/* * Copyright (C) 2009 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 com.android.contacts.common.model; import android.accounts.Account; import android.accounts.AccountManager; import android.accounts.AuthenticatorDescription; import android.accounts.OnAccountsUpdateListener; import android.content.BroadcastReceiver; import android.content.ContentResolver; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.content.SyncAdapterType; import android.content.SyncStatusObserver; import android.content.pm.PackageManager; import android.content.pm.ResolveInfo; import android.net.Uri; import android.os.AsyncTask; import android.os.Handler; import android.os.HandlerThread; import android.os.Looper; import android.os.Message; import android.os.SystemClock; import android.provider.ContactsContract; import android.text.TextUtils; import android.util.Log; import android.util.TimingLogger; import com.android.contacts.common.MoreContactUtils; import com.android.contacts.common.list.ContactListFilterController; import com.android.contacts.common.model.account.AccountType; import com.android.contacts.common.model.account.AccountTypeWithDataSet; import com.android.contacts.common.model.account.AccountWithDataSet; import com.android.contacts.common.model.account.ExchangeAccountType; import com.android.contacts.common.model.account.ExternalAccountType; import com.android.contacts.common.model.account.FallbackAccountType; import com.android.contacts.common.model.account.GoogleAccountType; import com.android.contacts.common.model.account.SamsungAccountType; import com.android.contacts.common.model.dataitem.DataKind; import com.android.contacts.common.testing.NeededForTesting; import com.android.contacts.common.util.Constants; import com.google.common.annotations.VisibleForTesting; import com.google.common.base.Objects; import com.google.common.collect.Lists; import com.google.common.collect.Maps; import com.google.common.collect.Sets; import java.util.Collection; import java.util.Collections; import java.util.Comparator; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.Set; import java.util.concurrent.CountDownLatch; import java.util.concurrent.atomic.AtomicBoolean; /** * Singleton holder for all parsed {@link AccountType} available on the * system, typically filled through {@link PackageManager} queries. */ public abstract class AccountTypeManager { static final String TAG = "AccountTypeManager"; private static final Object mInitializationLock = new Object(); private static AccountTypeManager mAccountTypeManager; /** * Requests the singleton instance of {@link AccountTypeManager} with data bound from * the available authenticators. This method can safely be called from the UI thread. */ public static AccountTypeManager getInstance(Context context) { synchronized (mInitializationLock) { if (mAccountTypeManager == null) { context = context.getApplicationContext(); mAccountTypeManager = new AccountTypeManagerImpl(context); } } return mAccountTypeManager; } /** * Set the instance of account type manager. This is only for and should only be used by unit * tests. While having this method is not ideal, it's simpler than the alternative of * holding this as a service in the ContactsApplication context class. * * @param mockManager The mock AccountTypeManager. */ @NeededForTesting public static void setInstanceForTest(AccountTypeManager mockManager) { synchronized (mInitializationLock) { mAccountTypeManager = mockManager; } } /** * Returns the list of all accounts (if contactWritableOnly is false) or just the list of * contact writable accounts (if contactWritableOnly is true). */ // TODO: Consider splitting this into getContactWritableAccounts() and getAllAccounts() public abstract List getAccounts(boolean contactWritableOnly); /** * Returns the list of accounts that are group writable. */ public abstract List getGroupWritableAccounts(); public abstract AccountType getAccountType(AccountTypeWithDataSet accountTypeWithDataSet); public final AccountType getAccountType(String accountType, String dataSet) { return getAccountType(AccountTypeWithDataSet.get(accountType, dataSet)); } public final AccountType getAccountTypeForAccount(AccountWithDataSet account) { if (account != null) { return getAccountType(account.getAccountTypeWithDataSet()); } return getAccountType(null, null); } /** * @return Unmodifiable map from {@link AccountTypeWithDataSet}s to {@link AccountType}s * which support the "invite" feature and have one or more account. * * This is a filtered down and more "usable" list compared to * {@link #getAllInvitableAccountTypes}, where usable is defined as: * (1) making sure that the app that contributed the account type is not disabled * (in order to avoid presenting the user with an option that does nothing), and * (2) that there is at least one raw contact with that account type in the database * (assuming that the user probably doesn't use that account type). * * Warning: Don't use on the UI thread because this can scan the database. */ public abstract Map getUsableInvitableAccountTypes(); /** * Find the best {@link DataKind} matching the requested * {@link AccountType#accountType}, {@link AccountType#dataSet}, and {@link DataKind#mimeType}. * If no direct match found, we try searching {@link FallbackAccountType}. */ public DataKind getKindOrFallback(AccountType type, String mimeType) { return type == null ? null : type.getKindForMimetype(mimeType); } /** * Returns all registered {@link AccountType}s, including extension ones. * * @param contactWritableOnly if true, it only returns ones that support writing contacts. */ public abstract List getAccountTypes(boolean contactWritableOnly); /** * @param contactWritableOnly if true, it only returns ones that support writing contacts. * @return true when this instance contains the given account. */ public boolean contains(AccountWithDataSet account, boolean contactWritableOnly) { for (AccountWithDataSet account_2 : getAccounts(false)) { if (account.equals(account_2)) { return true; } } return false; } } class AccountTypeManagerImpl extends AccountTypeManager implements OnAccountsUpdateListener, SyncStatusObserver { private static final Map EMPTY_UNMODIFIABLE_ACCOUNT_TYPE_MAP = Collections.unmodifiableMap(new HashMap()); /** * A sample contact URI used to test whether any activities will respond to an * invitable intent with the given URI as the intent data. This doesn't need to be * specific to a real contact because an app that intercepts the intent should probably do so * for all types of contact URIs. */ private static final Uri SAMPLE_CONTACT_URI = ContactsContract.Contacts.getLookupUri( 1, "xxx"); private Context mContext; private AccountManager mAccountManager; private AccountType mFallbackAccountType; private List mAccounts = Lists.newArrayList(); private List mContactWritableAccounts = Lists.newArrayList(); private List mGroupWritableAccounts = Lists.newArrayList(); private Map mAccountTypesWithDataSets = Maps.newHashMap(); private Map mInvitableAccountTypes = EMPTY_UNMODIFIABLE_ACCOUNT_TYPE_MAP; private final InvitableAccountTypeCache mInvitableAccountTypeCache; /** * The boolean value is equal to true if the {@link InvitableAccountTypeCache} has been * initialized. False otherwise. */ private final AtomicBoolean mInvitablesCacheIsInitialized = new AtomicBoolean(false); /** * The boolean value is equal to true if the {@link FindInvitablesTask} is still executing. * False otherwise. */ private final AtomicBoolean mInvitablesTaskIsRunning = new AtomicBoolean(false); private static final int MESSAGE_LOAD_DATA = 0; private static final int MESSAGE_PROCESS_BROADCAST_INTENT = 1; private HandlerThread mListenerThread; private Handler mListenerHandler; private final Handler mMainThreadHandler = new Handler(Looper.getMainLooper()); private final Runnable mCheckFilterValidityRunnable = new Runnable () { @Override public void run() { ContactListFilterController.getInstance(mContext).checkFilterValidity(true); } }; private BroadcastReceiver mBroadcastReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { Message msg = mListenerHandler.obtainMessage(MESSAGE_PROCESS_BROADCAST_INTENT, intent); mListenerHandler.sendMessage(msg); } }; /* A latch that ensures that asynchronous initialization completes before data is used */ private volatile CountDownLatch mInitializationLatch = new CountDownLatch(1); private static final Comparator ACCOUNT_COMPARATOR = new Comparator() { @Override public int compare(AccountWithDataSet a, AccountWithDataSet b) { if (Objects.equal(a.name, b.name) && Objects.equal(a.type, b.type) && Objects.equal(a.dataSet, b.dataSet)) { return 0; } else if (b.name == null || b.type == null) { return -1; } else if (a.name == null || a.type == null) { return 1; } else { int diff = a.name.compareTo(b.name); if (diff != 0) { return diff; } diff = a.type.compareTo(b.type); if (diff != 0) { return diff; } // Accounts without data sets get sorted before those that have them. if (a.dataSet != null) { return b.dataSet == null ? 1 : a.dataSet.compareTo(b.dataSet); } else { return -1; } } } }; /** * Internal constructor that only performs initial parsing. */ public AccountTypeManagerImpl(Context context) { mContext = context; mFallbackAccountType = new FallbackAccountType(context); mAccountManager = AccountManager.get(mContext); mListenerThread = new HandlerThread("AccountChangeListener"); mListenerThread.start(); mListenerHandler = new Handler(mListenerThread.getLooper()) { @Override public void handleMessage(Message msg) { switch (msg.what) { case MESSAGE_LOAD_DATA: loadAccountsInBackground(); break; case MESSAGE_PROCESS_BROADCAST_INTENT: processBroadcastIntent((Intent) msg.obj); break; } } }; mInvitableAccountTypeCache = new InvitableAccountTypeCache(); // Request updates when packages or accounts change IntentFilter filter = new IntentFilter(Intent.ACTION_PACKAGE_ADDED); filter.addAction(Intent.ACTION_PACKAGE_REMOVED); filter.addAction(Intent.ACTION_PACKAGE_CHANGED); filter.addDataScheme("package"); mContext.registerReceiver(mBroadcastReceiver, filter); IntentFilter sdFilter = new IntentFilter(); sdFilter.addAction(Intent.ACTION_EXTERNAL_APPLICATIONS_AVAILABLE); sdFilter.addAction(Intent.ACTION_EXTERNAL_APPLICATIONS_UNAVAILABLE); mContext.registerReceiver(mBroadcastReceiver, sdFilter); // Request updates when locale is changed so that the order of each field will // be able to be changed on the locale change. filter = new IntentFilter(Intent.ACTION_LOCALE_CHANGED); mContext.registerReceiver(mBroadcastReceiver, filter); mAccountManager.addOnAccountsUpdatedListener(this, mListenerHandler, false); ContentResolver.addStatusChangeListener(ContentResolver.SYNC_OBSERVER_TYPE_SETTINGS, this); mListenerHandler.sendEmptyMessage(MESSAGE_LOAD_DATA); } @Override public void onStatusChanged(int which) { mListenerHandler.sendEmptyMessage(MESSAGE_LOAD_DATA); } public void processBroadcastIntent(Intent intent) { mListenerHandler.sendEmptyMessage(MESSAGE_LOAD_DATA); } /* This notification will arrive on the background thread */ public void onAccountsUpdated(Account[] accounts) { // Refresh to catch any changed accounts loadAccountsInBackground(); } /** * Returns instantly if accounts and account types have already been loaded. * Otherwise waits for the background thread to complete the loading. */ void ensureAccountsLoaded() { CountDownLatch latch = mInitializationLatch; if (latch == null) { return; } while (true) { try { latch.await(); return; } catch (InterruptedException e) { Thread.currentThread().interrupt(); } } } /** * Loads account list and corresponding account types (potentially with data sets). Always * called on a background thread. */ protected void loadAccountsInBackground() { if (Log.isLoggable(Constants.PERFORMANCE_TAG, Log.DEBUG)) { Log.d(Constants.PERFORMANCE_TAG, "AccountTypeManager.loadAccountsInBackground start"); } TimingLogger timings = new TimingLogger(TAG, "loadAccountsInBackground"); final long startTime = SystemClock.currentThreadTimeMillis(); final long startTimeWall = SystemClock.elapsedRealtime(); // Account types, keyed off the account type and data set concatenation. final Map accountTypesByTypeAndDataSet = Maps.newHashMap(); // The same AccountTypes, but keyed off {@link RawContacts#ACCOUNT_TYPE}. Since there can // be multiple account types (with different data sets) for the same type of account, each // type string may have multiple AccountType entries. final Map> accountTypesByType = Maps.newHashMap(); final List allAccounts = Lists.newArrayList(); final List contactWritableAccounts = Lists.newArrayList(); final List groupWritableAccounts = Lists.newArrayList(); final Set extensionPackages = Sets.newHashSet(); final AccountManager am = mAccountManager; final SyncAdapterType[] syncs = ContentResolver.getSyncAdapterTypes(); final AuthenticatorDescription[] auths = am.getAuthenticatorTypes(); // First process sync adapters to find any that provide contact data. for (SyncAdapterType sync : syncs) { if (!ContactsContract.AUTHORITY.equals(sync.authority)) { // Skip sync adapters that don't provide contact data. continue; } // Look for the formatting details provided by each sync // adapter, using the authenticator to find general resources. final String type = sync.accountType; final AuthenticatorDescription auth = findAuthenticator(auths, type); if (auth == null) { Log.w(TAG, "No authenticator found for type=" + type + ", ignoring it."); continue; } AccountType accountType; if (GoogleAccountType.ACCOUNT_TYPE.equals(type)) { accountType = new GoogleAccountType(mContext, auth.packageName); } else if (ExchangeAccountType.isExchangeType(type)) { accountType = new ExchangeAccountType(mContext, auth.packageName, type); } else if (SamsungAccountType.isSamsungAccountType(mContext, type, auth.packageName)) { accountType = new SamsungAccountType(mContext, auth.packageName, type); } else { Log.d(TAG, "Registering external account type=" + type + ", packageName=" + auth.packageName); accountType = new ExternalAccountType(mContext, auth.packageName, false); } if (!accountType.isInitialized()) { if (accountType.isEmbedded()) { throw new IllegalStateException("Problem initializing embedded type " + accountType.getClass().getCanonicalName()); } else { // Skip external account types that couldn't be initialized. continue; } } accountType.accountType = auth.type; accountType.titleRes = auth.labelId; accountType.iconRes = auth.iconId; addAccountType(accountType, accountTypesByTypeAndDataSet, accountTypesByType); // Check to see if the account type knows of any other non-sync-adapter packages // that may provide other data sets of contact data. extensionPackages.addAll(accountType.getExtensionPackageNames()); } // If any extension packages were specified, process them as well. if (!extensionPackages.isEmpty()) { Log.d(TAG, "Registering " + extensionPackages.size() + " extension packages"); for (String extensionPackage : extensionPackages) { ExternalAccountType accountType = new ExternalAccountType(mContext, extensionPackage, true); if (!accountType.isInitialized()) { // Skip external account types that couldn't be initialized. continue; } if (!accountType.hasContactsMetadata()) { Log.w(TAG, "Skipping extension package " + extensionPackage + " because" + " it doesn't have the CONTACTS_STRUCTURE metadata"); continue; } if (TextUtils.isEmpty(accountType.accountType)) { Log.w(TAG, "Skipping extension package " + extensionPackage + " because" + " the CONTACTS_STRUCTURE metadata doesn't have the accountType" + " attribute"); continue; } Log.d(TAG, "Registering extension package account type=" + accountType.accountType + ", dataSet=" + accountType.dataSet + ", packageName=" + extensionPackage); addAccountType(accountType, accountTypesByTypeAndDataSet, accountTypesByType); } } timings.addSplit("Loaded account types"); // Map in accounts to associate the account names with each account type entry. Account[] accounts = mAccountManager.getAccounts(); for (Account account : accounts) { boolean syncable = ContentResolver.getIsSyncable(account, ContactsContract.AUTHORITY) > 0; if (syncable) { List accountTypes = accountTypesByType.get(account.type); if (accountTypes != null) { // Add an account-with-data-set entry for each account type that is // authenticated by this account. for (AccountType accountType : accountTypes) { AccountWithDataSet accountWithDataSet = new AccountWithDataSet( account.name, account.type, accountType.dataSet); allAccounts.add(accountWithDataSet); if (accountType.areContactsWritable()) { contactWritableAccounts.add(accountWithDataSet); } if (accountType.isGroupMembershipEditable()) { groupWritableAccounts.add(accountWithDataSet); } } } } } Collections.sort(allAccounts, ACCOUNT_COMPARATOR); Collections.sort(contactWritableAccounts, ACCOUNT_COMPARATOR); Collections.sort(groupWritableAccounts, ACCOUNT_COMPARATOR); timings.addSplit("Loaded accounts"); synchronized (this) { mAccountTypesWithDataSets = accountTypesByTypeAndDataSet; mAccounts = allAccounts; mContactWritableAccounts = contactWritableAccounts; mGroupWritableAccounts = groupWritableAccounts; mInvitableAccountTypes = findAllInvitableAccountTypes( mContext, allAccounts, accountTypesByTypeAndDataSet); } timings.dumpToLog(); final long endTimeWall = SystemClock.elapsedRealtime(); final long endTime = SystemClock.currentThreadTimeMillis(); Log.i(TAG, "Loaded meta-data for " + mAccountTypesWithDataSets.size() + " account types, " + mAccounts.size() + " accounts in " + (endTimeWall - startTimeWall) + "ms(wall) " + (endTime - startTime) + "ms(cpu)"); if (mInitializationLatch != null) { mInitializationLatch.countDown(); mInitializationLatch = null; } if (Log.isLoggable(Constants.PERFORMANCE_TAG, Log.DEBUG)) { Log.d(Constants.PERFORMANCE_TAG, "AccountTypeManager.loadAccountsInBackground finish"); } // Check filter validity since filter may become obsolete after account update. It must be // done from UI thread. mMainThreadHandler.post(mCheckFilterValidityRunnable); } // Bookkeeping method for tracking the known account types in the given maps. private void addAccountType(AccountType accountType, Map accountTypesByTypeAndDataSet, Map> accountTypesByType) { accountTypesByTypeAndDataSet.put(accountType.getAccountTypeAndDataSet(), accountType); List accountsForType = accountTypesByType.get(accountType.accountType); if (accountsForType == null) { accountsForType = Lists.newArrayList(); } accountsForType.add(accountType); accountTypesByType.put(accountType.accountType, accountsForType); } /** * Find a specific {@link AuthenticatorDescription} in the provided list * that matches the given account type. */ protected static AuthenticatorDescription findAuthenticator(AuthenticatorDescription[] auths, String accountType) { for (AuthenticatorDescription auth : auths) { if (accountType.equals(auth.type)) { return auth; } } return null; } /** * Return list of all known, contact writable {@link AccountWithDataSet}'s. */ @Override public List getAccounts(boolean contactWritableOnly) { ensureAccountsLoaded(); return contactWritableOnly ? mContactWritableAccounts : mAccounts; } /** * Return the list of all known, group writable {@link AccountWithDataSet}'s. */ public List getGroupWritableAccounts() { ensureAccountsLoaded(); return mGroupWritableAccounts; } /** * Find the best {@link DataKind} matching the requested * {@link AccountType#accountType}, {@link AccountType#dataSet}, and {@link DataKind#mimeType}. * If no direct match found, we try searching {@link FallbackAccountType}. */ @Override public DataKind getKindOrFallback(AccountType type, String mimeType) { ensureAccountsLoaded(); DataKind kind = null; // Try finding account type and kind matching request if (type != null) { kind = type.getKindForMimetype(mimeType); } if (kind == null) { // Nothing found, so try fallback as last resort kind = mFallbackAccountType.getKindForMimetype(mimeType); } if (kind == null) { if (Log.isLoggable(TAG, Log.DEBUG)) { Log.d(TAG, "Unknown type=" + type + ", mime=" + mimeType); } } return kind; } /** * Return {@link AccountType} for the given account type and data set. */ @Override public AccountType getAccountType(AccountTypeWithDataSet accountTypeWithDataSet) { ensureAccountsLoaded(); synchronized (this) { AccountType type = mAccountTypesWithDataSets.get(accountTypeWithDataSet); return type != null ? type : mFallbackAccountType; } } /** * @return Unmodifiable map from {@link AccountTypeWithDataSet}s to {@link AccountType}s * which support the "invite" feature and have one or more account. This is an unfiltered * list. See {@link #getUsableInvitableAccountTypes()}. */ private Map getAllInvitableAccountTypes() { ensureAccountsLoaded(); return mInvitableAccountTypes; } @Override public Map getUsableInvitableAccountTypes() { ensureAccountsLoaded(); // Since this method is not thread-safe, it's possible for multiple threads to encounter // the situation where (1) the cache has not been initialized yet or // (2) an async task to refresh the account type list in the cache has already been // started. Hence we use {@link AtomicBoolean}s and return cached values immediately // while we compute the actual result in the background. We use this approach instead of // using "synchronized" because computing the account type list involves a DB read, and // can potentially cause a deadlock situation if this method is called from code which // holds the DB lock. The trade-off of potentially having an incorrect list of invitable // account types for a short period of time seems more manageable than enforcing the // context in which this method is called. // Computing the list of usable invitable account types is done on the fly as requested. // If this method has never been called before, then block until the list has been computed. if (!mInvitablesCacheIsInitialized.get()) { mInvitableAccountTypeCache.setCachedValue(findUsableInvitableAccountTypes(mContext)); mInvitablesCacheIsInitialized.set(true); } else { // Otherwise, there is a value in the cache. If the value has expired and // an async task has not already been started by another thread, then kick off a new // async task to compute the list. if (mInvitableAccountTypeCache.isExpired() && mInvitablesTaskIsRunning.compareAndSet(false, true)) { new FindInvitablesTask().execute(); } } return mInvitableAccountTypeCache.getCachedValue(); } /** * Return all {@link AccountType}s with at least one account which supports "invite", i.e. * its {@link AccountType#getInviteContactActivityClassName()} is not empty. */ @VisibleForTesting static Map findAllInvitableAccountTypes(Context context, Collection accounts, Map accountTypesByTypeAndDataSet) { HashMap result = Maps.newHashMap(); for (AccountWithDataSet account : accounts) { AccountTypeWithDataSet accountTypeWithDataSet = account.getAccountTypeWithDataSet(); AccountType type = accountTypesByTypeAndDataSet.get(accountTypeWithDataSet); if (type == null) continue; // just in case if (result.containsKey(accountTypeWithDataSet)) continue; if (Log.isLoggable(TAG, Log.DEBUG)) { Log.d(TAG, "Type " + accountTypeWithDataSet + " inviteClass=" + type.getInviteContactActivityClassName()); } if (!TextUtils.isEmpty(type.getInviteContactActivityClassName())) { result.put(accountTypeWithDataSet, type); } } return Collections.unmodifiableMap(result); } /** * Return all usable {@link AccountType}s that support the "invite" feature from the * list of all potential invitable account types (retrieved from * {@link #getAllInvitableAccountTypes}). A usable invitable account type means: * (1) there is at least 1 raw contact in the database with that account type, and * (2) the app contributing the account type is not disabled. * * Warning: Don't use on the UI thread because this can scan the database. */ private Map findUsableInvitableAccountTypes( Context context) { Map allInvitables = getAllInvitableAccountTypes(); if (allInvitables.isEmpty()) { return EMPTY_UNMODIFIABLE_ACCOUNT_TYPE_MAP; } final HashMap result = Maps.newHashMap(); result.putAll(allInvitables); final PackageManager packageManager = context.getPackageManager(); for (AccountTypeWithDataSet accountTypeWithDataSet : allInvitables.keySet()) { AccountType accountType = allInvitables.get(accountTypeWithDataSet); // Make sure that account types don't come from apps that are disabled. Intent invitableIntent = MoreContactUtils.getInvitableIntent(accountType, SAMPLE_CONTACT_URI); if (invitableIntent == null) { result.remove(accountTypeWithDataSet); continue; } ResolveInfo resolveInfo = packageManager.resolveActivity(invitableIntent, PackageManager.MATCH_DEFAULT_ONLY); if (resolveInfo == null) { // If we can't find an activity to start for this intent, then there's no point in // showing this option to the user. result.remove(accountTypeWithDataSet); continue; } // Make sure that there is at least 1 raw contact with this account type. This check // is non-trivial and should not be done on the UI thread. if (!accountTypeWithDataSet.hasData(context)) { result.remove(accountTypeWithDataSet); } } return Collections.unmodifiableMap(result); } @Override public List getAccountTypes(boolean contactWritableOnly) { ensureAccountsLoaded(); final List accountTypes = Lists.newArrayList(); synchronized (this) { for (AccountType type : mAccountTypesWithDataSets.values()) { if (!contactWritableOnly || type.areContactsWritable()) { accountTypes.add(type); } } } return accountTypes; } /** * Background task to find all usable {@link AccountType}s that support the "invite" feature * from the list of all potential invitable account types. Once the work is completed, * the list of account types is stored in the {@link AccountTypeManager}'s * {@link InvitableAccountTypeCache}. */ private class FindInvitablesTask extends AsyncTask> { @Override protected Map doInBackground(Void... params) { return findUsableInvitableAccountTypes(mContext); } @Override protected void onPostExecute(Map accountTypes) { mInvitableAccountTypeCache.setCachedValue(accountTypes); mInvitablesTaskIsRunning.set(false); } } /** * This cache holds a list of invitable {@link AccountTypeWithDataSet}s, in the form of a * {@link Map}. Note that the cached value is valid only * for {@link #TIME_TO_LIVE} milliseconds. */ private static final class InvitableAccountTypeCache { /** * The cached {@link #mInvitableAccountTypes} list expires after this number of milliseconds * has elapsed. */ private static final long TIME_TO_LIVE = 60000; private Map mInvitableAccountTypes; private long mTimeLastSet; /** * Returns true if the data in this cache is stale and needs to be refreshed. Returns false * otherwise. */ public boolean isExpired() { return SystemClock.elapsedRealtime() - mTimeLastSet > TIME_TO_LIVE; } /** * Returns the cached value. Note that the caller is responsible for checking * {@link #isExpired()} to ensure that the value is not stale. */ public Map getCachedValue() { return mInvitableAccountTypes; } public void setCachedValue(Map map) { mInvitableAccountTypes = map; mTimeLastSet = SystemClock.elapsedRealtime(); } } }