/* * Copyright (C) 2014 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.server.am; import static android.content.Intent.FLAG_ACTIVITY_MULTIPLE_TASK; import static android.content.Intent.FLAG_ACTIVITY_NEW_DOCUMENT; import static android.content.Intent.FLAG_ACTIVITY_NEW_TASK; import static com.android.server.am.ActivityManagerDebugConfig.DEBUG_RECENTS; import static com.android.server.am.ActivityManagerDebugConfig.DEBUG_TASKS; import static com.android.server.am.ActivityManagerDebugConfig.POSTFIX_RECENTS; import static com.android.server.am.ActivityManagerDebugConfig.POSTFIX_TASKS; import static com.android.server.am.ActivityManagerDebugConfig.TAG_AM; import static com.android.server.am.ActivityManagerDebugConfig.TAG_WITH_CLASS_NAME; import static com.android.server.am.TaskRecord.INVALID_TASK_ID; import com.google.android.collect.Sets; import android.app.ActivityManager; import android.app.AppGlobals; import android.content.ComponentName; import android.content.Intent; import android.content.pm.ActivityInfo; import android.content.pm.ApplicationInfo; import android.content.pm.IPackageManager; import android.content.pm.PackageManager; import android.graphics.Bitmap; import android.os.Environment; import android.os.RemoteException; import android.os.UserHandle; import android.util.ArraySet; import android.util.Slog; import android.util.SparseArray; import android.util.SparseBooleanArray; import java.io.File; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.Comparator; import java.util.HashMap; import java.util.Set; /** * Class for managing the recent tasks list. */ class RecentTasks extends ArrayList { private static final String TAG = TAG_WITH_CLASS_NAME ? "RecentTasks" : TAG_AM; private static final String TAG_RECENTS = TAG + POSTFIX_RECENTS; private static final String TAG_TASKS = TAG + POSTFIX_TASKS; // Maximum number recent bitmaps to keep in memory. private static final int MAX_RECENT_BITMAPS = 3; private static final int DEFAULT_INITIAL_CAPACITY = 5; // Whether or not to move all affiliated tasks to the front when one of the tasks is launched private static final boolean MOVE_AFFILIATED_TASKS_TO_FRONT = false; /** * Save recent tasks information across reboots. */ private final TaskPersister mTaskPersister; private final ActivityManagerService mService; private final SparseBooleanArray mUsersWithRecentsLoaded = new SparseBooleanArray( DEFAULT_INITIAL_CAPACITY); /** * Stores for each user task ids that are taken by tasks residing in persistent storage. These * tasks may or may not currently be in memory. */ final SparseArray mPersistedTaskIds = new SparseArray<>( DEFAULT_INITIAL_CAPACITY); // Mainly to avoid object recreation on multiple calls. private final ArrayList mTmpRecents = new ArrayList(); private final HashMap mTmpAvailActCache = new HashMap<>(); private final HashMap mTmpAvailAppCache = new HashMap<>(); private final ActivityInfo mTmpActivityInfo = new ActivityInfo(); private final ApplicationInfo mTmpAppInfo = new ApplicationInfo(); RecentTasks(ActivityManagerService service, ActivityStackSupervisor mStackSupervisor) { File systemDir = Environment.getDataSystemDirectory(); mService = service; mTaskPersister = new TaskPersister(systemDir, mStackSupervisor, service, this); mStackSupervisor.setRecentTasks(this); } /** * Loads the persistent recentTasks for {@code userId} into this list from persistent storage. * Does nothing if they are already loaded. * * @param userId the user Id */ void loadUserRecentsLocked(int userId) { if (mUsersWithRecentsLoaded.get(userId)) { return; } // Load the task ids if not loaded. loadPersistedTaskIdsForUserLocked(userId); // Check if any tasks are added before recents is loaded final SparseBooleanArray preaddedTasks = new SparseBooleanArray(); for (final TaskRecord task : this) { if (task.userId == userId && shouldPersistTaskLocked(task)) { preaddedTasks.put(task.taskId, true); } } Slog.i(TAG, "Loading recents for user " + userId + " into memory."); addAll(mTaskPersister.restoreTasksForUserLocked(userId, preaddedTasks)); cleanupLocked(userId); mUsersWithRecentsLoaded.put(userId, true); // If we have tasks added before loading recents, we need to update persistent task IDs. if (preaddedTasks.size() > 0) { syncPersistentTaskIdsLocked(); } } private void loadPersistedTaskIdsForUserLocked(int userId) { // An empty instead of a null set here means that no persistent taskIds were present // on file when we loaded them. if (mPersistedTaskIds.get(userId) == null) { mPersistedTaskIds.put(userId, mTaskPersister.loadPersistedTaskIdsForUser(userId)); Slog.i(TAG, "Loaded persisted task ids for user " + userId); } } boolean taskIdTakenForUserLocked(int taskId, int userId) { loadPersistedTaskIdsForUserLocked(userId); return mPersistedTaskIds.get(userId).get(taskId); } void notifyTaskPersisterLocked(TaskRecord task, boolean flush) { final ActivityStack stack = task != null ? task.getStack() : null; if (stack != null && stack.isHomeOrRecentsStack()) { // Never persist the home or recents stack. return; } syncPersistentTaskIdsLocked(); mTaskPersister.wakeup(task, flush); } private void syncPersistentTaskIdsLocked() { for (int i = mPersistedTaskIds.size() - 1; i >= 0; i--) { int userId = mPersistedTaskIds.keyAt(i); if (mUsersWithRecentsLoaded.get(userId)) { // Recents are loaded only after task ids are loaded. Therefore, the set of taskids // referenced here should not be null. mPersistedTaskIds.valueAt(i).clear(); } } for (int i = size() - 1; i >= 0; i--) { final TaskRecord task = get(i); if (shouldPersistTaskLocked(task)) { // Set of persisted taskIds for task.userId should not be null here // TODO Investigate why it can happen. For now initialize with an empty set if (mPersistedTaskIds.get(task.userId) == null) { Slog.wtf(TAG, "No task ids found for userId " + task.userId + ". task=" + task + " mPersistedTaskIds=" + mPersistedTaskIds); mPersistedTaskIds.put(task.userId, new SparseBooleanArray()); } mPersistedTaskIds.get(task.userId).put(task.taskId, true); } } } private static boolean shouldPersistTaskLocked(TaskRecord task) { final ActivityStack stack = task.getStack(); return task.isPersistable && (stack == null || !stack.isHomeOrRecentsStack()); } void onSystemReadyLocked() { clear(); mTaskPersister.startPersisting(); } Bitmap getTaskDescriptionIcon(String path) { return mTaskPersister.getTaskDescriptionIcon(path); } Bitmap getImageFromWriteQueue(String path) { return mTaskPersister.getImageFromWriteQueue(path); } void saveImage(Bitmap image, String path) { mTaskPersister.saveImage(image, path); } void flush() { synchronized (mService) { syncPersistentTaskIdsLocked(); } mTaskPersister.flush(); } /** * Returns all userIds for which recents from persistent storage are loaded into this list. * * @return an array of userIds. */ int[] usersWithRecentsLoadedLocked() { int[] usersWithRecentsLoaded = new int[mUsersWithRecentsLoaded.size()]; int len = 0; for (int i = 0; i < usersWithRecentsLoaded.length; i++) { int userId = mUsersWithRecentsLoaded.keyAt(i); if (mUsersWithRecentsLoaded.valueAt(i)) { usersWithRecentsLoaded[len++] = userId; } } if (len < usersWithRecentsLoaded.length) { // should never happen. return Arrays.copyOf(usersWithRecentsLoaded, len); } return usersWithRecentsLoaded; } private void unloadUserRecentsLocked(int userId) { if (mUsersWithRecentsLoaded.get(userId)) { Slog.i(TAG, "Unloading recents for user " + userId + " from memory."); mUsersWithRecentsLoaded.delete(userId); removeTasksForUserLocked(userId); } } /** * Removes recent tasks and any other state kept in memory for the passed in user. Does not * touch the information present on persistent storage. * * @param userId the id of the user */ void unloadUserDataFromMemoryLocked(int userId) { unloadUserRecentsLocked(userId); mPersistedTaskIds.delete(userId); mTaskPersister.unloadUserDataFromMemory(userId); } TaskRecord taskForIdLocked(int id) { final int recentsCount = size(); for (int i = 0; i < recentsCount; i++) { TaskRecord tr = get(i); if (tr.taskId == id) { return tr; } } return null; } /** Remove recent tasks for a user. */ void removeTasksForUserLocked(int userId) { if(userId <= 0) { Slog.i(TAG, "Can't remove recent task on user " + userId); return; } for (int i = size() - 1; i >= 0; --i) { TaskRecord tr = get(i); if (tr.userId == userId) { if(DEBUG_TASKS) Slog.i(TAG_TASKS, "remove RecentTask " + tr + " when finishing user" + userId); remove(i); tr.removedFromRecents(); } } } void onPackagesSuspendedChanged(String[] packages, boolean suspended, int userId) { final Set packageNames = Sets.newHashSet(packages); for (int i = size() - 1; i >= 0; --i) { final TaskRecord tr = get(i); if (tr.realActivity != null && packageNames.contains(tr.realActivity.getPackageName()) && tr.userId == userId && tr.realActivitySuspended != suspended) { tr.realActivitySuspended = suspended; notifyTaskPersisterLocked(tr, false); } } } /** * Update the recent tasks lists: make sure tasks should still be here (their * applications / activities still exist), update their availability, fix-up ordering * of affiliations. */ void cleanupLocked(int userId) { int recentsCount = size(); if (recentsCount == 0) { // Happens when called from the packagemanager broadcast before boot, // or just any empty list. return; } final IPackageManager pm = AppGlobals.getPackageManager(); for (int i = recentsCount - 1; i >= 0; i--) { final TaskRecord task = get(i); if (userId != UserHandle.USER_ALL && task.userId != userId) { // Only look at tasks for the user ID of interest. continue; } if (task.autoRemoveRecents && task.getTopActivity() == null) { // This situation is broken, and we should just get rid of it now. remove(i); task.removedFromRecents(); Slog.w(TAG, "Removing auto-remove without activity: " + task); continue; } // Check whether this activity is currently available. if (task.realActivity != null) { ActivityInfo ai = mTmpAvailActCache.get(task.realActivity); if (ai == null) { try { // At this first cut, we're only interested in // activities that are fully runnable based on // current system state. ai = pm.getActivityInfo(task.realActivity, PackageManager.MATCH_DEBUG_TRIAGED_MISSING, userId); } catch (RemoteException e) { // Will never happen. continue; } if (ai == null) { ai = mTmpActivityInfo; } mTmpAvailActCache.put(task.realActivity, ai); } if (ai == mTmpActivityInfo) { // This could be either because the activity no longer exists, or the // app is temporarily gone. For the former we want to remove the recents // entry; for the latter we want to mark it as unavailable. ApplicationInfo app = mTmpAvailAppCache .get(task.realActivity.getPackageName()); if (app == null) { try { app = pm.getApplicationInfo(task.realActivity.getPackageName(), PackageManager.MATCH_UNINSTALLED_PACKAGES, userId); } catch (RemoteException e) { // Will never happen. continue; } if (app == null) { app = mTmpAppInfo; } mTmpAvailAppCache.put(task.realActivity.getPackageName(), app); } if (app == mTmpAppInfo || (app.flags & ApplicationInfo.FLAG_INSTALLED) == 0) { // Doesn't exist any more! Good-bye. remove(i); task.removedFromRecents(); Slog.w(TAG, "Removing no longer valid recent: " + task); continue; } else { // Otherwise just not available for now. if (DEBUG_RECENTS && task.isAvailable) Slog.d(TAG_RECENTS, "Making recent unavailable: " + task); task.isAvailable = false; } } else { if (!ai.enabled || !ai.applicationInfo.enabled || (ai.applicationInfo.flags & ApplicationInfo.FLAG_INSTALLED) == 0) { if (DEBUG_RECENTS && task.isAvailable) Slog.d(TAG_RECENTS, "Making recent unavailable: " + task + " (enabled=" + ai.enabled + "/" + ai.applicationInfo.enabled + " flags=" + Integer.toHexString(ai.applicationInfo.flags) + ")"); task.isAvailable = false; } else { if (DEBUG_RECENTS && !task.isAvailable) Slog.d(TAG_RECENTS, "Making recent available: " + task); task.isAvailable = true; } } } } // Verify the affiliate chain for each task. int i = 0; recentsCount = size(); while (i < recentsCount) { i = processNextAffiliateChainLocked(i); } // recent tasks are now in sorted, affiliated order. } private final boolean moveAffiliatedTasksToFront(TaskRecord task, int taskIndex) { int recentsCount = size(); TaskRecord top = task; int topIndex = taskIndex; while (top.mNextAffiliate != null && topIndex > 0) { top = top.mNextAffiliate; topIndex--; } if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: adding affilliates starting at " + topIndex + " from intial " + taskIndex); // Find the end of the chain, doing a sanity check along the way. boolean sane = top.mAffiliatedTaskId == task.mAffiliatedTaskId; int endIndex = topIndex; TaskRecord prev = top; while (endIndex < recentsCount) { TaskRecord cur = get(endIndex); if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: looking at next chain @" + endIndex + " " + cur); if (cur == top) { // Verify start of the chain. if (cur.mNextAffiliate != null || cur.mNextAffiliateTaskId != INVALID_TASK_ID) { Slog.wtf(TAG, "Bad chain @" + endIndex + ": first task has next affiliate: " + prev); sane = false; break; } } else { // Verify middle of the chain's next points back to the one before. if (cur.mNextAffiliate != prev || cur.mNextAffiliateTaskId != prev.taskId) { Slog.wtf(TAG, "Bad chain @" + endIndex + ": middle task " + cur + " @" + endIndex + " has bad next affiliate " + cur.mNextAffiliate + " id " + cur.mNextAffiliateTaskId + ", expected " + prev); sane = false; break; } } if (cur.mPrevAffiliateTaskId == INVALID_TASK_ID) { // Chain ends here. if (cur.mPrevAffiliate != null) { Slog.wtf(TAG, "Bad chain @" + endIndex + ": last task " + cur + " has previous affiliate " + cur.mPrevAffiliate); sane = false; } if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: end of chain @" + endIndex); break; } else { // Verify middle of the chain's prev points to a valid item. if (cur.mPrevAffiliate == null) { Slog.wtf(TAG, "Bad chain @" + endIndex + ": task " + cur + " has previous affiliate " + cur.mPrevAffiliate + " but should be id " + cur.mPrevAffiliate); sane = false; break; } } if (cur.mAffiliatedTaskId != task.mAffiliatedTaskId) { Slog.wtf(TAG, "Bad chain @" + endIndex + ": task " + cur + " has affiliated id " + cur.mAffiliatedTaskId + " but should be " + task.mAffiliatedTaskId); sane = false; break; } prev = cur; endIndex++; if (endIndex >= recentsCount) { Slog.wtf(TAG, "Bad chain ran off index " + endIndex + ": last task " + prev); sane = false; break; } } if (sane) { if (endIndex < taskIndex) { Slog.wtf(TAG, "Bad chain @" + endIndex + ": did not extend to task " + task + " @" + taskIndex); sane = false; } } if (sane) { // All looks good, we can just move all of the affiliated tasks // to the top. for (int i=topIndex; i<=endIndex; i++) { if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: moving affiliated " + task + " from " + i + " to " + (i-topIndex)); TaskRecord cur = remove(i); add(i - topIndex, cur); } if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: done moving tasks " + topIndex + " to " + endIndex); return true; } // Whoops, couldn't do it. return false; } final void addLocked(TaskRecord task) { final boolean isAffiliated = task.mAffiliatedTaskId != task.taskId || task.mNextAffiliateTaskId != INVALID_TASK_ID || task.mPrevAffiliateTaskId != INVALID_TASK_ID; int recentsCount = size(); // Quick case: never add voice sessions. // TODO: VI what about if it's just an activity? // Probably nothing to do here if (task.voiceSession != null) { if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: not adding voice interaction " + task); return; } // Another quick case: check if the top-most recent task is the same. if (!isAffiliated && recentsCount > 0 && get(0) == task) { if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: already at top: " + task); return; } // Another quick case: check if this is part of a set of affiliated // tasks that are at the top. if (isAffiliated && recentsCount > 0 && task.inRecents && task.mAffiliatedTaskId == get(0).mAffiliatedTaskId) { if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: affiliated " + get(0) + " at top when adding " + task); return; } boolean needAffiliationFix = false; // Slightly less quick case: the task is already in recents, so all we need // to do is move it. if (task.inRecents) { int taskIndex = indexOf(task); if (taskIndex >= 0) { if (!isAffiliated || MOVE_AFFILIATED_TASKS_TO_FRONT) { // Simple case: this is not an affiliated task, so we just move it to the front. remove(taskIndex); add(0, task); notifyTaskPersisterLocked(task, false); if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: moving to top " + task + " from " + taskIndex); return; } else { // More complicated: need to keep all affiliated tasks together. if (moveAffiliatedTasksToFront(task, taskIndex)) { // All went well. return; } // Uh oh... something bad in the affiliation chain, try to rebuild // everything and then go through our general path of adding a new task. needAffiliationFix = true; } } else { Slog.wtf(TAG, "Task with inRecent not in recents: " + task); needAffiliationFix = true; } } if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: trimming tasks for " + task); trimForTaskLocked(task, true); recentsCount = size(); final int maxRecents = ActivityManager.getMaxRecentTasksStatic(); while (recentsCount >= maxRecents) { final TaskRecord tr = remove(recentsCount - 1); tr.removedFromRecents(); recentsCount--; } task.inRecents = true; if (!isAffiliated || needAffiliationFix) { // If this is a simple non-affiliated task, or we had some failure trying to // handle it as part of an affilated task, then just place it at the top. add(0, task); if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: adding " + task); } else if (isAffiliated) { // If this is a new affiliated task, then move all of the affiliated tasks // to the front and insert this new one. TaskRecord other = task.mNextAffiliate; if (other == null) { other = task.mPrevAffiliate; } if (other != null) { int otherIndex = indexOf(other); if (otherIndex >= 0) { // Insert new task at appropriate location. int taskIndex; if (other == task.mNextAffiliate) { // We found the index of our next affiliation, which is who is // before us in the list, so add after that point. taskIndex = otherIndex+1; } else { // We found the index of our previous affiliation, which is who is // after us in the list, so add at their position. taskIndex = otherIndex; } if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: new affiliated task added at " + taskIndex + ": " + task); add(taskIndex, task); // Now move everything to the front. if (moveAffiliatedTasksToFront(task, taskIndex)) { // All went well. return; } // Uh oh... something bad in the affiliation chain, try to rebuild // everything and then go through our general path of adding a new task. needAffiliationFix = true; } else { if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: couldn't find other affiliation " + other); needAffiliationFix = true; } } else { if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: adding affiliated task without next/prev:" + task); needAffiliationFix = true; } } if (needAffiliationFix) { if (DEBUG_RECENTS) Slog.d(TAG_RECENTS, "addRecent: regrouping affiliations"); cleanupLocked(task.userId); } } /** * If needed, remove oldest existing entries in recents that are for the same kind * of task as the given one. */ int trimForTaskLocked(TaskRecord task, boolean doTrim) { int recentsCount = size(); final Intent intent = task.intent; final boolean document = intent != null && intent.isDocument(); int maxRecents = task.maxRecents - 1; final ActivityStack stack = task.getStack(); for (int i = 0; i < recentsCount; i++) { final TaskRecord tr = get(i); final ActivityStack trStack = tr.getStack(); if (task != tr) { if (stack != null && trStack != null && stack != trStack) { continue; } if (task.userId != tr.userId) { continue; } if (i > MAX_RECENT_BITMAPS) { tr.freeLastThumbnail(); } final Intent trIntent = tr.intent; final boolean sameAffinity = task.affinity != null && task.affinity.equals(tr.affinity); final boolean sameIntentFilter = intent != null && intent.filterEquals(trIntent); boolean multiTasksAllowed = false; final int flags = intent.getFlags(); if ((flags & (FLAG_ACTIVITY_NEW_TASK | FLAG_ACTIVITY_NEW_DOCUMENT)) != 0 && (flags & FLAG_ACTIVITY_MULTIPLE_TASK) != 0) { multiTasksAllowed = true; } final boolean trIsDocument = trIntent != null && trIntent.isDocument(); final boolean bothDocuments = document && trIsDocument; if (!sameAffinity && !sameIntentFilter && !bothDocuments) { continue; } if (bothDocuments) { // Do these documents belong to the same activity? final boolean sameActivity = task.realActivity != null && tr.realActivity != null && task.realActivity.equals(tr.realActivity); // If the document is open in another app or is not the same // document, we don't need to trim it. if (!sameActivity) { continue; // Otherwise only trim if we are over our max recents for this task } else if (maxRecents > 0) { --maxRecents; if (!doTrim || !sameIntentFilter || multiTasksAllowed) { // We don't want to trim if we are not over the max allowed entries and // the caller doesn't want us to trim, the tasks are not of the same // intent filter, or multiple entries fot the task is allowed. continue; } } // Hit the maximum number of documents for this task. Fall through // and remove this document from recents. } else if (document || trIsDocument) { // Only one of these is a document. Not the droid we're looking for. continue; } } if (!doTrim) { // If the caller is not actually asking for a trim, just tell them we reached // a point where the trim would happen. return i; } // Either task and tr are the same or, their affinities match or their intents match // and neither of them is a document, or they are documents using the same activity // and their maxRecents has been reached. tr.disposeThumbnail(); remove(i); if (task != tr) { tr.removedFromRecents(); } i--; recentsCount--; if (task.intent == null) { // If the new recent task we are adding is not fully // specified, then replace it with the existing recent task. task = tr; } notifyTaskPersisterLocked(tr, false); } return -1; } // Sort by taskId private static Comparator sTaskRecordComparator = new Comparator() { @Override public int compare(TaskRecord lhs, TaskRecord rhs) { return rhs.taskId - lhs.taskId; } }; // Extract the affiliates of the chain containing recent at index start. private int processNextAffiliateChainLocked(int start) { final TaskRecord startTask = get(start); final int affiliateId = startTask.mAffiliatedTaskId; // Quick identification of isolated tasks. I.e. those not launched behind. if (startTask.taskId == affiliateId && startTask.mPrevAffiliate == null && startTask.mNextAffiliate == null) { // There is still a slim chance that there are other tasks that point to this task // and that the chain is so messed up that this task no longer points to them but // the gain of this optimization outweighs the risk. startTask.inRecents = true; return start + 1; } // Remove all tasks that are affiliated to affiliateId and put them in mTmpRecents. mTmpRecents.clear(); for (int i = size() - 1; i >= start; --i) { final TaskRecord task = get(i); if (task.mAffiliatedTaskId == affiliateId) { remove(i); mTmpRecents.add(task); } } // Sort them all by taskId. That is the order they were create in and that order will // always be correct. Collections.sort(mTmpRecents, sTaskRecordComparator); // Go through and fix up the linked list. // The first one is the end of the chain and has no next. final TaskRecord first = mTmpRecents.get(0); first.inRecents = true; if (first.mNextAffiliate != null) { Slog.w(TAG, "Link error 1 first.next=" + first.mNextAffiliate); first.setNextAffiliate(null); notifyTaskPersisterLocked(first, false); } // Everything in the middle is doubly linked from next to prev. final int tmpSize = mTmpRecents.size(); for (int i = 0; i < tmpSize - 1; ++i) { final TaskRecord next = mTmpRecents.get(i); final TaskRecord prev = mTmpRecents.get(i + 1); if (next.mPrevAffiliate != prev) { Slog.w(TAG, "Link error 2 next=" + next + " prev=" + next.mPrevAffiliate + " setting prev=" + prev); next.setPrevAffiliate(prev); notifyTaskPersisterLocked(next, false); } if (prev.mNextAffiliate != next) { Slog.w(TAG, "Link error 3 prev=" + prev + " next=" + prev.mNextAffiliate + " setting next=" + next); prev.setNextAffiliate(next); notifyTaskPersisterLocked(prev, false); } prev.inRecents = true; } // The last one is the beginning of the list and has no prev. final TaskRecord last = mTmpRecents.get(tmpSize - 1); if (last.mPrevAffiliate != null) { Slog.w(TAG, "Link error 4 last.prev=" + last.mPrevAffiliate); last.setPrevAffiliate(null); notifyTaskPersisterLocked(last, false); } // Insert the group back into mRecentTasks at start. addAll(start, mTmpRecents); mTmpRecents.clear(); // Let the caller know where we left off. return start + tmpSize; } }