that // we didn't instigate. private boolean hasFileChangedUnexpectedly() { synchronized (this) { if (mDiskWritesInFlight > 0) { // If we know we caused it, it's not unexpected. if (DEBUG) Log.d(TAG, "disk write in flight, not unexpected."); return false; } } FileStatus stat = new FileStatus(); if (!FileUtils.getFileStatus(mFile.getPath(), stat)) { return true; } synchronized (this) { return mStatTimestamp != stat.mtime || mStatSize != stat.size; } } public void registerOnSharedPreferenceChangeListener(OnSharedPreferenceChangeListener listener) { synchronized(this) { mListeners.put(listener, mContent); } } public void unregisterOnSharedPreferenceChangeListener(OnSharedPreferenceChangeListener listener) { synchronized(this) { mListeners.remove(listener); } } private void awaitLoadedLocked() { if (!mLoaded) { // Raise an explicit StrictMode onReadFromDisk for this // thread, since the real read will be in a different // thread and otherwise ignored by StrictMode. BlockGuard.getThreadPolicy().onReadFromDisk(); } while (!mLoaded) { try { wait(); } catch (InterruptedException unused) { } } } public Map getAll() { synchronized (this) { awaitLoadedLocked(); //noinspection unchecked return new HashMap(mMap); } } public String getString(String key, String defValue) { synchronized (this) { awaitLoadedLocked(); String v = (String)mMap.get(key); return v != null ? v : defValue; } } public Set getStringSet(String key, Set defValues) { synchronized (this) { awaitLoadedLocked(); Set v = (Set) mMap.get(key); return v != null ? v : defValues; } } public int getInt(String key, int defValue) { synchronized (this) { awaitLoadedLocked(); Integer v = (Integer)mMap.get(key); return v != null ? v : defValue; } } public long getLong(String key, long defValue) { synchronized (this) { awaitLoadedLocked(); Long v = (Long)mMap.get(key); return v != null ? v : defValue; } } public float getFloat(String key, float defValue) { synchronized (this) { awaitLoadedLocked(); Float v = (Float)mMap.get(key); return v != null ? v : defValue; } } public boolean getBoolean(String key, boolean defValue) { synchronized (this) { awaitLoadedLocked(); Boolean v = (Boolean)mMap.get(key); return v != null ? v : defValue; } } public boolean contains(String key) { synchronized (this) { awaitLoadedLocked(); return mMap.containsKey(key); } } public Editor edit() { // TODO: remove the need to call awaitLoadedLocked() when // requesting an editor. will require some work on the // Editor, but then we should be able to do: // // context.getSharedPreferences(..).edit().putString(..).apply() // // ... all without blocking. synchronized (this) { awaitLoadedLocked(); } return new EditorImpl(); } // Return value from EditorImpl#commitToMemory() private static class MemoryCommitResult { public boolean changesMade; // any keys different? public List keysModified; // may be null public Set listeners; // may be null public Map mapToWriteToDisk; public final CountDownLatch writtenToDiskLatch = new CountDownLatch(1); public volatile boolean writeToDiskResult = false; public void setDiskWriteResult(boolean result) { writeToDiskResult = result; writtenToDiskLatch.countDown(); } } public final class EditorImpl implements Editor { private final Map mModified = Maps.newHashMap(); private boolean mClear = false; public Editor putString(String key, String value) { synchronized (this) { mModified.put(key, value); return this; } } public Editor putStringSet(String key, Set values) { synchronized (this) { mModified.put(key, values); return this; } } public Editor putInt(String key, int value) { synchronized (this) { mModified.put(key, value); return this; } } public Editor putLong(String key, long value) { synchronized (this) { mModified.put(key, value); return this; } } public Editor putFloat(String key, float value) { synchronized (this) { mModified.put(key, value); return this; } } public Editor putBoolean(String key, boolean value) { synchronized (this) { mModified.put(key, value); return this; } } public Editor remove(String key) { synchronized (this) { mModified.put(key, this); return this; } } public Editor clear() { synchronized (this) { mClear = true; return this; } } public void apply() { final MemoryCommitResult mcr = commitToMemory(); final Runnable awaitCommit = new Runnable() { public void run() { try { mcr.writtenToDiskLatch.await(); } catch (InterruptedException ignored) { } } }; QueuedWork.add(awaitCommit); Runnable postWriteRunnable = new Runnable() { public void run() { awaitCommit.run(); QueuedWork.remove(awaitCommit); } }; SharedPreferencesImpl.this.enqueueDiskWrite(mcr, postWriteRunnable); // Okay to notify the listeners before it's hit disk // because the listeners should always get the same // SharedPreferences instance back, which has the // changes reflected in memory. notifyListeners(mcr); } // Returns true if any changes were made private MemoryCommitResult commitToMemory() { MemoryCommitResult mcr = new MemoryCommitResult(); synchronized (SharedPreferencesImpl.this) { // We optimistically don't make a deep copy until // a memory commit comes in when we're already // writing to disk. if (mDiskWritesInFlight > 0) { // We can't modify our mMap as a currently // in-flight write owns it. Clone it before // modifying it. // noinspection unchecked mMap = new HashMap(mMap); } mcr.mapToWriteToDisk = mMap; mDiskWritesInFlight++; boolean hasListeners = mListeners.size() > 0; if (hasListeners) { mcr.keysModified = new ArrayList(); mcr.listeners = new HashSet(mListeners.keySet()); } synchronized (this) { if (mClear) { if (!mMap.isEmpty()) { mcr.changesMade = true; mMap.clear(); } mClear = false; } for (Map.Entry e : mModified.entrySet()) { String k = e.getKey(); Object v = e.getValue(); if (v == this) { // magic value for a removal mutation if (!mMap.containsKey(k)) { continue; } mMap.remove(k); } else { boolean isSame = false; if (mMap.containsKey(k)) { Object existingValue = mMap.get(k); if (existingValue != null && existingValue.equals(v)) { continue; } } mMap.put(k, v); } mcr.changesMade = true; if (hasListeners) { mcr.keysModified.add(k); } } mModified.clear(); } } return mcr; } public boolean commit() { MemoryCommitResult mcr = commitToMemory(); SharedPreferencesImpl.this.enqueueDiskWrite( mcr, null /* sync write on this thread okay */); try { mcr.writtenToDiskLatch.await(); } catch (InterruptedException e) { return false; } notifyListeners(mcr); return mcr.writeToDiskResult; } private void notifyListeners(final MemoryCommitResult mcr) { if (mcr.listeners == null || mcr.keysModified == null || mcr.keysModified.size() == 0) { return; } if (Looper.myLooper() == Looper.getMainLooper()) { for (int i = mcr.keysModified.size() - 1; i >= 0; i--) { final String key = mcr.keysModified.get(i); for (OnSharedPreferenceChangeListener listener : mcr.listeners) { if (listener != null) { listener.onSharedPreferenceChanged(SharedPreferencesImpl.this, key); } } } } else { // Run this function on the main thread. ActivityThread.sMainThreadHandler.post(new Runnable() { public void run() { notifyListeners(mcr); } }); } } } /** * Enqueue an already-committed-to-memory result to be written * to disk. * * They will be written to disk one-at-a-time in the order * that they're enqueued. * * @param postWriteRunnable if non-null, we're being called * from apply() and this is the runnable to run after * the write proceeds. if null (from a regular commit()), * then we're allowed to do this disk write on the main * thread (which in addition to reducing allocations and * creating a background thread, this has the advantage that * we catch them in userdebug StrictMode reports to convert * them where possible to apply() ...) */ private void enqueueDiskWrite(final MemoryCommitResult mcr, final Runnable postWriteRunnable) { final Runnable writeToDiskRunnable = new Runnable() { public void run() { synchronized (mWritingToDiskLock) { writeToFile(mcr); } synchronized (SharedPreferencesImpl.this) { mDiskWritesInFlight--; } if (postWriteRunnable != null) { postWriteRunnable.run(); } } }; final boolean isFromSyncCommit = (postWriteRunnable == null); // Typical #commit() path with fewer allocations, doing a write on // the current thread. if (isFromSyncCommit) { boolean wasEmpty = false; synchronized (SharedPreferencesImpl.this) { wasEmpty = mDiskWritesInFlight == 1; } if (wasEmpty) { writeToDiskRunnable.run(); return; } } QueuedWork.singleThreadExecutor().execute(writeToDiskRunnable); } private static FileOutputStream createFileOutputStream(File file) { FileOutputStream str = null; try { str = new FileOutputStream(file); } catch (FileNotFoundException e) { File parent = file.getParentFile(); if (!parent.mkdir()) { Log.e(TAG, "Couldn't create directory for SharedPreferences file " + file); return null; } FileUtils.setPermissions( parent.getPath(), FileUtils.S_IRWXU|FileUtils.S_IRWXG|FileUtils.S_IXOTH, -1, -1); try { str = new FileOutputStream(file); } catch (FileNotFoundException e2) { Log.e(TAG, "Couldn't create SharedPreferences file " + file, e2); } } return str; } // Note: must hold mWritingToDiskLock private void writeToFile(MemoryCommitResult mcr) { // Rename the current file so it may be used as a backup during the next read if (mFile.exists()) { if (!mcr.changesMade) { // If the file already exists, but no changes were // made to the underlying map, it's wasteful to // re-write the file. Return as if we wrote it // out. mcr.setDiskWriteResult(true); return; } if (!mBackupFile.exists()) { if (!mFile.renameTo(mBackupFile)) { Log.e(TAG, "Couldn't rename file " + mFile + " to backup file " + mBackupFile); mcr.setDiskWriteResult(false); return; } } else { mFile.delete(); } } // Attempt to write the file, delete the backup and return true as atomically as // possible. If any exception occurs, delete the new file; next time we will restore // from the backup. try { FileOutputStream str = createFileOutputStream(mFile); if (str == null) { mcr.setDiskWriteResult(false); return; } XmlUtils.writeMapXml(mcr.mapToWriteToDisk, str); FileUtils.sync(str); str.close(); ContextImpl.setFilePermissionsFromMode(mFile.getPath(), mMode, 0); FileStatus stat = new FileStatus(); if (FileUtils.getFileStatus(mFile.getPath(), stat)) { synchronized (this) { mStatTimestamp = stat.mtime; mStatSize = stat.size; } } // Writing was successful, delete the backup file if there is one. mBackupFile.delete(); mcr.setDiskWriteResult(true); return; } catch (XmlPullParserException e) { Log.w(TAG, "writeToFile: Got exception:", e); } catch (IOException e) { Log.w(TAG, "writeToFile: Got exception:", e); } // Clean up an unsuccessfully written file if (mFile.exists()) { if (!mFile.delete()) { Log.e(TAG, "Couldn't clean up partially-written file " + mFile); } } mcr.setDiskWriteResult(false); } }