/* * Copyright (C) 2008 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.content; import com.google.android.collect.Maps; import com.android.internal.R; import com.android.internal.util.ArrayUtils; import android.accounts.Account; import android.accounts.AccountManager; import android.accounts.OnAccountsUpdatedListener; import android.app.AlarmManager; import android.app.Notification; import android.app.NotificationManager; import android.app.PendingIntent; import android.content.pm.ApplicationInfo; import android.content.pm.IPackageManager; import android.content.pm.PackageManager; import android.content.pm.ResolveInfo; import android.content.pm.RegisteredServicesCache; import android.net.ConnectivityManager; import android.net.NetworkInfo; import android.os.Bundle; import android.os.Handler; import android.os.HandlerThread; import android.os.IBinder; import android.os.Looper; import android.os.Message; import android.os.PowerManager; import android.os.Process; import android.os.RemoteException; import android.os.ServiceManager; import android.os.SystemClock; import android.os.SystemProperties; import android.provider.Settings; import android.text.format.DateUtils; import android.text.format.Time; import android.util.Config; import android.util.EventLog; import android.util.Log; import java.io.DataInputStream; import java.io.DataOutputStream; import java.io.File; import java.io.FileDescriptor; import java.io.FileInputStream; import java.io.FileNotFoundException; import java.io.FileOutputStream; import java.io.IOException; import java.io.PrintWriter; import java.util.ArrayList; import java.util.HashMap; import java.util.HashSet; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.PriorityQueue; import java.util.Random; import java.util.Collection; /** * @hide */ class SyncManager implements OnAccountsUpdatedListener { private static final String TAG = "SyncManager"; // used during dumping of the Sync history private static final long MILLIS_IN_HOUR = 1000 * 60 * 60; private static final long MILLIS_IN_DAY = MILLIS_IN_HOUR * 24; private static final long MILLIS_IN_WEEK = MILLIS_IN_DAY * 7; private static final long MILLIS_IN_4WEEKS = MILLIS_IN_WEEK * 4; /** Delay a sync due to local changes this long. In milliseconds */ private static final long LOCAL_SYNC_DELAY = 30 * 1000; // 30 seconds /** * If a sync takes longer than this and the sync queue is not empty then we will * cancel it and add it back to the end of the sync queue. In milliseconds. */ private static final long MAX_TIME_PER_SYNC = 5 * 60 * 1000; // 5 minutes private static final long SYNC_NOTIFICATION_DELAY = 30 * 1000; // 30 seconds /** * When retrying a sync for the first time use this delay. After that * the retry time will double until it reached MAX_SYNC_RETRY_TIME. * In milliseconds. */ private static final long INITIAL_SYNC_RETRY_TIME_IN_MS = 30 * 1000; // 30 seconds /** * Default the max sync retry time to this value. */ private static final long DEFAULT_MAX_SYNC_RETRY_TIME_IN_SECONDS = 60 * 60; // one hour /** * An error notification is sent if sync of any of the providers has been failing for this long. */ private static final long ERROR_NOTIFICATION_DELAY_MS = 1000 * 60 * 10; // 10 minutes private static final String SYNC_WAKE_LOCK = "SyncManagerSyncWakeLock"; private static final String HANDLE_SYNC_ALARM_WAKE_LOCK = "SyncManagerHandleSyncAlarmWakeLock"; private Context mContext; private String mStatusText = ""; private long mHeartbeatTime = 0; private volatile Account[] mAccounts = null; volatile private PowerManager.WakeLock mSyncWakeLock; volatile private PowerManager.WakeLock mHandleAlarmWakeLock; volatile private boolean mDataConnectionIsConnected = false; volatile private boolean mStorageIsLow = false; private final NotificationManager mNotificationMgr; private AlarmManager mAlarmService = null; private HandlerThread mSyncThread; private volatile IPackageManager mPackageManager; private final SyncStorageEngine mSyncStorageEngine; private final SyncQueue mSyncQueue; private ActiveSyncContext mActiveSyncContext = null; // set if the sync error indicator should be reported. private boolean mNeedSyncErrorNotification = false; // set if the sync active indicator should be reported private boolean mNeedSyncActiveNotification = false; private volatile boolean mSyncPollInitialized; private final PendingIntent mSyncAlarmIntent; private final PendingIntent mSyncPollAlarmIntent; private final SyncAdaptersCache mSyncAdapters; private BroadcastReceiver mStorageIntentReceiver = new BroadcastReceiver() { public void onReceive(Context context, Intent intent) { String action = intent.getAction(); if (Intent.ACTION_DEVICE_STORAGE_LOW.equals(action)) { if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "Internal storage is low."); } mStorageIsLow = true; cancelActiveSync(null /* any account */, null /* any authority */); } else if (Intent.ACTION_DEVICE_STORAGE_OK.equals(action)) { if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "Internal storage is ok."); } mStorageIsLow = false; sendCheckAlarmsMessage(); } } }; private BroadcastReceiver mBootCompletedReceiver = new BroadcastReceiver() { public void onReceive(Context context, Intent intent) { if (!mFactoryTest) { AccountManager.get(mContext).addOnAccountsUpdatedListener(SyncManager.this, mSyncHandler, true /* updateImmediately */); } } }; public void onAccountsUpdated(Account[] accounts) { final boolean hadAccountsAlready = mAccounts != null; mAccounts = accounts; // if a sync is in progress yet it is no longer in the accounts list, // cancel it ActiveSyncContext activeSyncContext = mActiveSyncContext; if (activeSyncContext != null) { if (!ArrayUtils.contains(accounts, activeSyncContext.mSyncOperation.account)) { Log.d(TAG, "canceling sync since the account has been removed"); sendSyncFinishedOrCanceledMessage(activeSyncContext, null /* no result since this is a cancel */); } } // we must do this since we don't bother scheduling alarms when // the accounts are not set yet sendCheckAlarmsMessage(); mSyncStorageEngine.doDatabaseCleanup(accounts); if (hadAccountsAlready && accounts.length > 0) { // request a sync so that if the password was changed we will // retry any sync that failed when it was wrong scheduleSync(null, null, null, 0 /* no delay */); } } private BroadcastReceiver mConnectivityIntentReceiver = new BroadcastReceiver() { public void onReceive(Context context, Intent intent) { NetworkInfo networkInfo = intent.getParcelableExtra(ConnectivityManager.EXTRA_NETWORK_INFO); NetworkInfo.State state = (networkInfo == null ? NetworkInfo.State.UNKNOWN : networkInfo.getState()); if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "received connectivity action. network info: " + networkInfo); } // only pay attention to the CONNECTED and DISCONNECTED states. // if connected, we are connected. // if disconnected, we may not be connected. in some cases, we may be connected on // a different network. // e.g., if switching from GPRS to WiFi, we may receive the CONNECTED to WiFi and // DISCONNECTED for GPRS in any order. if we receive the CONNECTED first, and then // a DISCONNECTED, we want to make sure we set mDataConnectionIsConnected to true // since we still have a WiFi connection. switch (state) { case CONNECTED: mDataConnectionIsConnected = true; break; case DISCONNECTED: if (intent.getBooleanExtra(ConnectivityManager.EXTRA_NO_CONNECTIVITY, false)) { mDataConnectionIsConnected = false; } else { mDataConnectionIsConnected = true; } break; default: // ignore the rest of the states -- leave our boolean alone. } if (mDataConnectionIsConnected) { initializeSyncPoll(); sendCheckAlarmsMessage(); } } }; private BroadcastReceiver mShutdownIntentReceiver = new BroadcastReceiver() { public void onReceive(Context context, Intent intent) { Log.w(TAG, "Writing sync state before shutdown..."); getSyncStorageEngine().writeAllState(); } }; private static final String ACTION_SYNC_ALARM = "android.content.syncmanager.SYNC_ALARM"; private static final String SYNC_POLL_ALARM = "android.content.syncmanager.SYNC_POLL_ALARM"; private final SyncHandler mSyncHandler; private static final int MAX_SYNC_POLL_DELAY_SECONDS = 36 * 60 * 60; // 36 hours private static final int MIN_SYNC_POLL_DELAY_SECONDS = 24 * 60 * 60; // 24 hours private static final String SYNCMANAGER_PREFS_FILENAME = "/data/system/syncmanager.prefs"; private final boolean mFactoryTest; public SyncManager(Context context, boolean factoryTest) { mFactoryTest = factoryTest; // Initialize the SyncStorageEngine first, before registering observers // and creating threads and so on; it may fail if the disk is full. SyncStorageEngine.init(context); mSyncStorageEngine = SyncStorageEngine.getSingleton(); mSyncQueue = new SyncQueue(mSyncStorageEngine); mContext = context; mSyncThread = new HandlerThread("SyncHandlerThread", Process.THREAD_PRIORITY_BACKGROUND); mSyncThread.start(); mSyncHandler = new SyncHandler(mSyncThread.getLooper()); mPackageManager = null; mSyncAdapters = new SyncAdaptersCache(mContext); mSyncAlarmIntent = PendingIntent.getBroadcast( mContext, 0 /* ignored */, new Intent(ACTION_SYNC_ALARM), 0); mSyncPollAlarmIntent = PendingIntent.getBroadcast( mContext, 0 /* ignored */, new Intent(SYNC_POLL_ALARM), 0); IntentFilter intentFilter = new IntentFilter(ConnectivityManager.CONNECTIVITY_ACTION); context.registerReceiver(mConnectivityIntentReceiver, intentFilter); intentFilter = new IntentFilter(Intent.ACTION_BOOT_COMPLETED); context.registerReceiver(mBootCompletedReceiver, intentFilter); intentFilter = new IntentFilter(Intent.ACTION_DEVICE_STORAGE_LOW); intentFilter.addAction(Intent.ACTION_DEVICE_STORAGE_OK); context.registerReceiver(mStorageIntentReceiver, intentFilter); intentFilter = new IntentFilter(Intent.ACTION_SHUTDOWN); intentFilter.setPriority(100); context.registerReceiver(mShutdownIntentReceiver, intentFilter); if (!factoryTest) { mNotificationMgr = (NotificationManager) context.getSystemService(Context.NOTIFICATION_SERVICE); context.registerReceiver(new SyncAlarmIntentReceiver(), new IntentFilter(ACTION_SYNC_ALARM)); } else { mNotificationMgr = null; } PowerManager pm = (PowerManager) context.getSystemService(Context.POWER_SERVICE); mSyncWakeLock = pm.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, SYNC_WAKE_LOCK); mSyncWakeLock.setReferenceCounted(false); // This WakeLock is used to ensure that we stay awake between the time that we receive // a sync alarm notification and when we finish processing it. We need to do this // because we don't do the work in the alarm handler, rather we do it in a message // handler. mHandleAlarmWakeLock = pm.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, HANDLE_SYNC_ALARM_WAKE_LOCK); mHandleAlarmWakeLock.setReferenceCounted(false); mSyncStorageEngine.addStatusChangeListener( ContentResolver.SYNC_OBSERVER_TYPE_SETTINGS, new ISyncStatusObserver.Stub() { public void onStatusChanged(int which) { // force the sync loop to run if the settings change sendCheckAlarmsMessage(); } }); } private synchronized void initializeSyncPoll() { if (mSyncPollInitialized) return; mSyncPollInitialized = true; mContext.registerReceiver(new SyncPollAlarmReceiver(), new IntentFilter(SYNC_POLL_ALARM)); // load the next poll time from shared preferences long absoluteAlarmTime = readSyncPollTime(); if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "initializeSyncPoll: absoluteAlarmTime is " + absoluteAlarmTime); } // Convert absoluteAlarmTime to elapsed realtime. If this time was in the past then // schedule the poll immediately, if it is too far in the future then cap it at // MAX_SYNC_POLL_DELAY_SECONDS. long absoluteNow = System.currentTimeMillis(); long relativeNow = SystemClock.elapsedRealtime(); long relativeAlarmTime = relativeNow; if (absoluteAlarmTime > absoluteNow) { long delayInMs = absoluteAlarmTime - absoluteNow; final int maxDelayInMs = MAX_SYNC_POLL_DELAY_SECONDS * 1000; if (delayInMs > maxDelayInMs) { delayInMs = MAX_SYNC_POLL_DELAY_SECONDS * 1000; } relativeAlarmTime += delayInMs; } // schedule an alarm for the next poll time scheduleSyncPollAlarm(relativeAlarmTime); } private void scheduleSyncPollAlarm(long relativeAlarmTime) { if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "scheduleSyncPollAlarm: relativeAlarmTime is " + relativeAlarmTime + ", now is " + SystemClock.elapsedRealtime() + ", delay is " + (relativeAlarmTime - SystemClock.elapsedRealtime())); } ensureAlarmService(); mAlarmService.set(AlarmManager.ELAPSED_REALTIME_WAKEUP, relativeAlarmTime, mSyncPollAlarmIntent); } /** * Return a random value v that satisfies minValue <= v < maxValue. The difference between * maxValue and minValue must be less than Integer.MAX_VALUE. */ private long jitterize(long minValue, long maxValue) { Random random = new Random(SystemClock.elapsedRealtime()); long spread = maxValue - minValue; if (spread > Integer.MAX_VALUE) { throw new IllegalArgumentException("the difference between the maxValue and the " + "minValue must be less than " + Integer.MAX_VALUE); } return minValue + random.nextInt((int)spread); } private void handleSyncPollAlarm() { // determine the next poll time long delayMs = jitterize(MIN_SYNC_POLL_DELAY_SECONDS, MAX_SYNC_POLL_DELAY_SECONDS) * 1000; long nextRelativePollTimeMs = SystemClock.elapsedRealtime() + delayMs; if (Log.isLoggable(TAG, Log.VERBOSE)) Log.v(TAG, "handleSyncPollAlarm: delay " + delayMs); // write the absolute time to shared preferences writeSyncPollTime(System.currentTimeMillis() + delayMs); // schedule an alarm for the next poll time scheduleSyncPollAlarm(nextRelativePollTimeMs); // perform a poll scheduleSync(null /* sync all syncable accounts */, null /* sync all syncable providers */, new Bundle(), 0 /* no delay */); } private void writeSyncPollTime(long when) { File f = new File(SYNCMANAGER_PREFS_FILENAME); DataOutputStream str = null; try { str = new DataOutputStream(new FileOutputStream(f)); str.writeLong(when); } catch (FileNotFoundException e) { Log.w(TAG, "error writing to file " + f, e); } catch (IOException e) { Log.w(TAG, "error writing to file " + f, e); } finally { if (str != null) { try { str.close(); } catch (IOException e) { Log.w(TAG, "error closing file " + f, e); } } } } private long readSyncPollTime() { File f = new File(SYNCMANAGER_PREFS_FILENAME); DataInputStream str = null; try { str = new DataInputStream(new FileInputStream(f)); return str.readLong(); } catch (FileNotFoundException e) { writeSyncPollTime(0); } catch (IOException e) { Log.w(TAG, "error reading file " + f, e); } finally { if (str != null) { try { str.close(); } catch (IOException e) { Log.w(TAG, "error closing file " + f, e); } } } return 0; } public ActiveSyncContext getActiveSyncContext() { return mActiveSyncContext; } public SyncStorageEngine getSyncStorageEngine() { return mSyncStorageEngine; } private void ensureAlarmService() { if (mAlarmService == null) { mAlarmService = (AlarmManager)mContext.getSystemService(Context.ALARM_SERVICE); } } public Account getSyncingAccount() { ActiveSyncContext activeSyncContext = mActiveSyncContext; return (activeSyncContext != null) ? activeSyncContext.mSyncOperation.account : null; } /** * Returns whether or not sync is enabled. Sync can be enabled by * setting the system property "ro.config.sync" to the value "yes". * This is normally done at boot time on builds that support sync. * @return true if sync is enabled */ private boolean isSyncEnabled() { // Require the precise value "yes" to discourage accidental activation. return "yes".equals(SystemProperties.get("ro.config.sync")); } /** * Initiate a sync. This can start a sync for all providers * (pass null to url, set onlyTicklable to false), only those * providers that are marked as ticklable (pass null to url, * set onlyTicklable to true), or a specific provider (set url * to the content url of the provider). * *

If the ContentResolver.SYNC_EXTRAS_UPLOAD boolean in extras is * true then initiate a sync that just checks for local changes to send * to the server, otherwise initiate a sync that first gets any * changes from the server before sending local changes back to * the server. * *

If a specific provider is being synced (the url is non-null) * then the extras can contain SyncAdapter-specific information * to control what gets synced (e.g. which specific feed to sync). * *

You'll start getting callbacks after this. * * @param requestedAccount the account to sync, may be null to signify all accounts * @param requestedAuthority the authority to sync, may be null to indicate all authorities * @param extras a Map of SyncAdapter-specific information to control * syncs of a specific provider. Can be null. Is ignored * if the url is null. * @param delay how many milliseconds in the future to wait before performing this */ public void scheduleSync(Account requestedAccount, String requestedAuthority, Bundle extras, long delay) { boolean isLoggable = Log.isLoggable(TAG, Log.VERBOSE); if (isLoggable) { Log.v(TAG, "scheduleSync:" + " delay " + delay + ", account " + requestedAccount + ", authority " + requestedAuthority + ", extras " + ((extras == null) ? "(null)" : extras)); } if (!isSyncEnabled()) { if (isLoggable) { Log.v(TAG, "not syncing because sync is disabled"); } setStatusText("Sync is disabled."); return; } if (mAccounts == null) setStatusText("The accounts aren't known yet."); if (!mDataConnectionIsConnected) setStatusText("No data connection"); if (mStorageIsLow) setStatusText("Memory low"); if (extras == null) extras = new Bundle(); Boolean expedited = extras.getBoolean(ContentResolver.SYNC_EXTRAS_EXPEDITED, false); if (expedited) { delay = -1; // this means schedule at the front of the queue } Account[] accounts; if (requestedAccount != null) { accounts = new Account[]{requestedAccount}; } else { // if the accounts aren't configured yet then we can't support an account-less // sync request accounts = mAccounts; if (accounts == null) { // not ready yet if (isLoggable) { Log.v(TAG, "scheduleSync: no accounts yet, dropping"); } return; } if (accounts.length == 0) { if (isLoggable) { Log.v(TAG, "scheduleSync: no accounts configured, dropping"); } setStatusText("No accounts are configured."); return; } } final boolean uploadOnly = extras.getBoolean(ContentResolver.SYNC_EXTRAS_UPLOAD, false); final boolean manualSync = extras.getBoolean(ContentResolver.SYNC_EXTRAS_MANUAL, false); int source; if (uploadOnly) { source = SyncStorageEngine.SOURCE_LOCAL; } else if (manualSync) { source = SyncStorageEngine.SOURCE_USER; } else if (requestedAuthority == null) { source = SyncStorageEngine.SOURCE_POLL; } else { // this isn't strictly server, since arbitrary callers can (and do) request // a non-forced two-way sync on a specific url source = SyncStorageEngine.SOURCE_SERVER; } // Compile a list of authorities that have sync adapters. // For each authority sync each account that matches a sync adapter. final HashSet syncableAuthorities = new HashSet(); for (RegisteredServicesCache.ServiceInfo syncAdapter : mSyncAdapters.getAllServices()) { syncableAuthorities.add(syncAdapter.type.authority); } // if the url was specified then replace the list of authorities with just this authority // or clear it if this authority isn't syncable if (requestedAuthority != null) { final boolean isSyncable = syncableAuthorities.contains(requestedAuthority); syncableAuthorities.clear(); if (isSyncable) syncableAuthorities.add(requestedAuthority); } for (String authority : syncableAuthorities) { for (Account account : accounts) { if (mSyncAdapters.getServiceInfo(new SyncAdapterType(authority, account.mType)) != null) { scheduleSyncOperation( new SyncOperation(account, source, authority, extras, delay)); // TODO: remove this when Calendar supports multiple accounts. Until then // pretend that only the first account exists when syncing calendar. if ("calendar".equals(authority)) { break; } } } } } private void setStatusText(String message) { mStatusText = message; } public void scheduleLocalSync(Account account, String authority) { final Bundle extras = new Bundle(); extras.putBoolean(ContentResolver.SYNC_EXTRAS_UPLOAD, true); scheduleSync(account, authority, extras, LOCAL_SYNC_DELAY); } private IPackageManager getPackageManager() { // Don't bother synchronizing on this. The worst that can happen is that two threads // can try to get the package manager at the same time but only one result gets // used. Since there is only one package manager in the system this doesn't matter. if (mPackageManager == null) { IBinder b = ServiceManager.getService("package"); mPackageManager = IPackageManager.Stub.asInterface(b); } return mPackageManager; } public SyncAdapterType[] getSyncAdapterTypes() { final Collection> serviceInfos = mSyncAdapters.getAllServices(); SyncAdapterType[] types = new SyncAdapterType[serviceInfos.size()]; int i = 0; for (RegisteredServicesCache.ServiceInfo serviceInfo : serviceInfos) { types[i] = serviceInfo.type; ++i; } return types; } public void updateHeartbeatTime() { mHeartbeatTime = SystemClock.elapsedRealtime(); mSyncStorageEngine.reportActiveChange(); } private void sendSyncAlarmMessage() { if (Log.isLoggable(TAG, Log.VERBOSE)) Log.v(TAG, "sending MESSAGE_SYNC_ALARM"); mSyncHandler.sendEmptyMessage(SyncHandler.MESSAGE_SYNC_ALARM); } private void sendCheckAlarmsMessage() { if (Log.isLoggable(TAG, Log.VERBOSE)) Log.v(TAG, "sending MESSAGE_CHECK_ALARMS"); mSyncHandler.sendEmptyMessage(SyncHandler.MESSAGE_CHECK_ALARMS); } private void sendSyncFinishedOrCanceledMessage(ActiveSyncContext syncContext, SyncResult syncResult) { if (Log.isLoggable(TAG, Log.VERBOSE)) Log.v(TAG, "sending MESSAGE_SYNC_FINISHED"); Message msg = mSyncHandler.obtainMessage(); msg.what = SyncHandler.MESSAGE_SYNC_FINISHED; msg.obj = new SyncHandlerMessagePayload(syncContext, syncResult); mSyncHandler.sendMessage(msg); } class SyncHandlerMessagePayload { public final ActiveSyncContext activeSyncContext; public final SyncResult syncResult; SyncHandlerMessagePayload(ActiveSyncContext syncContext, SyncResult syncResult) { this.activeSyncContext = syncContext; this.syncResult = syncResult; } } class SyncAlarmIntentReceiver extends BroadcastReceiver { public void onReceive(Context context, Intent intent) { mHandleAlarmWakeLock.acquire(); sendSyncAlarmMessage(); } } class SyncPollAlarmReceiver extends BroadcastReceiver { public void onReceive(Context context, Intent intent) { handleSyncPollAlarm(); } } private void rescheduleImmediately(SyncOperation syncOperation) { SyncOperation rescheduledSyncOperation = new SyncOperation(syncOperation); rescheduledSyncOperation.setDelay(0); scheduleSyncOperation(rescheduledSyncOperation); } private long rescheduleWithDelay(SyncOperation syncOperation) { long newDelayInMs; if (syncOperation.delay == 0) { // The initial delay is the jitterized INITIAL_SYNC_RETRY_TIME_IN_MS newDelayInMs = jitterize(INITIAL_SYNC_RETRY_TIME_IN_MS, (long)(INITIAL_SYNC_RETRY_TIME_IN_MS * 1.1)); } else { // Subsequent delays are the double of the previous delay newDelayInMs = syncOperation.delay * 2; } // Cap the delay long maxSyncRetryTimeInSeconds = Settings.Gservices.getLong(mContext.getContentResolver(), Settings.Gservices.SYNC_MAX_RETRY_DELAY_IN_SECONDS, DEFAULT_MAX_SYNC_RETRY_TIME_IN_SECONDS); if (newDelayInMs > maxSyncRetryTimeInSeconds * 1000) { newDelayInMs = maxSyncRetryTimeInSeconds * 1000; } SyncOperation rescheduledSyncOperation = new SyncOperation(syncOperation); rescheduledSyncOperation.setDelay(newDelayInMs); scheduleSyncOperation(rescheduledSyncOperation); return newDelayInMs; } /** * Cancel the active sync if it matches the authority and account. * @param account limit the cancelations to syncs with this account, if non-null * @param authority limit the cancelations to syncs with this authority, if non-null */ public void cancelActiveSync(Account account, String authority) { ActiveSyncContext activeSyncContext = mActiveSyncContext; if (activeSyncContext != null) { // if an authority was specified then only cancel the sync if it matches if (account != null) { if (!account.equals(activeSyncContext.mSyncOperation.account)) { return; } } // if an account was specified then only cancel the sync if it matches if (authority != null) { if (!authority.equals(activeSyncContext.mSyncOperation.authority)) { return; } } sendSyncFinishedOrCanceledMessage(activeSyncContext, null /* no result since this is a cancel */); } } /** * Create and schedule a SyncOperation. * * @param syncOperation the SyncOperation to schedule */ public void scheduleSyncOperation(SyncOperation syncOperation) { // If this operation is expedited and there is a sync in progress then // reschedule the current operation and send a cancel for it. final boolean expedited = syncOperation.delay < 0; final ActiveSyncContext activeSyncContext = mActiveSyncContext; if (expedited && activeSyncContext != null) { final boolean activeIsExpedited = activeSyncContext.mSyncOperation.delay < 0; final boolean hasSameKey = activeSyncContext.mSyncOperation.key.equals(syncOperation.key); // This request is expedited and there is a sync in progress. // Interrupt the current sync only if it is not expedited and if it has a different // key than the one we are scheduling. if (!activeIsExpedited && !hasSameKey) { rescheduleImmediately(activeSyncContext.mSyncOperation); sendSyncFinishedOrCanceledMessage(activeSyncContext, null /* no result since this is a cancel */); } } boolean operationEnqueued; synchronized (mSyncQueue) { operationEnqueued = mSyncQueue.add(syncOperation); } if (operationEnqueued) { if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "scheduleSyncOperation: enqueued " + syncOperation); } sendCheckAlarmsMessage(); } else { if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "scheduleSyncOperation: dropping duplicate sync operation " + syncOperation); } } } /** * Remove scheduled sync operations. * @param account limit the removals to operations with this account, if non-null * @param authority limit the removals to operations with this authority, if non-null */ public void clearScheduledSyncOperations(Account account, String authority) { synchronized (mSyncQueue) { mSyncQueue.clear(account, authority); } } void maybeRescheduleSync(SyncResult syncResult, SyncOperation previousSyncOperation) { boolean isLoggable = Log.isLoggable(TAG, Log.DEBUG); if (isLoggable) { Log.d(TAG, "encountered error(s) during the sync: " + syncResult + ", " + previousSyncOperation); } // If the operation succeeded to some extent then retry immediately. // If this was a two-way sync then retry soft errors with an exponential backoff. // If this was an upward sync then schedule a two-way sync immediately. // Otherwise do not reschedule. if (syncResult.madeSomeProgress()) { if (isLoggable) { Log.d(TAG, "retrying sync operation immediately because " + "even though it had an error it achieved some success"); } rescheduleImmediately(previousSyncOperation); } else if (previousSyncOperation.extras.getBoolean( ContentResolver.SYNC_EXTRAS_UPLOAD, false)) { final SyncOperation newSyncOperation = new SyncOperation(previousSyncOperation); newSyncOperation.extras.putBoolean(ContentResolver.SYNC_EXTRAS_UPLOAD, false); newSyncOperation.setDelay(0); if (Config.LOGD) { Log.d(TAG, "retrying sync operation as a two-way sync because an upload-only sync " + "encountered an error: " + previousSyncOperation); } scheduleSyncOperation(newSyncOperation); } else if (syncResult.hasSoftError()) { long delay = rescheduleWithDelay(previousSyncOperation); if (delay >= 0) { if (isLoggable) { Log.d(TAG, "retrying sync operation in " + delay + " ms because " + "it encountered a soft error: " + previousSyncOperation); } } } else { if (Config.LOGD) { Log.d(TAG, "not retrying sync operation because the error is a hard error: " + previousSyncOperation); } } } /** * Value type that represents a sync operation. */ static class SyncOperation implements Comparable { final Account account; int syncSource; String authority; Bundle extras; final String key; long earliestRunTime; long delay; SyncStorageEngine.PendingOperation pendingOperation; SyncOperation(Account account, int source, String authority, Bundle extras, long delay) { this.account = account; this.syncSource = source; this.authority = authority; this.extras = new Bundle(extras); this.setDelay(delay); this.key = toKey(); } SyncOperation(SyncOperation other) { this.account = other.account; this.syncSource = other.syncSource; this.authority = other.authority; this.extras = new Bundle(other.extras); this.delay = other.delay; this.earliestRunTime = other.earliestRunTime; this.key = toKey(); } public void setDelay(long delay) { this.delay = delay; if (delay >= 0) { this.earliestRunTime = SystemClock.elapsedRealtime() + delay; } else { this.earliestRunTime = 0; } } public String toString() { StringBuilder sb = new StringBuilder(); sb.append("authority: ").append(authority); sb.append(" account: ").append(account); sb.append(" extras: "); extrasToStringBuilder(extras, sb); sb.append(" syncSource: ").append(syncSource); sb.append(" when: ").append(earliestRunTime); sb.append(" delay: ").append(delay); sb.append(" key: {").append(key).append("}"); if (pendingOperation != null) sb.append(" pendingOperation: ").append(pendingOperation); return sb.toString(); } private String toKey() { StringBuilder sb = new StringBuilder(); sb.append("authority: ").append(authority); sb.append(" account: ").append(account); sb.append(" extras: "); extrasToStringBuilder(extras, sb); return sb.toString(); } private static void extrasToStringBuilder(Bundle bundle, StringBuilder sb) { sb.append("["); for (String key : bundle.keySet()) { sb.append(key).append("=").append(bundle.get(key)).append(" "); } sb.append("]"); } public int compareTo(Object o) { SyncOperation other = (SyncOperation)o; if (earliestRunTime == other.earliestRunTime) { return 0; } return (earliestRunTime < other.earliestRunTime) ? -1 : 1; } } /** * @hide */ class ActiveSyncContext extends ISyncContext.Stub implements ServiceConnection { final SyncOperation mSyncOperation; final long mHistoryRowId; ISyncAdapter mSyncAdapter; final long mStartTime; long mTimeoutStartTime; public ActiveSyncContext(SyncOperation syncOperation, long historyRowId) { super(); mSyncOperation = syncOperation; mHistoryRowId = historyRowId; mSyncAdapter = null; mStartTime = SystemClock.elapsedRealtime(); mTimeoutStartTime = mStartTime; } public void sendHeartbeat() { // ignore this call if it corresponds to an old sync session if (mActiveSyncContext == this) { SyncManager.this.updateHeartbeatTime(); } } public void onFinished(SyncResult result) { // include "this" in the message so that the handler can ignore it if this // ActiveSyncContext is no longer the mActiveSyncContext at message handling // time sendSyncFinishedOrCanceledMessage(this, result); } public void toString(StringBuilder sb) { sb.append("startTime ").append(mStartTime) .append(", mTimeoutStartTime ").append(mTimeoutStartTime) .append(", mHistoryRowId ").append(mHistoryRowId) .append(", syncOperation ").append(mSyncOperation); } public void onServiceConnected(ComponentName name, IBinder service) { Message msg = mSyncHandler.obtainMessage(); msg.what = SyncHandler.MESSAGE_SERVICE_CONNECTED; msg.obj = new ServiceConnectionData(this, ISyncAdapter.Stub.asInterface(service)); mSyncHandler.sendMessage(msg); } public void onServiceDisconnected(ComponentName name) { Message msg = mSyncHandler.obtainMessage(); msg.what = SyncHandler.MESSAGE_SERVICE_DISCONNECTED; msg.obj = new ServiceConnectionData(this, null); mSyncHandler.sendMessage(msg); } boolean bindToSyncAdapter(RegisteredServicesCache.ServiceInfo info) { if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.d(TAG, "bindToSyncAdapter: " + info.componentName + ", connection " + this); } Intent intent = new Intent(); intent.setAction("android.content.SyncAdapter"); intent.setComponent(info.componentName); return mContext.bindService(intent, this, Context.BIND_AUTO_CREATE); } void unBindFromSyncAdapter() { if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.d(TAG, "unBindFromSyncAdapter: connection " + this); } mContext.unbindService(this); } @Override public String toString() { StringBuilder sb = new StringBuilder(); toString(sb); return sb.toString(); } } protected void dump(FileDescriptor fd, PrintWriter pw) { StringBuilder sb = new StringBuilder(); dumpSyncState(pw, sb); if (isSyncEnabled()) { dumpSyncHistory(pw, sb); } pw.println(); pw.println("SyncAdapters:"); for (RegisteredServicesCache.ServiceInfo info : mSyncAdapters.getAllServices()) { pw.println(" " + info); } } static String formatTime(long time) { Time tobj = new Time(); tobj.set(time); return tobj.format("%Y-%m-%d %H:%M:%S"); } protected void dumpSyncState(PrintWriter pw, StringBuilder sb) { pw.print("sync enabled: "); pw.println(isSyncEnabled()); pw.print("data connected: "); pw.println(mDataConnectionIsConnected); pw.print("memory low: "); pw.println(mStorageIsLow); final Account[] accounts = mAccounts; pw.print("accounts: "); if (accounts != null) { pw.println(accounts.length); } else { pw.println("none"); } final long now = SystemClock.elapsedRealtime(); pw.print("now: "); pw.println(now); pw.print("uptime: "); pw.print(DateUtils.formatElapsedTime(now/1000)); pw.println(" (HH:MM:SS)"); pw.print("time spent syncing: "); pw.print(DateUtils.formatElapsedTime( mSyncHandler.mSyncTimeTracker.timeSpentSyncing() / 1000)); pw.print(" (HH:MM:SS), sync "); pw.print(mSyncHandler.mSyncTimeTracker.mLastWasSyncing ? "" : "not "); pw.println("in progress"); if (mSyncHandler.mAlarmScheduleTime != null) { pw.print("next alarm time: "); pw.print(mSyncHandler.mAlarmScheduleTime); pw.print(" ("); pw.print(DateUtils.formatElapsedTime((mSyncHandler.mAlarmScheduleTime-now)/1000)); pw.println(" (HH:MM:SS) from now)"); } else { pw.println("no alarm is scheduled (there had better not be any pending syncs)"); } pw.print("active sync: "); pw.println(mActiveSyncContext); pw.print("notification info: "); sb.setLength(0); mSyncHandler.mSyncNotificationInfo.toString(sb); pw.println(sb.toString()); synchronized (mSyncQueue) { pw.print("sync queue: "); sb.setLength(0); mSyncQueue.dump(sb); pw.println(sb.toString()); } ActiveSyncInfo active = mSyncStorageEngine.getActiveSync(); if (active != null) { SyncStorageEngine.AuthorityInfo authority = mSyncStorageEngine.getAuthority(active.authorityId); final long durationInSeconds = (now - active.startTime) / 1000; pw.print("Active sync: "); pw.print(authority != null ? authority.account : ""); pw.print(" "); pw.print(authority != null ? authority.authority : ""); pw.print(", duration is "); pw.println(DateUtils.formatElapsedTime(durationInSeconds)); } else { pw.println("No sync is in progress."); } ArrayList ops = mSyncStorageEngine.getPendingOperations(); if (ops != null && ops.size() > 0) { pw.println(); pw.println("Pending Syncs"); final int N = ops.size(); for (int i=0; i processedAccounts = new HashSet(); ArrayList statuses = mSyncStorageEngine.getSyncStatus(); if (statuses != null && statuses.size() > 0) { pw.println(); pw.println("Sync Status"); final int N = statuses.size(); for (int i=0; i 0) { pw.print(" for "); dumpTimeSec(pw, ds.successTime); pw.print(" avg="); dumpTimeSec(pw, ds.successTime/ds.successCount); } pw.print(") Failure ("); pw.print(ds.failureCount); if (ds.failureCount > 0) { pw.print(" for "); dumpTimeSec(pw, ds.failureTime); pw.print(" avg="); dumpTimeSec(pw, ds.failureTime/ds.failureCount); } pw.println(")"); } protected void dumpSyncHistory(PrintWriter pw, StringBuilder sb) { SyncStorageEngine.DayStats dses[] = mSyncStorageEngine.getDayStatistics(); if (dses != null && dses[0] != null) { pw.println(); pw.println("Sync Statistics"); pw.print(" Today: "); dumpDayStatistic(pw, dses[0]); int today = dses[0].day; int i; SyncStorageEngine.DayStats ds; // Print each day in the current week. for (i=1; i<=6 && i < dses.length; i++) { ds = dses[i]; if (ds == null) break; int delta = today-ds.day; if (delta > 6) break; pw.print(" Day-"); pw.print(delta); pw.print(": "); dumpDayStatistic(pw, ds); } // Aggregate all following days into weeks and print totals. int weekDay = today; while (i < dses.length) { SyncStorageEngine.DayStats aggr = null; weekDay -= 7; while (i < dses.length) { ds = dses[i]; if (ds == null) { i = dses.length; break; } int delta = weekDay-ds.day; if (delta > 6) break; i++; if (aggr == null) { aggr = new SyncStorageEngine.DayStats(weekDay); } aggr.successCount += ds.successCount; aggr.successTime += ds.successTime; aggr.failureCount += ds.failureCount; aggr.failureTime += ds.failureTime; } if (aggr != null) { pw.print(" Week-"); pw.print((today-weekDay)/7); pw.print(": "); dumpDayStatistic(pw, aggr); } } } ArrayList items = mSyncStorageEngine.getSyncHistory(); if (items != null && items.size() > 0) { pw.println(); pw.println("Recent Sync History"); final int N = items.size(); for (int i=0; i"); } Time time = new Time(); time.set(item.eventTime); pw.print(" "); pw.print(SyncStorageEngine.SOURCES[item.source]); pw.print(" @ "); pw.print(formatTime(item.eventTime)); pw.print(" for "); dumpTimeSec(pw, item.elapsedTime); pw.println(); if (item.event != SyncStorageEngine.EVENT_STOP || item.upstreamActivity !=0 || item.downstreamActivity != 0) { pw.print(" event="); pw.print(item.event); pw.print(" upstreamActivity="); pw.print(item.upstreamActivity); pw.print(" downstreamActivity="); pw.println(item.downstreamActivity); } if (item.mesg != null && !SyncStorageEngine.MESG_SUCCESS.equals(item.mesg)) { pw.print(" mesg="); pw.println(item.mesg); } } } } /** * A helper object to keep track of the time we have spent syncing since the last boot */ private class SyncTimeTracker { /** True if a sync was in progress on the most recent call to update() */ boolean mLastWasSyncing = false; /** Used to track when lastWasSyncing was last set */ long mWhenSyncStarted = 0; /** The cumulative time we have spent syncing */ private long mTimeSpentSyncing; /** Call to let the tracker know that the sync state may have changed */ public synchronized void update() { final boolean isSyncInProgress = mActiveSyncContext != null; if (isSyncInProgress == mLastWasSyncing) return; final long now = SystemClock.elapsedRealtime(); if (isSyncInProgress) { mWhenSyncStarted = now; } else { mTimeSpentSyncing += now - mWhenSyncStarted; } mLastWasSyncing = isSyncInProgress; } /** Get how long we have been syncing, in ms */ public synchronized long timeSpentSyncing() { if (!mLastWasSyncing) return mTimeSpentSyncing; final long now = SystemClock.elapsedRealtime(); return mTimeSpentSyncing + (now - mWhenSyncStarted); } } class ServiceConnectionData { public final ActiveSyncContext activeSyncContext; public final ISyncAdapter syncAdapter; ServiceConnectionData(ActiveSyncContext activeSyncContext, ISyncAdapter syncAdapter) { this.activeSyncContext = activeSyncContext; this.syncAdapter = syncAdapter; } } /** * Handles SyncOperation Messages that are posted to the associated * HandlerThread. */ class SyncHandler extends Handler { // Messages that can be sent on mHandler private static final int MESSAGE_SYNC_FINISHED = 1; private static final int MESSAGE_SYNC_ALARM = 2; private static final int MESSAGE_CHECK_ALARMS = 3; private static final int MESSAGE_SERVICE_CONNECTED = 4; private static final int MESSAGE_SERVICE_DISCONNECTED = 5; public final SyncNotificationInfo mSyncNotificationInfo = new SyncNotificationInfo(); private Long mAlarmScheduleTime = null; public final SyncTimeTracker mSyncTimeTracker = new SyncTimeTracker(); // used to track if we have installed the error notification so that we don't reinstall // it if sync is still failing private boolean mErrorNotificationInstalled = false; /** * Used to keep track of whether a sync notification is active and who it is for. */ class SyncNotificationInfo { // only valid if isActive is true public Account account; // only valid if isActive is true public String authority; // true iff the notification manager has been asked to send the notification public boolean isActive = false; // Set when we transition from not running a sync to running a sync, and cleared on // the opposite transition. public Long startTime = null; public void toString(StringBuilder sb) { sb.append("account ").append(account) .append(", authority ").append(authority) .append(", isActive ").append(isActive) .append(", startTime ").append(startTime); } @Override public String toString() { StringBuilder sb = new StringBuilder(); toString(sb); return sb.toString(); } } public SyncHandler(Looper looper) { super(looper); } public void handleMessage(Message msg) { handleSyncHandlerMessage(msg); } private void handleSyncHandlerMessage(Message msg) { try { switch (msg.what) { case SyncHandler.MESSAGE_SYNC_FINISHED: if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "handleSyncHandlerMessage: MESSAGE_SYNC_FINISHED"); } SyncHandlerMessagePayload payload = (SyncHandlerMessagePayload)msg.obj; if (mActiveSyncContext != payload.activeSyncContext) { if (Config.LOGD) { Log.d(TAG, "handleSyncHandlerMessage: sync context doesn't match, " + "dropping: mActiveSyncContext " + mActiveSyncContext + " != " + payload.activeSyncContext); } return; } runSyncFinishedOrCanceled(payload.syncResult); // since we are no longer syncing, check if it is time to start a new sync runStateIdle(); break; case SyncHandler.MESSAGE_SERVICE_CONNECTED: { ServiceConnectionData msgData = (ServiceConnectionData)msg.obj; if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.d(TAG, "handleSyncHandlerMessage: MESSAGE_SERVICE_CONNECTED: " + msgData.activeSyncContext + " active is " + mActiveSyncContext); } // check that this isn't an old message if (mActiveSyncContext == msgData.activeSyncContext) { runBoundToSyncAdapter(msgData.syncAdapter); } break; } case SyncHandler.MESSAGE_SERVICE_DISCONNECTED: { ServiceConnectionData msgData = (ServiceConnectionData)msg.obj; if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.d(TAG, "handleSyncHandlerMessage: MESSAGE_SERVICE_DISCONNECTED: " + msgData.activeSyncContext + " active is " + mActiveSyncContext); } // check that this isn't an old message if (mActiveSyncContext == msgData.activeSyncContext) { // cancel the sync if we have a syncadapter, which means one is // outstanding if (mActiveSyncContext.mSyncAdapter != null) { try { mActiveSyncContext.mSyncAdapter.cancelSync(mActiveSyncContext); } catch (RemoteException e) { // we don't need to retry this in this case } } // pretend that the sync failed with an IOException, // which is a soft error SyncResult syncResult = new SyncResult(); syncResult.stats.numIoExceptions++; runSyncFinishedOrCanceled(syncResult); // since we are no longer syncing, check if it is time to start a new // sync runStateIdle(); } break; } case SyncHandler.MESSAGE_SYNC_ALARM: { boolean isLoggable = Log.isLoggable(TAG, Log.VERBOSE); if (isLoggable) { Log.v(TAG, "handleSyncHandlerMessage: MESSAGE_SYNC_ALARM"); } mAlarmScheduleTime = null; try { if (mActiveSyncContext != null) { if (isLoggable) { Log.v(TAG, "handleSyncHandlerMessage: sync context is active"); } runStateSyncing(); } // if the above call to runStateSyncing() resulted in the end of a sync, // check if it is time to start a new sync if (mActiveSyncContext == null) { if (isLoggable) { Log.v(TAG, "handleSyncHandlerMessage: " + "sync context is not active"); } runStateIdle(); } } finally { mHandleAlarmWakeLock.release(); } break; } case SyncHandler.MESSAGE_CHECK_ALARMS: if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "handleSyncHandlerMessage: MESSAGE_CHECK_ALARMS"); } // we do all the work for this case in the finally block break; } } finally { final boolean isSyncInProgress = mActiveSyncContext != null; if (!isSyncInProgress) { mSyncWakeLock.release(); } manageSyncNotification(); manageErrorNotification(); manageSyncAlarm(); mSyncTimeTracker.update(); } } private void runStateSyncing() { // if the sync timeout has been reached then cancel it ActiveSyncContext activeSyncContext = mActiveSyncContext; final long now = SystemClock.elapsedRealtime(); if (now > activeSyncContext.mTimeoutStartTime + MAX_TIME_PER_SYNC) { SyncOperation nextSyncOperation; synchronized (mSyncQueue) { nextSyncOperation = mSyncQueue.head(); } if (nextSyncOperation != null && nextSyncOperation.earliestRunTime <= now) { if (Config.LOGD) { Log.d(TAG, "canceling and rescheduling sync because it ran too long: " + activeSyncContext.mSyncOperation); } rescheduleImmediately(activeSyncContext.mSyncOperation); sendSyncFinishedOrCanceledMessage(activeSyncContext, null /* no result since this is a cancel */); } else { activeSyncContext.mTimeoutStartTime = now + MAX_TIME_PER_SYNC; } } // no need to schedule an alarm, as that will be done by our caller. } private void runStateIdle() { boolean isLoggable = Log.isLoggable(TAG, Log.VERBOSE); if (isLoggable) Log.v(TAG, "runStateIdle"); // If we aren't ready to run (e.g. the data connection is down), get out. if (!mDataConnectionIsConnected) { if (isLoggable) { Log.v(TAG, "runStateIdle: no data connection, skipping"); } setStatusText("No data connection"); return; } if (mStorageIsLow) { if (isLoggable) { Log.v(TAG, "runStateIdle: memory low, skipping"); } setStatusText("Memory low"); return; } // If the accounts aren't known yet then we aren't ready to run. We will be kicked // when the account lookup request does complete. Account[] accounts = mAccounts; if (accounts == null) { if (isLoggable) { Log.v(TAG, "runStateIdle: accounts not known, skipping"); } setStatusText("Accounts not known yet"); return; } // Otherwise consume SyncOperations from the head of the SyncQueue until one is // found that is runnable (not disabled, etc). If that one is ready to run then // start it, otherwise just get out. SyncOperation op; final ConnectivityManager connManager = (ConnectivityManager) mContext.getSystemService(Context.CONNECTIVITY_SERVICE); final boolean backgroundDataUsageAllowed = connManager.getBackgroundDataSetting(); synchronized (mSyncQueue) { while (true) { op = mSyncQueue.head(); if (op == null) { if (isLoggable) { Log.v(TAG, "runStateIdle: no more sync operations, returning"); } return; } // Sync is disabled, drop this operation. if (!isSyncEnabled()) { if (isLoggable) { Log.v(TAG, "runStateIdle: sync disabled, dropping " + op); } mSyncQueue.popHead(); continue; } // skip the sync if it isn't manual and auto sync is disabled final boolean manualSync = op.extras.getBoolean( ContentResolver.SYNC_EXTRAS_MANUAL, false); final boolean syncAutomatically = mSyncStorageEngine.getSyncAutomatically(op.account, op.authority) || mSyncStorageEngine.getMasterSyncAutomatically(); boolean syncAllowed = manualSync || (backgroundDataUsageAllowed && syncAutomatically); if (!syncAllowed) { if (isLoggable) { Log.v(TAG, "runStateIdle: sync off, dropping " + op); } mSyncQueue.popHead(); continue; } // skip the sync if the account of this operation no longer exists if (!ArrayUtils.contains(accounts, op.account)) { mSyncQueue.popHead(); if (isLoggable) { Log.v(TAG, "runStateIdle: account not present, dropping " + op); } continue; } // go ahead and try to sync this syncOperation if (isLoggable) { Log.v(TAG, "runStateIdle: found sync candidate: " + op); } break; } // If the first SyncOperation isn't ready to run schedule a wakeup and // get out. final long now = SystemClock.elapsedRealtime(); if (op.earliestRunTime > now) { if (Log.isLoggable(TAG, Log.DEBUG)) { Log.d(TAG, "runStateIdle: the time is " + now + " yet the next " + "sync operation is for " + op.earliestRunTime + ": " + op); } return; } // We will do this sync. Remove it from the queue and run it outside of the // synchronized block. if (isLoggable) { Log.v(TAG, "runStateIdle: we are going to sync " + op); } mSyncQueue.popHead(); } // connect to the sync adapter SyncAdapterType syncAdapterType = new SyncAdapterType(op.authority, op.account.mType); RegisteredServicesCache.ServiceInfo syncAdapterInfo = mSyncAdapters.getServiceInfo(syncAdapterType); if (syncAdapterInfo == null) { if (Config.LOGD) { Log.d(TAG, "can't find a sync adapter for " + syncAdapterType); } runStateIdle(); return; } ActiveSyncContext activeSyncContext = new ActiveSyncContext(op, insertStartSyncEvent(op)); mActiveSyncContext = activeSyncContext; if (Log.isLoggable(TAG, Log.VERBOSE)) { Log.v(TAG, "runStateIdle: setting mActiveSyncContext to " + mActiveSyncContext); } mSyncStorageEngine.setActiveSync(mActiveSyncContext); if (!activeSyncContext.bindToSyncAdapter(syncAdapterInfo)) { Log.e(TAG, "Bind attempt failed to " + syncAdapterInfo); mActiveSyncContext = null; mSyncStorageEngine.setActiveSync(mActiveSyncContext); runStateIdle(); return; } mSyncWakeLock.acquire(); // no need to schedule an alarm, as that will be done by our caller. // the next step will occur when we get either a timeout or a // MESSAGE_SERVICE_CONNECTED or MESSAGE_SERVICE_DISCONNECTED message } private void runBoundToSyncAdapter(ISyncAdapter syncAdapter) { mActiveSyncContext.mSyncAdapter = syncAdapter; final SyncOperation syncOperation = mActiveSyncContext.mSyncOperation; try { syncAdapter.startSync(mActiveSyncContext, syncOperation.authority, syncOperation.account, syncOperation.extras); } catch (RemoteException remoteExc) { if (Config.LOGD) { Log.d(TAG, "runStateIdle: caught a RemoteException, rescheduling", remoteExc); } mActiveSyncContext.unBindFromSyncAdapter(); mActiveSyncContext = null; mSyncStorageEngine.setActiveSync(mActiveSyncContext); rescheduleWithDelay(syncOperation); } catch (RuntimeException exc) { mActiveSyncContext.unBindFromSyncAdapter(); mActiveSyncContext = null; mSyncStorageEngine.setActiveSync(mActiveSyncContext); Log.e(TAG, "Caught a RuntimeException while starting the sync " + syncOperation, exc); } } private void runSyncFinishedOrCanceled(SyncResult syncResult) { boolean isLoggable = Log.isLoggable(TAG, Log.VERBOSE); if (isLoggable) Log.v(TAG, "runSyncFinishedOrCanceled"); final ActiveSyncContext activeSyncContext = mActiveSyncContext; mActiveSyncContext = null; mSyncStorageEngine.setActiveSync(mActiveSyncContext); final SyncOperation syncOperation = activeSyncContext.mSyncOperation; final long elapsedTime = SystemClock.elapsedRealtime() - activeSyncContext.mStartTime; String historyMessage; int downstreamActivity; int upstreamActivity; if (syncResult != null) { if (isLoggable) { Log.v(TAG, "runSyncFinishedOrCanceled: is a finished: operation " + syncOperation + ", result " + syncResult); } if (!syncResult.hasError()) { if (isLoggable) { Log.v(TAG, "finished sync operation " + syncOperation); } historyMessage = SyncStorageEngine.MESG_SUCCESS; // TODO: set these correctly when the SyncResult is extended to include it downstreamActivity = 0; upstreamActivity = 0; } else { maybeRescheduleSync(syncResult, syncOperation); if (Config.LOGD) { Log.d(TAG, "failed sync operation " + syncOperation); } historyMessage = Integer.toString(syncResultToErrorNumber(syncResult)); // TODO: set these correctly when the SyncResult is extended to include it downstreamActivity = 0; upstreamActivity = 0; } } else { if (isLoggable) { Log.v(TAG, "runSyncFinishedOrCanceled: is a cancel: operation " + syncOperation); } if (activeSyncContext.mSyncAdapter != null) { try { activeSyncContext.mSyncAdapter.cancelSync(activeSyncContext); } catch (RemoteException e) { // we don't need to retry this in this case } } historyMessage = SyncStorageEngine.MESG_CANCELED; downstreamActivity = 0; upstreamActivity = 0; } stopSyncEvent(activeSyncContext.mHistoryRowId, syncOperation, historyMessage, upstreamActivity, downstreamActivity, elapsedTime); activeSyncContext.unBindFromSyncAdapter(); if (syncResult != null && syncResult.tooManyDeletions) { installHandleTooManyDeletesNotification(syncOperation.account, syncOperation.authority, syncResult.stats.numDeletes); } else { mNotificationMgr.cancel( syncOperation.account.hashCode() ^ syncOperation.authority.hashCode()); } if (syncResult != null && syncResult.fullSyncRequested) { scheduleSyncOperation(new SyncOperation(syncOperation.account, syncOperation.syncSource, syncOperation.authority, new Bundle(), 0)); } // no need to schedule an alarm, as that will be done by our caller. } /** * Convert the error-containing SyncResult into the Sync.History error number. Since * the SyncResult may indicate multiple errors at once, this method just returns the * most "serious" error. * @param syncResult the SyncResult from which to read * @return the most "serious" error set in the SyncResult * @throws IllegalStateException if the SyncResult does not indicate any errors. * If SyncResult.error() is true then it is safe to call this. */ private int syncResultToErrorNumber(SyncResult syncResult) { if (syncResult.syncAlreadyInProgress) return ContentResolver.SYNC_ERROR_SYNC_ALREADY_IN_PROGRESS; if (syncResult.stats.numAuthExceptions > 0) return ContentResolver.SYNC_ERROR_AUTHENTICATION; if (syncResult.stats.numIoExceptions > 0) return ContentResolver.SYNC_ERROR_IO; if (syncResult.stats.numParseExceptions > 0) return ContentResolver.SYNC_ERROR_PARSE; if (syncResult.stats.numConflictDetectedExceptions > 0) return ContentResolver.SYNC_ERROR_CONFLICT; if (syncResult.tooManyDeletions) return ContentResolver.SYNC_ERROR_TOO_MANY_DELETIONS; if (syncResult.tooManyRetries) return ContentResolver.SYNC_ERROR_TOO_MANY_RETRIES; if (syncResult.databaseError) return ContentResolver.SYNC_ERROR_INTERNAL; throw new IllegalStateException("we are not in an error state, " + syncResult); } private void manageSyncNotification() { boolean shouldCancel; boolean shouldInstall; if (mActiveSyncContext == null) { mSyncNotificationInfo.startTime = null; // we aren't syncing. if the notification is active then remember that we need // to cancel it and then clear out the info shouldCancel = mSyncNotificationInfo.isActive; shouldInstall = false; } else { // we are syncing final SyncOperation syncOperation = mActiveSyncContext.mSyncOperation; final long now = SystemClock.elapsedRealtime(); if (mSyncNotificationInfo.startTime == null) { mSyncNotificationInfo.startTime = now; } // cancel the notification if it is up and the authority or account is wrong shouldCancel = mSyncNotificationInfo.isActive && (!syncOperation.authority.equals(mSyncNotificationInfo.authority) || !syncOperation.account.equals(mSyncNotificationInfo.account)); // there are four cases: // - the notification is up and there is no change: do nothing // - the notification is up but we should cancel since it is stale: // need to install // - the notification is not up but it isn't time yet: don't install // - the notification is not up and it is time: need to install if (mSyncNotificationInfo.isActive) { shouldInstall = shouldCancel; } else { final boolean timeToShowNotification = now > mSyncNotificationInfo.startTime + SYNC_NOTIFICATION_DELAY; // show the notification immediately if this is a manual sync final boolean manualSync = syncOperation.extras .getBoolean(ContentResolver.SYNC_EXTRAS_MANUAL, false); shouldInstall = timeToShowNotification || manualSync; } } if (shouldCancel && !shouldInstall) { mNeedSyncActiveNotification = false; sendSyncStateIntent(); mSyncNotificationInfo.isActive = false; } if (shouldInstall) { SyncOperation syncOperation = mActiveSyncContext.mSyncOperation; mNeedSyncActiveNotification = true; sendSyncStateIntent(); mSyncNotificationInfo.isActive = true; mSyncNotificationInfo.account = syncOperation.account; mSyncNotificationInfo.authority = syncOperation.authority; } } /** * Check if there were any long-lasting errors, if so install the error notification, * otherwise cancel the error notification. */ private void manageErrorNotification() { // long when = mSyncStorageEngine.getInitialSyncFailureTime(); if ((when > 0) && (when + ERROR_NOTIFICATION_DELAY_MS < System.currentTimeMillis())) { if (!mErrorNotificationInstalled) { mNeedSyncErrorNotification = true; sendSyncStateIntent(); } mErrorNotificationInstalled = true; } else { if (mErrorNotificationInstalled) { mNeedSyncErrorNotification = false; sendSyncStateIntent(); } mErrorNotificationInstalled = false; } } private void manageSyncAlarm() { // in each of these cases the sync loop will be kicked, which will cause this // method to be called again if (!mDataConnectionIsConnected) return; if (mAccounts == null) return; if (mStorageIsLow) return; // Compute the alarm fire time: // - not syncing: time of the next sync operation // - syncing, no notification: time from sync start to notification create time // - syncing, with notification: time till timeout of the active sync operation Long alarmTime = null; ActiveSyncContext activeSyncContext = mActiveSyncContext; if (activeSyncContext == null) { SyncOperation syncOperation; synchronized (mSyncQueue) { syncOperation = mSyncQueue.head(); } if (syncOperation != null) { alarmTime = syncOperation.earliestRunTime; } } else { final long notificationTime = mSyncHandler.mSyncNotificationInfo.startTime + SYNC_NOTIFICATION_DELAY; final long timeoutTime = mActiveSyncContext.mTimeoutStartTime + MAX_TIME_PER_SYNC; if (mSyncHandler.mSyncNotificationInfo.isActive) { alarmTime = timeoutTime; } else { alarmTime = Math.min(notificationTime, timeoutTime); } } // adjust the alarmTime so that we will wake up when it is time to // install the error notification if (!mErrorNotificationInstalled) { long when = mSyncStorageEngine.getInitialSyncFailureTime(); if (when > 0) { when += ERROR_NOTIFICATION_DELAY_MS; // convert when fron absolute time to elapsed run time long delay = when - System.currentTimeMillis(); when = SystemClock.elapsedRealtime() + delay; alarmTime = alarmTime != null ? Math.min(alarmTime, when) : when; } } // determine if we need to set or cancel the alarm boolean shouldSet = false; boolean shouldCancel = false; final boolean alarmIsActive = mAlarmScheduleTime != null; final boolean needAlarm = alarmTime != null; if (needAlarm) { if (!alarmIsActive || alarmTime < mAlarmScheduleTime) { shouldSet = true; } } else { shouldCancel = alarmIsActive; } // set or cancel the alarm as directed ensureAlarmService(); if (shouldSet) { mAlarmScheduleTime = alarmTime; mAlarmService.set(AlarmManager.ELAPSED_REALTIME_WAKEUP, alarmTime, mSyncAlarmIntent); } else if (shouldCancel) { mAlarmScheduleTime = null; mAlarmService.cancel(mSyncAlarmIntent); } } private void sendSyncStateIntent() { Intent syncStateIntent = new Intent(Intent.ACTION_SYNC_STATE_CHANGED); syncStateIntent.putExtra("active", mNeedSyncActiveNotification); syncStateIntent.putExtra("failing", mNeedSyncErrorNotification); mContext.sendBroadcast(syncStateIntent); } private void installHandleTooManyDeletesNotification(Account account, String authority, long numDeletes) { if (mNotificationMgr == null) return; Intent clickIntent = new Intent(); clickIntent.setClassName("com.android.providers.subscribedfeeds", "com.android.settings.SyncActivityTooManyDeletes"); clickIntent.putExtra("account", account); clickIntent.putExtra("provider", authority); clickIntent.putExtra("numDeletes", numDeletes); if (!isActivityAvailable(clickIntent)) { Log.w(TAG, "No activity found to handle too many deletes."); return; } final PendingIntent pendingIntent = PendingIntent .getActivity(mContext, 0, clickIntent, PendingIntent.FLAG_CANCEL_CURRENT); CharSequence tooManyDeletesDescFormat = mContext.getResources().getText( R.string.contentServiceTooManyDeletesNotificationDesc); String[] authorities = authority.split(";"); Notification notification = new Notification(R.drawable.stat_notify_sync_error, mContext.getString(R.string.contentServiceSync), System.currentTimeMillis()); notification.setLatestEventInfo(mContext, mContext.getString(R.string.contentServiceSyncNotificationTitle), String.format(tooManyDeletesDescFormat.toString(), authorities[0]), pendingIntent); notification.flags |= Notification.FLAG_ONGOING_EVENT; mNotificationMgr.notify(account.hashCode() ^ authority.hashCode(), notification); } /** * Checks whether an activity exists on the system image for the given intent. * * @param intent The intent for an activity. * @return Whether or not an activity exists. */ private boolean isActivityAvailable(Intent intent) { PackageManager pm = mContext.getPackageManager(); List list = pm.queryIntentActivities(intent, 0); int listSize = list.size(); for (int i = 0; i < listSize; i++) { ResolveInfo resolveInfo = list.get(i); if ((resolveInfo.activityInfo.applicationInfo.flags & ApplicationInfo.FLAG_SYSTEM) != 0) { return true; } } return false; } public long insertStartSyncEvent(SyncOperation syncOperation) { final int source = syncOperation.syncSource; final long now = System.currentTimeMillis(); EventLog.writeEvent(2720, syncOperation.authority, SyncStorageEngine.EVENT_START, source); return mSyncStorageEngine.insertStartSyncEvent( syncOperation.account, syncOperation.authority, now, source); } public void stopSyncEvent(long rowId, SyncOperation syncOperation, String resultMessage, int upstreamActivity, int downstreamActivity, long elapsedTime) { EventLog.writeEvent(2720, syncOperation.authority, SyncStorageEngine.EVENT_STOP, syncOperation.syncSource); mSyncStorageEngine.stopSyncEvent(rowId, elapsedTime, resultMessage, downstreamActivity, upstreamActivity); } } static class SyncQueue { private SyncStorageEngine mSyncStorageEngine; private static final boolean DEBUG_CHECK_DATA_CONSISTENCY = false; // A priority queue of scheduled SyncOperations that is designed to make it quick // to find the next SyncOperation that should be considered for running. private final PriorityQueue mOpsByWhen = new PriorityQueue(); // A Map of SyncOperations operationKey -> SyncOperation that is designed for // quick lookup of an enqueued SyncOperation. private final HashMap mOpsByKey = Maps.newHashMap(); public SyncQueue(SyncStorageEngine syncStorageEngine) { mSyncStorageEngine = syncStorageEngine; ArrayList ops = mSyncStorageEngine.getPendingOperations(); final int N = ops.size(); for (int i=0; i 0) // and this isn't a manual sync operation, ignore this operation if (existingOperation != null && existingOperation.delay > 0) { if (!operation.extras.getBoolean(ContentResolver.SYNC_EXTRAS_MANUAL, false)) { return false; } } if (existingOperation != null && operation.earliestRunTime >= existingOperation.earliestRunTime) { if (DEBUG_CHECK_DATA_CONSISTENCY) debugCheckDataStructures(pop == null); return false; } if (existingOperation != null) { removeByKey(operationKey); } operation.pendingOperation = pop; if (operation.pendingOperation == null) { pop = new SyncStorageEngine.PendingOperation( operation.account, operation.syncSource, operation.authority, operation.extras); pop = mSyncStorageEngine.insertIntoPending(pop); if (pop == null) { throw new IllegalStateException("error adding pending sync operation " + operation); } operation.pendingOperation = pop; } if (DEBUG_CHECK_DATA_CONSISTENCY) { debugCheckDataStructures( false /* don't compare with the DB, since we know it is inconsistent right now */ ); } mOpsByKey.put(operationKey, operation); mOpsByWhen.add(operation); if (DEBUG_CHECK_DATA_CONSISTENCY) debugCheckDataStructures(pop == null); return true; } public void removeByKey(String operationKey) { if (DEBUG_CHECK_DATA_CONSISTENCY) debugCheckDataStructures(true /* check the DB */); SyncOperation operationToRemove = mOpsByKey.remove(operationKey); if (!mOpsByWhen.remove(operationToRemove)) { throw new IllegalStateException( "unable to find " + operationToRemove + " in mOpsByWhen"); } if (!mSyncStorageEngine.deleteFromPending(operationToRemove.pendingOperation)) { throw new IllegalStateException("unable to find pending row for " + operationToRemove); } if (DEBUG_CHECK_DATA_CONSISTENCY) debugCheckDataStructures(true /* check the DB */); } public SyncOperation head() { if (DEBUG_CHECK_DATA_CONSISTENCY) debugCheckDataStructures(true /* check the DB */); return mOpsByWhen.peek(); } public void popHead() { if (DEBUG_CHECK_DATA_CONSISTENCY) debugCheckDataStructures(true /* check the DB */); SyncOperation operation = mOpsByWhen.remove(); if (mOpsByKey.remove(operation.key) == null) { throw new IllegalStateException("unable to find " + operation + " in mOpsByKey"); } if (!mSyncStorageEngine.deleteFromPending(operation.pendingOperation)) { throw new IllegalStateException("unable to find pending row for " + operation); } if (DEBUG_CHECK_DATA_CONSISTENCY) debugCheckDataStructures(true /* check the DB */); } public void clear(Account account, String authority) { Iterator> entries = mOpsByKey.entrySet().iterator(); while (entries.hasNext()) { Map.Entry entry = entries.next(); SyncOperation syncOperation = entry.getValue(); if (account != null && !syncOperation.account.equals(account)) continue; if (authority != null && !syncOperation.authority.equals(authority)) continue; if (DEBUG_CHECK_DATA_CONSISTENCY) debugCheckDataStructures(true /* check the DB */); entries.remove(); if (!mOpsByWhen.remove(syncOperation)) { throw new IllegalStateException( "unable to find " + syncOperation + " in mOpsByWhen"); } if (!mSyncStorageEngine.deleteFromPending(syncOperation.pendingOperation)) { throw new IllegalStateException("unable to find pending row for " + syncOperation); } if (DEBUG_CHECK_DATA_CONSISTENCY) debugCheckDataStructures(true /* check the DB */); } } public void dump(StringBuilder sb) { sb.append("SyncQueue: ").append(mOpsByWhen.size()).append(" operation(s)\n"); for (SyncOperation operation : mOpsByWhen) { sb.append(operation).append("\n"); } } private void debugCheckDataStructures(boolean checkDatabase) { if (mOpsByKey.size() != mOpsByWhen.size()) { throw new IllegalStateException("size mismatch: " + mOpsByKey .size() + " != " + mOpsByWhen.size()); } for (SyncOperation operation : mOpsByWhen) { if (!mOpsByKey.containsKey(operation.key)) { throw new IllegalStateException( "operation " + operation + " is in mOpsByWhen but not mOpsByKey"); } } for (Map.Entry entry : mOpsByKey.entrySet()) { final SyncOperation operation = entry.getValue(); final String key = entry.getKey(); if (!key.equals(operation.key)) { throw new IllegalStateException( "operation " + operation + " in mOpsByKey doesn't match key " + key); } if (!mOpsByWhen.contains(operation)) { throw new IllegalStateException( "operation " + operation + " is in mOpsByKey but not mOpsByWhen"); } } if (checkDatabase) { final int N = mSyncStorageEngine.getPendingOperationCount(); if (mOpsByKey.size() != N) { ArrayList ops = mSyncStorageEngine.getPendingOperations(); StringBuilder sb = new StringBuilder(); for (int i=0; i