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android / platform / frameworks / base.git / 03abb8179f0d912e6dabfc0e2b0f129d85066d17 / . / services / java / com / android / server / am / ActivityManagerService.java
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/*
* Copyright (C) 2006-2008 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 com.android.server.am;
import com.android.internal.os.BatteryStatsImpl;
import com.android.server.AttributeCache;
import com.android.server.IntentResolver;
import com.android.server.ProcessMap;
import com.android.server.ProcessStats;
import com.android.server.SystemServer;
import com.android.server.Watchdog;
import com.android.server.WindowManagerService;
import dalvik.system.Zygote;
import android.app.Activity;
import android.app.ActivityManager;
import android.app.ActivityManagerNative;
import android.app.ActivityThread;
import android.app.AlertDialog;
import android.app.ApplicationErrorReport;
import android.app.Dialog;
import android.app.IActivityController;
import android.app.IActivityWatcher;
import android.app.IApplicationThread;
import android.app.IInstrumentationWatcher;
import android.app.IServiceConnection;
import android.app.IThumbnailReceiver;
import android.app.Instrumentation;
import android.app.Notification;
import android.app.PendingIntent;
import android.app.ResultInfo;
import android.app.Service;
import android.backup.IBackupManager;
import android.content.ActivityNotFoundException;
import android.content.ComponentName;
import android.content.ContentResolver;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.IIntentReceiver;
import android.content.IIntentSender;
import android.content.IntentSender;
import android.content.pm.ActivityInfo;
import android.content.pm.ApplicationInfo;
import android.content.pm.ConfigurationInfo;
import android.content.pm.IPackageDataObserver;
import android.content.pm.IPackageManager;
import android.content.pm.InstrumentationInfo;
import android.content.pm.PackageManager;
import android.content.pm.PathPermission;
import android.content.pm.ProviderInfo;
import android.content.pm.ResolveInfo;
import android.content.pm.ServiceInfo;
import android.content.res.Configuration;
import android.graphics.Bitmap;
import android.net.Uri;
import android.os.Binder;
import android.os.Bundle;
import android.os.Build;
import android.os.Debug;
import android.os.DropBoxManager;
import android.os.Environment;
import android.os.FileUtils;
import android.os.Handler;
import android.os.IBinder;
import android.os.IPermissionController;
import android.os.Looper;
import android.os.Message;
import android.os.Parcel;
import android.os.ParcelFileDescriptor;
import android.os.PowerManager;
import android.os.Process;
import android.os.RemoteCallbackList;
import android.os.RemoteException;
import android.os.ServiceManager;
import android.os.SystemClock;
import android.os.SystemProperties;
import android.provider.Checkin;
import android.provider.Settings;
import android.text.TextUtils;
import android.util.Config;
import android.util.EventLog;
import android.util.Log;
import android.util.PrintWriterPrinter;
import android.util.SparseArray;
import android.view.Gravity;
import android.view.LayoutInflater;
import android.view.View;
import android.view.WindowManager;
import android.view.WindowManagerPolicy;
import java.io.File;
import java.io.FileDescriptor;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.PrintWriter;
import java.lang.IllegalStateException;
import java.lang.ref.WeakReference;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Locale;
import java.util.Map;
public final class ActivityManagerService extends ActivityManagerNative implements Watchdog.Monitor {
static final String TAG = "ActivityManager";
static final boolean DEBUG = false;
static final boolean localLOGV = DEBUG ? Config.LOGD : Config.LOGV;
static final boolean DEBUG_SWITCH = localLOGV || false;
static final boolean DEBUG_TASKS = localLOGV || false;
static final boolean DEBUG_PAUSE = localLOGV || false;
static final boolean DEBUG_OOM_ADJ = localLOGV || false;
static final boolean DEBUG_TRANSITION = localLOGV || false;
static final boolean DEBUG_BROADCAST = localLOGV || false;
static final boolean DEBUG_BROADCAST_LIGHT = DEBUG_BROADCAST || false;
static final boolean DEBUG_SERVICE = localLOGV || false;
static final boolean DEBUG_VISBILITY = localLOGV || false;
static final boolean DEBUG_PROCESSES = localLOGV || false;
static final boolean DEBUG_PROVIDER = localLOGV || false;
static final boolean DEBUG_USER_LEAVING = localLOGV || false;
static final boolean DEBUG_RESULTS = localLOGV || false;
static final boolean DEBUG_BACKUP = localLOGV || false;
static final boolean DEBUG_CONFIGURATION = localLOGV || false;
static final boolean VALIDATE_TOKENS = false;
static final boolean SHOW_ACTIVITY_START_TIME = true;
// Control over CPU and battery monitoring.
static final long BATTERY_STATS_TIME = 30*60*1000; // write battery stats every 30 minutes.
static final boolean MONITOR_CPU_USAGE = true;
static final long MONITOR_CPU_MIN_TIME = 5*1000; // don't sample cpu less than every 5 seconds.
static final long MONITOR_CPU_MAX_TIME = 0x0fffffff; // wait possibly forever for next cpu sample.
static final boolean MONITOR_THREAD_CPU_USAGE = false;
// The flags that are set for all calls we make to the package manager.
static final int STOCK_PM_FLAGS = PackageManager.GET_SHARED_LIBRARY_FILES;
private static final String SYSTEM_SECURE = "ro.secure";
// This is the maximum number of application processes we would like
// to have running. Due to the asynchronous nature of things, we can
// temporarily go beyond this limit.
static final int MAX_PROCESSES = 2;
// Set to false to leave processes running indefinitely, relying on
// the kernel killing them as resources are required.
static final boolean ENFORCE_PROCESS_LIMIT = false;
// This is the maximum number of activities that we would like to have
// running at a given time.
static final int MAX_ACTIVITIES = 20;
// Maximum number of recent tasks that we can remember.
static final int MAX_RECENT_TASKS = 20;
// Amount of time after a call to stopAppSwitches() during which we will
// prevent further untrusted switches from happening.
static final long APP_SWITCH_DELAY_TIME = 5*1000;
// How long until we reset a task when the user returns to it. Currently
// 30 minutes.
static final long ACTIVITY_INACTIVE_RESET_TIME = 1000*60*30;
// Set to true to disable the icon that is shown while a new activity
// is being started.
static final boolean SHOW_APP_STARTING_ICON = true;
// How long we wait until giving up on the last activity to pause. This
// is short because it directly impacts the responsiveness of starting the
// next activity.
static final int PAUSE_TIMEOUT = 500;
/**
* How long we can hold the launch wake lock before giving up.
*/
static final int LAUNCH_TIMEOUT = 10*1000;
// How long we wait for a launched process to attach to the activity manager
// before we decide it's never going to come up for real.
static final int PROC_START_TIMEOUT = 10*1000;
// How long we wait until giving up on the last activity telling us it
// is idle.
static final int IDLE_TIMEOUT = 10*1000;
// How long to wait after going idle before forcing apps to GC.
static final int GC_TIMEOUT = 5*1000;
// The minimum amount of time between successive GC requests for a process.
static final int GC_MIN_INTERVAL = 60*1000;
// How long we wait until giving up on an activity telling us it has
// finished destroying itself.
static final int DESTROY_TIMEOUT = 10*1000;
// How long we allow a receiver to run before giving up on it.
static final int BROADCAST_TIMEOUT = 10*1000;
// How long we wait for a service to finish executing.
static final int SERVICE_TIMEOUT = 20*1000;
// How long a service needs to be running until restarting its process
// is no longer considered to be a relaunch of the service.
static final int SERVICE_RESTART_DURATION = 5*1000;
// How long a service needs to be running until it will start back at
// SERVICE_RESTART_DURATION after being killed.
static final int SERVICE_RESET_RUN_DURATION = 60*1000;
// Multiplying factor to increase restart duration time by, for each time
// a service is killed before it has run for SERVICE_RESET_RUN_DURATION.
static final int SERVICE_RESTART_DURATION_FACTOR = 4;
// The minimum amount of time between restarting services that we allow.
// That is, when multiple services are restarting, we won't allow each
// to restart less than this amount of time from the last one.
static final int SERVICE_MIN_RESTART_TIME_BETWEEN = 10*1000;
// Maximum amount of time for there to be no activity on a service before
// we consider it non-essential and allow its process to go on the
// LRU background list.
static final int MAX_SERVICE_INACTIVITY = 30*60*1000;
// How long we wait until we timeout on key dispatching.
static final int KEY_DISPATCHING_TIMEOUT = 5*1000;
// The minimum time we allow between crashes, for us to consider this
// application to be bad and stop and its services and reject broadcasts.
static final int MIN_CRASH_INTERVAL = 60*1000;
// How long we wait until we timeout on key dispatching during instrumentation.
static final int INSTRUMENTATION_KEY_DISPATCHING_TIMEOUT = 60*1000;
// OOM adjustments for processes in various states:
// This is a process without anything currently running in it. Definitely
// the first to go! Value set in system/rootdir/init.rc on startup.
// This value is initalized in the constructor, careful when refering to
// this static variable externally.
static final int EMPTY_APP_ADJ;
// This is a process only hosting activities that are not visible,
// so it can be killed without any disruption. Value set in
// system/rootdir/init.rc on startup.
static final int HIDDEN_APP_MAX_ADJ;
static int HIDDEN_APP_MIN_ADJ;
// This is a process holding the home application -- we want to try
// avoiding killing it, even if it would normally be in the background,
// because the user interacts with it so much.
static final int HOME_APP_ADJ;
// This is a process currently hosting a backup operation. Killing it
// is not entirely fatal but is generally a bad idea.
static final int BACKUP_APP_ADJ;
// This is a process holding a secondary server -- killing it will not
// have much of an impact as far as the user is concerned. Value set in
// system/rootdir/init.rc on startup.
static final int SECONDARY_SERVER_ADJ;
// This is a process only hosting activities that are visible to the
// user, so we'd prefer they don't disappear. Value set in
// system/rootdir/init.rc on startup.
static final int VISIBLE_APP_ADJ;
// This is the process running the current foreground app. We'd really
// rather not kill it! Value set in system/rootdir/init.rc on startup.
static final int FOREGROUND_APP_ADJ;
// This is a process running a core server, such as telephony. Definitely
// don't want to kill it, but doing so is not completely fatal.
static final int CORE_SERVER_ADJ = -12;
// The system process runs at the default adjustment.
static final int SYSTEM_ADJ = -16;
// Memory pages are 4K.
static final int PAGE_SIZE = 4*1024;
// System property defining error report receiver for system apps
static final String SYSTEM_APPS_ERROR_RECEIVER_PROPERTY = "ro.error.receiver.system.apps";
// System property defining default error report receiver
static final String DEFAULT_ERROR_RECEIVER_PROPERTY = "ro.error.receiver.default";
// Corresponding memory levels for above adjustments.
static final int EMPTY_APP_MEM;
static final int HIDDEN_APP_MEM;
static final int HOME_APP_MEM;
static final int BACKUP_APP_MEM;
static final int SECONDARY_SERVER_MEM;
static final int VISIBLE_APP_MEM;
static final int FOREGROUND_APP_MEM;
// The minimum number of hidden apps we want to be able to keep around,
// without empty apps being able to push them out of memory.
static final int MIN_HIDDEN_APPS = 2;
// We put empty content processes after any hidden processes that have
// been idle for less than 30 seconds.
static final long CONTENT_APP_IDLE_OFFSET = 30*1000;
// We put empty content processes after any hidden processes that have
// been idle for less than 60 seconds.
static final long EMPTY_APP_IDLE_OFFSET = 60*1000;
static {
// These values are set in system/rootdir/init.rc on startup.
FOREGROUND_APP_ADJ =
Integer.valueOf(SystemProperties.get("ro.FOREGROUND_APP_ADJ"));
VISIBLE_APP_ADJ =
Integer.valueOf(SystemProperties.get("ro.VISIBLE_APP_ADJ"));
SECONDARY_SERVER_ADJ =
Integer.valueOf(SystemProperties.get("ro.SECONDARY_SERVER_ADJ"));
BACKUP_APP_ADJ =
Integer.valueOf(SystemProperties.get("ro.BACKUP_APP_ADJ"));
HOME_APP_ADJ =
Integer.valueOf(SystemProperties.get("ro.HOME_APP_ADJ"));
HIDDEN_APP_MIN_ADJ =
Integer.valueOf(SystemProperties.get("ro.HIDDEN_APP_MIN_ADJ"));
EMPTY_APP_ADJ =
Integer.valueOf(SystemProperties.get("ro.EMPTY_APP_ADJ"));
HIDDEN_APP_MAX_ADJ = EMPTY_APP_ADJ-1;
FOREGROUND_APP_MEM =
Integer.valueOf(SystemProperties.get("ro.FOREGROUND_APP_MEM"))*PAGE_SIZE;
VISIBLE_APP_MEM =
Integer.valueOf(SystemProperties.get("ro.VISIBLE_APP_MEM"))*PAGE_SIZE;
SECONDARY_SERVER_MEM =
Integer.valueOf(SystemProperties.get("ro.SECONDARY_SERVER_MEM"))*PAGE_SIZE;
BACKUP_APP_MEM =
Integer.valueOf(SystemProperties.get("ro.BACKUP_APP_MEM"))*PAGE_SIZE;
HOME_APP_MEM =
Integer.valueOf(SystemProperties.get("ro.HOME_APP_MEM"))*PAGE_SIZE;
HIDDEN_APP_MEM =
Integer.valueOf(SystemProperties.get("ro.HIDDEN_APP_MEM"))*PAGE_SIZE;
EMPTY_APP_MEM =
Integer.valueOf(SystemProperties.get("ro.EMPTY_APP_MEM"))*PAGE_SIZE;
}
final int MY_PID;
static final String[] EMPTY_STRING_ARRAY = new String[0];
enum ActivityState {
INITIALIZING,
RESUMED,
PAUSING,
PAUSED,
STOPPING,
STOPPED,
FINISHING,
DESTROYING,
DESTROYED
}
/**
* The back history of all previous (and possibly still
* running) activities. It contains HistoryRecord objects.
*/
final ArrayList mHistory = new ArrayList();
/**
* Description of a request to start a new activity, which has been held
* due to app switches being disabled.
*/
class PendingActivityLaunch {
HistoryRecord r;
HistoryRecord sourceRecord;
Uri[] grantedUriPermissions;
int grantedMode;
boolean onlyIfNeeded;
}
final ArrayList<PendingActivityLaunch> mPendingActivityLaunches
= new ArrayList<PendingActivityLaunch>();
/**
* List of all active broadcasts that are to be executed immediately
* (without waiting for another broadcast to finish). Currently this only
* contains broadcasts to registered receivers, to avoid spinning up
* a bunch of processes to execute IntentReceiver components.
*/
final ArrayList<BroadcastRecord> mParallelBroadcasts
= new ArrayList<BroadcastRecord>();
/**
* List of all active broadcasts that are to be executed one at a time.
* The object at the top of the list is the currently activity broadcasts;
* those after it are waiting for the top to finish..
*/
final ArrayList<BroadcastRecord> mOrderedBroadcasts
= new ArrayList<BroadcastRecord>();
/**
* Historical data of past broadcasts, for debugging.
*/
static final int MAX_BROADCAST_HISTORY = 100;
final BroadcastRecord[] mBroadcastHistory
= new BroadcastRecord[MAX_BROADCAST_HISTORY];
/**
* Set when we current have a BROADCAST_INTENT_MSG in flight.
*/
boolean mBroadcastsScheduled = false;
/**
* Set to indicate whether to issue an onUserLeaving callback when a
* newly launched activity is being brought in front of us.
*/
boolean mUserLeaving = false;
/**
* When we are in the process of pausing an activity, before starting the
* next one, this variable holds the activity that is currently being paused.
*/
HistoryRecord mPausingActivity = null;
/**
* Current activity that is resumed, or null if there is none.
*/
HistoryRecord mResumedActivity = null;
/**
* Activity we have told the window manager to have key focus.
*/
HistoryRecord mFocusedActivity = null;
/**
* This is the last activity that we put into the paused state. This is
* used to determine if we need to do an activity transition while sleeping,
* when we normally hold the top activity paused.
*/
HistoryRecord mLastPausedActivity = null;
/**
* List of activities that are waiting for a new activity
* to become visible before completing whatever operation they are
* supposed to do.
*/
final ArrayList mWaitingVisibleActivities = new ArrayList();
/**
* List of activities that are ready to be stopped, but waiting
* for the next activity to settle down before doing so. It contains
* HistoryRecord objects.
*/
final ArrayList<HistoryRecord> mStoppingActivities
= new ArrayList<HistoryRecord>();
/**
* Animations that for the current transition have requested not to
* be considered for the transition animation.
*/
final ArrayList<HistoryRecord> mNoAnimActivities
= new ArrayList<HistoryRecord>();
/**
* List of intents that were used to start the most recent tasks.
*/
final ArrayList<TaskRecord> mRecentTasks
= new ArrayList<TaskRecord>();
/**
* List of activities that are ready to be finished, but waiting
* for the previous activity to settle down before doing so. It contains
* HistoryRecord objects.
*/
final ArrayList mFinishingActivities = new ArrayList();
/**
* All of the applications we currently have running organized by name.
* The keys are strings of the application package name (as
* returned by the package manager), and the keys are ApplicationRecord
* objects.
*/
final ProcessMap<ProcessRecord> mProcessNames
= new ProcessMap<ProcessRecord>();
/**
* The last time that various processes have crashed.
*/
final ProcessMap<Long> mProcessCrashTimes = new ProcessMap<Long>();
/**
* Set of applications that we consider to be bad, and will reject
* incoming broadcasts from (which the user has no control over).
* Processes are added to this set when they have crashed twice within
* a minimum amount of time; they are removed from it when they are
* later restarted (hopefully due to some user action). The value is the
* time it was added to the list.
*/
final ProcessMap<Long> mBadProcesses = new ProcessMap<Long>();
/**
* All of the processes we currently have running organized by pid.
* The keys are the pid running the application.
*
* <p>NOTE: This object is protected by its own lock, NOT the global
* activity manager lock!
*/
final SparseArray<ProcessRecord> mPidsSelfLocked
= new SparseArray<ProcessRecord>();
/**
* All of the processes that have been forced to be foreground. The key
* is the pid of the caller who requested it (we hold a death
* link on it).
*/
abstract class ForegroundToken implements IBinder.DeathRecipient {
int pid;
IBinder token;
}
final SparseArray<ForegroundToken> mForegroundProcesses
= new SparseArray<ForegroundToken>();
/**
* List of records for processes that someone had tried to start before the
* system was ready. We don't start them at that point, but ensure they
* are started by the time booting is complete.
*/
final ArrayList<ProcessRecord> mProcessesOnHold
= new ArrayList<ProcessRecord>();
/**
* List of records for processes that we have started and are waiting
* for them to call back. This is really only needed when running in
* single processes mode, in which case we do not have a unique pid for
* each process.
*/
final ArrayList<ProcessRecord> mStartingProcesses
= new ArrayList<ProcessRecord>();
/**
* List of persistent applications that are in the process
* of being started.
*/
final ArrayList<ProcessRecord> mPersistentStartingProcesses
= new ArrayList<ProcessRecord>();
/**
* Processes that are being forcibly torn down.
*/
final ArrayList<ProcessRecord> mRemovedProcesses
= new ArrayList<ProcessRecord>();
/**
* List of running applications, sorted by recent usage.
* The first entry in the list is the least recently used.
* It contains ApplicationRecord objects. This list does NOT include
* any persistent application records (since we never want to exit them).
*/
final ArrayList<ProcessRecord> mLruProcesses
= new ArrayList<ProcessRecord>();
/**
* List of processes that should gc as soon as things are idle.
*/
final ArrayList<ProcessRecord> mProcessesToGc
= new ArrayList<ProcessRecord>();
/**
* This is the process holding what we currently consider to be
* the "home" activity.
*/
private ProcessRecord mHomeProcess;
/**
* List of running activities, sorted by recent usage.
* The first entry in the list is the least recently used.
* It contains HistoryRecord objects.
*/
private final ArrayList mLRUActivities = new ArrayList();
/**
* Set of PendingResultRecord objects that are currently active.
*/
final HashSet mPendingResultRecords = new HashSet();
/**
* Set of IntentSenderRecord objects that are currently active.
*/
final HashMap<PendingIntentRecord.Key, WeakReference<PendingIntentRecord>> mIntentSenderRecords
= new HashMap<PendingIntentRecord.Key, WeakReference<PendingIntentRecord>>();
/**
* Intent broadcast that we have tried to start, but are
* waiting for its application's process to be created. We only
* need one (instead of a list) because we always process broadcasts
* one at a time, so no others can be started while waiting for this
* one.
*/
BroadcastRecord mPendingBroadcast = null;
/**
* Keeps track of all IIntentReceivers that have been registered for
* broadcasts. Hash keys are the receiver IBinder, hash value is
* a ReceiverList.
*/
final HashMap mRegisteredReceivers = new HashMap();
/**
* Resolver for broadcast intents to registered receivers.
* Holds BroadcastFilter (subclass of IntentFilter).
*/
final IntentResolver<BroadcastFilter, BroadcastFilter> mReceiverResolver
= new IntentResolver<BroadcastFilter, BroadcastFilter>() {
@Override
protected boolean allowFilterResult(
BroadcastFilter filter, List<BroadcastFilter> dest) {
IBinder target = filter.receiverList.receiver.asBinder();
for (int i=dest.size()-1; i>=0; i--) {
if (dest.get(i).receiverList.receiver.asBinder() == target) {
return false;
}
}
return true;
}
};
/**
* State of all active sticky broadcasts. Keys are the action of the
* sticky Intent, values are an ArrayList of all broadcasted intents with
* that action (which should usually be one).
*/
final HashMap<String, ArrayList<Intent>> mStickyBroadcasts =
new HashMap<String, ArrayList<Intent>>();
/**
* All currently running services.
*/
final HashMap<ComponentName, ServiceRecord> mServices =
new HashMap<ComponentName, ServiceRecord>();
/**
* All currently running services indexed by the Intent used to start them.
*/
final HashMap<Intent.FilterComparison, ServiceRecord> mServicesByIntent =
new HashMap<Intent.FilterComparison, ServiceRecord>();
/**
* All currently bound service connections. Keys are the IBinder of
* the client's IServiceConnection.
*/
final HashMap<IBinder, ConnectionRecord> mServiceConnections
= new HashMap<IBinder, ConnectionRecord>();
/**
* List of services that we have been asked to start,
* but haven't yet been able to. It is used to hold start requests
* while waiting for their corresponding application thread to get
* going.
*/
final ArrayList<ServiceRecord> mPendingServices
= new ArrayList<ServiceRecord>();
/**
* List of services that are scheduled to restart following a crash.
*/
final ArrayList<ServiceRecord> mRestartingServices
= new ArrayList<ServiceRecord>();
/**
* List of services that are in the process of being stopped.
*/
final ArrayList<ServiceRecord> mStoppingServices
= new ArrayList<ServiceRecord>();
/**
* Backup/restore process management
*/
String mBackupAppName = null;
BackupRecord mBackupTarget = null;
/**
* List of PendingThumbnailsRecord objects of clients who are still
* waiting to receive all of the thumbnails for a task.
*/
final ArrayList mPendingThumbnails = new ArrayList();
/**
* List of HistoryRecord objects that have been finished and must
* still report back to a pending thumbnail receiver.
*/
final ArrayList mCancelledThumbnails = new ArrayList();
/**
* All of the currently running global content providers. Keys are a
* string containing the provider name and values are a
* ContentProviderRecord object containing the data about it. Note
* that a single provider may be published under multiple names, so
* there may be multiple entries here for a single one in mProvidersByClass.
*/
final HashMap mProvidersByName = new HashMap();
/**
* All of the currently running global content providers. Keys are a
* string containing the provider's implementation class and values are a
* ContentProviderRecord object containing the data about it.
*/
final HashMap mProvidersByClass = new HashMap();
/**
* List of content providers who have clients waiting for them. The
* application is currently being launched and the provider will be
* removed from this list once it is published.
*/
final ArrayList mLaunchingProviders = new ArrayList();
/**
* Global set of specific Uri permissions that have been granted.
*/
final private SparseArray<HashMap<Uri, UriPermission>> mGrantedUriPermissions
= new SparseArray<HashMap<Uri, UriPermission>>();
/**
* Thread-local storage used to carry caller permissions over through
* indirect content-provider access.
* @see #ActivityManagerService.openContentUri()
*/
private class Identity {
public int pid;
public int uid;
Identity(int _pid, int _uid) {
pid = _pid;
uid = _uid;
}
}
private static ThreadLocal<Identity> sCallerIdentity = new ThreadLocal<Identity>();
/**
* All information we have collected about the runtime performance of
* any user id that can impact battery performance.
*/
final BatteryStatsService mBatteryStatsService;
/**
* information about component usage
*/
final UsageStatsService mUsageStatsService;
/**
* Current configuration information. HistoryRecord objects are given
* a reference to this object to indicate which configuration they are
* currently running in, so this object must be kept immutable.
*/
Configuration mConfiguration = new Configuration();
/**
* Hardware-reported OpenGLES version.
*/
final int GL_ES_VERSION;
/**
* List of initialization arguments to pass to all processes when binding applications to them.
* For example, references to the commonly used services.
*/
HashMap<String, IBinder> mAppBindArgs;
/**
* Temporary to avoid allocations. Protected by main lock.
*/
final StringBuilder mStringBuilder = new StringBuilder(256);
/**
* Used to control how we initialize the service.
*/
boolean mStartRunning = false;
ComponentName mTopComponent;
String mTopAction;
String mTopData;
boolean mSystemReady = false;
boolean mBooting = false;
boolean mWaitingUpdate = false;
boolean mDidUpdate = false;
Context mContext;
int mFactoryTest;
boolean mCheckedForSetup;
/**
* The time at which we will allow normal application switches again,
* after a call to {@link #stopAppSwitches()}.
*/
long mAppSwitchesAllowedTime;
/**
* This is set to true after the first switch after mAppSwitchesAllowedTime
* is set; any switches after that will clear the time.
*/
boolean mDidAppSwitch;
/**
* Set while we are wanting to sleep, to prevent any
* activities from being started/resumed.
*/
boolean mSleeping = false;
/**
* Set if we are shutting down the system, similar to sleeping.
*/
boolean mShuttingDown = false;
/**
* Set when the system is going to sleep, until we have
* successfully paused the current activity and released our wake lock.
* At that point the system is allowed to actually sleep.
*/
PowerManager.WakeLock mGoingToSleep;
/**
* We don't want to allow the device to go to sleep while in the process
* of launching an activity. This is primarily to allow alarm intent
* receivers to launch an activity and get that to run before the device
* goes back to sleep.
*/
PowerManager.WakeLock mLaunchingActivity;
/**
* Task identifier that activities are currently being started
* in. Incremented each time a new task is created.
* todo: Replace this with a TokenSpace class that generates non-repeating
* integers that won't wrap.
*/
int mCurTask = 1;
/**
* Current sequence id for oom_adj computation traversal.
*/
int mAdjSeq = 0;
/**
* Set to true if the ANDROID_SIMPLE_PROCESS_MANAGEMENT envvar
* is set, indicating the user wants processes started in such a way
* that they can use ANDROID_PROCESS_WRAPPER and know what will be
* running in each process (thus no pre-initialized process, etc).
*/
boolean mSimpleProcessManagement = false;
/**
* System monitoring: number of processes that died since the last
* N procs were started.
*/
int[] mProcDeaths = new int[20];
/**
* This is set if we had to do a delayed dexopt of an app before launching
* it, to increasing the ANR timeouts in that case.
*/
boolean mDidDexOpt;
String mDebugApp = null;
boolean mWaitForDebugger = false;
boolean mDebugTransient = false;
String mOrigDebugApp = null;
boolean mOrigWaitForDebugger = false;
boolean mAlwaysFinishActivities = false;
IActivityController mController = null;
final RemoteCallbackList<IActivityWatcher> mWatchers
= new RemoteCallbackList<IActivityWatcher>();
/**
* Callback of last caller to {@link #requestPss}.
*/
Runnable mRequestPssCallback;
/**
* Remaining processes for which we are waiting results from the last
* call to {@link #requestPss}.
*/
final ArrayList<ProcessRecord> mRequestPssList
= new ArrayList<ProcessRecord>();
/**
* Runtime statistics collection thread. This object's lock is used to
* protect all related state.
*/
final Thread mProcessStatsThread;
/**
* Used to collect process stats when showing not responding dialog.
* Protected by mProcessStatsThread.
*/
final ProcessStats mProcessStats = new ProcessStats(
MONITOR_THREAD_CPU_USAGE);
long mLastCpuTime = 0;
long mLastWriteTime = 0;
long mInitialStartTime = 0;
/**
* Set to true after the system has finished booting.
*/
boolean mBooted = false;
int mProcessLimit = 0;
WindowManagerService mWindowManager;
static ActivityManagerService mSelf;
static ActivityThread mSystemThread;
private final class AppDeathRecipient implements IBinder.DeathRecipient {
final ProcessRecord mApp;
final int mPid;
final IApplicationThread mAppThread;
AppDeathRecipient(ProcessRecord app, int pid,
IApplicationThread thread) {
if (localLOGV) Log.v(
TAG, "New death recipient " + this
+ " for thread " + thread.asBinder());
mApp = app;
mPid = pid;
mAppThread = thread;
}
public void binderDied() {
if (localLOGV) Log.v(
TAG, "Death received in " + this
+ " for thread " + mAppThread.asBinder());
removeRequestedPss(mApp);
synchronized(ActivityManagerService.this) {
appDiedLocked(mApp, mPid, mAppThread);
}
}
}
static final int SHOW_ERROR_MSG = 1;
static final int SHOW_NOT_RESPONDING_MSG = 2;
static final int SHOW_FACTORY_ERROR_MSG = 3;
static final int UPDATE_CONFIGURATION_MSG = 4;
static final int GC_BACKGROUND_PROCESSES_MSG = 5;
static final int WAIT_FOR_DEBUGGER_MSG = 6;
static final int BROADCAST_INTENT_MSG = 7;
static final int BROADCAST_TIMEOUT_MSG = 8;
static final int PAUSE_TIMEOUT_MSG = 9;
static final int IDLE_TIMEOUT_MSG = 10;
static final int IDLE_NOW_MSG = 11;
static final int SERVICE_TIMEOUT_MSG = 12;
static final int UPDATE_TIME_ZONE = 13;
static final int SHOW_UID_ERROR_MSG = 14;
static final int IM_FEELING_LUCKY_MSG = 15;
static final int LAUNCH_TIMEOUT_MSG = 16;
static final int DESTROY_TIMEOUT_MSG = 17;
static final int SERVICE_ERROR_MSG = 18;
static final int RESUME_TOP_ACTIVITY_MSG = 19;
static final int PROC_START_TIMEOUT_MSG = 20;
static final int DO_PENDING_ACTIVITY_LAUNCHES_MSG = 21;
static final int KILL_APPLICATION_MSG = 22;
AlertDialog mUidAlert;
final Handler mHandler = new Handler() {
//public Handler() {
// if (localLOGV) Log.v(TAG, "Handler started!");
//}
public void handleMessage(Message msg) {
switch (msg.what) {
case SHOW_ERROR_MSG: {
HashMap data = (HashMap) msg.obj;
synchronized (ActivityManagerService.this) {
ProcessRecord proc = (ProcessRecord)data.get("app");
if (proc != null && proc.crashDialog != null) {
Log.e(TAG, "App already has crash dialog: " + proc);
return;
}
AppErrorResult res = (AppErrorResult) data.get("result");
if (!mSleeping && !mShuttingDown) {
Dialog d = new AppErrorDialog(mContext, res, proc);
d.show();
proc.crashDialog = d;
} else {
// The device is asleep, so just pretend that the user
// saw a crash dialog and hit "force quit".
res.set(0);
}
}
ensureBootCompleted();
} break;
case SHOW_NOT_RESPONDING_MSG: {
synchronized (ActivityManagerService.this) {
HashMap data = (HashMap) msg.obj;
ProcessRecord proc = (ProcessRecord)data.get("app");
if (proc != null && proc.anrDialog != null) {
Log.e(TAG, "App already has anr dialog: " + proc);
return;
}
broadcastIntentLocked(null, null, new Intent("android.intent.action.ANR"),
null, null, 0, null, null, null,
false, false, MY_PID, Process.SYSTEM_UID);
Dialog d = new AppNotRespondingDialog(ActivityManagerService.this,
mContext, proc, (HistoryRecord)data.get("activity"));
d.show();
proc.anrDialog = d;
}
ensureBootCompleted();
} break;
case SHOW_FACTORY_ERROR_MSG: {
Dialog d = new FactoryErrorDialog(
mContext, msg.getData().getCharSequence("msg"));
d.show();
ensureBootCompleted();
} break;
case UPDATE_CONFIGURATION_MSG: {
final ContentResolver resolver = mContext.getContentResolver();
Settings.System.putConfiguration(resolver, (Configuration)msg.obj);
} break;
case GC_BACKGROUND_PROCESSES_MSG: {
synchronized (ActivityManagerService.this) {
performAppGcsIfAppropriateLocked();
}
} break;
case WAIT_FOR_DEBUGGER_MSG: {
synchronized (ActivityManagerService.this) {
ProcessRecord app = (ProcessRecord)msg.obj;
if (msg.arg1 != 0) {
if (!app.waitedForDebugger) {
Dialog d = new AppWaitingForDebuggerDialog(
ActivityManagerService.this,
mContext, app);
app.waitDialog = d;
app.waitedForDebugger = true;
d.show();
}
} else {
if (app.waitDialog != null) {
app.waitDialog.dismiss();
app.waitDialog = null;
}
}
}
} break;
case BROADCAST_INTENT_MSG: {
if (DEBUG_BROADCAST) Log.v(
TAG, "Received BROADCAST_INTENT_MSG");
processNextBroadcast(true);
} break;
case BROADCAST_TIMEOUT_MSG: {
if (mDidDexOpt) {
mDidDexOpt = false;
Message nmsg = mHandler.obtainMessage(BROADCAST_TIMEOUT_MSG);
mHandler.sendMessageDelayed(nmsg, BROADCAST_TIMEOUT);
return;
}
broadcastTimeout();
} break;
case PAUSE_TIMEOUT_MSG: {
IBinder token = (IBinder)msg.obj;
// We don't at this point know if the activity is fullscreen,
// so we need to be conservative and assume it isn't.
Log.w(TAG, "Activity pause timeout for " + token);
activityPaused(token, null, true);
} break;
case IDLE_TIMEOUT_MSG: {
if (mDidDexOpt) {
mDidDexOpt = false;
Message nmsg = mHandler.obtainMessage(IDLE_TIMEOUT_MSG);
nmsg.obj = msg.obj;
mHandler.sendMessageDelayed(nmsg, IDLE_TIMEOUT);
return;
}
// We don't at this point know if the activity is fullscreen,
// so we need to be conservative and assume it isn't.
IBinder token = (IBinder)msg.obj;
Log.w(TAG, "Activity idle timeout for " + token);
activityIdleInternal(token, true, null);
} break;
case DESTROY_TIMEOUT_MSG: {
IBinder token = (IBinder)msg.obj;
// We don't at this point know if the activity is fullscreen,
// so we need to be conservative and assume it isn't.
Log.w(TAG, "Activity destroy timeout for " + token);
activityDestroyed(token);
} break;
case IDLE_NOW_MSG: {
IBinder token = (IBinder)msg.obj;
activityIdle(token, null);
} break;
case SERVICE_TIMEOUT_MSG: {
if (mDidDexOpt) {
mDidDexOpt = false;
Message nmsg = mHandler.obtainMessage(SERVICE_TIMEOUT_MSG);
nmsg.obj = msg.obj;
mHandler.sendMessageDelayed(nmsg, SERVICE_TIMEOUT);
return;
}
serviceTimeout((ProcessRecord)msg.obj);
} break;
case UPDATE_TIME_ZONE: {
synchronized (ActivityManagerService.this) {
for (int i = mLruProcesses.size() - 1 ; i >= 0 ; i--) {
ProcessRecord r = mLruProcesses.get(i);
if (r.thread != null) {
try {
r.thread.updateTimeZone();
} catch (RemoteException ex) {
Log.w(TAG, "Failed to update time zone for: " + r.info.processName);
}
}
}
}
} break;
case SHOW_UID_ERROR_MSG: {
// XXX This is a temporary dialog, no need to localize.
AlertDialog d = new BaseErrorDialog(mContext);
d.getWindow().setType(WindowManager.LayoutParams.TYPE_SYSTEM_ERROR);
d.setCancelable(false);
d.setTitle("System UIDs Inconsistent");
d.setMessage("UIDs on the system are inconsistent, you need to wipe your data partition or your device will be unstable.");
d.setButton("I'm Feeling Lucky",
mHandler.obtainMessage(IM_FEELING_LUCKY_MSG));
mUidAlert = d;
d.show();
} break;
case IM_FEELING_LUCKY_MSG: {
if (mUidAlert != null) {
mUidAlert.dismiss();
mUidAlert = null;
}
} break;
case LAUNCH_TIMEOUT_MSG: {
if (mDidDexOpt) {
mDidDexOpt = false;
Message nmsg = mHandler.obtainMessage(LAUNCH_TIMEOUT_MSG);
mHandler.sendMessageDelayed(nmsg, LAUNCH_TIMEOUT);
return;
}
synchronized (ActivityManagerService.this) {
if (mLaunchingActivity.isHeld()) {
Log.w(TAG, "Launch timeout has expired, giving up wake lock!");
mLaunchingActivity.release();
}
}
} break;
case SERVICE_ERROR_MSG: {
ServiceRecord srv = (ServiceRecord)msg.obj;
// This needs to be *un*synchronized to avoid deadlock.
Checkin.logEvent(mContext.getContentResolver(),
Checkin.Events.Tag.SYSTEM_SERVICE_LOOPING,
srv.name.toShortString());
} break;
case RESUME_TOP_ACTIVITY_MSG: {
synchronized (ActivityManagerService.this) {
resumeTopActivityLocked(null);
}
} break;
case PROC_START_TIMEOUT_MSG: {
if (mDidDexOpt) {
mDidDexOpt = false;
Message nmsg = mHandler.obtainMessage(PROC_START_TIMEOUT_MSG);
nmsg.obj = msg.obj;
mHandler.sendMessageDelayed(nmsg, PROC_START_TIMEOUT);
return;
}
ProcessRecord app = (ProcessRecord)msg.obj;
synchronized (ActivityManagerService.this) {
processStartTimedOutLocked(app);
}
} break;
case DO_PENDING_ACTIVITY_LAUNCHES_MSG: {
synchronized (ActivityManagerService.this) {
doPendingActivityLaunchesLocked(true);
}
} break;
case KILL_APPLICATION_MSG: {
synchronized (ActivityManagerService.this) {
int uid = msg.arg1;
boolean restart = (msg.arg2 == 1);
String pkg = (String) msg.obj;
forceStopPackageLocked(pkg, uid, restart);
}
} break;
}
}
};
public static void setSystemProcess() {
try {
ActivityManagerService m = mSelf;
ServiceManager.addService("activity", m);
ServiceManager.addService("meminfo", new MemBinder(m));
if (MONITOR_CPU_USAGE) {
ServiceManager.addService("cpuinfo", new CpuBinder(m));
}
ServiceManager.addService("permission", new PermissionController(m));
ApplicationInfo info =
mSelf.mContext.getPackageManager().getApplicationInfo(
"android", STOCK_PM_FLAGS);
mSystemThread.installSystemApplicationInfo(info);
synchronized (mSelf) {
ProcessRecord app = mSelf.newProcessRecordLocked(
mSystemThread.getApplicationThread(), info,
info.processName);
app.persistent = true;
app.pid = Process.myPid();
app.maxAdj = SYSTEM_ADJ;
mSelf.mProcessNames.put(app.processName, app.info.uid, app);
synchronized (mSelf.mPidsSelfLocked) {
mSelf.mPidsSelfLocked.put(app.pid, app);
}
mSelf.updateLruProcessLocked(app, true, true);
}
} catch (PackageManager.NameNotFoundException e) {
throw new RuntimeException(
"Unable to find android system package", e);
}
}
public void setWindowManager(WindowManagerService wm) {
mWindowManager = wm;
}
public static final Context main(int factoryTest) {
AThread thr = new AThread();
thr.start();
synchronized (thr) {
while (thr.mService == null) {
try {
thr.wait();
} catch (InterruptedException e) {
}
}
}
ActivityManagerService m = thr.mService;
mSelf = m;
ActivityThread at = ActivityThread.systemMain();
mSystemThread = at;
Context context = at.getSystemContext();
m.mContext = context;
m.mFactoryTest = factoryTest;
PowerManager pm =
(PowerManager)context.getSystemService(Context.POWER_SERVICE);
m.mGoingToSleep = pm.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, "ActivityManager-Sleep");
m.mLaunchingActivity = pm.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, "ActivityManager-Launch");
m.mLaunchingActivity.setReferenceCounted(false);
m.mBatteryStatsService.publish(context);
m.mUsageStatsService.publish(context);
synchronized (thr) {
thr.mReady = true;
thr.notifyAll();
}
m.startRunning(null, null, null, null);
return context;
}
public static ActivityManagerService self() {
return mSelf;
}
static class AThread extends Thread {
ActivityManagerService mService;
boolean mReady = false;
public AThread() {
super("ActivityManager");
}
public void run() {
Looper.prepare();
android.os.Process.setThreadPriority(
android.os.Process.THREAD_PRIORITY_FOREGROUND);
ActivityManagerService m = new ActivityManagerService();
synchronized (this) {
mService = m;
notifyAll();
}
synchronized (this) {
while (!mReady) {
try {
wait();
} catch (InterruptedException e) {
}
}
}
Looper.loop();
}
}
static class MemBinder extends Binder {
ActivityManagerService mActivityManagerService;
MemBinder(ActivityManagerService activityManagerService) {
mActivityManagerService = activityManagerService;
}
@Override
protected void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
ActivityManagerService service = mActivityManagerService;
ArrayList<ProcessRecord> procs;
synchronized (mActivityManagerService) {
if (args != null && args.length > 0
&& args[0].charAt(0) != '-') {
procs = new ArrayList<ProcessRecord>();
int pid = -1;
try {
pid = Integer.parseInt(args[0]);
} catch (NumberFormatException e) {
}
for (int i=service.mLruProcesses.size()-1; i>=0; i--) {
ProcessRecord proc = service.mLruProcesses.get(i);
if (proc.pid == pid) {
procs.add(proc);
} else if (proc.processName.equals(args[0])) {
procs.add(proc);
}
}
if (procs.size() <= 0) {
pw.println("No process found for: " + args[0]);
return;
}
} else {
procs = service.mLruProcesses;
}
}
dumpApplicationMemoryUsage(fd, pw, procs, " ", args);
}
}
static class CpuBinder extends Binder {
ActivityManagerService mActivityManagerService;
CpuBinder(ActivityManagerService activityManagerService) {
mActivityManagerService = activityManagerService;
}
@Override
protected void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
synchronized (mActivityManagerService.mProcessStatsThread) {
pw.print(mActivityManagerService.mProcessStats.printCurrentState());
}
}
}
private ActivityManagerService() {
String v = System.getenv("ANDROID_SIMPLE_PROCESS_MANAGEMENT");
if (v != null && Integer.getInteger(v) != 0) {
mSimpleProcessManagement = true;
}
v = System.getenv("ANDROID_DEBUG_APP");
if (v != null) {
mSimpleProcessManagement = true;
}
Log.i(TAG, "Memory class: " + ActivityManager.staticGetMemoryClass());
MY_PID = Process.myPid();
File dataDir = Environment.getDataDirectory();
File systemDir = new File(dataDir, "system");
systemDir.mkdirs();
mBatteryStatsService = new BatteryStatsService(new File(
systemDir, "batterystats.bin").toString());
mBatteryStatsService.getActiveStatistics().readLocked();
mBatteryStatsService.getActiveStatistics().writeLocked();
mUsageStatsService = new UsageStatsService( new File(
systemDir, "usagestats").toString());
GL_ES_VERSION = SystemProperties.getInt("ro.opengles.version",
ConfigurationInfo.GL_ES_VERSION_UNDEFINED);
mConfiguration.makeDefault();
mProcessStats.init();
// Add ourself to the Watchdog monitors.
Watchdog.getInstance().addMonitor(this);
mProcessStatsThread = new Thread("ProcessStats") {
public void run() {
while (true) {
try {
try {
synchronized(this) {
final long now = SystemClock.uptimeMillis();
long nextCpuDelay = (mLastCpuTime+MONITOR_CPU_MAX_TIME)-now;
long nextWriteDelay = (mLastWriteTime+BATTERY_STATS_TIME)-now;
//Log.i(TAG, "Cpu delay=" + nextCpuDelay
// + ", write delay=" + nextWriteDelay);
if (nextWriteDelay < nextCpuDelay) {
nextCpuDelay = nextWriteDelay;
}
if (nextCpuDelay > 0) {
this.wait(nextCpuDelay);
}
}
} catch (InterruptedException e) {
}
updateCpuStatsNow();
} catch (Exception e) {
Log.e(TAG, "Unexpected exception collecting process stats", e);
}
}
}
};
mProcessStatsThread.start();
}
@Override
public boolean onTransact(int code, Parcel data, Parcel reply, int flags)
throws RemoteException {
try {
return super.onTransact(code, data, reply, flags);
} catch (RuntimeException e) {
// The activity manager only throws security exceptions, so let's
// log all others.
if (!(e instanceof SecurityException)) {
Log.e(TAG, "Activity Manager Crash", e);
}
throw e;
}
}
void updateCpuStats() {
synchronized (mProcessStatsThread) {
final long now = SystemClock.uptimeMillis();
if (mLastCpuTime < (now-MONITOR_CPU_MIN_TIME)) {
mProcessStatsThread.notify();
}
}
}
void updateCpuStatsNow() {
synchronized (mProcessStatsThread) {
final long now = SystemClock.uptimeMillis();
boolean haveNewCpuStats = false;
if (MONITOR_CPU_USAGE &&
mLastCpuTime < (now-MONITOR_CPU_MIN_TIME)) {
mLastCpuTime = now;
haveNewCpuStats = true;
mProcessStats.update();
//Log.i(TAG, mProcessStats.printCurrentState());
//Log.i(TAG, "Total CPU usage: "
// + mProcessStats.getTotalCpuPercent() + "%");
// Log the cpu usage if the property is set.
if ("true".equals(SystemProperties.get("events.cpu"))) {
int user = mProcessStats.getLastUserTime();
int system = mProcessStats.getLastSystemTime();
int iowait = mProcessStats.getLastIoWaitTime();
int irq = mProcessStats.getLastIrqTime();
int softIrq = mProcessStats.getLastSoftIrqTime();
int idle = mProcessStats.getLastIdleTime();
int total = user + system + iowait + irq + softIrq + idle;
if (total == 0) total = 1;
EventLog.writeEvent(EventLogTags.CPU,
((user+system+iowait+irq+softIrq) * 100) / total,
(user * 100) / total,
(system * 100) / total,
(iowait * 100) / total,
(irq * 100) / total,
(softIrq * 100) / total);
}
}
long[] cpuSpeedTimes = mProcessStats.getLastCpuSpeedTimes();
final BatteryStatsImpl bstats = mBatteryStatsService.getActiveStatistics();
synchronized(bstats) {
synchronized(mPidsSelfLocked) {
if (haveNewCpuStats) {
if (mBatteryStatsService.isOnBattery()) {
final int N = mProcessStats.countWorkingStats();
for (int i=0; i<N; i++) {
ProcessStats.Stats st
= mProcessStats.getWorkingStats(i);
ProcessRecord pr = mPidsSelfLocked.get(st.pid);
if (pr != null) {
BatteryStatsImpl.Uid.Proc ps = pr.batteryStats;
ps.addCpuTimeLocked(st.rel_utime, st.rel_stime);
ps.addSpeedStepTimes(cpuSpeedTimes);
} else {
BatteryStatsImpl.Uid.Proc ps =
bstats.getProcessStatsLocked(st.name, st.pid);
if (ps != null) {
ps.addCpuTimeLocked(st.rel_utime, st.rel_stime);
ps.addSpeedStepTimes(cpuSpeedTimes);
}
}
}
}
}
}
if (mLastWriteTime < (now-BATTERY_STATS_TIME)) {
mLastWriteTime = now;
mBatteryStatsService.getActiveStatistics().writeLocked();
}
}
}
}
/**
* Initialize the application bind args. These are passed to each
* process when the bindApplication() IPC is sent to the process. They're
* lazily setup to make sure the services are running when they're asked for.
*/
private HashMap<String, IBinder> getCommonServicesLocked() {
if (mAppBindArgs == null) {
mAppBindArgs = new HashMap<String, IBinder>();
// Setup the application init args
mAppBindArgs.put("package", ServiceManager.getService("package"));
mAppBindArgs.put("window", ServiceManager.getService("window"));
mAppBindArgs.put(Context.ALARM_SERVICE,
ServiceManager.getService(Context.ALARM_SERVICE));
}
return mAppBindArgs;
}
private final void setFocusedActivityLocked(HistoryRecord r) {
if (mFocusedActivity != r) {
mFocusedActivity = r;
mWindowManager.setFocusedApp(r, true);
}
}
private final void updateLruProcessLocked(ProcessRecord app,
boolean oomAdj, boolean updateActivityTime) {
// put it on the LRU to keep track of when it should be exited.
int lrui = mLruProcesses.indexOf(app);
if (lrui >= 0) mLruProcesses.remove(lrui);
int i = mLruProcesses.size()-1;
int skipTop = 0;
// compute the new weight for this process.
if (updateActivityTime) {
app.lastActivityTime = SystemClock.uptimeMillis();
}
if (app.activities.size() > 0) {
// If this process has activities, we more strongly want to keep
// it around.
app.lruWeight = app.lastActivityTime;
} else if (app.pubProviders.size() > 0) {
// If this process contains content providers, we want to keep
// it a little more strongly.
app.lruWeight = app.lastActivityTime - CONTENT_APP_IDLE_OFFSET;
// Also don't let it kick out the first few "real" hidden processes.
skipTop = MIN_HIDDEN_APPS;
} else {
// If this process doesn't have activities, we less strongly
// want to keep it around, and generally want to avoid getting
// in front of any very recently used activities.
app.lruWeight = app.lastActivityTime - EMPTY_APP_IDLE_OFFSET;
// Also don't let it kick out the first few "real" hidden processes.
skipTop = MIN_HIDDEN_APPS;
}
while (i >= 0) {
ProcessRecord p = mLruProcesses.get(i);
// If this app shouldn't be in front of the first N background
// apps, then skip over that many that are currently hidden.
if (skipTop > 0 && p.setAdj >= HIDDEN_APP_MIN_ADJ) {
skipTop--;
}
if (p.lruWeight <= app.lruWeight){
mLruProcesses.add(i+1, app);
break;
}
i--;
}
if (i < 0) {
mLruProcesses.add(0, app);
}
//Log.i(TAG, "Putting proc to front: " + app.processName);
if (oomAdj) {
updateOomAdjLocked();
}
}
private final boolean updateLRUListLocked(HistoryRecord r) {
final boolean hadit = mLRUActivities.remove(r);
mLRUActivities.add(r);
return hadit;
}
private final HistoryRecord topRunningActivityLocked(HistoryRecord notTop) {
int i = mHistory.size()-1;
while (i >= 0) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (!r.finishing && r != notTop) {
return r;
}
i--;
}
return null;
}
private final HistoryRecord topRunningNonDelayedActivityLocked(HistoryRecord notTop) {
int i = mHistory.size()-1;
while (i >= 0) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (!r.finishing && !r.delayedResume && r != notTop) {
return r;
}
i--;
}
return null;
}
/**
* This is a simplified version of topRunningActivityLocked that provides a number of
* optional skip-over modes. It is intended for use with the ActivityController hook only.
*
* @param token If non-null, any history records matching this token will be skipped.
* @param taskId If non-zero, we'll attempt to skip over records with the same task ID.
*
* @return Returns the HistoryRecord of the next activity on the stack.
*/
private final HistoryRecord topRunningActivityLocked(IBinder token, int taskId) {
int i = mHistory.size()-1;
while (i >= 0) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
// Note: the taskId check depends on real taskId fields being non-zero
if (!r.finishing && (token != r) && (taskId != r.task.taskId)) {
return r;
}
i--;
}
return null;
}
private final ProcessRecord getProcessRecordLocked(
String processName, int uid) {
if (uid == Process.SYSTEM_UID) {
// The system gets to run in any process. If there are multiple
// processes with the same uid, just pick the first (this
// should never happen).
SparseArray<ProcessRecord> procs = mProcessNames.getMap().get(
processName);
return procs != null ? procs.valueAt(0) : null;
}
ProcessRecord proc = mProcessNames.get(processName, uid);
return proc;
}
private void ensurePackageDexOpt(String packageName) {
IPackageManager pm = ActivityThread.getPackageManager();
try {
if (pm.performDexOpt(packageName)) {
mDidDexOpt = true;
}
} catch (RemoteException e) {
}
}
private boolean isNextTransitionForward() {
int transit = mWindowManager.getPendingAppTransition();
return transit == WindowManagerPolicy.TRANSIT_ACTIVITY_OPEN
|| transit == WindowManagerPolicy.TRANSIT_TASK_OPEN
|| transit == WindowManagerPolicy.TRANSIT_TASK_TO_FRONT;
}
private final boolean realStartActivityLocked(HistoryRecord r,
ProcessRecord app, boolean andResume, boolean checkConfig)
throws RemoteException {
r.startFreezingScreenLocked(app, 0);
mWindowManager.setAppVisibility(r, true);
// Have the window manager re-evaluate the orientation of
// the screen based on the new activity order. Note that
// as a result of this, it can call back into the activity
// manager with a new orientation. We don't care about that,
// because the activity is not currently running so we are
// just restarting it anyway.
if (checkConfig) {
Configuration config = mWindowManager.updateOrientationFromAppTokens(
mConfiguration,
r.mayFreezeScreenLocked(app) ? r : null);
updateConfigurationLocked(config, r);
}
r.app = app;
if (localLOGV) Log.v(TAG, "Launching: " + r);
int idx = app.activities.indexOf(r);
if (idx < 0) {
app.activities.add(r);
}
updateLruProcessLocked(app, true, true);
try {
if (app.thread == null) {
throw new RemoteException();
}
List<ResultInfo> results = null;
List<Intent> newIntents = null;
if (andResume) {
results = r.results;
newIntents = r.newIntents;
}
if (DEBUG_SWITCH) Log.v(TAG, "Launching: " + r
+ " icicle=" + r.icicle
+ " with results=" + results + " newIntents=" + newIntents
+ " andResume=" + andResume);
if (andResume) {
EventLog.writeEvent(EventLogTags.AM_RESTART_ACTIVITY,
System.identityHashCode(r),
r.task.taskId, r.shortComponentName);
}
if (r.isHomeActivity) {
mHomeProcess = app;
}
ensurePackageDexOpt(r.intent.getComponent().getPackageName());
app.thread.scheduleLaunchActivity(new Intent(r.intent), r,
System.identityHashCode(r),
r.info, r.icicle, results, newIntents, !andResume,
isNextTransitionForward());
} catch (RemoteException e) {
if (r.launchFailed) {
// This is the second time we failed -- finish activity
// and give up.
Log.e(TAG, "Second failure launching "
+ r.intent.getComponent().flattenToShortString()
+ ", giving up", e);
appDiedLocked(app, app.pid, app.thread);
requestFinishActivityLocked(r, Activity.RESULT_CANCELED, null,
"2nd-crash");
return false;
}
// This is the first time we failed -- restart process and
// retry.
app.activities.remove(r);
throw e;
}
r.launchFailed = false;
if (updateLRUListLocked(r)) {
Log.w(TAG, "Activity " + r
+ " being launched, but already in LRU list");
}
if (andResume) {
// As part of the process of launching, ActivityThread also performs
// a resume.
r.state = ActivityState.RESUMED;
r.icicle = null;
r.haveState = false;
r.stopped = false;
mResumedActivity = r;
r.task.touchActiveTime();
completeResumeLocked(r);
pauseIfSleepingLocked();
} else {
// This activity is not starting in the resumed state... which
// should look like we asked it to pause+stop (but remain visible),
// and it has done so and reported back the current icicle and
// other state.
r.state = ActivityState.STOPPED;
r.stopped = true;
}
// Launch the new version setup screen if needed. We do this -after-
// launching the initial activity (that is, home), so that it can have
// a chance to initialize itself while in the background, making the
// switch back to it faster and look better.
startSetupActivityLocked();
return true;
}
private final void startSpecificActivityLocked(HistoryRecord r,
boolean andResume, boolean checkConfig) {
// Is this activity's application already running?
ProcessRecord app = getProcessRecordLocked(r.processName,
r.info.applicationInfo.uid);
if (r.startTime == 0) {
r.startTime = SystemClock.uptimeMillis();
if (mInitialStartTime == 0) {
mInitialStartTime = r.startTime;
}
} else if (mInitialStartTime == 0) {
mInitialStartTime = SystemClock.uptimeMillis();
}
if (app != null && app.thread != null) {
try {
realStartActivityLocked(r, app, andResume, checkConfig);
return;
} catch (RemoteException e) {
Log.w(TAG, "Exception when starting activity "
+ r.intent.getComponent().flattenToShortString(), e);
}
// If a dead object exception was thrown -- fall through to
// restart the application.
}
startProcessLocked(r.processName, r.info.applicationInfo, true, 0,
"activity", r.intent.getComponent(), false);
}
private final ProcessRecord startProcessLocked(String processName,
ApplicationInfo info, boolean knownToBeDead, int intentFlags,
String hostingType, ComponentName hostingName, boolean allowWhileBooting) {
ProcessRecord app = getProcessRecordLocked(processName, info.uid);
// We don't have to do anything more if:
// (1) There is an existing application record; and
// (2) The caller doesn't think it is dead, OR there is no thread
// object attached to it so we know it couldn't have crashed; and
// (3) There is a pid assigned to it, so it is either starting or
// already running.
if (DEBUG_PROCESSES) Log.v(TAG, "startProcess: name=" + processName
+ " app=" + app + " knownToBeDead=" + knownToBeDead
+ " thread=" + (app != null ? app.thread : null)
+ " pid=" + (app != null ? app.pid : -1));
if (app != null &&
(!knownToBeDead || app.thread == null) && app.pid > 0) {
return app;
}
String hostingNameStr = hostingName != null
? hostingName.flattenToShortString() : null;
if ((intentFlags&Intent.FLAG_FROM_BACKGROUND) != 0) {
// If we are in the background, then check to see if this process
// is bad. If so, we will just silently fail.
if (mBadProcesses.get(info.processName, info.uid) != null) {
return null;
}
} else {
// When the user is explicitly starting a process, then clear its
// crash count so that we won't make it bad until they see at
// least one crash dialog again, and make the process good again
// if it had been bad.
mProcessCrashTimes.remove(info.processName, info.uid);
if (mBadProcesses.get(info.processName, info.uid) != null) {
EventLog.writeEvent(EventLogTags.AM_PROC_GOOD, info.uid,
info.processName);
mBadProcesses.remove(info.processName, info.uid);
if (app != null) {
app.bad = false;
}
}
}
if (app == null) {
app = newProcessRecordLocked(null, info, processName);
mProcessNames.put(processName, info.uid, app);
} else {
// If this is a new package in the process, add the package to the list
app.addPackage(info.packageName);
}
// If the system is not ready yet, then hold off on starting this
// process until it is.
if (!mSystemReady
&& !isAllowedWhileBooting(info)
&& !allowWhileBooting) {
if (!mProcessesOnHold.contains(app)) {
mProcessesOnHold.add(app);
}
return app;
}
startProcessLocked(app, hostingType, hostingNameStr);
return (app.pid != 0) ? app : null;
}
boolean isAllowedWhileBooting(ApplicationInfo ai) {
return (ai.flags&ApplicationInfo.FLAG_PERSISTENT) != 0;
}
private final void startProcessLocked(ProcessRecord app,
String hostingType, String hostingNameStr) {
if (app.pid > 0 && app.pid != MY_PID) {
synchronized (mPidsSelfLocked) {
mPidsSelfLocked.remove(app.pid);
mHandler.removeMessages(PROC_START_TIMEOUT_MSG, app);
}
app.pid = 0;
}
mProcessesOnHold.remove(app);
updateCpuStats();
System.arraycopy(mProcDeaths, 0, mProcDeaths, 1, mProcDeaths.length-1);
mProcDeaths[0] = 0;
try {
int uid = app.info.uid;
int[] gids = null;
try {
gids = mContext.getPackageManager().getPackageGids(
app.info.packageName);
} catch (PackageManager.NameNotFoundException e) {
Log.w(TAG, "Unable to retrieve gids", e);
}
if (mFactoryTest != SystemServer.FACTORY_TEST_OFF) {
if (mFactoryTest == SystemServer.FACTORY_TEST_LOW_LEVEL
&& mTopComponent != null
&& app.processName.equals(mTopComponent.getPackageName())) {
uid = 0;
}
if (mFactoryTest == SystemServer.FACTORY_TEST_HIGH_LEVEL
&& (app.info.flags&ApplicationInfo.FLAG_FACTORY_TEST) != 0) {
uid = 0;
}
}
int debugFlags = 0;
if ((app.info.flags & ApplicationInfo.FLAG_DEBUGGABLE) != 0) {
debugFlags |= Zygote.DEBUG_ENABLE_DEBUGGER;
}
if ("1".equals(SystemProperties.get("debug.checkjni"))) {
debugFlags |= Zygote.DEBUG_ENABLE_CHECKJNI;
}
if ("1".equals(SystemProperties.get("debug.assert"))) {
debugFlags |= Zygote.DEBUG_ENABLE_ASSERT;
}
int pid = Process.start("android.app.ActivityThread",
mSimpleProcessManagement ? app.processName : null, uid, uid,
gids, debugFlags, null);
BatteryStatsImpl bs = app.batteryStats.getBatteryStats();
synchronized (bs) {
if (bs.isOnBattery()) {
app.batteryStats.incStartsLocked();
}
}
EventLog.writeEvent(EventLogTags.AM_PROC_START, pid, uid,
app.processName, hostingType,
hostingNameStr != null ? hostingNameStr : "");
if (app.persistent) {
Watchdog.getInstance().processStarted(app, app.processName, pid);
}
StringBuilder buf = mStringBuilder;
buf.setLength(0);
buf.append("Start proc ");
buf.append(app.processName);
buf.append(" for ");
buf.append(hostingType);
if (hostingNameStr != null) {
buf.append(" ");
buf.append(hostingNameStr);
}
buf.append(": pid=");
buf.append(pid);
buf.append(" uid=");
buf.append(uid);
buf.append(" gids={");
if (gids != null) {
for (int gi=0; gi<gids.length; gi++) {
if (gi != 0) buf.append(", ");
buf.append(gids[gi]);
}
}
buf.append("}");
Log.i(TAG, buf.toString());
if (pid == 0 || pid == MY_PID) {
// Processes are being emulated with threads.
app.pid = MY_PID;
app.removed = false;
mStartingProcesses.add(app);
} else if (pid > 0) {
app.pid = pid;
app.removed = false;
synchronized (mPidsSelfLocked) {
this.mPidsSelfLocked.put(pid, app);
Message msg = mHandler.obtainMessage(PROC_START_TIMEOUT_MSG);
msg.obj = app;
mHandler.sendMessageDelayed(msg, PROC_START_TIMEOUT);
}
} else {
app.pid = 0;
RuntimeException e = new RuntimeException(
"Failure starting process " + app.processName
+ ": returned pid=" + pid);
Log.e(TAG, e.getMessage(), e);
}
} catch (RuntimeException e) {
// XXX do better error recovery.
app.pid = 0;
Log.e(TAG, "Failure starting process " + app.processName, e);
}
}
private final void startPausingLocked(boolean userLeaving, boolean uiSleeping) {
if (mPausingActivity != null) {
RuntimeException e = new RuntimeException();
Log.e(TAG, "Trying to pause when pause is already pending for "
+ mPausingActivity, e);
}
HistoryRecord prev = mResumedActivity;
if (prev == null) {
RuntimeException e = new RuntimeException();
Log.e(TAG, "Trying to pause when nothing is resumed", e);
resumeTopActivityLocked(null);
return;
}
if (DEBUG_PAUSE) Log.v(TAG, "Start pausing: " + prev);
mResumedActivity = null;
mPausingActivity = prev;
mLastPausedActivity = prev;
prev.state = ActivityState.PAUSING;
prev.task.touchActiveTime();
updateCpuStats();
if (prev.app != null && prev.app.thread != null) {
if (DEBUG_PAUSE) Log.v(TAG, "Enqueueing pending pause: " + prev);
try {
EventLog.writeEvent(EventLogTags.AM_PAUSE_ACTIVITY,
System.identityHashCode(prev),
prev.shortComponentName);
prev.app.thread.schedulePauseActivity(prev, prev.finishing, userLeaving,
prev.configChangeFlags);
updateUsageStats(prev, false);
} catch (Exception e) {
// Ignore exception, if process died other code will cleanup.
Log.w(TAG, "Exception thrown during pause", e);
mPausingActivity = null;
mLastPausedActivity = null;
}
} else {
mPausingActivity = null;
mLastPausedActivity = null;
}
// If we are not going to sleep, we want to ensure the device is
// awake until the next activity is started.
if (!mSleeping && !mShuttingDown) {
mLaunchingActivity.acquire();
if (!mHandler.hasMessages(LAUNCH_TIMEOUT_MSG)) {
// To be safe, don't allow the wake lock to be held for too long.
Message msg = mHandler.obtainMessage(LAUNCH_TIMEOUT_MSG);
mHandler.sendMessageDelayed(msg, LAUNCH_TIMEOUT);
}
}
if (mPausingActivity != null) {
// Have the window manager pause its key dispatching until the new
// activity has started. If we're pausing the activity just because
// the screen is being turned off and the UI is sleeping, don't interrupt
// key dispatch; the same activity will pick it up again on wakeup.
if (!uiSleeping) {
prev.pauseKeyDispatchingLocked();
} else {
if (DEBUG_PAUSE) Log.v(TAG, "Key dispatch not paused for screen off");
}
// Schedule a pause timeout in case the app doesn't respond.
// We don't give it much time because this directly impacts the
// responsiveness seen by the user.
Message msg = mHandler.obtainMessage(PAUSE_TIMEOUT_MSG);
msg.obj = prev;
mHandler.sendMessageDelayed(msg, PAUSE_TIMEOUT);
if (DEBUG_PAUSE) Log.v(TAG, "Waiting for pause to complete...");
} else {
// This activity failed to schedule the
// pause, so just treat it as being paused now.
if (DEBUG_PAUSE) Log.v(TAG, "Activity not running, resuming next.");
resumeTopActivityLocked(null);
}
}
private final void completePauseLocked() {
HistoryRecord prev = mPausingActivity;
if (DEBUG_PAUSE) Log.v(TAG, "Complete pause: " + prev);
if (prev != null) {
if (prev.finishing) {
if (DEBUG_PAUSE) Log.v(TAG, "Executing finish of activity: " + prev);
prev = finishCurrentActivityLocked(prev, FINISH_AFTER_VISIBLE);
} else if (prev.app != null) {
if (DEBUG_PAUSE) Log.v(TAG, "Enqueueing pending stop: " + prev);
if (prev.waitingVisible) {
prev.waitingVisible = false;
mWaitingVisibleActivities.remove(prev);
if (DEBUG_SWITCH || DEBUG_PAUSE) Log.v(
TAG, "Complete pause, no longer waiting: " + prev);
}
if (prev.configDestroy) {
// The previous is being paused because the configuration
// is changing, which means it is actually stopping...
// To juggle the fact that we are also starting a new
// instance right now, we need to first completely stop
// the current instance before starting the new one.
if (DEBUG_PAUSE) Log.v(TAG, "Destroying after pause: " + prev);
destroyActivityLocked(prev, true);
} else {
mStoppingActivities.add(prev);
if (mStoppingActivities.size() > 3) {
// If we already have a few activities waiting to stop,
// then give up on things going idle and start clearing
// them out.
if (DEBUG_PAUSE) Log.v(TAG, "To many pending stops, forcing idle");
Message msg = Message.obtain();
msg.what = ActivityManagerService.IDLE_NOW_MSG;
mHandler.sendMessage(msg);
}
}
} else {
if (DEBUG_PAUSE) Log.v(TAG, "App died during pause, not stopping: " + prev);
prev = null;
}
mPausingActivity = null;
}
if (!mSleeping && !mShuttingDown) {
resumeTopActivityLocked(prev);
} else {
if (mGoingToSleep.isHeld()) {
mGoingToSleep.release();
}
if (mShuttingDown) {
notifyAll();
}
}
if (prev != null) {
prev.resumeKeyDispatchingLocked();
}
if (prev.app != null && prev.cpuTimeAtResume > 0 && mBatteryStatsService.isOnBattery()) {
long diff = 0;
synchronized (mProcessStatsThread) {
diff = mProcessStats.getCpuTimeForPid(prev.app.pid) - prev.cpuTimeAtResume;
}
if (diff > 0) {
BatteryStatsImpl bsi = mBatteryStatsService.getActiveStatistics();
synchronized (bsi) {
BatteryStatsImpl.Uid.Proc ps =
bsi.getProcessStatsLocked(prev.info.applicationInfo.uid,
prev.info.packageName);
if (ps != null) {
ps.addForegroundTimeLocked(diff);
}
}
}
}
prev.cpuTimeAtResume = 0; // reset it
}
/**
* Once we know that we have asked an application to put an activity in
* the resumed state (either by launching it or explicitly telling it),
* this function updates the rest of our state to match that fact.
*/
private final void completeResumeLocked(HistoryRecord next) {
next.idle = false;
next.results = null;
next.newIntents = null;
// schedule an idle timeout in case the app doesn't do it for us.
Message msg = mHandler.obtainMessage(IDLE_TIMEOUT_MSG);
msg.obj = next;
mHandler.sendMessageDelayed(msg, IDLE_TIMEOUT);
if (false) {
// The activity was never told to pause, so just keep
// things going as-is. To maintain our own state,
// we need to emulate it coming back and saying it is
// idle.
msg = mHandler.obtainMessage(IDLE_NOW_MSG);
msg.obj = next;
mHandler.sendMessage(msg);
}
reportResumedActivityLocked(next);
next.thumbnail = null;
setFocusedActivityLocked(next);
next.resumeKeyDispatchingLocked();
ensureActivitiesVisibleLocked(null, 0);
mWindowManager.executeAppTransition();
mNoAnimActivities.clear();
// Mark the point when the activity is resuming
// TODO: To be more accurate, the mark should be before the onCreate,
// not after the onResume. But for subsequent starts, onResume is fine.
if (next.app != null) {
synchronized (mProcessStatsThread) {
next.cpuTimeAtResume = mProcessStats.getCpuTimeForPid(next.app.pid);
}
} else {
next.cpuTimeAtResume = 0; // Couldn't get the cpu time of process
}
}
/**
* Make sure that all activities that need to be visible (that is, they
* currently can be seen by the user) actually are.
*/
private final void ensureActivitiesVisibleLocked(HistoryRecord top,
HistoryRecord starting, String onlyThisProcess, int configChanges) {
if (DEBUG_VISBILITY) Log.v(
TAG, "ensureActivitiesVisible behind " + top
+ " configChanges=0x" + Integer.toHexString(configChanges));
// If the top activity is not fullscreen, then we need to
// make sure any activities under it are now visible.
final int count = mHistory.size();
int i = count-1;
while (mHistory.get(i) != top) {
i--;
}
HistoryRecord r;
boolean behindFullscreen = false;
for (; i>=0; i--) {
r = (HistoryRecord)mHistory.get(i);
if (DEBUG_VISBILITY) Log.v(
TAG, "Make visible? " + r + " finishing=" + r.finishing
+ " state=" + r.state);
if (r.finishing) {
continue;
}
final boolean doThisProcess = onlyThisProcess == null
|| onlyThisProcess.equals(r.processName);
// First: if this is not the current activity being started, make
// sure it matches the current configuration.
if (r != starting && doThisProcess) {
ensureActivityConfigurationLocked(r, 0);
}
if (r.app == null || r.app.thread == null) {
if (onlyThisProcess == null
|| onlyThisProcess.equals(r.processName)) {
// This activity needs to be visible, but isn't even
// running... get it started, but don't resume it
// at this point.
if (DEBUG_VISBILITY) Log.v(
TAG, "Start and freeze screen for " + r);
if (r != starting) {
r.startFreezingScreenLocked(r.app, configChanges);
}
if (!r.visible) {
if (DEBUG_VISBILITY) Log.v(
TAG, "Starting and making visible: " + r);
mWindowManager.setAppVisibility(r, true);
}
if (r != starting) {
startSpecificActivityLocked(r, false, false);
}
}
} else if (r.visible) {
// If this activity is already visible, then there is nothing
// else to do here.
if (DEBUG_VISBILITY) Log.v(
TAG, "Skipping: already visible at " + r);
r.stopFreezingScreenLocked(false);
} else if (onlyThisProcess == null) {
// This activity is not currently visible, but is running.
// Tell it to become visible.
r.visible = true;
if (r.state != ActivityState.RESUMED && r != starting) {
// If this activity is paused, tell it
// to now show its window.
if (DEBUG_VISBILITY) Log.v(
TAG, "Making visible and scheduling visibility: " + r);
try {
mWindowManager.setAppVisibility(r, true);
r.app.thread.scheduleWindowVisibility(r, true);
r.stopFreezingScreenLocked(false);
} catch (Exception e) {
// Just skip on any failure; we'll make it
// visible when it next restarts.
Log.w(TAG, "Exception thrown making visibile: "
+ r.intent.getComponent(), e);
}
}
}
// Aggregate current change flags.
configChanges |= r.configChangeFlags;
if (r.fullscreen) {
// At this point, nothing else needs to be shown
if (DEBUG_VISBILITY) Log.v(
TAG, "Stopping: fullscreen at " + r);
behindFullscreen = true;
i--;
break;
}
}
// Now for any activities that aren't visible to the user, make
// sure they no longer are keeping the screen frozen.
while (i >= 0) {
r = (HistoryRecord)mHistory.get(i);
if (DEBUG_VISBILITY) Log.v(
TAG, "Make invisible? " + r + " finishing=" + r.finishing
+ " state=" + r.state
+ " behindFullscreen=" + behindFullscreen);
if (!r.finishing) {
if (behindFullscreen) {
if (r.visible) {
if (DEBUG_VISBILITY) Log.v(
TAG, "Making invisible: " + r);
r.visible = false;
try {
mWindowManager.setAppVisibility(r, false);
if ((r.state == ActivityState.STOPPING
|| r.state == ActivityState.STOPPED)
&& r.app != null && r.app.thread != null) {
if (DEBUG_VISBILITY) Log.v(
TAG, "Scheduling invisibility: " + r);
r.app.thread.scheduleWindowVisibility(r, false);
}
} catch (Exception e) {
// Just skip on any failure; we'll make it
// visible when it next restarts.
Log.w(TAG, "Exception thrown making hidden: "
+ r.intent.getComponent(), e);
}
} else {
if (DEBUG_VISBILITY) Log.v(
TAG, "Already invisible: " + r);
}
} else if (r.fullscreen) {
if (DEBUG_VISBILITY) Log.v(
TAG, "Now behindFullscreen: " + r);
behindFullscreen = true;
}
}
i--;
}
}
/**
* Version of ensureActivitiesVisible that can easily be called anywhere.
*/
private final void ensureActivitiesVisibleLocked(HistoryRecord starting,
int configChanges) {
HistoryRecord r = topRunningActivityLocked(null);
if (r != null) {
ensureActivitiesVisibleLocked(r, starting, null, configChanges);
}
}
private void updateUsageStats(HistoryRecord resumedComponent, boolean resumed) {
if (resumed) {
mUsageStatsService.noteResumeComponent(resumedComponent.realActivity);
} else {
mUsageStatsService.notePauseComponent(resumedComponent.realActivity);
}
}
private boolean startHomeActivityLocked() {
if (mFactoryTest == SystemServer.FACTORY_TEST_LOW_LEVEL
&& mTopAction == null) {
// We are running in factory test mode, but unable to find
// the factory test app, so just sit around displaying the
// error message and don't try to start anything.
return false;
}
Intent intent = new Intent(
mTopAction,
mTopData != null ? Uri.parse(mTopData) : null);
intent.setComponent(mTopComponent);
if (mFactoryTest != SystemServer.FACTORY_TEST_LOW_LEVEL) {
intent.addCategory(Intent.CATEGORY_HOME);
}
ActivityInfo aInfo =
intent.resolveActivityInfo(mContext.getPackageManager(),
STOCK_PM_FLAGS);
if (aInfo != null) {
intent.setComponent(new ComponentName(
aInfo.applicationInfo.packageName, aInfo.name));
// Don't do this if the home app is currently being
// instrumented.
ProcessRecord app = getProcessRecordLocked(aInfo.processName,
aInfo.applicationInfo.uid);
if (app == null || app.instrumentationClass == null) {
intent.setFlags(intent.getFlags() | Intent.FLAG_ACTIVITY_NEW_TASK);
startActivityLocked(null, intent, null, null, 0, aInfo,
null, null, 0, 0, 0, false, false);
}
}
return true;
}
/**
* Starts the "new version setup screen" if appropriate.
*/
private void startSetupActivityLocked() {
// Only do this once per boot.
if (mCheckedForSetup) {
return;
}
// We will show this screen if the current one is a different
// version than the last one shown, and we are not running in
// low-level factory test mode.
final ContentResolver resolver = mContext.getContentResolver();
if (mFactoryTest != SystemServer.FACTORY_TEST_LOW_LEVEL &&
Settings.Secure.getInt(resolver,
Settings.Secure.DEVICE_PROVISIONED, 0) != 0) {
mCheckedForSetup = true;
// See if we should be showing the platform update setup UI.
Intent intent = new Intent(Intent.ACTION_UPGRADE_SETUP);
List<ResolveInfo> ris = mSelf.mContext.getPackageManager()
.queryIntentActivities(intent, PackageManager.GET_META_DATA);
// We don't allow third party apps to replace this.
ResolveInfo ri = null;
for (int i=0; ris != null && i<ris.size(); i++) {
if ((ris.get(i).activityInfo.applicationInfo.flags
& ApplicationInfo.FLAG_SYSTEM) != 0) {
ri = ris.get(i);
break;
}
}
if (ri != null) {
String vers = ri.activityInfo.metaData != null
? ri.activityInfo.metaData.getString(Intent.METADATA_SETUP_VERSION)
: null;
if (vers == null && ri.activityInfo.applicationInfo.metaData != null) {
vers = ri.activityInfo.applicationInfo.metaData.getString(
Intent.METADATA_SETUP_VERSION);
}
String lastVers = Settings.Secure.getString(
resolver, Settings.Secure.LAST_SETUP_SHOWN);
if (vers != null && !vers.equals(lastVers)) {
intent.setFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
intent.setComponent(new ComponentName(
ri.activityInfo.packageName, ri.activityInfo.name));
startActivityLocked(null, intent, null, null, 0, ri.activityInfo,
null, null, 0, 0, 0, false, false);
}
}
}
}
private void reportResumedActivityLocked(HistoryRecord r) {
//Log.i(TAG, "**** REPORT RESUME: " + r);
final int identHash = System.identityHashCode(r);
updateUsageStats(r, true);
int i = mWatchers.beginBroadcast();
while (i > 0) {
i--;
IActivityWatcher w = mWatchers.getBroadcastItem(i);
if (w != null) {
try {
w.activityResuming(identHash);
} catch (RemoteException e) {
}
}
}
mWatchers.finishBroadcast();
}
/**
* Ensure that the top activity in the stack is resumed.
*
* @param prev The previously resumed activity, for when in the process
* of pausing; can be null to call from elsewhere.
*
* @return Returns true if something is being resumed, or false if
* nothing happened.
*/
private final boolean resumeTopActivityLocked(HistoryRecord prev) {
// Find the first activity that is not finishing.
HistoryRecord next = topRunningActivityLocked(null);
// Remember how we'll process this pause/resume situation, and ensure
// that the state is reset however we wind up proceeding.
final boolean userLeaving = mUserLeaving;
mUserLeaving = false;
if (next == null) {
// There are no more activities! Let's just start up the
// Launcher...
return startHomeActivityLocked();
}
next.delayedResume = false;
// If the top activity is the resumed one, nothing to do.
if (mResumedActivity == next && next.state == ActivityState.RESUMED) {
// Make sure we have executed any pending transitions, since there
// should be nothing left to do at this point.
mWindowManager.executeAppTransition();
mNoAnimActivities.clear();
return false;
}
// If we are sleeping, and there is no resumed activity, and the top
// activity is paused, well that is the state we want.
if ((mSleeping || mShuttingDown)
&& mLastPausedActivity == next && next.state == ActivityState.PAUSED) {
// Make sure we have executed any pending transitions, since there
// should be nothing left to do at this point.
mWindowManager.executeAppTransition();
mNoAnimActivities.clear();
return false;
}
// The activity may be waiting for stop, but that is no longer
// appropriate for it.
mStoppingActivities.remove(next);
mWaitingVisibleActivities.remove(next);
if (DEBUG_SWITCH) Log.v(TAG, "Resuming " + next);
// If we are currently pausing an activity, then don't do anything
// until that is done.
if (mPausingActivity != null) {
if (DEBUG_SWITCH) Log.v(TAG, "Skip resume: pausing=" + mPausingActivity);
return false;
}
// We need to start pausing the current activity so the top one
// can be resumed...
if (mResumedActivity != null) {
if (DEBUG_SWITCH) Log.v(TAG, "Skip resume: need to start pausing");
startPausingLocked(userLeaving, false);
return true;
}
if (prev != null && prev != next) {
if (!prev.waitingVisible && next != null && !next.nowVisible) {
prev.waitingVisible = true;
mWaitingVisibleActivities.add(prev);
if (DEBUG_SWITCH) Log.v(
TAG, "Resuming top, waiting visible to hide: " + prev);
} else {
// The next activity is already visible, so hide the previous
// activity's windows right now so we can show the new one ASAP.
// We only do this if the previous is finishing, which should mean
// it is on top of the one being resumed so hiding it quickly
// is good. Otherwise, we want to do the normal route of allowing
// the resumed activity to be shown so we can decide if the
// previous should actually be hidden depending on whether the
// new one is found to be full-screen or not.
if (prev.finishing) {
mWindowManager.setAppVisibility(prev, false);
if (DEBUG_SWITCH) Log.v(TAG, "Not waiting for visible to hide: "
+ prev + ", waitingVisible="
+ (prev != null ? prev.waitingVisible : null)
+ ", nowVisible=" + next.nowVisible);
} else {
if (DEBUG_SWITCH) Log.v(TAG, "Previous already visible but still waiting to hide: "
+ prev + ", waitingVisible="
+ (prev != null ? prev.waitingVisible : null)
+ ", nowVisible=" + next.nowVisible);
}
}
}
// We are starting up the next activity, so tell the window manager
// that the previous one will be hidden soon. This way it can know
// to ignore it when computing the desired screen orientation.
if (prev != null) {
if (prev.finishing) {
if (DEBUG_TRANSITION) Log.v(TAG,
"Prepare close transition: prev=" + prev);
if (mNoAnimActivities.contains(prev)) {
mWindowManager.prepareAppTransition(WindowManagerPolicy.TRANSIT_NONE);
} else {
mWindowManager.prepareAppTransition(prev.task == next.task
? WindowManagerPolicy.TRANSIT_ACTIVITY_CLOSE
: WindowManagerPolicy.TRANSIT_TASK_CLOSE);
}
mWindowManager.setAppWillBeHidden(prev);
mWindowManager.setAppVisibility(prev, false);
} else {
if (DEBUG_TRANSITION) Log.v(TAG,
"Prepare open transition: prev=" + prev);
if (mNoAnimActivities.contains(next)) {
mWindowManager.prepareAppTransition(WindowManagerPolicy.TRANSIT_NONE);
} else {
mWindowManager.prepareAppTransition(prev.task == next.task
? WindowManagerPolicy.TRANSIT_ACTIVITY_OPEN
: WindowManagerPolicy.TRANSIT_TASK_OPEN);
}
}
if (false) {
mWindowManager.setAppWillBeHidden(prev);
mWindowManager.setAppVisibility(prev, false);
}
} else if (mHistory.size() > 1) {
if (DEBUG_TRANSITION) Log.v(TAG,
"Prepare open transition: no previous");
if (mNoAnimActivities.contains(next)) {
mWindowManager.prepareAppTransition(WindowManagerPolicy.TRANSIT_NONE);
} else {
mWindowManager.prepareAppTransition(WindowManagerPolicy.TRANSIT_ACTIVITY_OPEN);
}
}
if (next.app != null && next.app.thread != null) {
if (DEBUG_SWITCH) Log.v(TAG, "Resume running: " + next);
// This activity is now becoming visible.
mWindowManager.setAppVisibility(next, true);
HistoryRecord lastResumedActivity = mResumedActivity;
ActivityState lastState = next.state;
updateCpuStats();
next.state = ActivityState.RESUMED;
mResumedActivity = next;
next.task.touchActiveTime();
updateLruProcessLocked(next.app, true, true);
updateLRUListLocked(next);
// Have the window manager re-evaluate the orientation of
// the screen based on the new activity order.
boolean updated;
synchronized (this) {
Configuration config = mWindowManager.updateOrientationFromAppTokens(
mConfiguration,
next.mayFreezeScreenLocked(next.app) ? next : null);
if (config != null) {
/*
* Explicitly restore the locale to the one from the
* old configuration, since the one that comes back from
* the window manager has the default (boot) locale.
*
* It looks like previously the locale picker only worked
* by coincidence: usually it would do its setting of
* the locale after the activity transition, so it didn't
* matter that this lost it. With the synchronized
* block now keeping them from happening at the same time,
* this one always would happen second and undo what the
* locale picker had just done.
*/
config.locale = mConfiguration.locale;
next.frozenBeforeDestroy = true;
}
updated = updateConfigurationLocked(config, next);
}
if (!updated) {
// The configuration update wasn't able to keep the existing
// instance of the activity, and instead started a new one.
// We should be all done, but let's just make sure our activity
// is still at the top and schedule another run if something
// weird happened.
HistoryRecord nextNext = topRunningActivityLocked(null);
if (DEBUG_SWITCH) Log.i(TAG,
"Activity config changed during resume: " + next
+ ", new next: " + nextNext);
if (nextNext != next) {
// Do over!
mHandler.sendEmptyMessage(RESUME_TOP_ACTIVITY_MSG);
}
setFocusedActivityLocked(next);
ensureActivitiesVisibleLocked(null, 0);
mWindowManager.executeAppTransition();
mNoAnimActivities.clear();
return true;
}
try {
// Deliver all pending results.
ArrayList a = next.results;
if (a != null) {
final int N = a.size();
if (!next.finishing && N > 0) {
if (DEBUG_RESULTS) Log.v(
TAG, "Delivering results to " + next
+ ": " + a);
next.app.thread.scheduleSendResult(next, a);
}
}
if (next.newIntents != null) {
next.app.thread.scheduleNewIntent(next.newIntents, next);
}
EventLog.writeEvent(EventLogTags.AM_RESUME_ACTIVITY,
System.identityHashCode(next),
next.task.taskId, next.shortComponentName);
next.app.thread.scheduleResumeActivity(next,
isNextTransitionForward());
pauseIfSleepingLocked();
} catch (Exception e) {
// Whoops, need to restart this activity!
next.state = lastState;
mResumedActivity = lastResumedActivity;
Log.i(TAG, "Restarting because process died: " + next);
if (!next.hasBeenLaunched) {
next.hasBeenLaunched = true;
} else {
if (SHOW_APP_STARTING_ICON) {
mWindowManager.setAppStartingWindow(
next, next.packageName, next.theme,
next.nonLocalizedLabel,
next.labelRes, next.icon, null, true);
}
}
startSpecificActivityLocked(next, true, false);
return true;
}
// From this point on, if something goes wrong there is no way
// to recover the activity.
try {
next.visible = true;
completeResumeLocked(next);
} catch (Exception e) {
// If any exception gets thrown, toss away this
// activity and try the next one.
Log.w(TAG, "Exception thrown during resume of " + next, e);
requestFinishActivityLocked(next, Activity.RESULT_CANCELED, null,
"resume-exception");
return true;
}
// Didn't need to use the icicle, and it is now out of date.
next.icicle = null;
next.haveState = false;
next.stopped = false;
} else {
// Whoops, need to restart this activity!
if (!next.hasBeenLaunched) {
next.hasBeenLaunched = true;
} else {
if (SHOW_APP_STARTING_ICON) {
mWindowManager.setAppStartingWindow(
next, next.packageName, next.theme,
next.nonLocalizedLabel,
next.labelRes, next.icon, null, true);
}
if (DEBUG_SWITCH) Log.v(TAG, "Restarting: " + next);
}
startSpecificActivityLocked(next, true, true);
}
return true;
}
private final void startActivityLocked(HistoryRecord r, boolean newTask,
boolean doResume) {
final int NH = mHistory.size();
int addPos = -1;
if (!newTask) {
// If starting in an existing task, find where that is...
HistoryRecord next = null;
boolean startIt = true;
for (int i = NH-1; i >= 0; i--) {
HistoryRecord p = (HistoryRecord)mHistory.get(i);
if (p.finishing) {
continue;
}
if (p.task == r.task) {
// Here it is! Now, if this is not yet visible to the
// user, then just add it without starting; it will
// get started when the user navigates back to it.
addPos = i+1;
if (!startIt) {
mHistory.add(addPos, r);
r.inHistory = true;
r.task.numActivities++;
mWindowManager.addAppToken(addPos, r, r.task.taskId,
r.info.screenOrientation, r.fullscreen);
if (VALIDATE_TOKENS) {
mWindowManager.validateAppTokens(mHistory);
}
return;
}
break;
}
if (p.fullscreen) {
startIt = false;
}
next = p;
}
}
// Place a new activity at top of stack, so it is next to interact
// with the user.
if (addPos < 0) {
addPos = mHistory.size();
}
// If we are not placing the new activity frontmost, we do not want
// to deliver the onUserLeaving callback to the actual frontmost
// activity
if (addPos < NH) {
mUserLeaving = false;
if (DEBUG_USER_LEAVING) Log.v(TAG, "startActivity() behind front, mUserLeaving=false");
}
// Slot the activity into the history stack and proceed
mHistory.add(addPos, r);
r.inHistory = true;
r.frontOfTask = newTask;
r.task.numActivities++;
if (NH > 0) {
// We want to show the starting preview window if we are
// switching to a new task, or the next activity's process is
// not currently running.
boolean showStartingIcon = newTask;
ProcessRecord proc = r.app;
if (proc == null) {
proc = mProcessNames.get(r.processName, r.info.applicationInfo.uid);
}
if (proc == null || proc.thread == null) {
showStartingIcon = true;
}
if (DEBUG_TRANSITION) Log.v(TAG,
"Prepare open transition: starting " + r);
if ((r.intent.getFlags()&Intent.FLAG_ACTIVITY_NO_ANIMATION) != 0) {
mWindowManager.prepareAppTransition(WindowManagerPolicy.TRANSIT_NONE);
mNoAnimActivities.add(r);
} else if ((r.intent.getFlags()&Intent.FLAG_ACTIVITY_CLEAR_WHEN_TASK_RESET) != 0) {
mWindowManager.prepareAppTransition(WindowManagerPolicy.TRANSIT_TASK_OPEN);
mNoAnimActivities.remove(r);
} else {
mWindowManager.prepareAppTransition(newTask
? WindowManagerPolicy.TRANSIT_TASK_OPEN
: WindowManagerPolicy.TRANSIT_ACTIVITY_OPEN);
mNoAnimActivities.remove(r);
}
mWindowManager.addAppToken(
addPos, r, r.task.taskId, r.info.screenOrientation, r.fullscreen);
boolean doShow = true;
if (newTask) {
// Even though this activity is starting fresh, we still need
// to reset it to make sure we apply affinities to move any
// existing activities from other tasks in to it.
// If the caller has requested that the target task be
// reset, then do so.
if ((r.intent.getFlags()
&Intent.FLAG_ACTIVITY_RESET_TASK_IF_NEEDED) != 0) {
resetTaskIfNeededLocked(r, r);
doShow = topRunningNonDelayedActivityLocked(null) == r;
}
}
if (SHOW_APP_STARTING_ICON && doShow) {
// Figure out if we are transitioning from another activity that is
// "has the same starting icon" as the next one. This allows the
// window manager to keep the previous window it had previously
// created, if it still had one.
HistoryRecord prev = mResumedActivity;
if (prev != null) {
// We don't want to reuse the previous starting preview if:
// (1) The current activity is in a different task.
if (prev.task != r.task) prev = null;
// (2) The current activity is already displayed.
else if (prev.nowVisible) prev = null;
}
mWindowManager.setAppStartingWindow(
r, r.packageName, r.theme, r.nonLocalizedLabel,
r.labelRes, r.icon, prev, showStartingIcon);
}
} else {
// If this is the first activity, don't do any fancy animations,
// because there is nothing for it to animate on top of.
mWindowManager.addAppToken(addPos, r, r.task.taskId,
r.info.screenOrientation, r.fullscreen);
}
if (VALIDATE_TOKENS) {
mWindowManager.validateAppTokens(mHistory);
}
if (doResume) {
resumeTopActivityLocked(null);
}
}
/**
* Perform clear operation as requested by
* {@link Intent#FLAG_ACTIVITY_CLEAR_TOP}: search from the top of the
* stack to the given task, then look for
* an instance of that activity in the stack and, if found, finish all
* activities on top of it and return the instance.
*
* @param newR Description of the new activity being started.
* @return Returns the old activity that should be continue to be used,
* or null if none was found.
*/
private final HistoryRecord performClearTaskLocked(int taskId,
HistoryRecord newR, int launchFlags, boolean doClear) {
int i = mHistory.size();
// First find the requested task.
while (i > 0) {
i--;
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (r.task.taskId == taskId) {
i++;
break;
}
}
// Now clear it.
while (i > 0) {
i--;
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (r.finishing) {
continue;
}
if (r.task.taskId != taskId) {
return null;
}
if (r.realActivity.equals(newR.realActivity)) {
// Here it is! Now finish everything in front...
HistoryRecord ret = r;
if (doClear) {
while (i < (mHistory.size()-1)) {
i++;
r = (HistoryRecord)mHistory.get(i);
if (r.finishing) {
continue;
}
if (finishActivityLocked(r, i, Activity.RESULT_CANCELED,
null, "clear")) {
i--;
}
}
}
// Finally, if this is a normal launch mode (that is, not
// expecting onNewIntent()), then we will finish the current
// instance of the activity so a new fresh one can be started.
if (ret.launchMode == ActivityInfo.LAUNCH_MULTIPLE
&& (launchFlags&Intent.FLAG_ACTIVITY_SINGLE_TOP) == 0) {
if (!ret.finishing) {
int index = indexOfTokenLocked(ret);
if (index >= 0) {
finishActivityLocked(ret, 0, Activity.RESULT_CANCELED,
null, "clear");
}
return null;
}
}
return ret;
}
}
return null;
}
/**
* Find the activity in the history stack within the given task. Returns
* the index within the history at which it's found, or < 0 if not found.
*/
private final int findActivityInHistoryLocked(HistoryRecord r, int task) {
int i = mHistory.size();
while (i > 0) {
i--;
HistoryRecord candidate = (HistoryRecord)mHistory.get(i);
if (candidate.task.taskId != task) {
break;
}
if (candidate.realActivity.equals(r.realActivity)) {
return i;
}
}
return -1;
}
/**
* Reorder the history stack so that the activity at the given index is
* brought to the front.
*/
private final HistoryRecord moveActivityToFrontLocked(int where) {
HistoryRecord newTop = (HistoryRecord)mHistory.remove(where);
int top = mHistory.size();
HistoryRecord oldTop = (HistoryRecord)mHistory.get(top-1);
mHistory.add(top, newTop);
oldTop.frontOfTask = false;
newTop.frontOfTask = true;
return newTop;
}
/**
* Deliver a new Intent to an existing activity, so that its onNewIntent()
* method will be called at the proper time.
*/
private final void deliverNewIntentLocked(HistoryRecord r, Intent intent) {
boolean sent = false;
if (r.state == ActivityState.RESUMED
&& r.app != null && r.app.thread != null) {
try {
ArrayList<Intent> ar = new ArrayList<Intent>();
ar.add(new Intent(intent));
r.app.thread.scheduleNewIntent(ar, r);
sent = true;
} catch (Exception e) {
Log.w(TAG, "Exception thrown sending new intent to " + r, e);
}
}
if (!sent) {
r.addNewIntentLocked(new Intent(intent));
}
}
private final void logStartActivity(int tag, HistoryRecord r,
TaskRecord task) {
EventLog.writeEvent(tag,
System.identityHashCode(r), task.taskId,
r.shortComponentName, r.intent.getAction(),
r.intent.getType(), r.intent.getDataString(),
r.intent.getFlags());
}
private final int startActivityLocked(IApplicationThread caller,
Intent intent, String resolvedType,
Uri[] grantedUriPermissions,
int grantedMode, ActivityInfo aInfo, IBinder resultTo,
String resultWho, int requestCode,
int callingPid, int callingUid, boolean onlyIfNeeded,
boolean componentSpecified) {
Log.i(TAG, "Starting activity: " + intent);
HistoryRecord sourceRecord = null;
HistoryRecord resultRecord = null;
if (resultTo != null) {
int index = indexOfTokenLocked(resultTo);
if (DEBUG_RESULTS) Log.v(
TAG, "Sending result to " + resultTo + " (index " + index + ")");
if (index >= 0) {
sourceRecord = (HistoryRecord)mHistory.get(index);
if (requestCode >= 0 && !sourceRecord.finishing) {
resultRecord = sourceRecord;
}
}
}
int launchFlags = intent.getFlags();
if ((launchFlags&Intent.FLAG_ACTIVITY_FORWARD_RESULT) != 0
&& sourceRecord != null) {
// Transfer the result target from the source activity to the new
// one being started, including any failures.
if (requestCode >= 0) {
return START_FORWARD_AND_REQUEST_CONFLICT;
}
resultRecord = sourceRecord.resultTo;
resultWho = sourceRecord.resultWho;
requestCode = sourceRecord.requestCode;
sourceRecord.resultTo = null;
if (resultRecord != null) {
resultRecord.removeResultsLocked(
sourceRecord, resultWho, requestCode);
}
}
int err = START_SUCCESS;
if (intent.getComponent() == null) {
// We couldn't find a class that can handle the given Intent.
// That's the end of that!
err = START_INTENT_NOT_RESOLVED;
}
if (err == START_SUCCESS && aInfo == null) {
// We couldn't find the specific class specified in the Intent.
// Also the end of the line.
err = START_CLASS_NOT_FOUND;
}
ProcessRecord callerApp = null;
if (err == START_SUCCESS && caller != null) {
callerApp = getRecordForAppLocked(caller);
if (callerApp != null) {
callingPid = callerApp.pid;
callingUid = callerApp.info.uid;
} else {
Log.w(TAG, "Unable to find app for caller " + caller
+ " (pid=" + callingPid + ") when starting: "
+ intent.toString());
err = START_PERMISSION_DENIED;
}
}
if (err != START_SUCCESS) {
if (resultRecord != null) {
sendActivityResultLocked(-1,
resultRecord, resultWho, requestCode,
Activity.RESULT_CANCELED, null);
}
return err;
}
final int perm = checkComponentPermission(aInfo.permission, callingPid,
callingUid, aInfo.exported ? -1 : aInfo.applicationInfo.uid);
if (perm != PackageManager.PERMISSION_GRANTED) {
if (resultRecord != null) {
sendActivityResultLocked(-1,
resultRecord, resultWho, requestCode,
Activity.RESULT_CANCELED, null);
}
String msg = "Permission Denial: starting " + intent.toString()
+ " from " + callerApp + " (pid=" + callingPid
+ ", uid=" + callingUid + ")"
+ " requires " + aInfo.permission;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
if (mController != null) {
boolean abort = false;
try {
// The Intent we give to the watcher has the extra data
// stripped off, since it can contain private information.
Intent watchIntent = intent.cloneFilter();
abort = !mController.activityStarting(watchIntent,
aInfo.applicationInfo.packageName);
} catch (RemoteException e) {
mController = null;
}
if (abort) {
if (resultRecord != null) {
sendActivityResultLocked(-1,
resultRecord, resultWho, requestCode,
Activity.RESULT_CANCELED, null);
}
// We pretend to the caller that it was really started, but
// they will just get a cancel result.
return START_SUCCESS;
}
}
HistoryRecord r = new HistoryRecord(this, callerApp, callingUid,
intent, resolvedType, aInfo, mConfiguration,
resultRecord, resultWho, requestCode, componentSpecified);
if (mResumedActivity == null
|| mResumedActivity.info.applicationInfo.uid != callingUid) {
if (!checkAppSwitchAllowedLocked(callingPid, callingUid, "Activity start")) {
PendingActivityLaunch pal = new PendingActivityLaunch();
pal.r = r;
pal.sourceRecord = sourceRecord;
pal.grantedUriPermissions = grantedUriPermissions;
pal.grantedMode = grantedMode;
pal.onlyIfNeeded = onlyIfNeeded;
mPendingActivityLaunches.add(pal);
return START_SWITCHES_CANCELED;
}
}
if (mDidAppSwitch) {
// This is the second allowed switch since we stopped switches,
// so now just generally allow switches. Use case: user presses
// home (switches disabled, switch to home, mDidAppSwitch now true);
// user taps a home icon (coming from home so allowed, we hit here
// and now allow anyone to switch again).
mAppSwitchesAllowedTime = 0;
} else {
mDidAppSwitch = true;
}
doPendingActivityLaunchesLocked(false);
return startActivityUncheckedLocked(r, sourceRecord,
grantedUriPermissions, grantedMode, onlyIfNeeded, true);
}
private final void doPendingActivityLaunchesLocked(boolean doResume) {
final int N = mPendingActivityLaunches.size();
if (N <= 0) {
return;
}
for (int i=0; i<N; i++) {
PendingActivityLaunch pal = mPendingActivityLaunches.get(i);
startActivityUncheckedLocked(pal.r, pal.sourceRecord,
pal.grantedUriPermissions, pal.grantedMode, pal.onlyIfNeeded,
doResume && i == (N-1));
}
mPendingActivityLaunches.clear();
}
private final int startActivityUncheckedLocked(HistoryRecord r,
HistoryRecord sourceRecord, Uri[] grantedUriPermissions,
int grantedMode, boolean onlyIfNeeded, boolean doResume) {
final Intent intent = r.intent;
final int callingUid = r.launchedFromUid;
int launchFlags = intent.getFlags();
// We'll invoke onUserLeaving before onPause only if the launching
// activity did not explicitly state that this is an automated launch.
mUserLeaving = (launchFlags&Intent.FLAG_ACTIVITY_NO_USER_ACTION) == 0;
if (DEBUG_USER_LEAVING) Log.v(TAG,
"startActivity() => mUserLeaving=" + mUserLeaving);
// If the caller has asked not to resume at this point, we make note
// of this in the record so that we can skip it when trying to find
// the top running activity.
if (!doResume) {
r.delayedResume = true;
}
HistoryRecord notTop = (launchFlags&Intent.FLAG_ACTIVITY_PREVIOUS_IS_TOP)
!= 0 ? r : null;
// If the onlyIfNeeded flag is set, then we can do this if the activity
// being launched is the same as the one making the call... or, as
// a special case, if we do not know the caller then we count the
// current top activity as the caller.
if (onlyIfNeeded) {
HistoryRecord checkedCaller = sourceRecord;
if (checkedCaller == null) {
checkedCaller = topRunningNonDelayedActivityLocked(notTop);
}
if (!checkedCaller.realActivity.equals(r.realActivity)) {
// Caller is not the same as launcher, so always needed.
onlyIfNeeded = false;
}
}
if (grantedUriPermissions != null && callingUid > 0) {
for (int i=0; i<grantedUriPermissions.length; i++) {
grantUriPermissionLocked(callingUid, r.packageName,
grantedUriPermissions[i], grantedMode, r);
}
}
grantUriPermissionFromIntentLocked(callingUid, r.packageName,
intent, r);
if (sourceRecord == null) {
// This activity is not being started from another... in this
// case we -always- start a new task.
if ((launchFlags&Intent.FLAG_ACTIVITY_NEW_TASK) == 0) {
Log.w(TAG, "startActivity called from non-Activity context; forcing Intent.FLAG_ACTIVITY_NEW_TASK for: "
+ intent);
launchFlags |= Intent.FLAG_ACTIVITY_NEW_TASK;
}
} else if (sourceRecord.launchMode == ActivityInfo.LAUNCH_SINGLE_INSTANCE) {
// The original activity who is starting us is running as a single
// instance... this new activity it is starting must go on its
// own task.
launchFlags |= Intent.FLAG_ACTIVITY_NEW_TASK;
} else if (r.launchMode == ActivityInfo.LAUNCH_SINGLE_INSTANCE
|| r.launchMode == ActivityInfo.LAUNCH_SINGLE_TASK) {
// The activity being started is a single instance... it always
// gets launched into its own task.
launchFlags |= Intent.FLAG_ACTIVITY_NEW_TASK;
}
if (r.resultTo != null && (launchFlags&Intent.FLAG_ACTIVITY_NEW_TASK) != 0) {
// For whatever reason this activity is being launched into a new
// task... yet the caller has requested a result back. Well, that
// is pretty messed up, so instead immediately send back a cancel
// and let the new task continue launched as normal without a
// dependency on its originator.
Log.w(TAG, "Activity is launching as a new task, so cancelling activity result.");
sendActivityResultLocked(-1,
r.resultTo, r.resultWho, r.requestCode,
Activity.RESULT_CANCELED, null);
r.resultTo = null;
}
boolean addingToTask = false;
if (((launchFlags&Intent.FLAG_ACTIVITY_NEW_TASK) != 0 &&
(launchFlags&Intent.FLAG_ACTIVITY_MULTIPLE_TASK) == 0)
|| r.launchMode == ActivityInfo.LAUNCH_SINGLE_TASK
|| r.launchMode == ActivityInfo.LAUNCH_SINGLE_INSTANCE) {
// If bring to front is requested, and no result is requested, and
// we can find a task that was started with this same
// component, then instead of launching bring that one to the front.
if (r.resultTo == null) {
// See if there is a task to bring to the front. If this is
// a SINGLE_INSTANCE activity, there can be one and only one
// instance of it in the history, and it is always in its own
// unique task, so we do a special search.
HistoryRecord taskTop = r.launchMode != ActivityInfo.LAUNCH_SINGLE_INSTANCE
? findTaskLocked(intent, r.info)
: findActivityLocked(intent, r.info);
if (taskTop != null) {
if (taskTop.task.intent == null) {
// This task was started because of movement of
// the activity based on affinity... now that we
// are actually launching it, we can assign the
// base intent.
taskTop.task.setIntent(intent, r.info);
}
// If the target task is not in the front, then we need
// to bring it to the front... except... well, with
// SINGLE_TASK_LAUNCH it's not entirely clear. We'd like
// to have the same behavior as if a new instance was
// being started, which means not bringing it to the front
// if the caller is not itself in the front.
HistoryRecord curTop = topRunningNonDelayedActivityLocked(notTop);
if (curTop.task != taskTop.task) {
r.intent.addFlags(Intent.FLAG_ACTIVITY_BROUGHT_TO_FRONT);
boolean callerAtFront = sourceRecord == null
|| curTop.task == sourceRecord.task;
if (callerAtFront) {
// We really do want to push this one into the
// user's face, right now.
moveTaskToFrontLocked(taskTop.task, r);
}
}
// If the caller has requested that the target task be
// reset, then do so.
if ((launchFlags&Intent.FLAG_ACTIVITY_RESET_TASK_IF_NEEDED) != 0) {
taskTop = resetTaskIfNeededLocked(taskTop, r);
}
if (onlyIfNeeded) {
// We don't need to start a new activity, and
// the client said not to do anything if that
// is the case, so this is it! And for paranoia, make
// sure we have correctly resumed the top activity.
if (doResume) {
resumeTopActivityLocked(null);
}
return START_RETURN_INTENT_TO_CALLER;
}
if ((launchFlags&Intent.FLAG_ACTIVITY_CLEAR_TOP) != 0
|| r.launchMode == ActivityInfo.LAUNCH_SINGLE_TASK
|| r.launchMode == ActivityInfo.LAUNCH_SINGLE_INSTANCE) {
// In this situation we want to remove all activities
// from the task up to the one being started. In most
// cases this means we are resetting the task to its
// initial state.
HistoryRecord top = performClearTaskLocked(
taskTop.task.taskId, r, launchFlags, true);
if (top != null) {
if (top.frontOfTask) {
// Activity aliases may mean we use different
// intents for the top activity, so make sure
// the task now has the identity of the new
// intent.
top.task.setIntent(r.intent, r.info);
}
logStartActivity(EventLogTags.AM_NEW_INTENT, r, top.task);
deliverNewIntentLocked(top, r.intent);
} else {
// A special case: we need to
// start the activity because it is not currently
// running, and the caller has asked to clear the
// current task to have this activity at the top.
addingToTask = true;
// Now pretend like this activity is being started
// by the top of its task, so it is put in the
// right place.
sourceRecord = taskTop;
}
} else if (r.realActivity.equals(taskTop.task.realActivity)) {
// In this case the top activity on the task is the
// same as the one being launched, so we take that
// as a request to bring the task to the foreground.
// If the top activity in the task is the root
// activity, deliver this new intent to it if it
// desires.
if ((launchFlags&Intent.FLAG_ACTIVITY_SINGLE_TOP) != 0
&& taskTop.realActivity.equals(r.realActivity)) {
logStartActivity(EventLogTags.AM_NEW_INTENT, r, taskTop.task);
if (taskTop.frontOfTask) {
taskTop.task.setIntent(r.intent, r.info);
}
deliverNewIntentLocked(taskTop, r.intent);
} else if (!r.intent.filterEquals(taskTop.task.intent)) {
// In this case we are launching the root activity
// of the task, but with a different intent. We
// should start a new instance on top.
addingToTask = true;
sourceRecord = taskTop;
}
} else if ((launchFlags&Intent.FLAG_ACTIVITY_RESET_TASK_IF_NEEDED) == 0) {
// In this case an activity is being launched in to an
// existing task, without resetting that task. This
// is typically the situation of launching an activity
// from a notification or shortcut. We want to place
// the new activity on top of the current task.
addingToTask = true;
sourceRecord = taskTop;
} else if (!taskTop.task.rootWasReset) {
// In this case we are launching in to an existing task
// that has not yet been started from its front door.
// The current task has been brought to the front.
// Ideally, we'd probably like to place this new task
// at the bottom of its stack, but that's a little hard
// to do with the current organization of the code so
// for now we'll just drop it.
taskTop.task.setIntent(r.intent, r.info);
}
if (!addingToTask) {
// We didn't do anything... but it was needed (a.k.a., client
// don't use that intent!) And for paranoia, make
// sure we have correctly resumed the top activity.
if (doResume) {
resumeTopActivityLocked(null);
}
return START_TASK_TO_FRONT;
}
}
}
}
//String uri = r.intent.toURI();
//Intent intent2 = new Intent(uri);
//Log.i(TAG, "Given intent: " + r.intent);
//Log.i(TAG, "URI is: " + uri);
//Log.i(TAG, "To intent: " + intent2);
if (r.packageName != null) {
// If the activity being launched is the same as the one currently
// at the top, then we need to check if it should only be launched
// once.
HistoryRecord top = topRunningNonDelayedActivityLocked(notTop);
if (top != null && r.resultTo == null) {
if (top.realActivity.equals(r.realActivity)) {
if (top.app != null && top.app.thread != null) {
if ((launchFlags&Intent.FLAG_ACTIVITY_SINGLE_TOP) != 0
|| r.launchMode == ActivityInfo.LAUNCH_SINGLE_TOP
|| r.launchMode == ActivityInfo.LAUNCH_SINGLE_TASK) {
logStartActivity(EventLogTags.AM_NEW_INTENT, top, top.task);
// For paranoia, make sure we have correctly
// resumed the top activity.
if (doResume) {
resumeTopActivityLocked(null);
}
if (onlyIfNeeded) {
// We don't need to start a new activity, and
// the client said not to do anything if that
// is the case, so this is it!
return START_RETURN_INTENT_TO_CALLER;
}
deliverNewIntentLocked(top, r.intent);
return START_DELIVERED_TO_TOP;
}
}
}
}
} else {
if (r.resultTo != null) {
sendActivityResultLocked(-1,
r.resultTo, r.resultWho, r.requestCode,
Activity.RESULT_CANCELED, null);
}
return START_CLASS_NOT_FOUND;
}
boolean newTask = false;
// Should this be considered a new task?
if (r.resultTo == null && !addingToTask
&& (launchFlags&Intent.FLAG_ACTIVITY_NEW_TASK) != 0) {
// todo: should do better management of integers.
mCurTask++;
if (mCurTask <= 0) {
mCurTask = 1;
}
r.task = new TaskRecord(mCurTask, r.info, intent,
(r.info.flags&ActivityInfo.FLAG_CLEAR_TASK_ON_LAUNCH) != 0);
if (DEBUG_TASKS) Log.v(TAG, "Starting new activity " + r
+ " in new task " + r.task);
newTask = true;
addRecentTask(r.task);
} else if (sourceRecord != null) {
if (!addingToTask &&
(launchFlags&Intent.FLAG_ACTIVITY_CLEAR_TOP) != 0) {
// In this case, we are adding the activity to an existing
// task, but the caller has asked to clear that task if the
// activity is already running.
HistoryRecord top = performClearTaskLocked(
sourceRecord.task.taskId, r, launchFlags, true);
if (top != null) {
logStartActivity(EventLogTags.AM_NEW_INTENT, r, top.task);
deliverNewIntentLocked(top, r.intent);
// For paranoia, make sure we have correctly
// resumed the top activity.
if (doResume) {
resumeTopActivityLocked(null);
}
return START_DELIVERED_TO_TOP;
}
} else if (!addingToTask &&
(launchFlags&Intent.FLAG_ACTIVITY_REORDER_TO_FRONT) != 0) {
// In this case, we are launching an activity in our own task
// that may already be running somewhere in the history, and
// we want to shuffle it to the front of the stack if so.
int where = findActivityInHistoryLocked(r, sourceRecord.task.taskId);
if (where >= 0) {
HistoryRecord top = moveActivityToFrontLocked(where);
logStartActivity(EventLogTags.AM_NEW_INTENT, r, top.task);
deliverNewIntentLocked(top, r.intent);
if (doResume) {
resumeTopActivityLocked(null);
}
return START_DELIVERED_TO_TOP;
}
}
// An existing activity is starting this new activity, so we want
// to keep the new one in the same task as the one that is starting
// it.
r.task = sourceRecord.task;
if (DEBUG_TASKS) Log.v(TAG, "Starting new activity " + r
+ " in existing task " + r.task);
} else {
// This not being started from an existing activity, and not part
// of a new task... just put it in the top task, though these days
// this case should never happen.
final int N = mHistory.size();
HistoryRecord prev =
N > 0 ? (HistoryRecord)mHistory.get(N-1) : null;
r.task = prev != null
? prev.task
: new TaskRecord(mCurTask, r.info, intent,
(r.info.flags&ActivityInfo.FLAG_CLEAR_TASK_ON_LAUNCH) != 0);
if (DEBUG_TASKS) Log.v(TAG, "Starting new activity " + r
+ " in new guessed " + r.task);
}
if (newTask) {
EventLog.writeEvent(EventLogTags.AM_CREATE_TASK, r.task.taskId);
}
logStartActivity(EventLogTags.AM_CREATE_ACTIVITY, r, r.task);
startActivityLocked(r, newTask, doResume);
return START_SUCCESS;
}
public final int startActivity(IApplicationThread caller,
Intent intent, String resolvedType, Uri[] grantedUriPermissions,
int grantedMode, IBinder resultTo,
String resultWho, int requestCode, boolean onlyIfNeeded,
boolean debug) {
// Refuse possible leaked file descriptors
if (intent != null && intent.hasFileDescriptors()) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
final boolean componentSpecified = intent.getComponent() != null;
// Don't modify the client's object!
intent = new Intent(intent);
// Collect information about the target of the Intent.
ActivityInfo aInfo;
try {
ResolveInfo rInfo =
ActivityThread.getPackageManager().resolveIntent(
intent, resolvedType,
PackageManager.MATCH_DEFAULT_ONLY
| STOCK_PM_FLAGS);
aInfo = rInfo != null ? rInfo.activityInfo : null;
} catch (RemoteException e) {
aInfo = null;
}
if (aInfo != null) {
// Store the found target back into the intent, because now that
// we have it we never want to do this again. For example, if the
// user navigates back to this point in the history, we should
// always restart the exact same activity.
intent.setComponent(new ComponentName(
aInfo.applicationInfo.packageName, aInfo.name));
// Don't debug things in the system process
if (debug) {
if (!aInfo.processName.equals("system")) {
setDebugApp(aInfo.processName, true, false);
}
}
}
synchronized(this) {
final long origId = Binder.clearCallingIdentity();
int res = startActivityLocked(caller, intent, resolvedType,
grantedUriPermissions, grantedMode, aInfo,
resultTo, resultWho, requestCode, -1, -1,
onlyIfNeeded, componentSpecified);
Binder.restoreCallingIdentity(origId);
return res;
}
}
public int startActivityIntentSender(IApplicationThread caller,
IntentSender intent, Intent fillInIntent, String resolvedType,
IBinder resultTo, String resultWho, int requestCode,
int flagsMask, int flagsValues) {
// Refuse possible leaked file descriptors
if (fillInIntent != null && fillInIntent.hasFileDescriptors()) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
IIntentSender sender = intent.getTarget();
if (!(sender instanceof PendingIntentRecord)) {
throw new IllegalArgumentException("Bad PendingIntent object");
}
PendingIntentRecord pir = (PendingIntentRecord)sender;
synchronized (this) {
// If this is coming from the currently resumed activity, it is
// effectively saying that app switches are allowed at this point.
if (mResumedActivity != null
&& mResumedActivity.info.applicationInfo.uid ==
Binder.getCallingUid()) {
mAppSwitchesAllowedTime = 0;
}
}
return pir.sendInner(0, fillInIntent, resolvedType,
null, resultTo, resultWho, requestCode, flagsMask, flagsValues);
}
public boolean startNextMatchingActivity(IBinder callingActivity,
Intent intent) {
// Refuse possible leaked file descriptors
if (intent != null && intent.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
synchronized (this) {
int index = indexOfTokenLocked(callingActivity);
if (index < 0) {
return false;
}
HistoryRecord r = (HistoryRecord)mHistory.get(index);
if (r.app == null || r.app.thread == null) {
// The caller is not running... d'oh!
return false;
}
intent = new Intent(intent);
// The caller is not allowed to change the data.
intent.setDataAndType(r.intent.getData(), r.intent.getType());
// And we are resetting to find the next component...
intent.setComponent(null);
ActivityInfo aInfo = null;
try {
List<ResolveInfo> resolves =
ActivityThread.getPackageManager().queryIntentActivities(
intent, r.resolvedType,
PackageManager.MATCH_DEFAULT_ONLY | STOCK_PM_FLAGS);
// Look for the original activity in the list...
final int N = resolves != null ? resolves.size() : 0;
for (int i=0; i<N; i++) {
ResolveInfo rInfo = resolves.get(i);
if (rInfo.activityInfo.packageName.equals(r.packageName)
&& rInfo.activityInfo.name.equals(r.info.name)) {
// We found the current one... the next matching is
// after it.
i++;
if (i<N) {
aInfo = resolves.get(i).activityInfo;
}
break;
}
}
} catch (RemoteException e) {
}
if (aInfo == null) {
// Nobody who is next!
return false;
}
intent.setComponent(new ComponentName(
aInfo.applicationInfo.packageName, aInfo.name));
intent.setFlags(intent.getFlags()&~(
Intent.FLAG_ACTIVITY_FORWARD_RESULT|
Intent.FLAG_ACTIVITY_CLEAR_TOP|
Intent.FLAG_ACTIVITY_MULTIPLE_TASK|
Intent.FLAG_ACTIVITY_NEW_TASK));
// Okay now we need to start the new activity, replacing the
// currently running activity. This is a little tricky because
// we want to start the new one as if the current one is finished,
// but not finish the current one first so that there is no flicker.
// And thus...
final boolean wasFinishing = r.finishing;
r.finishing = true;
// Propagate reply information over to the new activity.
final HistoryRecord resultTo = r.resultTo;
final String resultWho = r.resultWho;
final int requestCode = r.requestCode;
r.resultTo = null;
if (resultTo != null) {
resultTo.removeResultsLocked(r, resultWho, requestCode);
}
final long origId = Binder.clearCallingIdentity();
// XXX we are not dealing with propagating grantedUriPermissions...
// those are not yet exposed to user code, so there is no need.
int res = startActivityLocked(r.app.thread, intent,
r.resolvedType, null, 0, aInfo, resultTo, resultWho,
requestCode, -1, r.launchedFromUid, false, false);
Binder.restoreCallingIdentity(origId);
r.finishing = wasFinishing;
if (res != START_SUCCESS) {
return false;
}
return true;
}
}
public final int startActivityInPackage(int uid,
Intent intent, String resolvedType, IBinder resultTo,
String resultWho, int requestCode, boolean onlyIfNeeded) {
// This is so super not safe, that only the system (or okay root)
// can do it.
final int callingUid = Binder.getCallingUid();
if (callingUid != 0 && callingUid != Process.myUid()) {
throw new SecurityException(
"startActivityInPackage only available to the system");
}
final boolean componentSpecified = intent.getComponent() != null;
// Don't modify the client's object!
intent = new Intent(intent);
// Collect information about the target of the Intent.
ActivityInfo aInfo;
try {
ResolveInfo rInfo =
ActivityThread.getPackageManager().resolveIntent(
intent, resolvedType,
PackageManager.MATCH_DEFAULT_ONLY | STOCK_PM_FLAGS);
aInfo = rInfo != null ? rInfo.activityInfo : null;
} catch (RemoteException e) {
aInfo = null;
}
if (aInfo != null) {
// Store the found target back into the intent, because now that
// we have it we never want to do this again. For example, if the
// user navigates back to this point in the history, we should
// always restart the exact same activity.
intent.setComponent(new ComponentName(
aInfo.applicationInfo.packageName, aInfo.name));
}
synchronized(this) {
return startActivityLocked(null, intent, resolvedType,
null, 0, aInfo, resultTo, resultWho, requestCode, -1, uid,
onlyIfNeeded, componentSpecified);
}
}
private final void addRecentTask(TaskRecord task) {
// Remove any existing entries that are the same kind of task.
int N = mRecentTasks.size();
for (int i=0; i<N; i++) {
TaskRecord tr = mRecentTasks.get(i);
if ((task.affinity != null && task.affinity.equals(tr.affinity))
|| (task.intent != null && task.intent.filterEquals(tr.intent))) {
mRecentTasks.remove(i);
i--;
N--;
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;
}
}
}
if (N >= MAX_RECENT_TASKS) {
mRecentTasks.remove(N-1);
}
mRecentTasks.add(0, task);
}
public void setRequestedOrientation(IBinder token,
int requestedOrientation) {
synchronized (this) {
int index = indexOfTokenLocked(token);
if (index < 0) {
return;
}
HistoryRecord r = (HistoryRecord)mHistory.get(index);
final long origId = Binder.clearCallingIdentity();
mWindowManager.setAppOrientation(r, requestedOrientation);
Configuration config = mWindowManager.updateOrientationFromAppTokens(
mConfiguration,
r.mayFreezeScreenLocked(r.app) ? r : null);
if (config != null) {
r.frozenBeforeDestroy = true;
if (!updateConfigurationLocked(config, r)) {
resumeTopActivityLocked(null);
}
}
Binder.restoreCallingIdentity(origId);
}
}
public int getRequestedOrientation(IBinder token) {
synchronized (this) {
int index = indexOfTokenLocked(token);
if (index < 0) {
return ActivityInfo.SCREEN_ORIENTATION_UNSPECIFIED;
}
HistoryRecord r = (HistoryRecord)mHistory.get(index);
return mWindowManager.getAppOrientation(r);
}
}
private final void stopActivityLocked(HistoryRecord r) {
if (DEBUG_SWITCH) Log.d(TAG, "Stopping: " + r);
if ((r.intent.getFlags()&Intent.FLAG_ACTIVITY_NO_HISTORY) != 0
|| (r.info.flags&ActivityInfo.FLAG_NO_HISTORY) != 0) {
if (!r.finishing) {
requestFinishActivityLocked(r, Activity.RESULT_CANCELED, null,
"no-history");
}
} else if (r.app != null && r.app.thread != null) {
if (mFocusedActivity == r) {
setFocusedActivityLocked(topRunningActivityLocked(null));
}
r.resumeKeyDispatchingLocked();
try {
r.stopped = false;
r.state = ActivityState.STOPPING;
if (DEBUG_VISBILITY) Log.v(
TAG, "Stopping visible=" + r.visible + " for " + r);
if (!r.visible) {
mWindowManager.setAppVisibility(r, false);
}
r.app.thread.scheduleStopActivity(r, r.visible, r.configChangeFlags);
} catch (Exception e) {
// Maybe just ignore exceptions here... if the process
// has crashed, our death notification will clean things
// up.
Log.w(TAG, "Exception thrown during pause", e);
// Just in case, assume it to be stopped.
r.stopped = true;
r.state = ActivityState.STOPPED;
if (r.configDestroy) {
destroyActivityLocked(r, true);
}
}
}
}
/**
* @return Returns true if the activity is being finished, false if for
* some reason it is being left as-is.
*/
private final boolean requestFinishActivityLocked(IBinder token, int resultCode,
Intent resultData, String reason) {
if (DEBUG_RESULTS) Log.v(
TAG, "Finishing activity: token=" + token
+ ", result=" + resultCode + ", data=" + resultData);
int index = indexOfTokenLocked(token);
if (index < 0) {
return false;
}
HistoryRecord r = (HistoryRecord)mHistory.get(index);
// Is this the last activity left?
boolean lastActivity = true;
for (int i=mHistory.size()-1; i>=0; i--) {
HistoryRecord p = (HistoryRecord)mHistory.get(i);
if (!p.finishing && p != r) {
lastActivity = false;
break;
}
}
// If this is the last activity, but it is the home activity, then
// just don't finish it.
if (lastActivity) {
if (r.intent.hasCategory(Intent.CATEGORY_HOME)) {
return false;
}
}
finishActivityLocked(r, index, resultCode, resultData, reason);
return true;
}
/**
* @return Returns true if this activity has been removed from the history
* list, or false if it is still in the list and will be removed later.
*/
private final boolean finishActivityLocked(HistoryRecord r, int index,
int resultCode, Intent resultData, String reason) {
if (r.finishing) {
Log.w(TAG, "Duplicate finish request for " + r);
return false;
}
r.finishing = true;
EventLog.writeEvent(EventLogTags.AM_FINISH_ACTIVITY,
System.identityHashCode(r),
r.task.taskId, r.shortComponentName, reason);
r.task.numActivities--;
if (r.frontOfTask && index < (mHistory.size()-1)) {
HistoryRecord next = (HistoryRecord)mHistory.get(index+1);
if (next.task == r.task) {
next.frontOfTask = true;
}
}
r.pauseKeyDispatchingLocked();
if (mFocusedActivity == r) {
setFocusedActivityLocked(topRunningActivityLocked(null));
}
// send the result
HistoryRecord resultTo = r.resultTo;
if (resultTo != null) {
if (DEBUG_RESULTS) Log.v(TAG, "Adding result to " + resultTo
+ " who=" + r.resultWho + " req=" + r.requestCode
+ " res=" + resultCode + " data=" + resultData);
if (r.info.applicationInfo.uid > 0) {
grantUriPermissionFromIntentLocked(r.info.applicationInfo.uid,
r.packageName, resultData, r);
}
resultTo.addResultLocked(r, r.resultWho, r.requestCode, resultCode,
resultData);
r.resultTo = null;
}
else if (DEBUG_RESULTS) Log.v(TAG, "No result destination from " + r);
// Make sure this HistoryRecord is not holding on to other resources,
// because clients have remote IPC references to this object so we
// can't assume that will go away and want to avoid circular IPC refs.
r.results = null;
r.pendingResults = null;
r.newIntents = null;
r.icicle = null;
if (mPendingThumbnails.size() > 0) {
// There are clients waiting to receive thumbnails so, in case
// this is an activity that someone is waiting for, add it
// to the pending list so we can correctly update the clients.
mCancelledThumbnails.add(r);
}
if (mResumedActivity == r) {
boolean endTask = index <= 0
|| ((HistoryRecord)mHistory.get(index-1)).task != r.task;
if (DEBUG_TRANSITION) Log.v(TAG,
"Prepare close transition: finishing " + r);
mWindowManager.prepareAppTransition(endTask
? WindowManagerPolicy.TRANSIT_TASK_CLOSE
: WindowManagerPolicy.TRANSIT_ACTIVITY_CLOSE);
// Tell window manager to prepare for this one to be removed.
mWindowManager.setAppVisibility(r, false);
if (mPausingActivity == null) {
if (DEBUG_PAUSE) Log.v(TAG, "Finish needs to pause: " + r);
if (DEBUG_USER_LEAVING) Log.v(TAG, "finish() => pause with userLeaving=false");
startPausingLocked(false, false);
}
} else if (r.state != ActivityState.PAUSING) {
// If the activity is PAUSING, we will complete the finish once
// it is done pausing; else we can just directly finish it here.
if (DEBUG_PAUSE) Log.v(TAG, "Finish not pausing: " + r);
return finishCurrentActivityLocked(r, index,
FINISH_AFTER_PAUSE) == null;
} else {
if (DEBUG_PAUSE) Log.v(TAG, "Finish waiting for pause of: " + r);
}
return false;
}
private static final int FINISH_IMMEDIATELY = 0;
private static final int FINISH_AFTER_PAUSE = 1;
private static final int FINISH_AFTER_VISIBLE = 2;
private final HistoryRecord finishCurrentActivityLocked(HistoryRecord r,
int mode) {
final int index = indexOfTokenLocked(r);
if (index < 0) {
return null;
}
return finishCurrentActivityLocked(r, index, mode);
}
private final HistoryRecord finishCurrentActivityLocked(HistoryRecord r,
int index, int mode) {
// First things first: if this activity is currently visible,
// and the resumed activity is not yet visible, then hold off on
// finishing until the resumed one becomes visible.
if (mode == FINISH_AFTER_VISIBLE && r.nowVisible) {
if (!mStoppingActivities.contains(r)) {
mStoppingActivities.add(r);
if (mStoppingActivities.size() > 3) {
// If we already have a few activities waiting to stop,
// then give up on things going idle and start clearing
// them out.
Message msg = Message.obtain();
msg.what = ActivityManagerService.IDLE_NOW_MSG;
mHandler.sendMessage(msg);
}
}
r.state = ActivityState.STOPPING;
updateOomAdjLocked();
return r;
}
// make sure the record is cleaned out of other places.
mStoppingActivities.remove(r);
mWaitingVisibleActivities.remove(r);
if (mResumedActivity == r) {
mResumedActivity = null;
}
final ActivityState prevState = r.state;
r.state = ActivityState.FINISHING;
if (mode == FINISH_IMMEDIATELY
|| prevState == ActivityState.STOPPED
|| prevState == ActivityState.INITIALIZING) {
// If this activity is already stopped, we can just finish
// it right now.
return destroyActivityLocked(r, true) ? null : r;
} else {
// Need to go through the full pause cycle to get this
// activity into the stopped state and then finish it.
if (localLOGV) Log.v(TAG, "Enqueueing pending finish: " + r);
mFinishingActivities.add(r);
resumeTopActivityLocked(null);
}
return r;
}
/**
* This is the internal entry point for handling Activity.finish().
*
* @param token The Binder token referencing the Activity we want to finish.
* @param resultCode Result code, if any, from this Activity.
* @param resultData Result data (Intent), if any, from this Activity.
*
* @return Returns true if the activity successfully finished, or false if it is still running.
*/
public final boolean finishActivity(IBinder token, int resultCode, Intent resultData) {
// Refuse possible leaked file descriptors
if (resultData != null && resultData.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
synchronized(this) {
if (mController != null) {
// Find the first activity that is not finishing.
HistoryRecord next = topRunningActivityLocked(token, 0);
if (next != null) {
// ask watcher if this is allowed
boolean resumeOK = true;
try {
resumeOK = mController.activityResuming(next.packageName);
} catch (RemoteException e) {
mController = null;
}
if (!resumeOK) {
return false;
}
}
}
final long origId = Binder.clearCallingIdentity();
boolean res = requestFinishActivityLocked(token, resultCode,
resultData, "app-request");
Binder.restoreCallingIdentity(origId);
return res;
}
}
void sendActivityResultLocked(int callingUid, HistoryRecord r,
String resultWho, int requestCode, int resultCode, Intent data) {
if (callingUid > 0) {
grantUriPermissionFromIntentLocked(callingUid, r.packageName,
data, r);
}
if (DEBUG_RESULTS) Log.v(TAG, "Send activity result to " + r
+ " : who=" + resultWho + " req=" + requestCode
+ " res=" + resultCode + " data=" + data);
if (mResumedActivity == r && r.app != null && r.app.thread != null) {
try {
ArrayList<ResultInfo> list = new ArrayList<ResultInfo>();
list.add(new ResultInfo(resultWho, requestCode,
resultCode, data));
r.app.thread.scheduleSendResult(r, list);
return;
} catch (Exception e) {
Log.w(TAG, "Exception thrown sending result to " + r, e);
}
}
r.addResultLocked(null, resultWho, requestCode, resultCode, data);
}
public final void finishSubActivity(IBinder token, String resultWho,
int requestCode) {
synchronized(this) {
int index = indexOfTokenLocked(token);
if (index < 0) {
return;
}
HistoryRecord self = (HistoryRecord)mHistory.get(index);
final long origId = Binder.clearCallingIdentity();
int i;
for (i=mHistory.size()-1; i>=0; i--) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (r.resultTo == self && r.requestCode == requestCode) {
if ((r.resultWho == null && resultWho == null) ||
(r.resultWho != null && r.resultWho.equals(resultWho))) {
finishActivityLocked(r, i,
Activity.RESULT_CANCELED, null, "request-sub");
}
}
}
Binder.restoreCallingIdentity(origId);
}
}
public void overridePendingTransition(IBinder token, String packageName,
int enterAnim, int exitAnim) {
synchronized(this) {
int index = indexOfTokenLocked(token);
if (index < 0) {
return;
}
HistoryRecord self = (HistoryRecord)mHistory.get(index);
final long origId = Binder.clearCallingIdentity();
if (self.state == ActivityState.RESUMED
|| self.state == ActivityState.PAUSING) {
mWindowManager.overridePendingAppTransition(packageName,
enterAnim, exitAnim);
}
Binder.restoreCallingIdentity(origId);
}
}
/**
* Perform clean-up of service connections in an activity record.
*/
private final void cleanUpActivityServicesLocked(HistoryRecord r) {
// Throw away any services that have been bound by this activity.
if (r.connections != null) {
Iterator<ConnectionRecord> it = r.connections.iterator();
while (it.hasNext()) {
ConnectionRecord c = it.next();
removeConnectionLocked(c, null, r);
}
r.connections = null;
}
}
/**
* Perform the common clean-up of an activity record. This is called both
* as part of destroyActivityLocked() (when destroying the client-side
* representation) and cleaning things up as a result of its hosting
* processing going away, in which case there is no remaining client-side
* state to destroy so only the cleanup here is needed.
*/
private final void cleanUpActivityLocked(HistoryRecord r, boolean cleanServices) {
if (mResumedActivity == r) {
mResumedActivity = null;
}
if (mFocusedActivity == r) {
mFocusedActivity = null;
}
r.configDestroy = false;
r.frozenBeforeDestroy = false;
// Make sure this record is no longer in the pending finishes list.
// This could happen, for example, if we are trimming activities
// down to the max limit while they are still waiting to finish.
mFinishingActivities.remove(r);
mWaitingVisibleActivities.remove(r);
// Remove any pending results.
if (r.finishing && r.pendingResults != null) {
for (WeakReference<PendingIntentRecord> apr : r.pendingResults) {
PendingIntentRecord rec = apr.get();
if (rec != null) {
cancelIntentSenderLocked(rec, false);
}
}
r.pendingResults = null;
}
if (cleanServices) {
cleanUpActivityServicesLocked(r);
}
if (mPendingThumbnails.size() > 0) {
// There are clients waiting to receive thumbnails so, in case
// this is an activity that someone is waiting for, add it
// to the pending list so we can correctly update the clients.
mCancelledThumbnails.add(r);
}
// Get rid of any pending idle timeouts.
mHandler.removeMessages(PAUSE_TIMEOUT_MSG, r);
mHandler.removeMessages(IDLE_TIMEOUT_MSG, r);
}
private final void removeActivityFromHistoryLocked(HistoryRecord r) {
if (r.state != ActivityState.DESTROYED) {
mHistory.remove(r);
r.inHistory = false;
r.state = ActivityState.DESTROYED;
mWindowManager.removeAppToken(r);
if (VALIDATE_TOKENS) {
mWindowManager.validateAppTokens(mHistory);
}
cleanUpActivityServicesLocked(r);
removeActivityUriPermissionsLocked(r);
}
}
/**
* Destroy the current CLIENT SIDE instance of an activity. This may be
* called both when actually finishing an activity, or when performing
* a configuration switch where we destroy the current client-side object
* but then create a new client-side object for this same HistoryRecord.
*/
private final boolean destroyActivityLocked(HistoryRecord r,
boolean removeFromApp) {
if (DEBUG_SWITCH) Log.v(
TAG, "Removing activity: token=" + r
+ ", app=" + (r.app != null ? r.app.processName : "(null)"));
EventLog.writeEvent(EventLogTags.AM_DESTROY_ACTIVITY,
System.identityHashCode(r),
r.task.taskId, r.shortComponentName);
boolean removedFromHistory = false;
cleanUpActivityLocked(r, false);
final boolean hadApp = r.app != null;
if (hadApp) {
if (removeFromApp) {
int idx = r.app.activities.indexOf(r);
if (idx >= 0) {
r.app.activities.remove(idx);
}
if (r.persistent) {
decPersistentCountLocked(r.app);
}
if (r.app.activities.size() == 0) {
// No longer have activities, so update location in
// LRU list.
updateLruProcessLocked(r.app, true, false);
}
}
boolean skipDestroy = false;
try {
if (DEBUG_SWITCH) Log.i(TAG, "Destroying: " + r);
r.app.thread.scheduleDestroyActivity(r, r.finishing,
r.configChangeFlags);
} catch (Exception e) {
// We can just ignore exceptions here... if the process
// has crashed, our death notification will clean things
// up.
//Log.w(TAG, "Exception thrown during finish", e);
if (r.finishing) {
removeActivityFromHistoryLocked(r);
removedFromHistory = true;
skipDestroy = true;
}
}
r.app = null;
r.nowVisible = false;
if (r.finishing && !skipDestroy) {
r.state = ActivityState.DESTROYING;
Message msg = mHandler.obtainMessage(DESTROY_TIMEOUT_MSG);
msg.obj = r;
mHandler.sendMessageDelayed(msg, DESTROY_TIMEOUT);
} else {
r.state = ActivityState.DESTROYED;
}
} else {
// remove this record from the history.
if (r.finishing) {
removeActivityFromHistoryLocked(r);
removedFromHistory = true;
} else {
r.state = ActivityState.DESTROYED;
}
}
r.configChangeFlags = 0;
if (!mLRUActivities.remove(r) && hadApp) {
Log.w(TAG, "Activity " + r + " being finished, but not in LRU list");
}
return removedFromHistory;
}
private static void removeHistoryRecordsForAppLocked(ArrayList list, ProcessRecord app) {
int i = list.size();
if (localLOGV) Log.v(
TAG, "Removing app " + app + " from list " + list
+ " with " + i + " entries");
while (i > 0) {
i--;
HistoryRecord r = (HistoryRecord)list.get(i);
if (localLOGV) Log.v(
TAG, "Record #" + i + " " + r + ": app=" + r.app);
if (r.app == app) {
if (localLOGV) Log.v(TAG, "Removing this entry!");
list.remove(i);
}
}
}
/**
* Main function for removing an existing process from the activity manager
* as a result of that process going away. Clears out all connections
* to the process.
*/
private final void handleAppDiedLocked(ProcessRecord app,
boolean restarting) {
cleanUpApplicationRecordLocked(app, restarting, -1);
if (!restarting) {
mLruProcesses.remove(app);
}
// Just in case...
if (mPausingActivity != null && mPausingActivity.app == app) {
if (DEBUG_PAUSE) Log.v(TAG, "App died while pausing: " + mPausingActivity);
mPausingActivity = null;
}
if (mLastPausedActivity != null && mLastPausedActivity.app == app) {
mLastPausedActivity = null;
}
// Remove this application's activities from active lists.
removeHistoryRecordsForAppLocked(mLRUActivities, app);
removeHistoryRecordsForAppLocked(mStoppingActivities, app);
removeHistoryRecordsForAppLocked(mWaitingVisibleActivities, app);
removeHistoryRecordsForAppLocked(mFinishingActivities, app);
boolean atTop = true;
boolean hasVisibleActivities = false;
// Clean out the history list.
int i = mHistory.size();
if (localLOGV) Log.v(
TAG, "Removing app " + app + " from history with " + i + " entries");
while (i > 0) {
i--;
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (localLOGV) Log.v(
TAG, "Record #" + i + " " + r + ": app=" + r.app);
if (r.app == app) {
if ((!r.haveState && !r.stateNotNeeded) || r.finishing) {
if (localLOGV) Log.v(
TAG, "Removing this entry! frozen=" + r.haveState
+ " finishing=" + r.finishing);
mHistory.remove(i);
r.inHistory = false;
mWindowManager.removeAppToken(r);
if (VALIDATE_TOKENS) {
mWindowManager.validateAppTokens(mHistory);
}
removeActivityUriPermissionsLocked(r);
} else {
// We have the current state for this activity, so
// it can be restarted later when needed.
if (localLOGV) Log.v(
TAG, "Keeping entry, setting app to null");
if (r.visible) {
hasVisibleActivities = true;
}
r.app = null;
r.nowVisible = false;
if (!r.haveState) {
r.icicle = null;
}
}
cleanUpActivityLocked(r, true);
r.state = ActivityState.STOPPED;
}
atTop = false;
}
app.activities.clear();
if (app.instrumentationClass != null) {
Log.w(TAG, "Crash of app " + app.processName
+ " running instrumentation " + app.instrumentationClass);
Bundle info = new Bundle();
info.putString("shortMsg", "Process crashed.");
finishInstrumentationLocked(app, Activity.RESULT_CANCELED, info);
}
if (!restarting) {
if (!resumeTopActivityLocked(null)) {
// If there was nothing to resume, and we are not already
// restarting this process, but there is a visible activity that
// is hosted by the process... then make sure all visible
// activities are running, taking care of restarting this
// process.
if (hasVisibleActivities) {
ensureActivitiesVisibleLocked(null, 0);
}
}
}
}
private final int getLRURecordIndexForAppLocked(IApplicationThread thread) {
IBinder threadBinder = thread.asBinder();
// Find the application record.
for (int i=mLruProcesses.size()-1; i>=0; i--) {
ProcessRecord rec = mLruProcesses.get(i);
if (rec.thread != null && rec.thread.asBinder() == threadBinder) {
return i;
}
}
return -1;
}
private final ProcessRecord getRecordForAppLocked(
IApplicationThread thread) {
if (thread == null) {
return null;
}
int appIndex = getLRURecordIndexForAppLocked(thread);
return appIndex >= 0 ? mLruProcesses.get(appIndex) : null;
}
private final void appDiedLocked(ProcessRecord app, int pid,
IApplicationThread thread) {
mProcDeaths[0]++;
if (app.thread != null && app.thread.asBinder() == thread.asBinder()) {
Log.i(TAG, "Process " + app.processName + " (pid " + pid
+ ") has died.");
EventLog.writeEvent(EventLogTags.AM_PROC_DIED, app.pid, app.processName);
if (localLOGV) Log.v(
TAG, "Dying app: " + app + ", pid: " + pid
+ ", thread: " + thread.asBinder());
boolean doLowMem = app.instrumentationClass == null;
handleAppDiedLocked(app, false);
if (doLowMem) {
// If there are no longer any background processes running,
// and the app that died was not running instrumentation,
// then tell everyone we are now low on memory.
boolean haveBg = false;
for (int i=mLruProcesses.size()-1; i>=0; i--) {
ProcessRecord rec = mLruProcesses.get(i);
if (rec.thread != null && rec.setAdj >= HIDDEN_APP_MIN_ADJ) {
haveBg = true;
break;
}
}
if (!haveBg) {
Log.i(TAG, "Low Memory: No more background processes.");
EventLog.writeEvent(EventLogTags.AM_LOW_MEMORY, mLruProcesses.size());
long now = SystemClock.uptimeMillis();
for (int i=mLruProcesses.size()-1; i>=0; i--) {
ProcessRecord rec = mLruProcesses.get(i);
if (rec != app && rec.thread != null &&
(rec.lastLowMemory+GC_MIN_INTERVAL) <= now) {
// The low memory report is overriding any current
// state for a GC request. Make sure to do
// visible/foreground processes first.
if (rec.setAdj <= VISIBLE_APP_ADJ) {
rec.lastRequestedGc = 0;
} else {
rec.lastRequestedGc = rec.lastLowMemory;
}
rec.reportLowMemory = true;
rec.lastLowMemory = now;
mProcessesToGc.remove(rec);
addProcessToGcListLocked(rec);
}
}
scheduleAppGcsLocked();
}
}
} else if (DEBUG_PROCESSES) {
Log.d(TAG, "Received spurious death notification for thread "
+ thread.asBinder());
}
}
final String readFile(String filename) {
try {
FileInputStream fs = new FileInputStream(filename);
byte[] inp = new byte[8192];
int size = fs.read(inp);
fs.close();
return new String(inp, 0, 0, size);
} catch (java.io.IOException e) {
}
return "";
}
final void appNotRespondingLocked(ProcessRecord app, HistoryRecord activity,
HistoryRecord reportedActivity, final String annotation) {
if (app.notResponding || app.crashing) {
return;
}
// Log the ANR to the event log.
EventLog.writeEvent(EventLogTags.ANR, app.pid, app.processName, annotation);
// If we are on a secure build and the application is not interesting to the user (it is
// not visible or in the background), just kill it instead of displaying a dialog.
boolean isSecure = "1".equals(SystemProperties.get(SYSTEM_SECURE, "0"));
if (isSecure && !app.isInterestingToUserLocked() && Process.myPid() != app.pid) {
Process.killProcess(app.pid);
return;
}
// DeviceMonitor.start();
String processInfo = null;
if (MONITOR_CPU_USAGE) {
updateCpuStatsNow();
synchronized (mProcessStatsThread) {
processInfo = mProcessStats.printCurrentState();
}
}
StringBuilder info = mStringBuilder;
info.setLength(0);
info.append("ANR in process: ");
info.append(app.processName);
if (reportedActivity != null && reportedActivity.app != null) {
info.append(" (last in ");
info.append(reportedActivity.app.processName);
info.append(")");
}
if (annotation != null) {
info.append("\nAnnotation: ");
info.append(annotation);
}
if (MONITOR_CPU_USAGE) {
info.append("\nCPU usage:\n");
info.append(processInfo);
}
Log.i(TAG, info.toString());
// The application is not responding. Dump as many thread traces as we can.
boolean fileDump = prepareTraceFile(true);
if (!fileDump) {
// Dumping traces to the log, just dump the process that isn't responding so
// we don't overflow the log
Process.sendSignal(app.pid, Process.SIGNAL_QUIT);
} else {
// Dumping traces to a file so dump all active processes we know about
synchronized (this) {
// First, these are the most important processes.
final int[] imppids = new int[3];
int i=0;
imppids[0] = app.pid;
i++;
if (reportedActivity != null && reportedActivity.app != null
&& reportedActivity.app.thread != null
&& reportedActivity.app.pid != app.pid) {
imppids[i] = reportedActivity.app.pid;
i++;
}
imppids[i] = Process.myPid();
for (i=0; i<imppids.length && imppids[i] != 0; i++) {
Process.sendSignal(imppids[i], Process.SIGNAL_QUIT);
synchronized (this) {
try {
wait(200);
} catch (InterruptedException e) {
}
}
}
for (i = mLruProcesses.size() - 1 ; i >= 0 ; i--) {
ProcessRecord r = mLruProcesses.get(i);
boolean done = false;
for (int j=0; j<imppids.length && imppids[j] != 0; j++) {
if (imppids[j] == r.pid) {
done = true;
break;
}
}
if (!done && r.thread != null) {
Process.sendSignal(r.pid, Process.SIGNAL_QUIT);
synchronized (this) {
try {
wait(200);
} catch (InterruptedException e) {
}
}
}
}
}
}
if (mController != null) {
try {
int res = mController.appNotResponding(app.processName,
app.pid, info.toString());
if (res != 0) {
if (res < 0) {
// wait until the SIGQUIT has had a chance to process before killing the
// process.
try {
wait(2000);
} catch (InterruptedException e) {
}
Process.killProcess(app.pid);
return;
}
}
} catch (RemoteException e) {
mController = null;
}
}
makeAppNotRespondingLocked(app,
activity != null ? activity.shortComponentName : null,
annotation != null ? "ANR " + annotation : "ANR",
info.toString());
Message msg = Message.obtain();
HashMap map = new HashMap();
msg.what = SHOW_NOT_RESPONDING_MSG;
msg.obj = map;
map.put("app", app);
if (activity != null) {
map.put("activity", activity);
}
mHandler.sendMessage(msg);
return;
}
/**
* If a stack trace file has been configured, prepare the filesystem
* by creating the directory if it doesn't exist and optionally
* removing the old trace file.
*
* @param removeExisting If set, the existing trace file will be removed.
* @return Returns true if the trace file preparations succeeded
*/
public static boolean prepareTraceFile(boolean removeExisting) {
String tracesPath = SystemProperties.get("dalvik.vm.stack-trace-file", null);
boolean fileReady = false;
if (!TextUtils.isEmpty(tracesPath)) {
File f = new File(tracesPath);
if (!f.exists()) {
// Ensure the enclosing directory exists
File dir = f.getParentFile();
if (!dir.exists()) {
fileReady = dir.mkdirs();
FileUtils.setPermissions(dir.getAbsolutePath(),
FileUtils.S_IRWXU | FileUtils.S_IRWXG | FileUtils.S_IXOTH, -1, -1);
} else if (dir.isDirectory()) {
fileReady = true;
}
} else if (removeExisting) {
// Remove the previous traces file, so we don't fill the disk.
// The VM will recreate it
Log.i(TAG, "Removing old ANR trace file from " + tracesPath);
fileReady = f.delete();
}
if (removeExisting) {
try {
f.createNewFile();
FileUtils.setPermissions(f.getAbsolutePath(),
FileUtils.S_IRWXU | FileUtils.S_IRWXG
| FileUtils.S_IWOTH | FileUtils.S_IROTH, -1, -1);
fileReady = true;
} catch (IOException e) {
Log.w(TAG, "Unable to make ANR traces file", e);
}
}
}
return fileReady;
}
private final void decPersistentCountLocked(ProcessRecord app)
{
app.persistentActivities--;
if (app.persistentActivities > 0) {
// Still more of 'em...
return;
}
if (app.persistent) {
// Ah, but the application itself is persistent. Whatever!
return;
}
// App is no longer persistent... make sure it and the ones
// following it in the LRU list have the correc oom_adj.
updateOomAdjLocked();
}
public void setPersistent(IBinder token, boolean isPersistent) {
if (checkCallingPermission(android.Manifest.permission.PERSISTENT_ACTIVITY)
!= PackageManager.PERMISSION_GRANTED) {
String msg = "Permission Denial: setPersistent() from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ " requires " + android.Manifest.permission.PERSISTENT_ACTIVITY;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
synchronized(this) {
int index = indexOfTokenLocked(token);
if (index < 0) {
return;
}
HistoryRecord r = (HistoryRecord)mHistory.get(index);
ProcessRecord app = r.app;
if (localLOGV) Log.v(
TAG, "Setting persistence " + isPersistent + ": " + r);
if (isPersistent) {
if (r.persistent) {
// Okay okay, I heard you already!
if (localLOGV) Log.v(TAG, "Already persistent!");
return;
}
r.persistent = true;
app.persistentActivities++;
if (localLOGV) Log.v(TAG, "Num persistent now: " + app.persistentActivities);
if (app.persistentActivities > 1) {
// We aren't the first...
if (localLOGV) Log.v(TAG, "Not the first!");
return;
}
if (app.persistent) {
// This would be redundant.
if (localLOGV) Log.v(TAG, "App is persistent!");
return;
}
// App is now persistent... make sure it and the ones
// following it now have the correct oom_adj.
final long origId = Binder.clearCallingIdentity();
updateOomAdjLocked();
Binder.restoreCallingIdentity(origId);
} else {
if (!r.persistent) {
// Okay okay, I heard you already!
return;
}
r.persistent = false;
final long origId = Binder.clearCallingIdentity();
decPersistentCountLocked(app);
Binder.restoreCallingIdentity(origId);
}
}
}
public boolean clearApplicationUserData(final String packageName,
final IPackageDataObserver observer) {
int uid = Binder.getCallingUid();
int pid = Binder.getCallingPid();
long callingId = Binder.clearCallingIdentity();
try {
IPackageManager pm = ActivityThread.getPackageManager();
int pkgUid = -1;
synchronized(this) {
try {
pkgUid = pm.getPackageUid(packageName);
} catch (RemoteException e) {
}
if (pkgUid == -1) {
Log.w(TAG, "Invalid packageName:" + packageName);
return false;
}
if (uid == pkgUid || checkComponentPermission(
android.Manifest.permission.CLEAR_APP_USER_DATA,
pid, uid, -1)
== PackageManager.PERMISSION_GRANTED) {
forceStopPackageLocked(packageName, pkgUid);
} else {
throw new SecurityException(pid+" does not have permission:"+
android.Manifest.permission.CLEAR_APP_USER_DATA+" to clear data" +
"for process:"+packageName);
}
}
try {
//clear application user data
pm.clearApplicationUserData(packageName, observer);
Intent intent = new Intent(Intent.ACTION_PACKAGE_DATA_CLEARED,
Uri.fromParts("package", packageName, null));
intent.putExtra(Intent.EXTRA_UID, pkgUid);
broadcastIntentLocked(null, null, intent,
null, null, 0, null, null, null,
false, false, MY_PID, Process.SYSTEM_UID);
} catch (RemoteException e) {
}
} finally {
Binder.restoreCallingIdentity(callingId);
}
return true;
}
public void killBackgroundProcesses(final String packageName) {
if (checkCallingPermission(android.Manifest.permission.KILL_BACKGROUND_PROCESSES)
!= PackageManager.PERMISSION_GRANTED &&
checkCallingPermission(android.Manifest.permission.RESTART_PACKAGES)
!= PackageManager.PERMISSION_GRANTED) {
String msg = "Permission Denial: killBackgroundProcesses() from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ " requires " + android.Manifest.permission.KILL_BACKGROUND_PROCESSES;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
long callingId = Binder.clearCallingIdentity();
try {
IPackageManager pm = ActivityThread.getPackageManager();
int pkgUid = -1;
synchronized(this) {
try {
pkgUid = pm.getPackageUid(packageName);
} catch (RemoteException e) {
}
if (pkgUid == -1) {
Log.w(TAG, "Invalid packageName: " + packageName);
return;
}
killPackageProcessesLocked(packageName, pkgUid,
SECONDARY_SERVER_ADJ, false);
}
} finally {
Binder.restoreCallingIdentity(callingId);
}
}
public void forceStopPackage(final String packageName) {
if (checkCallingPermission(android.Manifest.permission.FORCE_STOP_PACKAGES)
!= PackageManager.PERMISSION_GRANTED) {
String msg = "Permission Denial: forceStopPackage() from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ " requires " + android.Manifest.permission.FORCE_STOP_PACKAGES;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
long callingId = Binder.clearCallingIdentity();
try {
IPackageManager pm = ActivityThread.getPackageManager();
int pkgUid = -1;
synchronized(this) {
try {
pkgUid = pm.getPackageUid(packageName);
} catch (RemoteException e) {
}
if (pkgUid == -1) {
Log.w(TAG, "Invalid packageName: " + packageName);
return;
}
forceStopPackageLocked(packageName, pkgUid);
}
} finally {
Binder.restoreCallingIdentity(callingId);
}
}
/*
* The pkg name and uid have to be specified.
* @see android.app.IActivityManager#killApplicationWithUid(java.lang.String, int)
*/
public void killApplicationWithUid(String pkg, int uid) {
if (pkg == null) {
return;
}
// Make sure the uid is valid.
if (uid < 0) {
Log.w(TAG, "Invalid uid specified for pkg : " + pkg);
return;
}
int callerUid = Binder.getCallingUid();
// Only the system server can kill an application
if (callerUid == Process.SYSTEM_UID) {
// Post an aysnc message to kill the application
Message msg = mHandler.obtainMessage(KILL_APPLICATION_MSG);
msg.arg1 = uid;
msg.arg2 = 0;
msg.obj = pkg;
mHandler.sendMessage(msg);
} else {
throw new SecurityException(callerUid + " cannot kill pkg: " +
pkg);
}
}
public void closeSystemDialogs(String reason) {
Intent intent = new Intent(Intent.ACTION_CLOSE_SYSTEM_DIALOGS);
if (reason != null) {
intent.putExtra("reason", reason);
}
final int uid = Binder.getCallingUid();
final long origId = Binder.clearCallingIdentity();
synchronized (this) {
int i = mWatchers.beginBroadcast();
while (i > 0) {
i--;
IActivityWatcher w = mWatchers.getBroadcastItem(i);
if (w != null) {
try {
w.closingSystemDialogs(reason);
} catch (RemoteException e) {
}
}
}
mWatchers.finishBroadcast();
mWindowManager.closeSystemDialogs(reason);
for (i=mHistory.size()-1; i>=0; i--) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if ((r.info.flags&ActivityInfo.FLAG_FINISH_ON_CLOSE_SYSTEM_DIALOGS) != 0) {
finishActivityLocked(r, i,
Activity.RESULT_CANCELED, null, "close-sys");
}
}
broadcastIntentLocked(null, null, intent, null,
null, 0, null, null, null, false, false, -1, uid);
}
Binder.restoreCallingIdentity(origId);
}
public Debug.MemoryInfo[] getProcessMemoryInfo(int[] pids)
throws RemoteException {
Debug.MemoryInfo[] infos = new Debug.MemoryInfo[pids.length];
for (int i=pids.length-1; i>=0; i--) {
infos[i] = new Debug.MemoryInfo();
Debug.getMemoryInfo(pids[i], infos[i]);
}
return infos;
}
public void killApplicationProcess(String processName, int uid) {
if (processName == null) {
return;
}
int callerUid = Binder.getCallingUid();
// Only the system server can kill an application
if (callerUid == Process.SYSTEM_UID) {
synchronized (this) {
ProcessRecord app = getProcessRecordLocked(processName, uid);
if (app != null) {
try {
app.thread.scheduleSuicide();
} catch (RemoteException e) {
// If the other end already died, then our work here is done.
}
} else {
Log.w(TAG, "Process/uid not found attempting kill of "
+ processName + " / " + uid);
}
}
} else {
throw new SecurityException(callerUid + " cannot kill app process: " +
processName);
}
}
private void forceStopPackageLocked(final String packageName, int uid) {
forceStopPackageLocked(packageName, uid, false);
Intent intent = new Intent(Intent.ACTION_PACKAGE_RESTARTED,
Uri.fromParts("package", packageName, null));
intent.putExtra(Intent.EXTRA_UID, uid);
broadcastIntentLocked(null, null, intent,
null, null, 0, null, null, null,
false, false, MY_PID, Process.SYSTEM_UID);
}
private final void killPackageProcessesLocked(String packageName, int uid,
int minOomAdj, boolean callerWillRestart) {
ArrayList<ProcessRecord> procs = new ArrayList<ProcessRecord>();
// Remove all processes this package may have touched: all with the
// same UID (except for the system or root user), and all whose name
// matches the package name.
final String procNamePrefix = packageName + ":";
for (SparseArray<ProcessRecord> apps : mProcessNames.getMap().values()) {
final int NA = apps.size();
for (int ia=0; ia<NA; ia++) {
ProcessRecord app = apps.valueAt(ia);
if (app.removed) {
procs.add(app);
} else if ((uid > 0 && uid != Process.SYSTEM_UID && app.info.uid == uid)
|| app.processName.equals(packageName)
|| app.processName.startsWith(procNamePrefix)) {
if (app.setAdj >= minOomAdj) {
app.removed = true;
procs.add(app);
}
}
}
}
int N = procs.size();
for (int i=0; i<N; i++) {
removeProcessLocked(procs.get(i), callerWillRestart);
}
}
private final void forceStopPackageLocked(String name, int uid,
boolean callerWillRestart) {
int i, N;
if (uid < 0) {
try {
uid = ActivityThread.getPackageManager().getPackageUid(name);
} catch (RemoteException e) {
}
}
Log.i(TAG, "Force stopping package " + name + " uid=" + uid);
Iterator<SparseArray<Long>> badApps = mProcessCrashTimes.getMap().values().iterator();
while (badApps.hasNext()) {
SparseArray<Long> ba = badApps.next();
if (ba.get(uid) != null) {
badApps.remove();
}
}
killPackageProcessesLocked(name, uid, -100, callerWillRestart);
for (i=mHistory.size()-1; i>=0; i--) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (r.packageName.equals(name)) {
Log.i(TAG, " Force finishing activity " + r);
if (r.app != null) {
r.app.removed = true;
}
r.app = null;
finishActivityLocked(r, i, Activity.RESULT_CANCELED, null, "uninstall");
}
}
ArrayList<ServiceRecord> services = new ArrayList<ServiceRecord>();
for (ServiceRecord service : mServices.values()) {
if (service.packageName.equals(name)) {
Log.i(TAG, " Force stopping service " + service);
if (service.app != null) {
service.app.removed = true;
}
service.app = null;
services.add(service);
}
}
N = services.size();
for (i=0; i<N; i++) {
bringDownServiceLocked(services.get(i), true);
}
resumeTopActivityLocked(null);
}
private final boolean removeProcessLocked(ProcessRecord app, boolean callerWillRestart) {
final String name = app.processName;
final int uid = app.info.uid;
if (DEBUG_PROCESSES) Log.d(
TAG, "Force removing process " + app + " (" + name
+ "/" + uid + ")");
mProcessNames.remove(name, uid);
boolean needRestart = false;
if (app.pid > 0 && app.pid != MY_PID) {
int pid = app.pid;
synchronized (mPidsSelfLocked) {
mPidsSelfLocked.remove(pid);
mHandler.removeMessages(PROC_START_TIMEOUT_MSG, app);
}
handleAppDiedLocked(app, true);
mLruProcesses.remove(app);
Process.killProcess(pid);
if (app.persistent) {
if (!callerWillRestart) {
addAppLocked(app.info);
} else {
needRestart = true;
}
}
} else {
mRemovedProcesses.add(app);
}
return needRestart;
}
private final void processStartTimedOutLocked(ProcessRecord app) {
final int pid = app.pid;
boolean gone = false;
synchronized (mPidsSelfLocked) {
ProcessRecord knownApp = mPidsSelfLocked.get(pid);
if (knownApp != null && knownApp.thread == null) {
mPidsSelfLocked.remove(pid);
gone = true;
}
}
if (gone) {
Log.w(TAG, "Process " + app + " failed to attach");
EventLog.writeEvent(EventLogTags.AM_PROCESS_START_TIMEOUT, pid, app.info.uid,
app.processName);
mProcessNames.remove(app.processName, app.info.uid);
// Take care of any launching providers waiting for this process.
checkAppInLaunchingProvidersLocked(app, true);
// Take care of any services that are waiting for the process.
for (int i=0; i<mPendingServices.size(); i++) {
ServiceRecord sr = mPendingServices.get(i);
if (app.info.uid == sr.appInfo.uid
&& app.processName.equals(sr.processName)) {
Log.w(TAG, "Forcing bringing down service: " + sr);
mPendingServices.remove(i);
i--;
bringDownServiceLocked(sr, true);
}
}
Process.killProcess(pid);
if (mBackupTarget != null && mBackupTarget.app.pid == pid) {
Log.w(TAG, "Unattached app died before backup, skipping");
try {
IBackupManager bm = IBackupManager.Stub.asInterface(
ServiceManager.getService(Context.BACKUP_SERVICE));
bm.agentDisconnected(app.info.packageName);
} catch (RemoteException e) {
// Can't happen; the backup manager is local
}
}
if (mPendingBroadcast != null && mPendingBroadcast.curApp.pid == pid) {
Log.w(TAG, "Unattached app died before broadcast acknowledged, skipping");
mPendingBroadcast = null;
scheduleBroadcastsLocked();
}
} else {
Log.w(TAG, "Spurious process start timeout - pid not known for " + app);
}
}
private final boolean attachApplicationLocked(IApplicationThread thread,
int pid) {
// Find the application record that is being attached... either via
// the pid if we are running in multiple processes, or just pull the
// next app record if we are emulating process with anonymous threads.
ProcessRecord app;
if (pid != MY_PID && pid >= 0) {
synchronized (mPidsSelfLocked) {
app = mPidsSelfLocked.get(pid);
}
} else if (mStartingProcesses.size() > 0) {
app = mStartingProcesses.remove(0);
app.setPid(pid);
} else {
app = null;
}
if (app == null) {
Log.w(TAG, "No pending application record for pid " + pid
+ " (IApplicationThread " + thread + "); dropping process");
EventLog.writeEvent(EventLogTags.AM_DROP_PROCESS, pid);
if (pid > 0 && pid != MY_PID) {
Process.killProcess(pid);
} else {
try {
thread.scheduleExit();
} catch (Exception e) {
// Ignore exceptions.
}
}
return false;
}
// If this application record is still attached to a previous
// process, clean it up now.
if (app.thread != null) {
handleAppDiedLocked(app, true);
}
// Tell the process all about itself.
if (localLOGV) Log.v(
TAG, "Binding process pid " + pid + " to record " + app);
String processName = app.processName;
try {
thread.asBinder().linkToDeath(new AppDeathRecipient(
app, pid, thread), 0);
} catch (RemoteException e) {
app.resetPackageList();
startProcessLocked(app, "link fail", processName);
return false;
}
EventLog.writeEvent(EventLogTags.AM_PROC_BOUND, app.pid, app.processName);
app.thread = thread;
app.curAdj = app.setAdj = -100;
app.curSchedGroup = Process.THREAD_GROUP_DEFAULT;
app.setSchedGroup = Process.THREAD_GROUP_BG_NONINTERACTIVE;
app.forcingToForeground = null;
app.foregroundServices = false;
app.debugging = false;
mHandler.removeMessages(PROC_START_TIMEOUT_MSG, app);
boolean normalMode = mSystemReady || isAllowedWhileBooting(app.info);
List providers = normalMode ? generateApplicationProvidersLocked(app) : null;
if (!normalMode) {
Log.i(TAG, "Launching preboot mode app: " + app);
}
if (localLOGV) Log.v(
TAG, "New app record " + app
+ " thread=" + thread.asBinder() + " pid=" + pid);
try {
int testMode = IApplicationThread.DEBUG_OFF;
if (mDebugApp != null && mDebugApp.equals(processName)) {
testMode = mWaitForDebugger
? IApplicationThread.DEBUG_WAIT
: IApplicationThread.DEBUG_ON;
app.debugging = true;
if (mDebugTransient) {
mDebugApp = mOrigDebugApp;
mWaitForDebugger = mOrigWaitForDebugger;
}
}
// If the app is being launched for restore or full backup, set it up specially
boolean isRestrictedBackupMode = false;
if (mBackupTarget != null && mBackupAppName.equals(processName)) {
isRestrictedBackupMode = (mBackupTarget.backupMode == BackupRecord.RESTORE)
|| (mBackupTarget.backupMode == BackupRecord.BACKUP_FULL);
}
ensurePackageDexOpt(app.instrumentationInfo != null
? app.instrumentationInfo.packageName
: app.info.packageName);
if (app.instrumentationClass != null) {
ensurePackageDexOpt(app.instrumentationClass.getPackageName());
}
if (DEBUG_CONFIGURATION) Log.v(TAG, "Binding proc "
+ processName + " with config " + mConfiguration);
thread.bindApplication(processName, app.instrumentationInfo != null
? app.instrumentationInfo : app.info, providers,
app.instrumentationClass, app.instrumentationProfileFile,
app.instrumentationArguments, app.instrumentationWatcher, testMode,
isRestrictedBackupMode || !normalMode,
mConfiguration, getCommonServicesLocked());
updateLruProcessLocked(app, false, true);
app.lastRequestedGc = app.lastLowMemory = SystemClock.uptimeMillis();
} catch (Exception e) {
// todo: Yikes! What should we do? For now we will try to
// start another process, but that could easily get us in
// an infinite loop of restarting processes...
Log.w(TAG, "Exception thrown during bind!", e);
app.resetPackageList();
startProcessLocked(app, "bind fail", processName);
return false;
}
// Remove this record from the list of starting applications.
mPersistentStartingProcesses.remove(app);
mProcessesOnHold.remove(app);
boolean badApp = false;
boolean didSomething = false;
// See if the top visible activity is waiting to run in this process...
HistoryRecord hr = topRunningActivityLocked(null);
if (hr != null) {
if (hr.app == null && app.info.uid == hr.info.applicationInfo.uid
&& processName.equals(hr.processName)) {
try {
if (realStartActivityLocked(hr, app, true, true)) {
didSomething = true;
}
} catch (Exception e) {
Log.w(TAG, "Exception in new application when starting activity "
+ hr.intent.getComponent().flattenToShortString(), e);
badApp = true;
}
} else {
ensureActivitiesVisibleLocked(hr, null, processName, 0);
}
}
// Find any services that should be running in this process...
if (!badApp && mPendingServices.size() > 0) {
ServiceRecord sr = null;
try {
for (int i=0; i<mPendingServices.size(); i++) {
sr = mPendingServices.get(i);
if (app.info.uid != sr.appInfo.uid
|| !processName.equals(sr.processName)) {
continue;
}
mPendingServices.remove(i);
i--;
realStartServiceLocked(sr, app);
didSomething = true;
}
} catch (Exception e) {
Log.w(TAG, "Exception in new application when starting service "
+ sr.shortName, e);
badApp = true;
}
}
// Check if the next broadcast receiver is in this process...
BroadcastRecord br = mPendingBroadcast;
if (!badApp && br != null && br.curApp == app) {
try {
mPendingBroadcast = null;
processCurBroadcastLocked(br, app);
didSomething = true;
} catch (Exception e) {
Log.w(TAG, "Exception in new application when starting receiver "
+ br.curComponent.flattenToShortString(), e);
badApp = true;
logBroadcastReceiverDiscard(br);
finishReceiverLocked(br.receiver, br.resultCode, br.resultData,
br.resultExtras, br.resultAbort, true);
scheduleBroadcastsLocked();
}
}
// Check whether the next backup agent is in this process...
if (!badApp && mBackupTarget != null && mBackupTarget.appInfo.uid == app.info.uid) {
if (DEBUG_BACKUP) Log.v(TAG, "New app is backup target, launching agent for " + app);
ensurePackageDexOpt(mBackupTarget.appInfo.packageName);
try {
thread.scheduleCreateBackupAgent(mBackupTarget.appInfo, mBackupTarget.backupMode);
} catch (Exception e) {
Log.w(TAG, "Exception scheduling backup agent creation: ");
e.printStackTrace();
}
}
if (badApp) {
// todo: Also need to kill application to deal with all
// kinds of exceptions.
handleAppDiedLocked(app, false);
return false;
}
if (!didSomething) {
updateOomAdjLocked();
}
return true;
}
public final void attachApplication(IApplicationThread thread) {
synchronized (this) {
int callingPid = Binder.getCallingPid();
final long origId = Binder.clearCallingIdentity();
attachApplicationLocked(thread, callingPid);
Binder.restoreCallingIdentity(origId);
}
}
public final void activityIdle(IBinder token, Configuration config) {
final long origId = Binder.clearCallingIdentity();
activityIdleInternal(token, false, config);
Binder.restoreCallingIdentity(origId);
}
final ArrayList<HistoryRecord> processStoppingActivitiesLocked(
boolean remove) {
int N = mStoppingActivities.size();
if (N <= 0) return null;
ArrayList<HistoryRecord> stops = null;
final boolean nowVisible = mResumedActivity != null
&& mResumedActivity.nowVisible
&& !mResumedActivity.waitingVisible;
for (int i=0; i<N; i++) {
HistoryRecord s = mStoppingActivities.get(i);
if (localLOGV) Log.v(TAG, "Stopping " + s + ": nowVisible="
+ nowVisible + " waitingVisible=" + s.waitingVisible
+ " finishing=" + s.finishing);
if (s.waitingVisible && nowVisible) {
mWaitingVisibleActivities.remove(s);
s.waitingVisible = false;
if (s.finishing) {
// If this activity is finishing, it is sitting on top of
// everyone else but we now know it is no longer needed...
// so get rid of it. Otherwise, we need to go through the
// normal flow and hide it once we determine that it is
// hidden by the activities in front of it.
if (localLOGV) Log.v(TAG, "Before stopping, can hide: " + s);
mWindowManager.setAppVisibility(s, false);
}
}
if (!s.waitingVisible && remove) {
if (localLOGV) Log.v(TAG, "Ready to stop: " + s);
if (stops == null) {
stops = new ArrayList<HistoryRecord>();
}
stops.add(s);
mStoppingActivities.remove(i);
N--;
i--;
}
}
return stops;
}
void enableScreenAfterBoot() {
EventLog.writeEvent(EventLogTags.BOOT_PROGRESS_ENABLE_SCREEN,
SystemClock.uptimeMillis());
mWindowManager.enableScreenAfterBoot();
}
final void activityIdleInternal(IBinder token, boolean fromTimeout,
Configuration config) {
if (localLOGV) Log.v(TAG, "Activity idle: " + token);
ArrayList<HistoryRecord> stops = null;
ArrayList<HistoryRecord> finishes = null;
ArrayList<HistoryRecord> thumbnails = null;
int NS = 0;
int NF = 0;
int NT = 0;
IApplicationThread sendThumbnail = null;
boolean booting = false;
boolean enableScreen = false;
synchronized (this) {
if (token != null) {
mHandler.removeMessages(IDLE_TIMEOUT_MSG, token);
}
// Get the activity record.
int index = indexOfTokenLocked(token);
if (index >= 0) {
HistoryRecord r = (HistoryRecord)mHistory.get(index);
// This is a hack to semi-deal with a race condition
// in the client where it can be constructed with a
// newer configuration from when we asked it to launch.
// We'll update with whatever configuration it now says
// it used to launch.
if (config != null) {
r.configuration = config;
}
// No longer need to keep the device awake.
if (mResumedActivity == r && mLaunchingActivity.isHeld()) {
mHandler.removeMessages(LAUNCH_TIMEOUT_MSG);
mLaunchingActivity.release();
}
// We are now idle. If someone is waiting for a thumbnail from
// us, we can now deliver.
r.idle = true;
scheduleAppGcsLocked();
if (r.thumbnailNeeded && r.app != null && r.app.thread != null) {
sendThumbnail = r.app.thread;
r.thumbnailNeeded = false;
}
// If this activity is fullscreen, set up to hide those under it.
if (DEBUG_VISBILITY) Log.v(TAG, "Idle activity for " + r);
ensureActivitiesVisibleLocked(null, 0);
//Log.i(TAG, "IDLE: mBooted=" + mBooted + ", fromTimeout=" + fromTimeout);
if (!mBooted && !fromTimeout) {
mBooted = true;
enableScreen = true;
}
}
// Atomically retrieve all of the other things to do.
stops = processStoppingActivitiesLocked(true);
NS = stops != null ? stops.size() : 0;
if ((NF=mFinishingActivities.size()) > 0) {
finishes = new ArrayList<HistoryRecord>(mFinishingActivities);
mFinishingActivities.clear();
}
if ((NT=mCancelledThumbnails.size()) > 0) {
thumbnails = new ArrayList<HistoryRecord>(mCancelledThumbnails);
mCancelledThumbnails.clear();
}
booting = mBooting;
mBooting = false;
}
int i;
// Send thumbnail if requested.
if (sendThumbnail != null) {
try {
sendThumbnail.requestThumbnail(token);
} catch (Exception e) {
Log.w(TAG, "Exception thrown when requesting thumbnail", e);
sendPendingThumbnail(null, token, null, null, true);
}
}
// Stop any activities that are scheduled to do so but have been
// waiting for the next one to start.
for (i=0; i<NS; i++) {
HistoryRecord r = (HistoryRecord)stops.get(i);
synchronized (this) {
if (r.finishing) {
finishCurrentActivityLocked(r, FINISH_IMMEDIATELY);
} else {
stopActivityLocked(r);
}
}
}
// Finish any activities that are scheduled to do so but have been
// waiting for the next one to start.
for (i=0; i<NF; i++) {
HistoryRecord r = (HistoryRecord)finishes.get(i);
synchronized (this) {
destroyActivityLocked(r, true);
}
}
// Report back to any thumbnail receivers.
for (i=0; i<NT; i++) {
HistoryRecord r = (HistoryRecord)thumbnails.get(i);
sendPendingThumbnail(r, null, null, null, true);
}
if (booting) {
finishBooting();
}
trimApplications();
//dump();
//mWindowManager.dump();
if (enableScreen) {
enableScreenAfterBoot();
}
}
final void finishBooting() {
// Ensure that any processes we had put on hold are now started
// up.
final int NP = mProcessesOnHold.size();
if (NP > 0) {
ArrayList<ProcessRecord> procs =
new ArrayList<ProcessRecord>(mProcessesOnHold);
for (int ip=0; ip<NP; ip++) {
this.startProcessLocked(procs.get(ip), "on-hold", null);
}
}
if (mFactoryTest != SystemServer.FACTORY_TEST_LOW_LEVEL) {
// Tell anyone interested that we are done booting!
synchronized (this) {
broadcastIntentLocked(null, null,
new Intent(Intent.ACTION_BOOT_COMPLETED, null),
null, null, 0, null, null,
android.Manifest.permission.RECEIVE_BOOT_COMPLETED,
false, false, MY_PID, Process.SYSTEM_UID);
}
}
}
final void ensureBootCompleted() {
boolean booting;
boolean enableScreen;
synchronized (this) {
booting = mBooting;
mBooting = false;
enableScreen = !mBooted;
mBooted = true;
}
if (booting) {
finishBooting();
}
if (enableScreen) {
enableScreenAfterBoot();
}
}
public final void activityPaused(IBinder token, Bundle icicle) {
// Refuse possible leaked file descriptors
if (icicle != null && icicle.hasFileDescriptors()) {
throw new IllegalArgumentException("File descriptors passed in Bundle");
}
final long origId = Binder.clearCallingIdentity();
activityPaused(token, icicle, false);
Binder.restoreCallingIdentity(origId);
}
final void activityPaused(IBinder token, Bundle icicle, boolean timeout) {
if (DEBUG_PAUSE) Log.v(
TAG, "Activity paused: token=" + token + ", icicle=" + icicle
+ ", timeout=" + timeout);
HistoryRecord r = null;
synchronized (this) {
int index = indexOfTokenLocked(token);
if (index >= 0) {
r = (HistoryRecord)mHistory.get(index);
if (!timeout) {
r.icicle = icicle;
r.haveState = true;
}
mHandler.removeMessages(PAUSE_TIMEOUT_MSG, r);
if (mPausingActivity == r) {
r.state = ActivityState.PAUSED;
completePauseLocked();
} else {
EventLog.writeEvent(EventLogTags.AM_FAILED_TO_PAUSE,
System.identityHashCode(r), r.shortComponentName,
mPausingActivity != null
? mPausingActivity.shortComponentName : "(none)");
}
}
}
}
public final void activityStopped(IBinder token, Bitmap thumbnail,
CharSequence description) {
if (localLOGV) Log.v(
TAG, "Activity stopped: token=" + token);
HistoryRecord r = null;
final long origId = Binder.clearCallingIdentity();
synchronized (this) {
int index = indexOfTokenLocked(token);
if (index >= 0) {
r = (HistoryRecord)mHistory.get(index);
r.thumbnail = thumbnail;
r.description = description;
r.stopped = true;
r.state = ActivityState.STOPPED;
if (!r.finishing) {
if (r.configDestroy) {
destroyActivityLocked(r, true);
resumeTopActivityLocked(null);
}
}
}
}
if (r != null) {
sendPendingThumbnail(r, null, null, null, false);
}
trimApplications();
Binder.restoreCallingIdentity(origId);
}
public final void activityDestroyed(IBinder token) {
if (DEBUG_SWITCH) Log.v(TAG, "ACTIVITY DESTROYED: " + token);
synchronized (this) {
mHandler.removeMessages(DESTROY_TIMEOUT_MSG, token);
int index = indexOfTokenLocked(token);
if (index >= 0) {
HistoryRecord r = (HistoryRecord)mHistory.get(index);
if (r.state == ActivityState.DESTROYING) {
final long origId = Binder.clearCallingIdentity();
removeActivityFromHistoryLocked(r);
Binder.restoreCallingIdentity(origId);
}
}
}
}
public String getCallingPackage(IBinder token) {
synchronized (this) {
HistoryRecord r = getCallingRecordLocked(token);
return r != null && r.app != null ? r.info.packageName : null;
}
}
public ComponentName getCallingActivity(IBinder token) {
synchronized (this) {
HistoryRecord r = getCallingRecordLocked(token);
return r != null ? r.intent.getComponent() : null;
}
}
private HistoryRecord getCallingRecordLocked(IBinder token) {
int index = indexOfTokenLocked(token);
if (index >= 0) {
HistoryRecord r = (HistoryRecord)mHistory.get(index);
if (r != null) {
return r.resultTo;
}
}
return null;
}
public ComponentName getActivityClassForToken(IBinder token) {
synchronized(this) {
int index = indexOfTokenLocked(token);
if (index >= 0) {
HistoryRecord r = (HistoryRecord)mHistory.get(index);
return r.intent.getComponent();
}
return null;
}
}
public String getPackageForToken(IBinder token) {
synchronized(this) {
int index = indexOfTokenLocked(token);
if (index >= 0) {
HistoryRecord r = (HistoryRecord)mHistory.get(index);
return r.packageName;
}
return null;
}
}
public IIntentSender getIntentSender(int type,
String packageName, IBinder token, String resultWho,
int requestCode, Intent intent, String resolvedType, int flags) {
// Refuse possible leaked file descriptors
if (intent != null && intent.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
if (type == INTENT_SENDER_BROADCAST) {
if ((intent.getFlags()&Intent.FLAG_RECEIVER_BOOT_UPGRADE) != 0) {
throw new IllegalArgumentException(
"Can't use FLAG_RECEIVER_BOOT_UPGRADE here");
}
}
synchronized(this) {
int callingUid = Binder.getCallingUid();
try {
if (callingUid != 0 && callingUid != Process.SYSTEM_UID &&
Process.supportsProcesses()) {
int uid = ActivityThread.getPackageManager()
.getPackageUid(packageName);
if (uid != Binder.getCallingUid()) {
String msg = "Permission Denial: getIntentSender() from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ ", (need uid=" + uid + ")"
+ " is not allowed to send as package " + packageName;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
}
} catch (RemoteException e) {
throw new SecurityException(e);
}
HistoryRecord activity = null;
if (type == INTENT_SENDER_ACTIVITY_RESULT) {
int index = indexOfTokenLocked(token);
if (index < 0) {
return null;
}
activity = (HistoryRecord)mHistory.get(index);
if (activity.finishing) {
return null;
}
}
final boolean noCreate = (flags&PendingIntent.FLAG_NO_CREATE) != 0;
final boolean cancelCurrent = (flags&PendingIntent.FLAG_CANCEL_CURRENT) != 0;
final boolean updateCurrent = (flags&PendingIntent.FLAG_UPDATE_CURRENT) != 0;
flags &= ~(PendingIntent.FLAG_NO_CREATE|PendingIntent.FLAG_CANCEL_CURRENT
|PendingIntent.FLAG_UPDATE_CURRENT);
PendingIntentRecord.Key key = new PendingIntentRecord.Key(
type, packageName, activity, resultWho,
requestCode, intent, resolvedType, flags);
WeakReference<PendingIntentRecord> ref;
ref = mIntentSenderRecords.get(key);
PendingIntentRecord rec = ref != null ? ref.get() : null;
if (rec != null) {
if (!cancelCurrent) {
if (updateCurrent) {
rec.key.requestIntent.replaceExtras(intent);
}
return rec;
}
rec.canceled = true;
mIntentSenderRecords.remove(key);
}
if (noCreate) {
return rec;
}
rec = new PendingIntentRecord(this, key, callingUid);
mIntentSenderRecords.put(key, rec.ref);
if (type == INTENT_SENDER_ACTIVITY_RESULT) {
if (activity.pendingResults == null) {
activity.pendingResults
= new HashSet<WeakReference<PendingIntentRecord>>();
}
activity.pendingResults.add(rec.ref);
}
return rec;
}
}
public void cancelIntentSender(IIntentSender sender) {
if (!(sender instanceof PendingIntentRecord)) {
return;
}
synchronized(this) {
PendingIntentRecord rec = (PendingIntentRecord)sender;
try {
int uid = ActivityThread.getPackageManager()
.getPackageUid(rec.key.packageName);
if (uid != Binder.getCallingUid()) {
String msg = "Permission Denial: cancelIntentSender() from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ " is not allowed to cancel packges "
+ rec.key.packageName;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
} catch (RemoteException e) {
throw new SecurityException(e);
}
cancelIntentSenderLocked(rec, true);
}
}
void cancelIntentSenderLocked(PendingIntentRecord rec, boolean cleanActivity) {
rec.canceled = true;
mIntentSenderRecords.remove(rec.key);
if (cleanActivity && rec.key.activity != null) {
rec.key.activity.pendingResults.remove(rec.ref);
}
}
public String getPackageForIntentSender(IIntentSender pendingResult) {
if (!(pendingResult instanceof PendingIntentRecord)) {
return null;
}
synchronized(this) {
try {
PendingIntentRecord res = (PendingIntentRecord)pendingResult;
return res.key.packageName;
} catch (ClassCastException e) {
}
}
return null;
}
public void setProcessLimit(int max) {
enforceCallingPermission(android.Manifest.permission.SET_PROCESS_LIMIT,
"setProcessLimit()");
mProcessLimit = max;
}
public int getProcessLimit() {
return mProcessLimit;
}
void foregroundTokenDied(ForegroundToken token) {
synchronized (ActivityManagerService.this) {
synchronized (mPidsSelfLocked) {
ForegroundToken cur
= mForegroundProcesses.get(token.pid);
if (cur != token) {
return;
}
mForegroundProcesses.remove(token.pid);
ProcessRecord pr = mPidsSelfLocked.get(token.pid);
if (pr == null) {
return;
}
pr.forcingToForeground = null;
pr.foregroundServices = false;
}
updateOomAdjLocked();
}
}
public void setProcessForeground(IBinder token, int pid, boolean isForeground) {
enforceCallingPermission(android.Manifest.permission.SET_PROCESS_LIMIT,
"setProcessForeground()");
synchronized(this) {
boolean changed = false;
synchronized (mPidsSelfLocked) {
ProcessRecord pr = mPidsSelfLocked.get(pid);
if (pr == null) {
Log.w(TAG, "setProcessForeground called on unknown pid: " + pid);
return;
}
ForegroundToken oldToken = mForegroundProcesses.get(pid);
if (oldToken != null) {
oldToken.token.unlinkToDeath(oldToken, 0);
mForegroundProcesses.remove(pid);
pr.forcingToForeground = null;
changed = true;
}
if (isForeground && token != null) {
ForegroundToken newToken = new ForegroundToken() {
public void binderDied() {
foregroundTokenDied(this);
}
};
newToken.pid = pid;
newToken.token = token;
try {
token.linkToDeath(newToken, 0);
mForegroundProcesses.put(pid, newToken);
pr.forcingToForeground = token;
changed = true;
} catch (RemoteException e) {
// If the process died while doing this, we will later
// do the cleanup with the process death link.
}
}
}
if (changed) {
updateOomAdjLocked();
}
}
}
// =========================================================
// PERMISSIONS
// =========================================================
static class PermissionController extends IPermissionController.Stub {
ActivityManagerService mActivityManagerService;
PermissionController(ActivityManagerService activityManagerService) {
mActivityManagerService = activityManagerService;
}
public boolean checkPermission(String permission, int pid, int uid) {
return mActivityManagerService.checkPermission(permission, pid,
uid) == PackageManager.PERMISSION_GRANTED;
}
}
/**
* This can be called with or without the global lock held.
*/
int checkComponentPermission(String permission, int pid, int uid,
int reqUid) {
// We might be performing an operation on behalf of an indirect binder
// invocation, e.g. via {@link #openContentUri}. Check and adjust the
// client identity accordingly before proceeding.
Identity tlsIdentity = sCallerIdentity.get();
if (tlsIdentity != null) {
Log.d(TAG, "checkComponentPermission() adjusting {pid,uid} to {"
+ tlsIdentity.pid + "," + tlsIdentity.uid + "}");
uid = tlsIdentity.uid;
pid = tlsIdentity.pid;
}
// Root, system server and our own process get to do everything.
if (uid == 0 || uid == Process.SYSTEM_UID || pid == MY_PID ||
!Process.supportsProcesses()) {
return PackageManager.PERMISSION_GRANTED;
}
// If the target requires a specific UID, always fail for others.
if (reqUid >= 0 && uid != reqUid) {
Log.w(TAG, "Permission denied: checkComponentPermission() reqUid=" + reqUid);
return PackageManager.PERMISSION_DENIED;
}
if (permission == null) {
return PackageManager.PERMISSION_GRANTED;
}
try {
return ActivityThread.getPackageManager()
.checkUidPermission(permission, uid);
} catch (RemoteException e) {
// Should never happen, but if it does... deny!
Log.e(TAG, "PackageManager is dead?!?", e);
}
return PackageManager.PERMISSION_DENIED;
}
/**
* As the only public entry point for permissions checking, this method
* can enforce the semantic that requesting a check on a null global
* permission is automatically denied. (Internally a null permission
* string is used when calling {@link #checkComponentPermission} in cases
* when only uid-based security is needed.)
*
* This can be called with or without the global lock held.
*/
public int checkPermission(String permission, int pid, int uid) {
if (permission == null) {
return PackageManager.PERMISSION_DENIED;
}
return checkComponentPermission(permission, pid, uid, -1);
}
/**
* Binder IPC calls go through the public entry point.
* This can be called with or without the global lock held.
*/
int checkCallingPermission(String permission) {
return checkPermission(permission,
Binder.getCallingPid(),
Binder.getCallingUid());
}
/**
* This can be called with or without the global lock held.
*/
void enforceCallingPermission(String permission, String func) {
if (checkCallingPermission(permission)
== PackageManager.PERMISSION_GRANTED) {
return;
}
String msg = "Permission Denial: " + func + " from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ " requires " + permission;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
private final boolean checkHoldingPermissionsLocked(IPackageManager pm,
ProviderInfo pi, int uid, int modeFlags) {
try {
if ((modeFlags&Intent.FLAG_GRANT_READ_URI_PERMISSION) != 0) {
if ((pi.readPermission != null) &&
(pm.checkUidPermission(pi.readPermission, uid)
!= PackageManager.PERMISSION_GRANTED)) {
return false;
}
}
if ((modeFlags&Intent.FLAG_GRANT_WRITE_URI_PERMISSION) != 0) {
if ((pi.writePermission != null) &&
(pm.checkUidPermission(pi.writePermission, uid)
!= PackageManager.PERMISSION_GRANTED)) {
return false;
}
}
return true;
} catch (RemoteException e) {
return false;
}
}
private final boolean checkUriPermissionLocked(Uri uri, int uid,
int modeFlags) {
// Root gets to do everything.
if (uid == 0 || !Process.supportsProcesses()) {
return true;
}
HashMap<Uri, UriPermission> perms = mGrantedUriPermissions.get(uid);
if (perms == null) return false;
UriPermission perm = perms.get(uri);
if (perm == null) return false;
return (modeFlags&perm.modeFlags) == modeFlags;
}
public int checkUriPermission(Uri uri, int pid, int uid, int modeFlags) {
// Another redirected-binder-call permissions check as in
// {@link checkComponentPermission}.
Identity tlsIdentity = sCallerIdentity.get();
if (tlsIdentity != null) {
uid = tlsIdentity.uid;
pid = tlsIdentity.pid;
}
// Our own process gets to do everything.
if (pid == MY_PID) {
return PackageManager.PERMISSION_GRANTED;
}
synchronized(this) {
return checkUriPermissionLocked(uri, uid, modeFlags)
? PackageManager.PERMISSION_GRANTED
: PackageManager.PERMISSION_DENIED;
}
}
private void grantUriPermissionLocked(int callingUid,
String targetPkg, Uri uri, int modeFlags, HistoryRecord activity) {
modeFlags &= (Intent.FLAG_GRANT_READ_URI_PERMISSION
| Intent.FLAG_GRANT_WRITE_URI_PERMISSION);
if (modeFlags == 0) {
return;
}
final IPackageManager pm = ActivityThread.getPackageManager();
// If this is not a content: uri, we can't do anything with it.
if (!ContentResolver.SCHEME_CONTENT.equals(uri.getScheme())) {
return;
}
String name = uri.getAuthority();
ProviderInfo pi = null;
ContentProviderRecord cpr
= (ContentProviderRecord)mProvidersByName.get(name);
if (cpr != null) {
pi = cpr.info;
} else {
try {
pi = pm.resolveContentProvider(name,
PackageManager.GET_URI_PERMISSION_PATTERNS);
} catch (RemoteException ex) {
}
}
if (pi == null) {
Log.w(TAG, "No content provider found for: " + name);
return;
}
int targetUid;
try {
targetUid = pm.getPackageUid(targetPkg);
if (targetUid < 0) {
return;
}
} catch (RemoteException ex) {
return;
}
// First... does the target actually need this permission?
if (checkHoldingPermissionsLocked(pm, pi, targetUid, modeFlags)) {
// No need to grant the target this permission.
return;
}
// Second... maybe someone else has already granted the
// permission?
if (checkUriPermissionLocked(uri, targetUid, modeFlags)) {
// No need to grant the target this permission.
return;
}
// Third... is the provider allowing granting of URI permissions?
if (!pi.grantUriPermissions) {
throw new SecurityException("Provider " + pi.packageName
+ "/" + pi.name
+ " does not allow granting of Uri permissions (uri "
+ uri + ")");
}
if (pi.uriPermissionPatterns != null) {
final int N = pi.uriPermissionPatterns.length;
boolean allowed = false;
for (int i=0; i<N; i++) {
if (pi.uriPermissionPatterns[i] != null
&& pi.uriPermissionPatterns[i].match(uri.getPath())) {
allowed = true;
break;
}
}
if (!allowed) {
throw new SecurityException("Provider " + pi.packageName
+ "/" + pi.name
+ " does not allow granting of permission to path of Uri "
+ uri);
}
}
// Fourth... does the caller itself have permission to access
// this uri?
if (!checkHoldingPermissionsLocked(pm, pi, callingUid, modeFlags)) {
if (!checkUriPermissionLocked(uri, callingUid, modeFlags)) {
throw new SecurityException("Uid " + callingUid
+ " does not have permission to uri " + uri);
}
}
// Okay! So here we are: the caller has the assumed permission
// to the uri, and the target doesn't. Let's now give this to
// the target.
HashMap<Uri, UriPermission> targetUris
= mGrantedUriPermissions.get(targetUid);
if (targetUris == null) {
targetUris = new HashMap<Uri, UriPermission>();
mGrantedUriPermissions.put(targetUid, targetUris);
}
UriPermission perm = targetUris.get(uri);
if (perm == null) {
perm = new UriPermission(targetUid, uri);
targetUris.put(uri, perm);
}
perm.modeFlags |= modeFlags;
if (activity == null) {
perm.globalModeFlags |= modeFlags;
} else if ((modeFlags&Intent.FLAG_GRANT_READ_URI_PERMISSION) != 0) {
perm.readActivities.add(activity);
if (activity.readUriPermissions == null) {
activity.readUriPermissions = new HashSet<UriPermission>();
}
activity.readUriPermissions.add(perm);
} else if ((modeFlags&Intent.FLAG_GRANT_WRITE_URI_PERMISSION) != 0) {
perm.writeActivities.add(activity);
if (activity.writeUriPermissions == null) {
activity.writeUriPermissions = new HashSet<UriPermission>();
}
activity.writeUriPermissions.add(perm);
}
}
private void grantUriPermissionFromIntentLocked(int callingUid,
String targetPkg, Intent intent, HistoryRecord activity) {
if (intent == null) {
return;
}
Uri data = intent.getData();
if (data == null) {
return;
}
grantUriPermissionLocked(callingUid, targetPkg, data,
intent.getFlags(), activity);
}
public void grantUriPermission(IApplicationThread caller, String targetPkg,
Uri uri, int modeFlags) {
synchronized(this) {
final ProcessRecord r = getRecordForAppLocked(caller);
if (r == null) {
throw new SecurityException("Unable to find app for caller "
+ caller
+ " when granting permission to uri " + uri);
}
if (targetPkg == null) {
Log.w(TAG, "grantUriPermission: null target");
return;
}
if (uri == null) {
Log.w(TAG, "grantUriPermission: null uri");
return;
}
grantUriPermissionLocked(r.info.uid, targetPkg, uri, modeFlags,
null);
}
}
private void removeUriPermissionIfNeededLocked(UriPermission perm) {
if ((perm.modeFlags&(Intent.FLAG_GRANT_READ_URI_PERMISSION
|Intent.FLAG_GRANT_WRITE_URI_PERMISSION)) == 0) {
HashMap<Uri, UriPermission> perms
= mGrantedUriPermissions.get(perm.uid);
if (perms != null) {
perms.remove(perm.uri);
if (perms.size() == 0) {
mGrantedUriPermissions.remove(perm.uid);
}
}
}
}
private void removeActivityUriPermissionsLocked(HistoryRecord activity) {
if (activity.readUriPermissions != null) {
for (UriPermission perm : activity.readUriPermissions) {
perm.readActivities.remove(activity);
if (perm.readActivities.size() == 0 && (perm.globalModeFlags
&Intent.FLAG_GRANT_READ_URI_PERMISSION) == 0) {
perm.modeFlags &= ~Intent.FLAG_GRANT_READ_URI_PERMISSION;
removeUriPermissionIfNeededLocked(perm);
}
}
}
if (activity.writeUriPermissions != null) {
for (UriPermission perm : activity.writeUriPermissions) {
perm.writeActivities.remove(activity);
if (perm.writeActivities.size() == 0 && (perm.globalModeFlags
&Intent.FLAG_GRANT_WRITE_URI_PERMISSION) == 0) {
perm.modeFlags &= ~Intent.FLAG_GRANT_WRITE_URI_PERMISSION;
removeUriPermissionIfNeededLocked(perm);
}
}
}
}
private void revokeUriPermissionLocked(int callingUid, Uri uri,
int modeFlags) {
modeFlags &= (Intent.FLAG_GRANT_READ_URI_PERMISSION
| Intent.FLAG_GRANT_WRITE_URI_PERMISSION);
if (modeFlags == 0) {
return;
}
final IPackageManager pm = ActivityThread.getPackageManager();
final String authority = uri.getAuthority();
ProviderInfo pi = null;
ContentProviderRecord cpr
= (ContentProviderRecord)mProvidersByName.get(authority);
if (cpr != null) {
pi = cpr.info;
} else {
try {
pi = pm.resolveContentProvider(authority,
PackageManager.GET_URI_PERMISSION_PATTERNS);
} catch (RemoteException ex) {
}
}
if (pi == null) {
Log.w(TAG, "No content provider found for: " + authority);
return;
}
// Does the caller have this permission on the URI?
if (!checkHoldingPermissionsLocked(pm, pi, callingUid, modeFlags)) {
// Right now, if you are not the original owner of the permission,
// you are not allowed to revoke it.
//if (!checkUriPermissionLocked(uri, callingUid, modeFlags)) {
throw new SecurityException("Uid " + callingUid
+ " does not have permission to uri " + uri);
//}
}
// Go through all of the permissions and remove any that match.
final List<String> SEGMENTS = uri.getPathSegments();
if (SEGMENTS != null) {
final int NS = SEGMENTS.size();
int N = mGrantedUriPermissions.size();
for (int i=0; i<N; i++) {
HashMap<Uri, UriPermission> perms
= mGrantedUriPermissions.valueAt(i);
Iterator<UriPermission> it = perms.values().iterator();
toploop:
while (it.hasNext()) {
UriPermission perm = it.next();
Uri targetUri = perm.uri;
if (!authority.equals(targetUri.getAuthority())) {
continue;
}
List<String> targetSegments = targetUri.getPathSegments();
if (targetSegments == null) {
continue;
}
if (targetSegments.size() < NS) {
continue;
}
for (int j=0; j<NS; j++) {
if (!SEGMENTS.get(j).equals(targetSegments.get(j))) {
continue toploop;
}
}
perm.clearModes(modeFlags);
if (perm.modeFlags == 0) {
it.remove();
}
}
if (perms.size() == 0) {
mGrantedUriPermissions.remove(
mGrantedUriPermissions.keyAt(i));
N--;
i--;
}
}
}
}
public void revokeUriPermission(IApplicationThread caller, Uri uri,
int modeFlags) {
synchronized(this) {
final ProcessRecord r = getRecordForAppLocked(caller);
if (r == null) {
throw new SecurityException("Unable to find app for caller "
+ caller
+ " when revoking permission to uri " + uri);
}
if (uri == null) {
Log.w(TAG, "revokeUriPermission: null uri");
return;
}
modeFlags &= (Intent.FLAG_GRANT_READ_URI_PERMISSION
| Intent.FLAG_GRANT_WRITE_URI_PERMISSION);
if (modeFlags == 0) {
return;
}
final IPackageManager pm = ActivityThread.getPackageManager();
final String authority = uri.getAuthority();
ProviderInfo pi = null;
ContentProviderRecord cpr
= (ContentProviderRecord)mProvidersByName.get(authority);
if (cpr != null) {
pi = cpr.info;
} else {
try {
pi = pm.resolveContentProvider(authority,
PackageManager.GET_URI_PERMISSION_PATTERNS);
} catch (RemoteException ex) {
}
}
if (pi == null) {
Log.w(TAG, "No content provider found for: " + authority);
return;
}
revokeUriPermissionLocked(r.info.uid, uri, modeFlags);
}
}
public void showWaitingForDebugger(IApplicationThread who, boolean waiting) {
synchronized (this) {
ProcessRecord app =
who != null ? getRecordForAppLocked(who) : null;
if (app == null) return;
Message msg = Message.obtain();
msg.what = WAIT_FOR_DEBUGGER_MSG;
msg.obj = app;
msg.arg1 = waiting ? 1 : 0;
mHandler.sendMessage(msg);
}
}
public void getMemoryInfo(ActivityManager.MemoryInfo outInfo) {
outInfo.availMem = Process.getFreeMemory();
outInfo.threshold = HOME_APP_MEM;
outInfo.lowMemory = outInfo.availMem <
(HOME_APP_MEM + ((HIDDEN_APP_MEM-HOME_APP_MEM)/2));
}
// =========================================================
// TASK MANAGEMENT
// =========================================================
public List getTasks(int maxNum, int flags,
IThumbnailReceiver receiver) {
ArrayList list = new ArrayList();
PendingThumbnailsRecord pending = null;
IApplicationThread topThumbnail = null;
HistoryRecord topRecord = null;
synchronized(this) {
if (localLOGV) Log.v(
TAG, "getTasks: max=" + maxNum + ", flags=" + flags
+ ", receiver=" + receiver);
if (checkCallingPermission(android.Manifest.permission.GET_TASKS)
!= PackageManager.PERMISSION_GRANTED) {
if (receiver != null) {
// If the caller wants to wait for pending thumbnails,
// it ain't gonna get them.
try {
receiver.finished();
} catch (RemoteException ex) {
}
}
String msg = "Permission Denial: getTasks() from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ " requires " + android.Manifest.permission.GET_TASKS;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
int pos = mHistory.size()-1;
HistoryRecord next =
pos >= 0 ? (HistoryRecord)mHistory.get(pos) : null;
HistoryRecord top = null;
CharSequence topDescription = null;
TaskRecord curTask = null;
int numActivities = 0;
int numRunning = 0;
while (pos >= 0 && maxNum > 0) {
final HistoryRecord r = next;
pos--;
next = pos >= 0 ? (HistoryRecord)mHistory.get(pos) : null;
// Initialize state for next task if needed.
if (top == null ||
(top.state == ActivityState.INITIALIZING
&& top.task == r.task)) {
top = r;
topDescription = r.description;
curTask = r.task;
numActivities = numRunning = 0;
}
// Add 'r' into the current task.
numActivities++;
if (r.app != null && r.app.thread != null) {
numRunning++;
}
if (topDescription == null) {
topDescription = r.description;
}
if (localLOGV) Log.v(
TAG, r.intent.getComponent().flattenToShortString()
+ ": task=" + r.task);
// If the next one is a different task, generate a new
// TaskInfo entry for what we have.
if (next == null || next.task != curTask) {
ActivityManager.RunningTaskInfo ci
= new ActivityManager.RunningTaskInfo();
ci.id = curTask.taskId;
ci.baseActivity = r.intent.getComponent();
ci.topActivity = top.intent.getComponent();
ci.thumbnail = top.thumbnail;
ci.description = topDescription;
ci.numActivities = numActivities;
ci.numRunning = numRunning;
//System.out.println(
// "#" + maxNum + ": " + " descr=" + ci.description);
if (ci.thumbnail == null && receiver != null) {
if (localLOGV) Log.v(
TAG, "State=" + top.state + "Idle=" + top.idle
+ " app=" + top.app
+ " thr=" + (top.app != null ? top.app.thread : null));
if (top.state == ActivityState.RESUMED
|| top.state == ActivityState.PAUSING) {
if (top.idle && top.app != null
&& top.app.thread != null) {
topRecord = top;
topThumbnail = top.app.thread;
} else {
top.thumbnailNeeded = true;
}
}
if (pending == null) {
pending = new PendingThumbnailsRecord(receiver);
}
pending.pendingRecords.add(top);
}
list.add(ci);
maxNum--;
top = null;
}
}
if (pending != null) {
mPendingThumbnails.add(pending);
}
}
if (localLOGV) Log.v(TAG, "We have pending thumbnails: " + pending);
if (topThumbnail != null) {
if (localLOGV) Log.v(TAG, "Requesting top thumbnail");
try {
topThumbnail.requestThumbnail(topRecord);
} catch (Exception e) {
Log.w(TAG, "Exception thrown when requesting thumbnail", e);
sendPendingThumbnail(null, topRecord, null, null, true);
}
}
if (pending == null && receiver != null) {
// In this case all thumbnails were available and the client
// is being asked to be told when the remaining ones come in...
// which is unusually, since the top-most currently running
// activity should never have a canned thumbnail! Oh well.
try {
receiver.finished();
} catch (RemoteException ex) {
}
}
return list;
}
public List<ActivityManager.RecentTaskInfo> getRecentTasks(int maxNum,
int flags) {
synchronized (this) {
enforceCallingPermission(android.Manifest.permission.GET_TASKS,
"getRecentTasks()");
final int N = mRecentTasks.size();
ArrayList<ActivityManager.RecentTaskInfo> res
= new ArrayList<ActivityManager.RecentTaskInfo>(
maxNum < N ? maxNum : N);
for (int i=0; i<N && maxNum > 0; i++) {
TaskRecord tr = mRecentTasks.get(i);
if (((flags&ActivityManager.RECENT_WITH_EXCLUDED) != 0)
|| (tr.intent == null)
|| ((tr.intent.getFlags()
&Intent.FLAG_ACTIVITY_EXCLUDE_FROM_RECENTS) == 0)) {
ActivityManager.RecentTaskInfo rti
= new ActivityManager.RecentTaskInfo();
rti.id = tr.numActivities > 0 ? tr.taskId : -1;
rti.baseIntent = new Intent(
tr.intent != null ? tr.intent : tr.affinityIntent);
rti.origActivity = tr.origActivity;
res.add(rti);
maxNum--;
}
}
return res;
}
}
private final int findAffinityTaskTopLocked(int startIndex, String affinity) {
int j;
TaskRecord startTask = ((HistoryRecord)mHistory.get(startIndex)).task;
TaskRecord jt = startTask;
// First look backwards
for (j=startIndex-1; j>=0; j--) {
HistoryRecord r = (HistoryRecord)mHistory.get(j);
if (r.task != jt) {
jt = r.task;
if (affinity.equals(jt.affinity)) {
return j;
}
}
}
// Now look forwards
final int N = mHistory.size();
jt = startTask;
for (j=startIndex+1; j<N; j++) {
HistoryRecord r = (HistoryRecord)mHistory.get(j);
if (r.task != jt) {
if (affinity.equals(jt.affinity)) {
return j;
}
jt = r.task;
}
}
// Might it be at the top?
if (affinity.equals(((HistoryRecord)mHistory.get(N-1)).task.affinity)) {
return N-1;
}
return -1;
}
/**
* Perform a reset of the given task, if needed as part of launching it.
* Returns the new HistoryRecord at the top of the task.
*/
private final HistoryRecord resetTaskIfNeededLocked(HistoryRecord taskTop,
HistoryRecord newActivity) {
boolean forceReset = (newActivity.info.flags
&ActivityInfo.FLAG_CLEAR_TASK_ON_LAUNCH) != 0;
if (taskTop.task.getInactiveDuration() > ACTIVITY_INACTIVE_RESET_TIME) {
if ((newActivity.info.flags
&ActivityInfo.FLAG_ALWAYS_RETAIN_TASK_STATE) == 0) {
forceReset = true;
}
}
final TaskRecord task = taskTop.task;
// We are going to move through the history list so that we can look
// at each activity 'target' with 'below' either the interesting
// activity immediately below it in the stack or null.
HistoryRecord target = null;
int targetI = 0;
int taskTopI = -1;
int replyChainEnd = -1;
int lastReparentPos = -1;
for (int i=mHistory.size()-1; i>=-1; i--) {
HistoryRecord below = i >= 0 ? (HistoryRecord)mHistory.get(i) : null;
if (below != null && below.finishing) {
continue;
}
if (target == null) {
target = below;
targetI = i;
// If we were in the middle of a reply chain before this
// task, it doesn't appear like the root of the chain wants
// anything interesting, so drop it.
replyChainEnd = -1;
continue;
}
final int flags = target.info.flags;
final boolean finishOnTaskLaunch =
(flags&ActivityInfo.FLAG_FINISH_ON_TASK_LAUNCH) != 0;
final boolean allowTaskReparenting =
(flags&ActivityInfo.FLAG_ALLOW_TASK_REPARENTING) != 0;
if (target.task == task) {
// We are inside of the task being reset... we'll either
// finish this activity, push it out for another task,
// or leave it as-is. We only do this
// for activities that are not the root of the task (since
// if we finish the root, we may no longer have the task!).
if (taskTopI < 0) {
taskTopI = targetI;
}
if (below != null && below.task == task) {
final boolean clearWhenTaskReset =
(target.intent.getFlags()
&Intent.FLAG_ACTIVITY_CLEAR_WHEN_TASK_RESET) != 0;
if (!finishOnTaskLaunch && !clearWhenTaskReset && target.resultTo != null) {
// If this activity is sending a reply to a previous
// activity, we can't do anything with it now until
// we reach the start of the reply chain.
// XXX note that we are assuming the result is always
// to the previous activity, which is almost always
// the case but we really shouldn't count on.
if (replyChainEnd < 0) {
replyChainEnd = targetI;
}
} else if (!finishOnTaskLaunch && !clearWhenTaskReset && allowTaskReparenting
&& target.taskAffinity != null
&& !target.taskAffinity.equals(task.affinity)) {
// If this activity has an affinity for another
// task, then we need to move it out of here. We will
// move it as far out of the way as possible, to the
// bottom of the activity stack. This also keeps it
// correctly ordered with any activities we previously
// moved.
HistoryRecord p = (HistoryRecord)mHistory.get(0);
if (target.taskAffinity != null
&& target.taskAffinity.equals(p.task.affinity)) {
// If the activity currently at the bottom has the
// same task affinity as the one we are moving,
// then merge it into the same task.
target.task = p.task;
if (DEBUG_TASKS) Log.v(TAG, "Start pushing activity " + target
+ " out to bottom task " + p.task);
} else {
mCurTask++;
if (mCurTask <= 0) {
mCurTask = 1;
}
target.task = new TaskRecord(mCurTask, target.info, null,
(target.info.flags&ActivityInfo.FLAG_CLEAR_TASK_ON_LAUNCH) != 0);
target.task.affinityIntent = target.intent;
if (DEBUG_TASKS) Log.v(TAG, "Start pushing activity " + target
+ " out to new task " + target.task);
}
mWindowManager.setAppGroupId(target, task.taskId);
if (replyChainEnd < 0) {
replyChainEnd = targetI;
}
int dstPos = 0;
for (int srcPos=targetI; srcPos<=replyChainEnd; srcPos++) {
p = (HistoryRecord)mHistory.get(srcPos);
if (p.finishing) {
continue;
}
if (DEBUG_TASKS) Log.v(TAG, "Pushing next activity " + p
+ " out to target's task " + target.task);
task.numActivities--;
p.task = target.task;
target.task.numActivities++;
mHistory.remove(srcPos);
mHistory.add(dstPos, p);
mWindowManager.moveAppToken(dstPos, p);
mWindowManager.setAppGroupId(p, p.task.taskId);
dstPos++;
if (VALIDATE_TOKENS) {
mWindowManager.validateAppTokens(mHistory);
}
i++;
}
if (taskTop == p) {
taskTop = below;
}
if (taskTopI == replyChainEnd) {
taskTopI = -1;
}
replyChainEnd = -1;
addRecentTask(target.task);
} else if (forceReset || finishOnTaskLaunch
|| clearWhenTaskReset) {
// If the activity should just be removed -- either
// because it asks for it, or the task should be
// cleared -- then finish it and anything that is
// part of its reply chain.
if (clearWhenTaskReset) {
// In this case, we want to finish this activity
// and everything above it, so be sneaky and pretend
// like these are all in the reply chain.
replyChainEnd = targetI+1;
while (replyChainEnd < mHistory.size() &&
((HistoryRecord)mHistory.get(
replyChainEnd)).task == task) {
replyChainEnd++;
}
replyChainEnd--;
} else if (replyChainEnd < 0) {
replyChainEnd = targetI;
}
HistoryRecord p = null;
for (int srcPos=targetI; srcPos<=replyChainEnd; srcPos++) {
p = (HistoryRecord)mHistory.get(srcPos);
if (p.finishing) {
continue;
}
if (finishActivityLocked(p, srcPos,
Activity.RESULT_CANCELED, null, "reset")) {
replyChainEnd--;
srcPos--;
}
}
if (taskTop == p) {
taskTop = below;
}
if (taskTopI == replyChainEnd) {
taskTopI = -1;
}
replyChainEnd = -1;
} else {
// If we were in the middle of a chain, well the
// activity that started it all doesn't want anything
// special, so leave it all as-is.
replyChainEnd = -1;
}
} else {
// Reached the bottom of the task -- any reply chain
// should be left as-is.
replyChainEnd = -1;
}
} else if (target.resultTo != null) {
// If this activity is sending a reply to a previous
// activity, we can't do anything with it now until
// we reach the start of the reply chain.
// XXX note that we are assuming the result is always
// to the previous activity, which is almost always
// the case but we really shouldn't count on.
if (replyChainEnd < 0) {
replyChainEnd = targetI;
}
} else if (taskTopI >= 0 && allowTaskReparenting
&& task.affinity != null
&& task.affinity.equals(target.taskAffinity)) {
// We are inside of another task... if this activity has
// an affinity for our task, then either remove it if we are
// clearing or move it over to our task. Note that
// we currently punt on the case where we are resetting a
// task that is not at the top but who has activities above
// with an affinity to it... this is really not a normal
// case, and we will need to later pull that task to the front
// and usually at that point we will do the reset and pick
// up those remaining activities. (This only happens if
// someone starts an activity in a new task from an activity
// in a task that is not currently on top.)
if (forceReset || finishOnTaskLaunch) {
if (replyChainEnd < 0) {
replyChainEnd = targetI;
}
HistoryRecord p = null;
for (int srcPos=targetI; srcPos<=replyChainEnd; srcPos++) {
p = (HistoryRecord)mHistory.get(srcPos);
if (p.finishing) {
continue;
}
if (finishActivityLocked(p, srcPos,
Activity.RESULT_CANCELED, null, "reset")) {
taskTopI--;
lastReparentPos--;
replyChainEnd--;
srcPos--;
}
}
replyChainEnd = -1;
} else {
if (replyChainEnd < 0) {
replyChainEnd = targetI;
}
for (int srcPos=replyChainEnd; srcPos>=targetI; srcPos--) {
HistoryRecord p = (HistoryRecord)mHistory.get(srcPos);
if (p.finishing) {
continue;
}
if (lastReparentPos < 0) {
lastReparentPos = taskTopI;
taskTop = p;
} else {
lastReparentPos--;
}
mHistory.remove(srcPos);
p.task.numActivities--;
p.task = task;
mHistory.add(lastReparentPos, p);
if (DEBUG_TASKS) Log.v(TAG, "Pulling activity " + p
+ " in to resetting task " + task);
task.numActivities++;
mWindowManager.moveAppToken(lastReparentPos, p);
mWindowManager.setAppGroupId(p, p.task.taskId);
if (VALIDATE_TOKENS) {
mWindowManager.validateAppTokens(mHistory);
}
}
replyChainEnd = -1;
// Now we've moved it in to place... but what if this is
// a singleTop activity and we have put it on top of another
// instance of the same activity? Then we drop the instance
// below so it remains singleTop.
if (target.info.launchMode == ActivityInfo.LAUNCH_SINGLE_TOP) {
for (int j=lastReparentPos-1; j>=0; j--) {
HistoryRecord p = (HistoryRecord)mHistory.get(j);
if (p.finishing) {
continue;
}
if (p.intent.getComponent().equals(target.intent.getComponent())) {
if (finishActivityLocked(p, j,
Activity.RESULT_CANCELED, null, "replace")) {
taskTopI--;
lastReparentPos--;
}
}
}
}
}
}
target = below;
targetI = i;
}
return taskTop;
}
/**
* TODO: Add mController hook
*/
public void moveTaskToFront(int task) {
enforceCallingPermission(android.Manifest.permission.REORDER_TASKS,
"moveTaskToFront()");
synchronized(this) {
if (!checkAppSwitchAllowedLocked(Binder.getCallingPid(),
Binder.getCallingUid(), "Task to front")) {
return;
}
final long origId = Binder.clearCallingIdentity();
try {
int N = mRecentTasks.size();
for (int i=0; i<N; i++) {
TaskRecord tr = mRecentTasks.get(i);
if (tr.taskId == task) {
moveTaskToFrontLocked(tr, null);
return;
}
}
for (int i=mHistory.size()-1; i>=0; i--) {
HistoryRecord hr = (HistoryRecord)mHistory.get(i);
if (hr.task.taskId == task) {
moveTaskToFrontLocked(hr.task, null);
return;
}
}
} finally {
Binder.restoreCallingIdentity(origId);
}
}
}
private final void moveTaskToFrontLocked(TaskRecord tr, HistoryRecord reason) {
if (DEBUG_SWITCH) Log.v(TAG, "moveTaskToFront: " + tr);
final int task = tr.taskId;
int top = mHistory.size()-1;
if (top < 0 || ((HistoryRecord)mHistory.get(top)).task.taskId == task) {
// nothing to do!
return;
}
ArrayList moved = new ArrayList();
// Applying the affinities may have removed entries from the history,
// so get the size again.
top = mHistory.size()-1;
int pos = top;
// Shift all activities with this task up to the top
// of the stack, keeping them in the same internal order.
while (pos >= 0) {
HistoryRecord r = (HistoryRecord)mHistory.get(pos);
if (localLOGV) Log.v(
TAG, "At " + pos + " ckp " + r.task + ": " + r);
boolean first = true;
if (r.task.taskId == task) {
if (localLOGV) Log.v(TAG, "Removing and adding at " + top);
mHistory.remove(pos);
mHistory.add(top, r);
moved.add(0, r);
top--;
if (first) {
addRecentTask(r.task);
first = false;
}
}
pos--;
}
if (DEBUG_TRANSITION) Log.v(TAG,
"Prepare to front transition: task=" + tr);
if (reason != null &&
(reason.intent.getFlags()&Intent.FLAG_ACTIVITY_NO_ANIMATION) != 0) {
mWindowManager.prepareAppTransition(WindowManagerPolicy.TRANSIT_NONE);
HistoryRecord r = topRunningActivityLocked(null);
if (r != null) {
mNoAnimActivities.add(r);
}
} else {
mWindowManager.prepareAppTransition(WindowManagerPolicy.TRANSIT_TASK_TO_FRONT);
}
mWindowManager.moveAppTokensToTop(moved);
if (VALIDATE_TOKENS) {
mWindowManager.validateAppTokens(mHistory);
}
finishTaskMove(task);
EventLog.writeEvent(EventLogTags.AM_TASK_TO_FRONT, task);
}
private final void finishTaskMove(int task) {
resumeTopActivityLocked(null);
}
public void moveTaskToBack(int task) {
enforceCallingPermission(android.Manifest.permission.REORDER_TASKS,
"moveTaskToBack()");
synchronized(this) {
if (mResumedActivity != null && mResumedActivity.task.taskId == task) {
if (!checkAppSwitchAllowedLocked(Binder.getCallingPid(),
Binder.getCallingUid(), "Task to back")) {
return;
}
}
final long origId = Binder.clearCallingIdentity();
moveTaskToBackLocked(task, null);
Binder.restoreCallingIdentity(origId);
}
}
/**
* Moves an activity, and all of the other activities within the same task, to the bottom
* of the history stack. The activity's order within the task is unchanged.
*
* @param token A reference to the activity we wish to move
* @param nonRoot If false then this only works if the activity is the root
* of a task; if true it will work for any activity in a task.
* @return Returns true if the move completed, false if not.
*/
public boolean moveActivityTaskToBack(IBinder token, boolean nonRoot) {
synchronized(this) {
final long origId = Binder.clearCallingIdentity();
int taskId = getTaskForActivityLocked(token, !nonRoot);
if (taskId >= 0) {
return moveTaskToBackLocked(taskId, null);
}
Binder.restoreCallingIdentity(origId);
}
return false;
}
/**
* Worker method for rearranging history stack. Implements the function of moving all
* activities for a specific task (gathering them if disjoint) into a single group at the
* bottom of the stack.
*
* If a watcher is installed, the action is preflighted and the watcher has an opportunity
* to premeptively cancel the move.
*
* @param task The taskId to collect and move to the bottom.
* @return Returns true if the move completed, false if not.
*/
private final boolean moveTaskToBackLocked(int task, HistoryRecord reason) {
Log.i(TAG, "moveTaskToBack: " + task);
// If we have a watcher, preflight the move before committing to it. First check
// for *other* available tasks, but if none are available, then try again allowing the
// current task to be selected.
if (mController != null) {
HistoryRecord next = topRunningActivityLocked(null, task);
if (next == null) {
next = topRunningActivityLocked(null, 0);
}
if (next != null) {
// ask watcher if this is allowed
boolean moveOK = true;
try {
moveOK = mController.activityResuming(next.packageName);
} catch (RemoteException e) {
mController = null;
}
if (!moveOK) {
return false;
}
}
}
ArrayList moved = new ArrayList();
if (DEBUG_TRANSITION) Log.v(TAG,
"Prepare to back transition: task=" + task);
final int N = mHistory.size();
int bottom = 0;
int pos = 0;
// Shift all activities with this task down to the bottom
// of the stack, keeping them in the same internal order.
while (pos < N) {
HistoryRecord r = (HistoryRecord)mHistory.get(pos);
if (localLOGV) Log.v(
TAG, "At " + pos + " ckp " + r.task + ": " + r);
if (r.task.taskId == task) {
if (localLOGV) Log.v(TAG, "Removing and adding at " + (N-1));
mHistory.remove(pos);
mHistory.add(bottom, r);
moved.add(r);
bottom++;
}
pos++;
}
if (reason != null &&
(reason.intent.getFlags()&Intent.FLAG_ACTIVITY_NO_ANIMATION) != 0) {
mWindowManager.prepareAppTransition(WindowManagerPolicy.TRANSIT_NONE);
HistoryRecord r = topRunningActivityLocked(null);
if (r != null) {
mNoAnimActivities.add(r);
}
} else {
mWindowManager.prepareAppTransition(WindowManagerPolicy.TRANSIT_TASK_TO_BACK);
}
mWindowManager.moveAppTokensToBottom(moved);
if (VALIDATE_TOKENS) {
mWindowManager.validateAppTokens(mHistory);
}
finishTaskMove(task);
return true;
}
public void moveTaskBackwards(int task) {
enforceCallingPermission(android.Manifest.permission.REORDER_TASKS,
"moveTaskBackwards()");
synchronized(this) {
if (!checkAppSwitchAllowedLocked(Binder.getCallingPid(),
Binder.getCallingUid(), "Task backwards")) {
return;
}
final long origId = Binder.clearCallingIdentity();
moveTaskBackwardsLocked(task);
Binder.restoreCallingIdentity(origId);
}
}
private final void moveTaskBackwardsLocked(int task) {
Log.e(TAG, "moveTaskBackwards not yet implemented!");
}
public int getTaskForActivity(IBinder token, boolean onlyRoot) {
synchronized(this) {
return getTaskForActivityLocked(token, onlyRoot);
}
}
int getTaskForActivityLocked(IBinder token, boolean onlyRoot) {
final int N = mHistory.size();
TaskRecord lastTask = null;
for (int i=0; i<N; i++) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (r == token) {
if (!onlyRoot || lastTask != r.task) {
return r.task.taskId;
}
return -1;
}
lastTask = r.task;
}
return -1;
}
/**
* Returns the top activity in any existing task matching the given
* Intent. Returns null if no such task is found.
*/
private HistoryRecord findTaskLocked(Intent intent, ActivityInfo info) {
ComponentName cls = intent.getComponent();
if (info.targetActivity != null) {
cls = new ComponentName(info.packageName, info.targetActivity);
}
TaskRecord cp = null;
final int N = mHistory.size();
for (int i=(N-1); i>=0; i--) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (!r.finishing && r.task != cp
&& r.launchMode != ActivityInfo.LAUNCH_SINGLE_INSTANCE) {
cp = r.task;
//Log.i(TAG, "Comparing existing cls=" + r.task.intent.getComponent().flattenToShortString()
// + "/aff=" + r.task.affinity + " to new cls="
// + intent.getComponent().flattenToShortString() + "/aff=" + taskAffinity);
if (r.task.affinity != null) {
if (r.task.affinity.equals(info.taskAffinity)) {
//Log.i(TAG, "Found matching affinity!");
return r;
}
} else if (r.task.intent != null
&& r.task.intent.getComponent().equals(cls)) {
//Log.i(TAG, "Found matching class!");
//dump();
//Log.i(TAG, "For Intent " + intent + " bringing to top: " + r.intent);
return r;
} else if (r.task.affinityIntent != null
&& r.task.affinityIntent.getComponent().equals(cls)) {
//Log.i(TAG, "Found matching class!");
//dump();
//Log.i(TAG, "For Intent " + intent + " bringing to top: " + r.intent);
return r;
}
}
}
return null;
}
/**
* Returns the first activity (starting from the top of the stack) that
* is the same as the given activity. Returns null if no such activity
* is found.
*/
private HistoryRecord findActivityLocked(Intent intent, ActivityInfo info) {
ComponentName cls = intent.getComponent();
if (info.targetActivity != null) {
cls = new ComponentName(info.packageName, info.targetActivity);
}
final int N = mHistory.size();
for (int i=(N-1); i>=0; i--) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (!r.finishing) {
if (r.intent.getComponent().equals(cls)) {
//Log.i(TAG, "Found matching class!");
//dump();
//Log.i(TAG, "For Intent " + intent + " bringing to top: " + r.intent);
return r;
}
}
}
return null;
}
public void finishOtherInstances(IBinder token, ComponentName className) {
synchronized(this) {
final long origId = Binder.clearCallingIdentity();
int N = mHistory.size();
TaskRecord lastTask = null;
for (int i=0; i<N; i++) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (r.realActivity.equals(className)
&& r != token && lastTask != r.task) {
if (finishActivityLocked(r, i, Activity.RESULT_CANCELED,
null, "others")) {
i--;
N--;
}
}
lastTask = r.task;
}
Binder.restoreCallingIdentity(origId);
}
}
// =========================================================
// THUMBNAILS
// =========================================================
public void reportThumbnail(IBinder token,
Bitmap thumbnail, CharSequence description) {
//System.out.println("Report thumbnail for " + token + ": " + thumbnail);
final long origId = Binder.clearCallingIdentity();
sendPendingThumbnail(null, token, thumbnail, description, true);
Binder.restoreCallingIdentity(origId);
}
final void sendPendingThumbnail(HistoryRecord r, IBinder token,
Bitmap thumbnail, CharSequence description, boolean always) {
TaskRecord task = null;
ArrayList receivers = null;
//System.out.println("Send pending thumbnail: " + r);
synchronized(this) {
if (r == null) {
int index = indexOfTokenLocked(token);
if (index < 0) {
return;
}
r = (HistoryRecord)mHistory.get(index);
}
if (thumbnail == null) {
thumbnail = r.thumbnail;
description = r.description;
}
if (thumbnail == null && !always) {
// If there is no thumbnail, and this entry is not actually
// going away, then abort for now and pick up the next
// thumbnail we get.
return;
}
task = r.task;
int N = mPendingThumbnails.size();
int i=0;
while (i<N) {
PendingThumbnailsRecord pr =
(PendingThumbnailsRecord)mPendingThumbnails.get(i);
//System.out.println("Looking in " + pr.pendingRecords);
if (pr.pendingRecords.remove(r)) {
if (receivers == null) {
receivers = new ArrayList();
}
receivers.add(pr);
if (pr.pendingRecords.size() == 0) {
pr.finished = true;
mPendingThumbnails.remove(i);
N--;
continue;
}
}
i++;
}
}
if (receivers != null) {
final int N = receivers.size();
for (int i=0; i<N; i++) {
try {
PendingThumbnailsRecord pr =
(PendingThumbnailsRecord)receivers.get(i);
pr.receiver.newThumbnail(
task != null ? task.taskId : -1, thumbnail, description);
if (pr.finished) {
pr.receiver.finished();
}
} catch (Exception e) {
Log.w(TAG, "Exception thrown when sending thumbnail", e);
}
}
}
}
// =========================================================
// CONTENT PROVIDERS
// =========================================================
private final List generateApplicationProvidersLocked(ProcessRecord app) {
List providers = null;
try {
providers = ActivityThread.getPackageManager().
queryContentProviders(app.processName, app.info.uid,
STOCK_PM_FLAGS | PackageManager.GET_URI_PERMISSION_PATTERNS);
} catch (RemoteException ex) {
}
if (providers != null) {
final int N = providers.size();
for (int i=0; i<N; i++) {
ProviderInfo cpi =
(ProviderInfo)providers.get(i);
ContentProviderRecord cpr =
(ContentProviderRecord)mProvidersByClass.get(cpi.name);
if (cpr == null) {
cpr = new ContentProviderRecord(cpi, app.info);
mProvidersByClass.put(cpi.name, cpr);
}
app.pubProviders.put(cpi.name, cpr);
app.addPackage(cpi.applicationInfo.packageName);
ensurePackageDexOpt(cpi.applicationInfo.packageName);
}
}
return providers;
}
private final String checkContentProviderPermissionLocked(
ProviderInfo cpi, ProcessRecord r, int mode) {
final int callingPid = (r != null) ? r.pid : Binder.getCallingPid();
final int callingUid = (r != null) ? r.info.uid : Binder.getCallingUid();
if (checkComponentPermission(cpi.readPermission, callingPid, callingUid,
cpi.exported ? -1 : cpi.applicationInfo.uid)
== PackageManager.PERMISSION_GRANTED
&& mode == ParcelFileDescriptor.MODE_READ_ONLY || mode == -1) {
return null;
}
if (checkComponentPermission(cpi.writePermission, callingPid, callingUid,
cpi.exported ? -1 : cpi.applicationInfo.uid)
== PackageManager.PERMISSION_GRANTED) {
return null;
}
PathPermission[] pps = cpi.pathPermissions;
if (pps != null) {
int i = pps.length;
while (i > 0) {
i--;
PathPermission pp = pps[i];
if (checkComponentPermission(pp.getReadPermission(), callingPid, callingUid,
cpi.exported ? -1 : cpi.applicationInfo.uid)
== PackageManager.PERMISSION_GRANTED
&& mode == ParcelFileDescriptor.MODE_READ_ONLY || mode == -1) {
return null;
}
if (checkComponentPermission(pp.getWritePermission(), callingPid, callingUid,
cpi.exported ? -1 : cpi.applicationInfo.uid)
== PackageManager.PERMISSION_GRANTED) {
return null;
}
}
}
String msg = "Permission Denial: opening provider " + cpi.name
+ " from " + (r != null ? r : "(null)") + " (pid=" + callingPid
+ ", uid=" + callingUid + ") requires "
+ cpi.readPermission + " or " + cpi.writePermission;
Log.w(TAG, msg);
return msg;
}
private final ContentProviderHolder getContentProviderImpl(
IApplicationThread caller, String name) {
ContentProviderRecord cpr;
ProviderInfo cpi = null;
synchronized(this) {
ProcessRecord r = null;
if (caller != null) {
r = getRecordForAppLocked(caller);
if (r == null) {
throw new SecurityException(
"Unable to find app for caller " + caller
+ " (pid=" + Binder.getCallingPid()
+ ") when getting content provider " + name);
}
}
// First check if this content provider has been published...
cpr = (ContentProviderRecord)mProvidersByName.get(name);
if (cpr != null) {
cpi = cpr.info;
if (checkContentProviderPermissionLocked(cpi, r, -1) != null) {
return new ContentProviderHolder(cpi,
cpi.readPermission != null
? cpi.readPermission : cpi.writePermission);
}
if (r != null && cpr.canRunHere(r)) {
// This provider has been published or is in the process
// of being published... but it is also allowed to run
// in the caller's process, so don't make a connection
// and just let the caller instantiate its own instance.
if (cpr.provider != null) {
// don't give caller the provider object, it needs
// to make its own.
cpr = new ContentProviderRecord(cpr);
}
return cpr;
}
final long origId = Binder.clearCallingIdentity();
// In this case the provider instance already exists, so we can
// return it right away.
if (r != null) {
if (DEBUG_PROVIDER) Log.v(TAG,
"Adding provider requested by "
+ r.processName + " from process "
+ cpr.info.processName);
Integer cnt = r.conProviders.get(cpr);
if (cnt == null) {
r.conProviders.put(cpr, new Integer(1));
} else {
r.conProviders.put(cpr, new Integer(cnt.intValue()+1));
}
cpr.clients.add(r);
} else {
cpr.externals++;
}
if (cpr.app != null) {
updateOomAdjLocked(cpr.app);
}
Binder.restoreCallingIdentity(origId);
} else {
try {
cpi = ActivityThread.getPackageManager().
resolveContentProvider(name,
STOCK_PM_FLAGS | PackageManager.GET_URI_PERMISSION_PATTERNS);
} catch (RemoteException ex) {
}
if (cpi == null) {
return null;
}
if (checkContentProviderPermissionLocked(cpi, r, -1) != null) {
return new ContentProviderHolder(cpi,
cpi.readPermission != null
? cpi.readPermission : cpi.writePermission);
}
cpr = (ContentProviderRecord)mProvidersByClass.get(cpi.name);
final boolean firstClass = cpr == null;
if (firstClass) {
try {
ApplicationInfo ai =
ActivityThread.getPackageManager().
getApplicationInfo(
cpi.applicationInfo.packageName,
STOCK_PM_FLAGS);
if (ai == null) {
Log.w(TAG, "No package info for content provider "
+ cpi.name);
return null;
}
cpr = new ContentProviderRecord(cpi, ai);
} catch (RemoteException ex) {
// pm is in same process, this will never happen.
}
}
if (r != null && cpr.canRunHere(r)) {
// If this is a multiprocess provider, then just return its
// info and allow the caller to instantiate it. Only do
// this if the provider is the same user as the caller's
// process, or can run as root (so can be in any process).
return cpr;
}
if (DEBUG_PROVIDER) {
RuntimeException e = new RuntimeException("here");
Log.w(TAG, "LAUNCHING REMOTE PROVIDER (myuid " + r.info.uid
+ " pruid " + cpr.appInfo.uid + "): " + cpr.info.name, e);
}
// This is single process, and our app is now connecting to it.
// See if we are already in the process of launching this
// provider.
final int N = mLaunchingProviders.size();
int i;
for (i=0; i<N; i++) {
if (mLaunchingProviders.get(i) == cpr) {
break;
}
}
// If the provider is not already being launched, then get it
// started.
if (i >= N) {
final long origId = Binder.clearCallingIdentity();
ProcessRecord proc = startProcessLocked(cpi.processName,
cpr.appInfo, false, 0, "content provider",
new ComponentName(cpi.applicationInfo.packageName,
cpi.name), false);
if (proc == null) {
Log.w(TAG, "Unable to launch app "
+ cpi.applicationInfo.packageName + "/"
+ cpi.applicationInfo.uid + " for provider "
+ name + ": process is bad");
return null;
}
cpr.launchingApp = proc;
mLaunchingProviders.add(cpr);
Binder.restoreCallingIdentity(origId);
}
// Make sure the provider is published (the same provider class
// may be published under multiple names).
if (firstClass) {
mProvidersByClass.put(cpi.name, cpr);
}
mProvidersByName.put(name, cpr);
if (r != null) {
if (DEBUG_PROVIDER) Log.v(TAG,
"Adding provider requested by "
+ r.processName + " from process "
+ cpr.info.processName);
Integer cnt = r.conProviders.get(cpr);
if (cnt == null) {
r.conProviders.put(cpr, new Integer(1));
} else {
r.conProviders.put(cpr, new Integer(cnt.intValue()+1));
}
cpr.clients.add(r);
} else {
cpr.externals++;
}
}
}
// Wait for the provider to be published...
synchronized (cpr) {
while (cpr.provider == null) {
if (cpr.launchingApp == null) {
Log.w(TAG, "Unable to launch app "
+ cpi.applicationInfo.packageName + "/"
+ cpi.applicationInfo.uid + " for provider "
+ name + ": launching app became null");
EventLog.writeEvent(EventLogTags.AM_PROVIDER_LOST_PROCESS,
cpi.applicationInfo.packageName,
cpi.applicationInfo.uid, name);
return null;
}
try {
cpr.wait();
} catch (InterruptedException ex) {
}
}
}
return cpr;
}
public final ContentProviderHolder getContentProvider(
IApplicationThread caller, String name) {
if (caller == null) {
String msg = "null IApplicationThread when getting content provider "
+ name;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
return getContentProviderImpl(caller, name);
}
private ContentProviderHolder getContentProviderExternal(String name) {
return getContentProviderImpl(null, name);
}
/**
* Drop a content provider from a ProcessRecord's bookkeeping
* @param cpr
*/
public void removeContentProvider(IApplicationThread caller, String name) {
synchronized (this) {
ContentProviderRecord cpr = (ContentProviderRecord)mProvidersByName.get(name);
if(cpr == null) {
// remove from mProvidersByClass
if (DEBUG_PROVIDER) Log.v(TAG, name +
" provider not found in providers list");
return;
}
final ProcessRecord r = getRecordForAppLocked(caller);
if (r == null) {
throw new SecurityException(
"Unable to find app for caller " + caller +
" when removing content provider " + name);
}
//update content provider record entry info
ContentProviderRecord localCpr = (ContentProviderRecord)
mProvidersByClass.get(cpr.info.name);
if (DEBUG_PROVIDER) Log.v(TAG, "Removing provider requested by "
+ r.info.processName + " from process "
+ localCpr.appInfo.processName);
if (localCpr.app == r) {
//should not happen. taken care of as a local provider
Log.w(TAG, "removeContentProvider called on local provider: "
+ cpr.info.name + " in process " + r.processName);
return;
} else {
Integer cnt = r.conProviders.get(localCpr);
if (cnt == null || cnt.intValue() <= 1) {
localCpr.clients.remove(r);
r.conProviders.remove(localCpr);
} else {
r.conProviders.put(localCpr, new Integer(cnt.intValue()-1));
}
}
updateOomAdjLocked();
}
}
private void removeContentProviderExternal(String name) {
synchronized (this) {
ContentProviderRecord cpr = (ContentProviderRecord)mProvidersByName.get(name);
if(cpr == null) {
//remove from mProvidersByClass
if(localLOGV) Log.v(TAG, name+" content provider not found in providers list");
return;
}
//update content provider record entry info
ContentProviderRecord localCpr = (ContentProviderRecord) mProvidersByClass.get(cpr.info.name);
localCpr.externals--;
if (localCpr.externals < 0) {
Log.e(TAG, "Externals < 0 for content provider " + localCpr);
}
updateOomAdjLocked();
}
}
public final void publishContentProviders(IApplicationThread caller,
List<ContentProviderHolder> providers) {
if (providers == null) {
return;
}
synchronized(this) {
final ProcessRecord r = getRecordForAppLocked(caller);
if (r == null) {
throw new SecurityException(
"Unable to find app for caller " + caller
+ " (pid=" + Binder.getCallingPid()
+ ") when publishing content providers");
}
final long origId = Binder.clearCallingIdentity();
final int N = providers.size();
for (int i=0; i<N; i++) {
ContentProviderHolder src = providers.get(i);
if (src == null || src.info == null || src.provider == null) {
continue;
}
ContentProviderRecord dst =
(ContentProviderRecord)r.pubProviders.get(src.info.name);
if (dst != null) {
mProvidersByClass.put(dst.info.name, dst);
String names[] = dst.info.authority.split(";");
for (int j = 0; j < names.length; j++) {
mProvidersByName.put(names[j], dst);
}
int NL = mLaunchingProviders.size();
int j;
for (j=0; j<NL; j++) {
if (mLaunchingProviders.get(j) == dst) {
mLaunchingProviders.remove(j);
j--;
NL--;
}
}
synchronized (dst) {
dst.provider = src.provider;
dst.app = r;
dst.notifyAll();
}
updateOomAdjLocked(r);
}
}
Binder.restoreCallingIdentity(origId);
}
}
public static final void installSystemProviders() {
ProcessRecord app = mSelf.mProcessNames.get("system", Process.SYSTEM_UID);
List providers = mSelf.generateApplicationProvidersLocked(app);
mSystemThread.installSystemProviders(providers);
}
// =========================================================
// GLOBAL MANAGEMENT
// =========================================================
final ProcessRecord newProcessRecordLocked(IApplicationThread thread,
ApplicationInfo info, String customProcess) {
String proc = customProcess != null ? customProcess : info.processName;
BatteryStatsImpl.Uid.Proc ps = null;
BatteryStatsImpl stats = mBatteryStatsService.getActiveStatistics();
synchronized (stats) {
ps = stats.getProcessStatsLocked(info.uid, proc);
}
return new ProcessRecord(ps, thread, info, proc);
}
final ProcessRecord addAppLocked(ApplicationInfo info) {
ProcessRecord app = getProcessRecordLocked(info.processName, info.uid);
if (app == null) {
app = newProcessRecordLocked(null, info, null);
mProcessNames.put(info.processName, info.uid, app);
updateLruProcessLocked(app, true, true);
}
if ((info.flags&(ApplicationInfo.FLAG_SYSTEM|ApplicationInfo.FLAG_PERSISTENT))
== (ApplicationInfo.FLAG_SYSTEM|ApplicationInfo.FLAG_PERSISTENT)) {
app.persistent = true;
app.maxAdj = CORE_SERVER_ADJ;
}
if (app.thread == null && mPersistentStartingProcesses.indexOf(app) < 0) {
mPersistentStartingProcesses.add(app);
startProcessLocked(app, "added application", app.processName);
}
return app;
}
public void unhandledBack() {
enforceCallingPermission(android.Manifest.permission.FORCE_BACK,
"unhandledBack()");
synchronized(this) {
int count = mHistory.size();
if (DEBUG_SWITCH) Log.d(
TAG, "Performing unhandledBack(): stack size = " + count);
if (count > 1) {
final long origId = Binder.clearCallingIdentity();
finishActivityLocked((HistoryRecord)mHistory.get(count-1),
count-1, Activity.RESULT_CANCELED, null, "unhandled-back");
Binder.restoreCallingIdentity(origId);
}
}
}
public ParcelFileDescriptor openContentUri(Uri uri) throws RemoteException {
String name = uri.getAuthority();
ContentProviderHolder cph = getContentProviderExternal(name);
ParcelFileDescriptor pfd = null;
if (cph != null) {
// We record the binder invoker's uid in thread-local storage before
// going to the content provider to open the file. Later, in the code
// that handles all permissions checks, we look for this uid and use
// that rather than the Activity Manager's own uid. The effect is that
// we do the check against the caller's permissions even though it looks
// to the content provider like the Activity Manager itself is making
// the request.
sCallerIdentity.set(new Identity(
Binder.getCallingPid(), Binder.getCallingUid()));
try {
pfd = cph.provider.openFile(uri, "r");
} catch (FileNotFoundException e) {
// do nothing; pfd will be returned null
} finally {
// Ensure that whatever happens, we clean up the identity state
sCallerIdentity.remove();
}
// We've got the fd now, so we're done with the provider.
removeContentProviderExternal(name);
} else {
Log.d(TAG, "Failed to get provider for authority '" + name + "'");
}
return pfd;
}
public void goingToSleep() {
synchronized(this) {
mSleeping = true;
mWindowManager.setEventDispatching(false);
if (mResumedActivity != null) {
pauseIfSleepingLocked();
} else {
Log.w(TAG, "goingToSleep with no resumed activity!");
}
}
}
public boolean shutdown(int timeout) {
if (checkCallingPermission(android.Manifest.permission.SHUTDOWN)
!= PackageManager.PERMISSION_GRANTED) {
throw new SecurityException("Requires permission "
+ android.Manifest.permission.SHUTDOWN);
}
boolean timedout = false;
synchronized(this) {
mShuttingDown = true;
mWindowManager.setEventDispatching(false);
if (mResumedActivity != null) {
pauseIfSleepingLocked();
final long endTime = System.currentTimeMillis() + timeout;
while (mResumedActivity != null || mPausingActivity != null) {
long delay = endTime - System.currentTimeMillis();
if (delay <= 0) {
Log.w(TAG, "Activity manager shutdown timed out");
timedout = true;
break;
}
try {
this.wait();
} catch (InterruptedException e) {
}
}
}
}
mUsageStatsService.shutdown();
mBatteryStatsService.shutdown();
return timedout;
}
void pauseIfSleepingLocked() {
if (mSleeping || mShuttingDown) {
if (!mGoingToSleep.isHeld()) {
mGoingToSleep.acquire();
if (mLaunchingActivity.isHeld()) {
mLaunchingActivity.release();
mHandler.removeMessages(LAUNCH_TIMEOUT_MSG);
}
}
// If we are not currently pausing an activity, get the current
// one to pause. If we are pausing one, we will just let that stuff
// run and release the wake lock when all done.
if (mPausingActivity == null) {
if (DEBUG_PAUSE) Log.v(TAG, "Sleep needs to pause...");
if (DEBUG_USER_LEAVING) Log.v(TAG, "Sleep => pause with userLeaving=false");
startPausingLocked(false, true);
}
}
}
public void wakingUp() {
synchronized(this) {
if (mGoingToSleep.isHeld()) {
mGoingToSleep.release();
}
mWindowManager.setEventDispatching(true);
mSleeping = false;
resumeTopActivityLocked(null);
}
}
public void stopAppSwitches() {
if (checkCallingPermission(android.Manifest.permission.STOP_APP_SWITCHES)
!= PackageManager.PERMISSION_GRANTED) {
throw new SecurityException("Requires permission "
+ android.Manifest.permission.STOP_APP_SWITCHES);
}
synchronized(this) {
mAppSwitchesAllowedTime = SystemClock.uptimeMillis()
+ APP_SWITCH_DELAY_TIME;
mDidAppSwitch = false;
mHandler.removeMessages(DO_PENDING_ACTIVITY_LAUNCHES_MSG);
Message msg = mHandler.obtainMessage(DO_PENDING_ACTIVITY_LAUNCHES_MSG);
mHandler.sendMessageDelayed(msg, APP_SWITCH_DELAY_TIME);
}
}
public void resumeAppSwitches() {
if (checkCallingPermission(android.Manifest.permission.STOP_APP_SWITCHES)
!= PackageManager.PERMISSION_GRANTED) {
throw new SecurityException("Requires permission "
+ android.Manifest.permission.STOP_APP_SWITCHES);
}
synchronized(this) {
// Note that we don't execute any pending app switches... we will
// let those wait until either the timeout, or the next start
// activity request.
mAppSwitchesAllowedTime = 0;
}
}
boolean checkAppSwitchAllowedLocked(int callingPid, int callingUid,
String name) {
if (mAppSwitchesAllowedTime < SystemClock.uptimeMillis()) {
return true;
}
final int perm = checkComponentPermission(
android.Manifest.permission.STOP_APP_SWITCHES, callingPid,
callingUid, -1);
if (perm == PackageManager.PERMISSION_GRANTED) {
return true;
}
Log.w(TAG, name + " request from " + callingUid + " stopped");
return false;
}
public void setDebugApp(String packageName, boolean waitForDebugger,
boolean persistent) {
enforceCallingPermission(android.Manifest.permission.SET_DEBUG_APP,
"setDebugApp()");
// Note that this is not really thread safe if there are multiple
// callers into it at the same time, but that's not a situation we
// care about.
if (persistent) {
final ContentResolver resolver = mContext.getContentResolver();
Settings.System.putString(
resolver, Settings.System.DEBUG_APP,
packageName);
Settings.System.putInt(
resolver, Settings.System.WAIT_FOR_DEBUGGER,
waitForDebugger ? 1 : 0);
}
synchronized (this) {
if (!persistent) {
mOrigDebugApp = mDebugApp;
mOrigWaitForDebugger = mWaitForDebugger;
}
mDebugApp = packageName;
mWaitForDebugger = waitForDebugger;
mDebugTransient = !persistent;
if (packageName != null) {
final long origId = Binder.clearCallingIdentity();
forceStopPackageLocked(packageName, -1, false);
Binder.restoreCallingIdentity(origId);
}
}
}
public void setAlwaysFinish(boolean enabled) {
enforceCallingPermission(android.Manifest.permission.SET_ALWAYS_FINISH,
"setAlwaysFinish()");
Settings.System.putInt(
mContext.getContentResolver(),
Settings.System.ALWAYS_FINISH_ACTIVITIES, enabled ? 1 : 0);
synchronized (this) {
mAlwaysFinishActivities = enabled;
}
}
public void setActivityController(IActivityController controller) {
enforceCallingPermission(android.Manifest.permission.SET_ACTIVITY_WATCHER,
"setActivityController()");
synchronized (this) {
mController = controller;
}
}
public void registerActivityWatcher(IActivityWatcher watcher) {
mWatchers.register(watcher);
}
public void unregisterActivityWatcher(IActivityWatcher watcher) {
mWatchers.unregister(watcher);
}
public final void enterSafeMode() {
synchronized(this) {
// It only makes sense to do this before the system is ready
// and started launching other packages.
if (!mSystemReady) {
try {
ActivityThread.getPackageManager().enterSafeMode();
} catch (RemoteException e) {
}
View v = LayoutInflater.from(mContext).inflate(
com.android.internal.R.layout.safe_mode, null);
WindowManager.LayoutParams lp = new WindowManager.LayoutParams();
lp.type = WindowManager.LayoutParams.TYPE_SYSTEM_OVERLAY;
lp.width = WindowManager.LayoutParams.WRAP_CONTENT;
lp.height = WindowManager.LayoutParams.WRAP_CONTENT;
lp.gravity = Gravity.BOTTOM | Gravity.LEFT;
lp.format = v.getBackground().getOpacity();
lp.flags = WindowManager.LayoutParams.FLAG_NOT_FOCUSABLE
| WindowManager.LayoutParams.FLAG_NOT_TOUCHABLE;
((WindowManager)mContext.getSystemService(
Context.WINDOW_SERVICE)).addView(v, lp);
}
}
}
public void noteWakeupAlarm(IIntentSender sender) {
if (!(sender instanceof PendingIntentRecord)) {
return;
}
BatteryStatsImpl stats = mBatteryStatsService.getActiveStatistics();
synchronized (stats) {
if (mBatteryStatsService.isOnBattery()) {
mBatteryStatsService.enforceCallingPermission();
PendingIntentRecord rec = (PendingIntentRecord)sender;
int MY_UID = Binder.getCallingUid();
int uid = rec.uid == MY_UID ? Process.SYSTEM_UID : rec.uid;
BatteryStatsImpl.Uid.Pkg pkg =
stats.getPackageStatsLocked(uid, rec.key.packageName);
pkg.incWakeupsLocked();
}
}
}
public boolean killPidsForMemory(int[] pids) {
if (Binder.getCallingUid() != Process.SYSTEM_UID) {
throw new SecurityException("killPidsForMemory only available to the system");
}
// XXX Note: don't acquire main activity lock here, because the window
// manager calls in with its locks held.
boolean killed = false;
synchronized (mPidsSelfLocked) {
int[] types = new int[pids.length];
int worstType = 0;
for (int i=0; i<pids.length; i++) {
ProcessRecord proc = mPidsSelfLocked.get(pids[i]);
if (proc != null) {
int type = proc.setAdj;
types[i] = type;
if (type > worstType) {
worstType = type;
}
}
}
// If the worse oom_adj is somewhere in the hidden proc LRU range,
// then constrain it so we will kill all hidden procs.
if (worstType < EMPTY_APP_ADJ && worstType > HIDDEN_APP_MIN_ADJ) {
worstType = HIDDEN_APP_MIN_ADJ;
}
Log.w(TAG, "Killing processes for memory at adjustment " + worstType);
for (int i=0; i<pids.length; i++) {
ProcessRecord proc = mPidsSelfLocked.get(pids[i]);
if (proc == null) {
continue;
}
int adj = proc.setAdj;
if (adj >= worstType) {
Log.w(TAG, "Killing for memory: " + proc + " (adj "
+ adj + ")");
EventLog.writeEvent(EventLogTags.AM_KILL_FOR_MEMORY, proc.pid,
proc.processName, adj);
killed = true;
Process.killProcess(pids[i]);
}
}
}
return killed;
}
public void reportPss(IApplicationThread caller, int pss) {
Watchdog.PssRequestor req;
String name;
ProcessRecord callerApp;
synchronized (this) {
if (caller == null) {
return;
}
callerApp = getRecordForAppLocked(caller);
if (callerApp == null) {
return;
}
callerApp.lastPss = pss;
req = callerApp;
name = callerApp.processName;
}
Watchdog.getInstance().reportPss(req, name, pss);
if (!callerApp.persistent) {
removeRequestedPss(callerApp);
}
}
public void requestPss(Runnable completeCallback) {
ArrayList<ProcessRecord> procs;
synchronized (this) {
mRequestPssCallback = completeCallback;
mRequestPssList.clear();
for (int i=mLruProcesses.size()-1; i>=0; i--) {
ProcessRecord proc = mLruProcesses.get(i);
if (!proc.persistent) {
mRequestPssList.add(proc);
}
}
procs = new ArrayList<ProcessRecord>(mRequestPssList);
}
int oldPri = Process.getThreadPriority(Process.myTid());
Process.setThreadPriority(Process.THREAD_PRIORITY_BACKGROUND);
for (int i=procs.size()-1; i>=0; i--) {
ProcessRecord proc = procs.get(i);
proc.lastPss = 0;
proc.requestPss();
}
Process.setThreadPriority(oldPri);
}
void removeRequestedPss(ProcessRecord proc) {
Runnable callback = null;
synchronized (this) {
if (mRequestPssList.remove(proc)) {
if (mRequestPssList.size() == 0) {
callback = mRequestPssCallback;
mRequestPssCallback = null;
}
}
}
if (callback != null) {
callback.run();
}
}
public void collectPss(Watchdog.PssStats stats) {
stats.mEmptyPss = 0;
stats.mEmptyCount = 0;
stats.mBackgroundPss = 0;
stats.mBackgroundCount = 0;
stats.mServicePss = 0;
stats.mServiceCount = 0;
stats.mVisiblePss = 0;
stats.mVisibleCount = 0;
stats.mForegroundPss = 0;
stats.mForegroundCount = 0;
stats.mNoPssCount = 0;
synchronized (this) {
int i;
int NPD = mProcDeaths.length < stats.mProcDeaths.length
? mProcDeaths.length : stats.mProcDeaths.length;
int aggr = 0;
for (i=0; i<NPD; i++) {
aggr += mProcDeaths[i];
stats.mProcDeaths[i] = aggr;
}
while (i<stats.mProcDeaths.length) {
stats.mProcDeaths[i] = 0;
i++;
}
for (i=mLruProcesses.size()-1; i>=0; i--) {
ProcessRecord proc = mLruProcesses.get(i);
if (proc.persistent) {
continue;
}
//Log.i(TAG, "Proc " + proc + ": pss=" + proc.lastPss);
if (proc.lastPss == 0) {
stats.mNoPssCount++;
continue;
}
if (proc.setAdj >= HIDDEN_APP_MIN_ADJ) {
if (proc.empty) {
stats.mEmptyPss += proc.lastPss;
stats.mEmptyCount++;
} else {
stats.mBackgroundPss += proc.lastPss;
stats.mBackgroundCount++;
}
} else if (proc.setAdj >= VISIBLE_APP_ADJ) {
stats.mVisiblePss += proc.lastPss;
stats.mVisibleCount++;
} else {
stats.mForegroundPss += proc.lastPss;
stats.mForegroundCount++;
}
}
}
}
public final void startRunning(String pkg, String cls, String action,
String data) {
synchronized(this) {
if (mStartRunning) {
return;
}
mStartRunning = true;
mTopComponent = pkg != null && cls != null
? new ComponentName(pkg, cls) : null;
mTopAction = action != null ? action : Intent.ACTION_MAIN;
mTopData = data;
if (!mSystemReady) {
return;
}
}
systemReady(null);
}
private void retrieveSettings() {
final ContentResolver resolver = mContext.getContentResolver();
String debugApp = Settings.System.getString(
resolver, Settings.System.DEBUG_APP);
boolean waitForDebugger = Settings.System.getInt(
resolver, Settings.System.WAIT_FOR_DEBUGGER, 0) != 0;
boolean alwaysFinishActivities = Settings.System.getInt(
resolver, Settings.System.ALWAYS_FINISH_ACTIVITIES, 0) != 0;
Configuration configuration = new Configuration();
Settings.System.getConfiguration(resolver, configuration);
synchronized (this) {
mDebugApp = mOrigDebugApp = debugApp;
mWaitForDebugger = mOrigWaitForDebugger = waitForDebugger;
mAlwaysFinishActivities = alwaysFinishActivities;
// This happens before any activities are started, so we can
// change mConfiguration in-place.
mConfiguration.updateFrom(configuration);
if (DEBUG_CONFIGURATION) Log.v(TAG, "Initial config: " + mConfiguration);
}
}
public boolean testIsSystemReady() {
// no need to synchronize(this) just to read & return the value
return mSystemReady;
}
public void systemReady(final Runnable goingCallback) {
// In the simulator, startRunning will never have been called, which
// normally sets a few crucial variables. Do it here instead.
if (!Process.supportsProcesses()) {
mStartRunning = true;
mTopAction = Intent.ACTION_MAIN;
}
synchronized(this) {
if (mSystemReady) {
if (goingCallback != null) goingCallback.run();
return;
}
// Check to see if there are any update receivers to run.
if (!mDidUpdate) {
if (mWaitingUpdate) {
return;
}
Intent intent = new Intent(Intent.ACTION_PRE_BOOT_COMPLETED);
List<ResolveInfo> ris = null;
try {
ris = ActivityThread.getPackageManager().queryIntentReceivers(
intent, null, 0);
} catch (RemoteException e) {
}
if (ris != null) {
for (int i=ris.size()-1; i>=0; i--) {
if ((ris.get(i).activityInfo.applicationInfo.flags
&ApplicationInfo.FLAG_SYSTEM) == 0) {
ris.remove(i);
}
}
intent.addFlags(Intent.FLAG_RECEIVER_BOOT_UPGRADE);
for (int i=0; i<ris.size(); i++) {
ActivityInfo ai = ris.get(i).activityInfo;
intent.setComponent(new ComponentName(ai.packageName, ai.name));
IIntentReceiver finisher = null;
if (i == 0) {
finisher = new IIntentReceiver.Stub() {
public void performReceive(Intent intent, int resultCode,
String data, Bundle extras, boolean ordered,
boolean sticky)
throws RemoteException {
synchronized (ActivityManagerService.this) {
mDidUpdate = true;
}
systemReady(goingCallback);
}
};
}
Log.i(TAG, "Sending system update to: " + intent.getComponent());
broadcastIntentLocked(null, null, intent, null, finisher,
0, null, null, null, true, false, MY_PID, Process.SYSTEM_UID);
if (i == 0) {
mWaitingUpdate = true;
}
}
}
if (mWaitingUpdate) {
return;
}
mDidUpdate = true;
}
mSystemReady = true;
if (!mStartRunning) {
return;
}
}
ArrayList<ProcessRecord> procsToKill = null;
synchronized(mPidsSelfLocked) {
for (int i=mPidsSelfLocked.size()-1; i>=0; i--) {
ProcessRecord proc = mPidsSelfLocked.valueAt(i);
if (!isAllowedWhileBooting(proc.info)){
if (procsToKill == null) {
procsToKill = new ArrayList<ProcessRecord>();
}
procsToKill.add(proc);
}
}
}
if (procsToKill != null) {
synchronized(this) {
for (int i=procsToKill.size()-1; i>=0; i--) {
ProcessRecord proc = procsToKill.get(i);
Log.i(TAG, "Removing system update proc: " + proc);
removeProcessLocked(proc, true);
}
}
}
Log.i(TAG, "System now ready");
EventLog.writeEvent(EventLogTags.BOOT_PROGRESS_AMS_READY,
SystemClock.uptimeMillis());
synchronized(this) {
// Make sure we have no pre-ready processes sitting around.
if (mFactoryTest == SystemServer.FACTORY_TEST_LOW_LEVEL) {
ResolveInfo ri = mContext.getPackageManager()
.resolveActivity(new Intent(Intent.ACTION_FACTORY_TEST),
STOCK_PM_FLAGS);
CharSequence errorMsg = null;
if (ri != null) {
ActivityInfo ai = ri.activityInfo;
ApplicationInfo app = ai.applicationInfo;
if ((app.flags&ApplicationInfo.FLAG_SYSTEM) != 0) {
mTopAction = Intent.ACTION_FACTORY_TEST;
mTopData = null;
mTopComponent = new ComponentName(app.packageName,
ai.name);
} else {
errorMsg = mContext.getResources().getText(
com.android.internal.R.string.factorytest_not_system);
}
} else {
errorMsg = mContext.getResources().getText(
com.android.internal.R.string.factorytest_no_action);
}
if (errorMsg != null) {
mTopAction = null;
mTopData = null;
mTopComponent = null;
Message msg = Message.obtain();
msg.what = SHOW_FACTORY_ERROR_MSG;
msg.getData().putCharSequence("msg", errorMsg);
mHandler.sendMessage(msg);
}
}
}
retrieveSettings();
if (goingCallback != null) goingCallback.run();
synchronized (this) {
if (mFactoryTest != SystemServer.FACTORY_TEST_LOW_LEVEL) {
try {
List apps = ActivityThread.getPackageManager().
getPersistentApplications(STOCK_PM_FLAGS);
if (apps != null) {
int N = apps.size();
int i;
for (i=0; i<N; i++) {
ApplicationInfo info
= (ApplicationInfo)apps.get(i);
if (info != null &&
!info.packageName.equals("android")) {
addAppLocked(info);
}
}
}
} catch (RemoteException ex) {
// pm is in same process, this will never happen.
}
}
// Start up initial activity.
mBooting = true;
try {
if (ActivityThread.getPackageManager().hasSystemUidErrors()) {
Message msg = Message.obtain();
msg.what = SHOW_UID_ERROR_MSG;
mHandler.sendMessage(msg);
}
} catch (RemoteException e) {
}
resumeTopActivityLocked(null);
}
}
private boolean makeAppCrashingLocked(ProcessRecord app,
String shortMsg, String longMsg, String stackTrace) {
app.crashing = true;
app.crashingReport = generateProcessError(app,
ActivityManager.ProcessErrorStateInfo.CRASHED, null, shortMsg, longMsg, stackTrace);
startAppProblemLocked(app);
app.stopFreezingAllLocked();
return handleAppCrashLocked(app);
}
private ComponentName getErrorReportReceiver(ProcessRecord app) {
// check if error reporting is enabled in Gservices
int enabled = Settings.Gservices.getInt(mContext.getContentResolver(),
Settings.Gservices.SEND_ACTION_APP_ERROR, 0);
if (enabled == 0) {
return null;
}
IPackageManager pm = ActivityThread.getPackageManager();
try {
// look for receiver in the installer package
String candidate = pm.getInstallerPackageName(app.info.packageName);
ComponentName result = getErrorReportReceiver(pm, app.info.packageName, candidate);
if (result != null) {
return result;
}
// if the error app is on the system image, look for system apps
// error receiver
if ((app.info.flags&ApplicationInfo.FLAG_SYSTEM) != 0) {
candidate = SystemProperties.get(SYSTEM_APPS_ERROR_RECEIVER_PROPERTY);
result = getErrorReportReceiver(pm, app.info.packageName, candidate);
if (result != null) {
return result;
}
}
// if there is a default receiver, try that
candidate = SystemProperties.get(DEFAULT_ERROR_RECEIVER_PROPERTY);
return getErrorReportReceiver(pm, app.info.packageName, candidate);
} catch (RemoteException e) {
// should not happen
Log.e(TAG, "error talking to PackageManager", e);
return null;
}
}
/**
* Return activity in receiverPackage that handles ACTION_APP_ERROR.
*
* @param pm PackageManager isntance
* @param errorPackage package which caused the error
* @param receiverPackage candidate package to receive the error
* @return activity component within receiverPackage which handles
* ACTION_APP_ERROR, or null if not found
*/
private ComponentName getErrorReportReceiver(IPackageManager pm, String errorPackage,
String receiverPackage) throws RemoteException {
if (receiverPackage == null || receiverPackage.length() == 0) {
return null;
}
// break the loop if it's the error report receiver package that crashed
if (receiverPackage.equals(errorPackage)) {
return null;
}
Intent intent = new Intent(Intent.ACTION_APP_ERROR);
intent.setPackage(receiverPackage);
ResolveInfo info = pm.resolveIntent(intent, null, 0);
if (info == null || info.activityInfo == null) {
return null;
}
return new ComponentName(receiverPackage, info.activityInfo.name);
}
private void makeAppNotRespondingLocked(ProcessRecord app,
String activity, String shortMsg, String longMsg) {
app.notResponding = true;
app.notRespondingReport = generateProcessError(app,
ActivityManager.ProcessErrorStateInfo.NOT_RESPONDING,
activity, shortMsg, longMsg, null);
startAppProblemLocked(app);
app.stopFreezingAllLocked();
}
/**
* Generate a process error record, suitable for attachment to a ProcessRecord.
*
* @param app The ProcessRecord in which the error occurred.
* @param condition Crashing, Application Not Responding, etc. Values are defined in
* ActivityManager.AppErrorStateInfo
* @param activity The activity associated with the crash, if known.
* @param shortMsg Short message describing the crash.
* @param longMsg Long message describing the crash.
* @param stackTrace Full crash stack trace, may be null.
*
* @return Returns a fully-formed AppErrorStateInfo record.
*/
private ActivityManager.ProcessErrorStateInfo generateProcessError(ProcessRecord app,
int condition, String activity, String shortMsg, String longMsg, String stackTrace) {
ActivityManager.ProcessErrorStateInfo report = new ActivityManager.ProcessErrorStateInfo();
report.condition = condition;
report.processName = app.processName;
report.pid = app.pid;
report.uid = app.info.uid;
report.tag = activity;
report.shortMsg = shortMsg;
report.longMsg = longMsg;
report.stackTrace = stackTrace;
return report;
}
void killAppAtUsersRequest(ProcessRecord app, Dialog fromDialog,
boolean crashed) {
synchronized (this) {
app.crashing = false;
app.crashingReport = null;
app.notResponding = false;
app.notRespondingReport = null;
if (app.anrDialog == fromDialog) {
app.anrDialog = null;
}
if (app.waitDialog == fromDialog) {
app.waitDialog = null;
}
if (app.pid > 0 && app.pid != MY_PID) {
if (crashed) {
handleAppCrashLocked(app);
}
Log.i(ActivityManagerService.TAG, "Killing process "
+ app.processName
+ " (pid=" + app.pid + ") at user's request");
Process.killProcess(app.pid);
}
}
}
private boolean handleAppCrashLocked(ProcessRecord app) {
long now = SystemClock.uptimeMillis();
Long crashTime = mProcessCrashTimes.get(app.info.processName,
app.info.uid);
if (crashTime != null && now < crashTime+MIN_CRASH_INTERVAL) {
// This process loses!
Log.w(TAG, "Process " + app.info.processName
+ " has crashed too many times: killing!");
EventLog.writeEvent(EventLogTags.AM_PROCESS_CRASHED_TOO_MUCH,
app.info.processName, app.info.uid);
killServicesLocked(app, false);
for (int i=mHistory.size()-1; i>=0; i--) {
HistoryRecord r = (HistoryRecord)mHistory.get(i);
if (r.app == app) {
Log.w(TAG, " Force finishing activity "
+ r.intent.getComponent().flattenToShortString());
finishActivityLocked(r, i, Activity.RESULT_CANCELED, null, "crashed");
}
}
if (!app.persistent) {
// We don't want to start this process again until the user
// explicitly does so... but for persistent process, we really
// need to keep it running. If a persistent process is actually
// repeatedly crashing, then badness for everyone.
EventLog.writeEvent(EventLogTags.AM_PROC_BAD, app.info.uid,
app.info.processName);
mBadProcesses.put(app.info.processName, app.info.uid, now);
app.bad = true;
mProcessCrashTimes.remove(app.info.processName, app.info.uid);
app.removed = true;
removeProcessLocked(app, false);
return false;
}
}
// Bump up the crash count of any services currently running in the proc.
if (app.services.size() != 0) {
// Any services running in the application need to be placed
// back in the pending list.
Iterator it = app.services.iterator();
while (it.hasNext()) {
ServiceRecord sr = (ServiceRecord)it.next();
sr.crashCount++;
}
}
mProcessCrashTimes.put(app.info.processName, app.info.uid, now);
return true;
}
void startAppProblemLocked(ProcessRecord app) {
app.errorReportReceiver = getErrorReportReceiver(app);
skipCurrentReceiverLocked(app);
}
void skipCurrentReceiverLocked(ProcessRecord app) {
boolean reschedule = false;
BroadcastRecord r = app.curReceiver;
if (r != null) {
// The current broadcast is waiting for this app's receiver
// to be finished. Looks like that's not going to happen, so
// let the broadcast continue.
logBroadcastReceiverDiscard(r);
finishReceiverLocked(r.receiver, r.resultCode, r.resultData,
r.resultExtras, r.resultAbort, true);
reschedule = true;
}
r = mPendingBroadcast;
if (r != null && r.curApp == app) {
if (DEBUG_BROADCAST) Log.v(TAG,
"skip & discard pending app " + r);
logBroadcastReceiverDiscard(r);
finishReceiverLocked(r.receiver, r.resultCode, r.resultData,
r.resultExtras, r.resultAbort, true);
reschedule = true;
}
if (reschedule) {
scheduleBroadcastsLocked();
}
}
/**
* Used by {@link com.android.internal.os.RuntimeInit} to report when an application crashes.
* The application process will exit immediately after this call returns.
* @param app object of the crashing app, null for the system server
* @param crashInfo describing the exception
*/
public void handleApplicationCrash(IBinder app, ApplicationErrorReport.CrashInfo crashInfo) {
ProcessRecord r = findAppProcess(app);
EventLog.writeEvent(EventLogTags.AM_CRASH, Binder.getCallingPid(),
app == null ? "system" : (r == null ? "unknown" : r.processName),
crashInfo.exceptionClassName,
crashInfo.exceptionMessage,
crashInfo.throwFileName,
crashInfo.throwLineNumber);
addExceptionToDropBox("crash", r, null, crashInfo);
crashApplication(r, crashInfo);
}
/**
* Used by {@link Log} via {@link com.android.internal.os.RuntimeInit} to report serious errors.
* @param app object of the crashing app, null for the system server
* @param tag reported by the caller
* @param crashInfo describing the context of the error
* @return true if the process should exit immediately (WTF is fatal)
*/
public boolean handleApplicationWtf(IBinder app, String tag,
ApplicationErrorReport.CrashInfo crashInfo) {
ProcessRecord r = findAppProcess(app);
EventLog.writeEvent(EventLogTags.AM_WTF, Binder.getCallingPid(),
app == null ? "system" : (r == null ? "unknown" : r.processName),
tag, crashInfo.exceptionMessage);
addExceptionToDropBox("wtf", r, tag, crashInfo);
if (Settings.Gservices.getInt(mContext.getContentResolver(),
Settings.Gservices.WTF_IS_FATAL, 0) != 0) {
crashApplication(r, crashInfo);
return true;
} else {
return false;
}
}
/**
* @param app object of some object (as stored in {@link com.android.internal.os.RuntimeInit})
* @return the corresponding {@link ProcessRecord} object, or null if none could be found
*/
private ProcessRecord findAppProcess(IBinder app) {
if (app == null) {
return null;
}
synchronized (this) {
for (SparseArray<ProcessRecord> apps : mProcessNames.getMap().values()) {
final int NA = apps.size();
for (int ia=0; ia<NA; ia++) {
ProcessRecord p = apps.valueAt(ia);
if (p.thread != null && p.thread.asBinder() == app) {
return p;
}
}
}
Log.w(TAG, "Can't find mystery application: " + app);
return null;
}
}
/**
* Write a description of an exception (from a crash or WTF report) to the drop box.
* @param eventType to include in the drop box tag ("crash", "wtf", etc.)
* @param r the process which crashed, null for the system server
* @param tag supplied by the application (in the case of WTF), or null
* @param crashInfo describing the exception
*/
private void addExceptionToDropBox(String eventType, ProcessRecord r, String tag,
ApplicationErrorReport.CrashInfo crashInfo) {
String dropboxTag, processName;
if (r == null) {
dropboxTag = "system_server_" + eventType;
} else if ((r.info.flags & ApplicationInfo.FLAG_SYSTEM) != 0) {
dropboxTag = "system_app_" + eventType;
} else {
dropboxTag = "data_app_" + eventType;
}
DropBoxManager dbox = (DropBoxManager) mContext.getSystemService(Context.DROPBOX_SERVICE);
if (dbox != null && dbox.isTagEnabled(dropboxTag)) {
StringBuilder sb = new StringBuilder(1024);
sb.append("Build: ").append(Build.FINGERPRINT).append("\n");
if (r == null) {
sb.append("Process: system_server\n");
} else {
sb.append("Package: ").append(r.info.packageName).append("\n");
if (!r.processName.equals(r.info.packageName)) {
sb.append("Process: ").append(r.processName).append("\n");
}
}
if (tag != null) {
sb.append("Tag: ").append(tag).append("\n");
}
if (crashInfo != null && crashInfo.stackTrace != null) {
sb.append("\n").append(crashInfo.stackTrace);
}
dbox.addText(dropboxTag, sb.toString());
}
}
/**
* Bring up the "unexpected error" dialog box for a crashing app.
* Deal with edge cases (intercepts from instrumented applications,
* ActivityController, error intent receivers, that sort of thing).
* @param r the application crashing
* @param crashInfo describing the failure
*/
private void crashApplication(ProcessRecord r, ApplicationErrorReport.CrashInfo crashInfo) {
long timeMillis = System.currentTimeMillis();
String shortMsg = crashInfo.exceptionClassName;
String longMsg = crashInfo.exceptionMessage;
String stackTrace = crashInfo.stackTrace;
if (shortMsg != null && longMsg != null) {
longMsg = shortMsg + ": " + longMsg;
} else if (shortMsg != null) {
longMsg = shortMsg;
}
AppErrorResult result = new AppErrorResult();
synchronized (this) {
if (r != null) {
// The application has crashed. Send the SIGQUIT to the process so
// that it can dump its state.
Process.sendSignal(r.pid, Process.SIGNAL_QUIT);
//Log.i(TAG, "Current system threads:");
//Process.sendSignal(MY_PID, Process.SIGNAL_QUIT);
}
if (mController != null) {
try {
String name = r != null ? r.processName : null;
int pid = r != null ? r.pid : Binder.getCallingPid();
if (!mController.appCrashed(name, pid,
shortMsg, longMsg, timeMillis, crashInfo.stackTrace)) {
Log.w(TAG, "Force-killing crashed app " + name
+ " at watcher's request");
Process.killProcess(pid);
return;
}
} catch (RemoteException e) {
mController = null;
}
}
final long origId = Binder.clearCallingIdentity();
// If this process is running instrumentation, finish it.
if (r != null && r.instrumentationClass != null) {
Log.w(TAG, "Error in app " + r.processName
+ " running instrumentation " + r.instrumentationClass + ":");
if (shortMsg != null) Log.w(TAG, " " + shortMsg);
if (longMsg != null) Log.w(TAG, " " + longMsg);
Bundle info = new Bundle();
info.putString("shortMsg", shortMsg);
info.putString("longMsg", longMsg);
finishInstrumentationLocked(r, Activity.RESULT_CANCELED, info);
Binder.restoreCallingIdentity(origId);
return;
}
// If we can't identify the process or it's already exceeded its crash quota,
// quit right away without showing a crash dialog.
if (r == null || !makeAppCrashingLocked(r, shortMsg, longMsg, stackTrace)) {
Binder.restoreCallingIdentity(origId);
return;
}
Message msg = Message.obtain();
msg.what = SHOW_ERROR_MSG;
HashMap data = new HashMap();
data.put("result", result);
data.put("app", r);
msg.obj = data;
mHandler.sendMessage(msg);
Binder.restoreCallingIdentity(origId);
}
int res = result.get();
Intent appErrorIntent = null;
synchronized (this) {
if (r != null) {
mProcessCrashTimes.put(r.info.processName, r.info.uid,
SystemClock.uptimeMillis());
}
if (res == AppErrorDialog.FORCE_QUIT_AND_REPORT) {
appErrorIntent = createAppErrorIntentLocked(r, timeMillis, crashInfo);
}
}
if (appErrorIntent != null) {
try {
mContext.startActivity(appErrorIntent);
} catch (ActivityNotFoundException e) {
Log.w(TAG, "bug report receiver dissappeared", e);
}
}
}
Intent createAppErrorIntentLocked(ProcessRecord r,
long timeMillis, ApplicationErrorReport.CrashInfo crashInfo) {
ApplicationErrorReport report = createAppErrorReportLocked(r, timeMillis, crashInfo);
if (report == null) {
return null;
}
Intent result = new Intent(Intent.ACTION_APP_ERROR);
result.setComponent(r.errorReportReceiver);
result.putExtra(Intent.EXTRA_BUG_REPORT, report);
result.addFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
return result;
}
private ApplicationErrorReport createAppErrorReportLocked(ProcessRecord r,
long timeMillis, ApplicationErrorReport.CrashInfo crashInfo) {
if (r.errorReportReceiver == null) {
return null;
}
if (!r.crashing && !r.notResponding) {
return null;
}
ApplicationErrorReport report = new ApplicationErrorReport();
report.packageName = r.info.packageName;
report.installerPackageName = r.errorReportReceiver.getPackageName();
report.processName = r.processName;
report.time = timeMillis;
if (r.crashing) {
report.type = ApplicationErrorReport.TYPE_CRASH;
report.crashInfo = crashInfo;
} else if (r.notResponding) {
report.type = ApplicationErrorReport.TYPE_ANR;
report.anrInfo = new ApplicationErrorReport.AnrInfo();
report.anrInfo.activity = r.notRespondingReport.tag;
report.anrInfo.cause = r.notRespondingReport.shortMsg;
report.anrInfo.info = r.notRespondingReport.longMsg;
}
return report;
}
public List<ActivityManager.ProcessErrorStateInfo> getProcessesInErrorState() {
// assume our apps are happy - lazy create the list
List<ActivityManager.ProcessErrorStateInfo> errList = null;
synchronized (this) {
// iterate across all processes
for (int i=mLruProcesses.size()-1; i>=0; i--) {
ProcessRecord app = mLruProcesses.get(i);
if ((app.thread != null) && (app.crashing || app.notResponding)) {
// This one's in trouble, so we'll generate a report for it
// crashes are higher priority (in case there's a crash *and* an anr)
ActivityManager.ProcessErrorStateInfo report = null;
if (app.crashing) {
report = app.crashingReport;
} else if (app.notResponding) {
report = app.notRespondingReport;
}
if (report != null) {
if (errList == null) {
errList = new ArrayList<ActivityManager.ProcessErrorStateInfo>(1);
}
errList.add(report);
} else {
Log.w(TAG, "Missing app error report, app = " + app.processName +
" crashing = " + app.crashing +
" notResponding = " + app.notResponding);
}
}
}
}
return errList;
}
public List<ActivityManager.RunningAppProcessInfo> getRunningAppProcesses() {
// Lazy instantiation of list
List<ActivityManager.RunningAppProcessInfo> runList = null;
synchronized (this) {
// Iterate across all processes
for (int i=mLruProcesses.size()-1; i>=0; i--) {
ProcessRecord app = mLruProcesses.get(i);
if ((app.thread != null) && (!app.crashing && !app.notResponding)) {
// Generate process state info for running application
ActivityManager.RunningAppProcessInfo currApp =
new ActivityManager.RunningAppProcessInfo(app.processName,
app.pid, app.getPackageList());
currApp.uid = app.info.uid;
int adj = app.curAdj;
if (adj >= EMPTY_APP_ADJ) {
currApp.importance = ActivityManager.RunningAppProcessInfo.IMPORTANCE_EMPTY;
} else if (adj >= HIDDEN_APP_MIN_ADJ) {
currApp.importance = ActivityManager.RunningAppProcessInfo.IMPORTANCE_BACKGROUND;
currApp.lru = adj - HIDDEN_APP_MIN_ADJ + 1;
} else if (adj >= HOME_APP_ADJ) {
currApp.importance = ActivityManager.RunningAppProcessInfo.IMPORTANCE_BACKGROUND;
currApp.lru = 0;
} else if (adj >= SECONDARY_SERVER_ADJ) {
currApp.importance = ActivityManager.RunningAppProcessInfo.IMPORTANCE_SERVICE;
} else if (adj >= VISIBLE_APP_ADJ) {
currApp.importance = ActivityManager.RunningAppProcessInfo.IMPORTANCE_VISIBLE;
} else {
currApp.importance = ActivityManager.RunningAppProcessInfo.IMPORTANCE_FOREGROUND;
}
currApp.importanceReasonCode = app.adjTypeCode;
if (app.adjSource instanceof ProcessRecord) {
currApp.importanceReasonPid = ((ProcessRecord)app.adjSource).pid;
} else if (app.adjSource instanceof HistoryRecord) {
HistoryRecord r = (HistoryRecord)app.adjSource;
if (r.app != null) currApp.importanceReasonPid = r.app.pid;
}
if (app.adjTarget instanceof ComponentName) {
currApp.importanceReasonComponent = (ComponentName)app.adjTarget;
}
//Log.v(TAG, "Proc " + app.processName + ": imp=" + currApp.importance
// + " lru=" + currApp.lru);
if (runList == null) {
runList = new ArrayList<ActivityManager.RunningAppProcessInfo>();
}
runList.add(currApp);
}
}
}
return runList;
}
@Override
protected void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
if (checkCallingPermission(android.Manifest.permission.DUMP)
!= PackageManager.PERMISSION_GRANTED) {
pw.println("Permission Denial: can't dump ActivityManager from from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ " without permission "
+ android.Manifest.permission.DUMP);
return;
}
boolean dumpAll = false;
int opti = 0;
while (opti < args.length) {
String opt = args[opti];
if (opt == null || opt.length() <= 0 || opt.charAt(0) != '-') {
break;
}
opti++;
if ("-a".equals(opt)) {
dumpAll = true;
} else if ("-h".equals(opt)) {
pw.println("Activity manager dump options:");
pw.println(" [-a] [h- [cmd] ...");
pw.println(" cmd may be one of:");
pw.println(" activities: activity stack state");
pw.println(" broadcasts: broadcast state");
pw.println(" intents: pending intent state");
pw.println(" processes: process state");
pw.println(" providers: content provider state");
pw.println(" services: service state");
pw.println(" service [name]: service client-side state");
return;
} else {
pw.println("Unknown argument: " + opt + "; use -h for help");
}
}
// Is the caller requesting to dump a particular piece of data?
if (opti < args.length) {
String cmd = args[opti];
opti++;
if ("activities".equals(cmd) || "a".equals(cmd)) {
synchronized (this) {
dumpActivitiesLocked(fd, pw, args, opti, true, true);
}
return;
} else if ("broadcasts".equals(cmd) || "b".equals(cmd)) {
synchronized (this) {
dumpBroadcastsLocked(fd, pw, args, opti, true);
}
return;
} else if ("intents".equals(cmd) || "i".equals(cmd)) {
synchronized (this) {
dumpPendingIntentsLocked(fd, pw, args, opti, true);
}
return;
} else if ("processes".equals(cmd) || "p".equals(cmd)) {
synchronized (this) {
dumpProcessesLocked(fd, pw, args, opti, true);
}
return;
} else if ("providers".equals(cmd) || "prov".equals(cmd)) {
synchronized (this) {
dumpProvidersLocked(fd, pw, args, opti, true);
}
return;
} else if ("service".equals(cmd)) {
dumpService(fd, pw, args, opti, true);
return;
} else if ("services".equals(cmd) || "s".equals(cmd)) {
synchronized (this) {
dumpServicesLocked(fd, pw, args, opti, true);
}
return;
}
}
// No piece of data specified, dump everything.
synchronized (this) {
boolean needSep;
if (dumpAll) {
pw.println("Providers in Current Activity Manager State:");
}
needSep = dumpProvidersLocked(fd, pw, args, opti, dumpAll);
if (needSep) {
pw.println(" ");
}
if (dumpAll) {
pw.println("-------------------------------------------------------------------------------");
pw.println("Broadcasts in Current Activity Manager State:");
}
needSep = dumpBroadcastsLocked(fd, pw, args, opti, dumpAll);
if (needSep) {
pw.println(" ");
}
if (dumpAll) {
pw.println("-------------------------------------------------------------------------------");
pw.println("Services in Current Activity Manager State:");
}
needSep = dumpServicesLocked(fd, pw, args, opti, dumpAll);
if (needSep) {
pw.println(" ");
}
if (dumpAll) {
pw.println("-------------------------------------------------------------------------------");
pw.println("PendingIntents in Current Activity Manager State:");
}
needSep = dumpPendingIntentsLocked(fd, pw, args, opti, dumpAll);
if (needSep) {
pw.println(" ");
}
if (dumpAll) {
pw.println("-------------------------------------------------------------------------------");
pw.println("Activities in Current Activity Manager State:");
}
needSep = dumpActivitiesLocked(fd, pw, args, opti, dumpAll, !dumpAll);
if (needSep) {
pw.println(" ");
}
if (dumpAll) {
pw.println("-------------------------------------------------------------------------------");
pw.println("Processes in Current Activity Manager State:");
}
dumpProcessesLocked(fd, pw, args, opti, dumpAll);
}
}
boolean dumpActivitiesLocked(FileDescriptor fd, PrintWriter pw, String[] args,
int opti, boolean dumpAll, boolean needHeader) {
if (needHeader) {
pw.println(" Activity stack:");
}
dumpHistoryList(pw, mHistory, " ", "Hist", true);
pw.println(" ");
pw.println(" Running activities (most recent first):");
dumpHistoryList(pw, mLRUActivities, " ", "Run", false);
if (mWaitingVisibleActivities.size() > 0) {
pw.println(" ");
pw.println(" Activities waiting for another to become visible:");
dumpHistoryList(pw, mWaitingVisibleActivities, " ", "Wait", false);
}
if (mStoppingActivities.size() > 0) {
pw.println(" ");
pw.println(" Activities waiting to stop:");
dumpHistoryList(pw, mStoppingActivities, " ", "Stop", false);
}
if (mFinishingActivities.size() > 0) {
pw.println(" ");
pw.println(" Activities waiting to finish:");
dumpHistoryList(pw, mFinishingActivities, " ", "Fin", false);
}
pw.println(" ");
pw.println(" mPausingActivity: " + mPausingActivity);
pw.println(" mResumedActivity: " + mResumedActivity);
pw.println(" mFocusedActivity: " + mFocusedActivity);
pw.println(" mLastPausedActivity: " + mLastPausedActivity);
if (dumpAll && mRecentTasks.size() > 0) {
pw.println(" ");
pw.println("Recent tasks in Current Activity Manager State:");
final int N = mRecentTasks.size();
for (int i=0; i<N; i++) {
TaskRecord tr = mRecentTasks.get(i);
pw.print(" * Recent #"); pw.print(i); pw.print(": ");
pw.println(tr);
mRecentTasks.get(i).dump(pw, " ");
}
}
pw.println(" ");
pw.println(" mCurTask: " + mCurTask);
return true;
}
boolean dumpProcessesLocked(FileDescriptor fd, PrintWriter pw, String[] args,
int opti, boolean dumpAll) {
boolean needSep = false;
int numPers = 0;
if (dumpAll) {
for (SparseArray<ProcessRecord> procs : mProcessNames.getMap().values()) {
final int NA = procs.size();
for (int ia=0; ia<NA; ia++) {
if (!needSep) {
pw.println(" All known processes:");
needSep = true;
}
ProcessRecord r = procs.valueAt(ia);
pw.print(r.persistent ? " *PERS*" : " *APP*");
pw.print(" UID "); pw.print(procs.keyAt(ia));
pw.print(" "); pw.println(r);
r.dump(pw, " ");
if (r.persistent) {
numPers++;
}
}
}
}
if (mLruProcesses.size() > 0) {
if (needSep) pw.println(" ");
needSep = true;
pw.println(" Running processes (most recent first):");
dumpProcessList(pw, this, mLruProcesses, " ",
"App ", "PERS", true);
needSep = true;
}
synchronized (mPidsSelfLocked) {
if (mPidsSelfLocked.size() > 0) {
if (needSep) pw.println(" ");
needSep = true;
pw.println(" PID mappings:");
for (int i=0; i<mPidsSelfLocked.size(); i++) {
pw.print(" PID #"); pw.print(mPidsSelfLocked.keyAt(i));
pw.print(": "); pw.println(mPidsSelfLocked.valueAt(i));
}
}
}
if (mForegroundProcesses.size() > 0) {
if (needSep) pw.println(" ");
needSep = true;
pw.println(" Foreground Processes:");
for (int i=0; i<mForegroundProcesses.size(); i++) {
pw.print(" PID #"); pw.print(mForegroundProcesses.keyAt(i));
pw.print(": "); pw.println(mForegroundProcesses.valueAt(i));
}
}
if (mPersistentStartingProcesses.size() > 0) {
if (needSep) pw.println(" ");
needSep = true;
pw.println(" Persisent processes that are starting:");
dumpProcessList(pw, this, mPersistentStartingProcesses, " ",
"Starting Norm", "Restarting PERS", false);
}
if (mStartingProcesses.size() > 0) {
if (needSep) pw.println(" ");
needSep = true;
pw.println(" Processes that are starting:");
dumpProcessList(pw, this, mStartingProcesses, " ",
"Starting Norm", "Starting PERS", false);
}
if (mRemovedProcesses.size() > 0) {
if (needSep) pw.println(" ");
needSep = true;
pw.println(" Processes that are being removed:");
dumpProcessList(pw, this, mRemovedProcesses, " ",
"Removed Norm", "Removed PERS", false);
}
if (mProcessesOnHold.size() > 0) {
if (needSep) pw.println(" ");
needSep = true;
pw.println(" Processes that are on old until the system is ready:");
dumpProcessList(pw, this, mProcessesOnHold, " ",
"OnHold Norm", "OnHold PERS", false);
}
if (mProcessesToGc.size() > 0) {
if (needSep) pw.println(" ");
needSep = true;
pw.println(" Processes that are waiting to GC:");
long now = SystemClock.uptimeMillis();
for (int i=0; i<mProcessesToGc.size(); i++) {
ProcessRecord proc = mProcessesToGc.get(i);
pw.print(" Process "); pw.println(proc);
pw.print(" lowMem="); pw.print(proc.reportLowMemory);
pw.print(", last gced=");
pw.print(now-proc.lastRequestedGc);
pw.print(" ms ago, last lowMem=");
pw.print(now-proc.lastLowMemory);
pw.println(" ms ago");
}
}
if (mProcessCrashTimes.getMap().size() > 0) {
if (needSep) pw.println(" ");
needSep = true;
pw.println(" Time since processes crashed:");
long now = SystemClock.uptimeMillis();
for (Map.Entry<String, SparseArray<Long>> procs
: mProcessCrashTimes.getMap().entrySet()) {
SparseArray<Long> uids = procs.getValue();
final int N = uids.size();
for (int i=0; i<N; i++) {
pw.print(" Process "); pw.print(procs.getKey());
pw.print(" uid "); pw.print(uids.keyAt(i));
pw.print(": last crashed ");
pw.print((now-uids.valueAt(i)));
pw.println(" ms ago");
}
}
}
if (mBadProcesses.getMap().size() > 0) {
if (needSep) pw.println(" ");
needSep = true;
pw.println(" Bad processes:");
for (Map.Entry<String, SparseArray<Long>> procs
: mBadProcesses.getMap().entrySet()) {
SparseArray<Long> uids = procs.getValue();
final int N = uids.size();
for (int i=0; i<N; i++) {
pw.print(" Bad process "); pw.print(procs.getKey());
pw.print(" uid "); pw.print(uids.keyAt(i));
pw.print(": crashed at time ");
pw.println(uids.valueAt(i));
}
}
}
pw.println(" ");
pw.println(" mHomeProcess: " + mHomeProcess);
pw.println(" mConfiguration: " + mConfiguration);
pw.println(" mSleeping=" + mSleeping + " mShuttingDown=" + mShuttingDown);
if (mDebugApp != null || mOrigDebugApp != null || mDebugTransient
|| mOrigWaitForDebugger) {
pw.println(" mDebugApp=" + mDebugApp + "/orig=" + mOrigDebugApp
+ " mDebugTransient=" + mDebugTransient
+ " mOrigWaitForDebugger=" + mOrigWaitForDebugger);
}
if (mAlwaysFinishActivities || mController != null) {
pw.println(" mAlwaysFinishActivities=" + mAlwaysFinishActivities
+ " mController=" + mController);
}
if (dumpAll) {
pw.println(" Total persistent processes: " + numPers);
pw.println(" mStartRunning=" + mStartRunning
+ " mSystemReady=" + mSystemReady
+ " mBooting=" + mBooting
+ " mBooted=" + mBooted
+ " mFactoryTest=" + mFactoryTest);
pw.println(" mGoingToSleep=" + mGoingToSleep);
pw.println(" mLaunchingActivity=" + mLaunchingActivity);
}
return true;
}
/**
* There are three ways to call this:
* - no service specified: dump all the services
* - a flattened component name that matched an existing service was specified as the
* first arg: dump that one service
* - the first arg isn't the flattened component name of an existing service:
* dump all services whose component contains the first arg as a substring
*/
protected void dumpService(FileDescriptor fd, PrintWriter pw, String[] args,
int opti, boolean dumpAll) {
String[] newArgs;
String componentNameString;
ServiceRecord r;
if (opti <= args.length) {
componentNameString = null;
newArgs = EMPTY_STRING_ARRAY;
r = null;
} else {
componentNameString = args[opti];
opti++;
ComponentName componentName = ComponentName.unflattenFromString(componentNameString);
r = componentName != null ? mServices.get(componentName) : null;
newArgs = new String[args.length - opti];
if (args.length > 2) System.arraycopy(args, opti, newArgs, 0, args.length - opti);
}
if (r != null) {
dumpService(fd, pw, r, newArgs);
} else {
for (ServiceRecord r1 : mServices.values()) {
if (componentNameString == null
|| r1.name.flattenToString().contains(componentNameString)) {
dumpService(fd, pw, r1, newArgs);
}
}
}
}
/**
* Invokes IApplicationThread.dumpService() on the thread of the specified service if
* there is a thread associated with the service.
*/
private void dumpService(FileDescriptor fd, PrintWriter pw, ServiceRecord r, String[] args) {
pw.println(" Service " + r.name.flattenToString());
if (r.app != null && r.app.thread != null) {
try {
// flush anything that is already in the PrintWriter since the thread is going
// to write to the file descriptor directly
pw.flush();
r.app.thread.dumpService(fd, r, args);
pw.print("\n");
} catch (RemoteException e) {
pw.println("got a RemoteException while dumping the service");
}
}
}
boolean dumpBroadcastsLocked(FileDescriptor fd, PrintWriter pw, String[] args,
int opti, boolean dumpAll) {
boolean needSep = false;
if (dumpAll) {
if (mRegisteredReceivers.size() > 0) {
pw.println(" ");
pw.println(" Registered Receivers:");
Iterator it = mRegisteredReceivers.values().iterator();
while (it.hasNext()) {
ReceiverList r = (ReceiverList)it.next();
pw.print(" * "); pw.println(r);
r.dump(pw, " ");
}
}
pw.println(" ");
pw.println("Receiver Resolver Table:");
mReceiverResolver.dump(pw, " ");
needSep = true;
}
if (mParallelBroadcasts.size() > 0 || mOrderedBroadcasts.size() > 0
|| mPendingBroadcast != null) {
if (mParallelBroadcasts.size() > 0) {
pw.println(" ");
pw.println(" Active broadcasts:");
}
for (int i=mParallelBroadcasts.size()-1; i>=0; i--) {
pw.println(" Broadcast #" + i + ":");
mParallelBroadcasts.get(i).dump(pw, " ");
}
if (mOrderedBroadcasts.size() > 0) {
pw.println(" ");
pw.println(" Active serialized broadcasts:");
}
for (int i=mOrderedBroadcasts.size()-1; i>=0; i--) {
pw.println(" Serialized Broadcast #" + i + ":");
mOrderedBroadcasts.get(i).dump(pw, " ");
}
pw.println(" ");
pw.println(" Pending broadcast:");
if (mPendingBroadcast != null) {
mPendingBroadcast.dump(pw, " ");
} else {
pw.println(" (null)");
}
needSep = true;
}
if (dumpAll) {
pw.println(" ");
pw.println(" Historical broadcasts:");
for (int i=0; i<MAX_BROADCAST_HISTORY; i++) {
BroadcastRecord r = mBroadcastHistory[i];
if (r == null) {
break;
}
pw.println(" Historical Broadcast #" + i + ":");
r.dump(pw, " ");
}
needSep = true;
}
if (mStickyBroadcasts != null) {
pw.println(" ");
pw.println(" Sticky broadcasts:");
StringBuilder sb = new StringBuilder(128);
for (Map.Entry<String, ArrayList<Intent>> ent
: mStickyBroadcasts.entrySet()) {
pw.print(" * Sticky action "); pw.print(ent.getKey());
pw.println(":");
ArrayList<Intent> intents = ent.getValue();
final int N = intents.size();
for (int i=0; i<N; i++) {
sb.setLength(0);
sb.append(" Intent: ");
intents.get(i).toShortString(sb, true, false);
pw.println(sb.toString());
Bundle bundle = intents.get(i).getExtras();
if (bundle != null) {
pw.print(" ");
pw.println(bundle.toString());
}
}
}
needSep = true;
}
if (dumpAll) {
pw.println(" ");
pw.println(" mBroadcastsScheduled=" + mBroadcastsScheduled);
pw.println(" mHandler:");
mHandler.dump(new PrintWriterPrinter(pw), " ");
needSep = true;
}
return needSep;
}
boolean dumpServicesLocked(FileDescriptor fd, PrintWriter pw, String[] args,
int opti, boolean dumpAll) {
boolean needSep = false;
if (dumpAll) {
if (mServices.size() > 0) {
pw.println(" Active services:");
Iterator<ServiceRecord> it = mServices.values().iterator();
while (it.hasNext()) {
ServiceRecord r = it.next();
pw.print(" * "); pw.println(r);
r.dump(pw, " ");
}
needSep = true;
}
}
if (mPendingServices.size() > 0) {
if (needSep) pw.println(" ");
pw.println(" Pending services:");
for (int i=0; i<mPendingServices.size(); i++) {
ServiceRecord r = mPendingServices.get(i);
pw.print(" * Pending "); pw.println(r);
r.dump(pw, " ");
}
needSep = true;
}
if (mRestartingServices.size() > 0) {
if (needSep) pw.println(" ");
pw.println(" Restarting services:");
for (int i=0; i<mRestartingServices.size(); i++) {
ServiceRecord r = mRestartingServices.get(i);
pw.print(" * Restarting "); pw.println(r);
r.dump(pw, " ");
}
needSep = true;
}
if (mStoppingServices.size() > 0) {
if (needSep) pw.println(" ");
pw.println(" Stopping services:");
for (int i=0; i<mStoppingServices.size(); i++) {
ServiceRecord r = mStoppingServices.get(i);
pw.print(" * Stopping "); pw.println(r);
r.dump(pw, " ");
}
needSep = true;
}
if (dumpAll) {
if (mServiceConnections.size() > 0) {
if (needSep) pw.println(" ");
pw.println(" Connection bindings to services:");
Iterator<ConnectionRecord> it
= mServiceConnections.values().iterator();
while (it.hasNext()) {
ConnectionRecord r = it.next();
pw.print(" * "); pw.println(r);
r.dump(pw, " ");
}
needSep = true;
}
}
return needSep;
}
boolean dumpProvidersLocked(FileDescriptor fd, PrintWriter pw, String[] args,
int opti, boolean dumpAll) {
boolean needSep = false;
if (dumpAll) {
if (mProvidersByClass.size() > 0) {
if (needSep) pw.println(" ");
pw.println(" Published content providers (by class):");
Iterator it = mProvidersByClass.entrySet().iterator();
while (it.hasNext()) {
Map.Entry e = (Map.Entry)it.next();
ContentProviderRecord r = (ContentProviderRecord)e.getValue();
pw.print(" * "); pw.println(r);
r.dump(pw, " ");
}
needSep = true;
}
if (mProvidersByName.size() > 0) {
pw.println(" ");
pw.println(" Authority to provider mappings:");
Iterator it = mProvidersByName.entrySet().iterator();
while (it.hasNext()) {
Map.Entry e = (Map.Entry)it.next();
ContentProviderRecord r = (ContentProviderRecord)e.getValue();
pw.print(" "); pw.print(e.getKey()); pw.print(": ");
pw.println(r);
}
needSep = true;
}
}
if (mLaunchingProviders.size() > 0) {
if (needSep) pw.println(" ");
pw.println(" Launching content providers:");
for (int i=mLaunchingProviders.size()-1; i>=0; i--) {
pw.print(" Launching #"); pw.print(i); pw.print(": ");
pw.println(mLaunchingProviders.get(i));
}
needSep = true;
}
if (mGrantedUriPermissions.size() > 0) {
pw.println();
pw.println("Granted Uri Permissions:");
for (int i=0; i<mGrantedUriPermissions.size(); i++) {
int uid = mGrantedUriPermissions.keyAt(i);
HashMap<Uri, UriPermission> perms
= mGrantedUriPermissions.valueAt(i);
pw.print(" * UID "); pw.print(uid);
pw.println(" holds:");
for (UriPermission perm : perms.values()) {
pw.print(" "); pw.println(perm);
perm.dump(pw, " ");
}
}
needSep = true;
}
return needSep;
}
boolean dumpPendingIntentsLocked(FileDescriptor fd, PrintWriter pw, String[] args,
int opti, boolean dumpAll) {
boolean needSep = false;
if (dumpAll) {
if (this.mIntentSenderRecords.size() > 0) {
Iterator<WeakReference<PendingIntentRecord>> it
= mIntentSenderRecords.values().iterator();
while (it.hasNext()) {
WeakReference<PendingIntentRecord> ref = it.next();
PendingIntentRecord rec = ref != null ? ref.get(): null;
needSep = true;
if (rec != null) {
pw.print(" * "); pw.println(rec);
rec.dump(pw, " ");
} else {
pw.print(" * "); pw.print(ref);
}
}
}
}
return needSep;
}
private static final void dumpHistoryList(PrintWriter pw, List list,
String prefix, String label, boolean complete) {
TaskRecord lastTask = null;
for (int i=list.size()-1; i>=0; i--) {
HistoryRecord r = (HistoryRecord)list.get(i);
final boolean full = complete || !r.inHistory;
if (lastTask != r.task) {
lastTask = r.task;
pw.print(prefix);
pw.print(full ? "* " : " ");
pw.println(lastTask);
if (full) {
lastTask.dump(pw, prefix + " ");
}
}
pw.print(prefix); pw.print(full ? " * " : " "); pw.print(label);
pw.print(" #"); pw.print(i); pw.print(": ");
pw.println(r);
if (full) {
r.dump(pw, prefix + " ");
}
}
}
private static String buildOomTag(String prefix, String space, int val, int base) {
if (val == base) {
if (space == null) return prefix;
return prefix + " ";
}
return prefix + "+" + Integer.toString(val-base);
}
private static final int dumpProcessList(PrintWriter pw,
ActivityManagerService service, List list,
String prefix, String normalLabel, String persistentLabel,
boolean inclOomAdj) {
int numPers = 0;
for (int i=list.size()-1; i>=0; i--) {
ProcessRecord r = (ProcessRecord)list.get(i);
if (false) {
pw.println(prefix + (r.persistent ? persistentLabel : normalLabel)
+ " #" + i + ":");
r.dump(pw, prefix + " ");
} else if (inclOomAdj) {
String oomAdj;
if (r.setAdj >= EMPTY_APP_ADJ) {
oomAdj = buildOomTag("empty", null, r.setAdj, EMPTY_APP_ADJ);
} else if (r.setAdj >= HIDDEN_APP_MIN_ADJ) {
oomAdj = buildOomTag("bak", " ", r.setAdj, HIDDEN_APP_MIN_ADJ);
} else if (r.setAdj >= HOME_APP_ADJ) {
oomAdj = buildOomTag("home ", null, r.setAdj, HOME_APP_ADJ);
} else if (r.setAdj >= SECONDARY_SERVER_ADJ) {
oomAdj = buildOomTag("svc", " ", r.setAdj, SECONDARY_SERVER_ADJ);
} else if (r.setAdj >= BACKUP_APP_ADJ) {
oomAdj = buildOomTag("bckup", null, r.setAdj, BACKUP_APP_ADJ);
} else if (r.setAdj >= VISIBLE_APP_ADJ) {
oomAdj = buildOomTag("vis ", null, r.setAdj, VISIBLE_APP_ADJ);
} else if (r.setAdj >= FOREGROUND_APP_ADJ) {
oomAdj = buildOomTag("fore ", null, r.setAdj, FOREGROUND_APP_ADJ);
} else if (r.setAdj >= CORE_SERVER_ADJ) {
oomAdj = buildOomTag("core ", null, r.setAdj, CORE_SERVER_ADJ);
} else if (r.setAdj >= SYSTEM_ADJ) {
oomAdj = buildOomTag("sys ", null, r.setAdj, SYSTEM_ADJ);
} else {
oomAdj = Integer.toString(r.setAdj);
}
String schedGroup;
switch (r.setSchedGroup) {
case Process.THREAD_GROUP_BG_NONINTERACTIVE:
schedGroup = "B";
break;
case Process.THREAD_GROUP_DEFAULT:
schedGroup = "F";
break;
default:
schedGroup = Integer.toString(r.setSchedGroup);
break;
}
pw.println(String.format("%s%s #%2d: adj=%s/%s %s (%s)",
prefix, (r.persistent ? persistentLabel : normalLabel),
i, oomAdj, schedGroup, r.toShortString(), r.adjType));
if (r.adjSource != null || r.adjTarget != null) {
pw.println(prefix + " " + r.adjTarget
+ "<=" + r.adjSource);
}
} else {
pw.println(String.format("%s%s #%2d: %s",
prefix, (r.persistent ? persistentLabel : normalLabel),
i, r.toString()));
}
if (r.persistent) {
numPers++;
}
}
return numPers;
}
private static final void dumpApplicationMemoryUsage(FileDescriptor fd,
PrintWriter pw, List list, String prefix, String[] args) {
final boolean isCheckinRequest = scanArgs(args, "--checkin");
long uptime = SystemClock.uptimeMillis();
long realtime = SystemClock.elapsedRealtime();
if (isCheckinRequest) {
// short checkin version
pw.println(uptime + "," + realtime);
pw.flush();
} else {
pw.println("Applications Memory Usage (kB):");
pw.println("Uptime: " + uptime + " Realtime: " + realtime);
}
for (int i = list.size() - 1 ; i >= 0 ; i--) {
ProcessRecord r = (ProcessRecord)list.get(i);
if (r.thread != null) {
if (!isCheckinRequest) {
pw.println("\n** MEMINFO in pid " + r.pid + " [" + r.processName + "] **");
pw.flush();
}
try {
r.thread.asBinder().dump(fd, args);
} catch (RemoteException e) {
if (!isCheckinRequest) {
pw.println("Got RemoteException!");
pw.flush();
}
}
}
}
}
/**
* Searches array of arguments for the specified string
* @param args array of argument strings
* @param value value to search for
* @return true if the value is contained in the array
*/
private static boolean scanArgs(String[] args, String value) {
if (args != null) {
for (String arg : args) {
if (value.equals(arg)) {
return true;
}
}
}
return false;
}
private final int indexOfTokenLocked(IBinder token) {
int count = mHistory.size();
// convert the token to an entry in the history.
HistoryRecord r = null;
int index = -1;
for (int i=count-1; i>=0; i--) {
Object o = mHistory.get(i);
if (o == token) {
r = (HistoryRecord)o;
index = i;
break;
}
}
return index;
}
private final void killServicesLocked(ProcessRecord app,
boolean allowRestart) {
// Report disconnected services.
if (false) {
// XXX we are letting the client link to the service for
// death notifications.
if (app.services.size() > 0) {
Iterator it = app.services.iterator();
while (it.hasNext()) {
ServiceRecord r = (ServiceRecord)it.next();
if (r.connections.size() > 0) {
Iterator<ConnectionRecord> jt
= r.connections.values().iterator();
while (jt.hasNext()) {
ConnectionRecord c = jt.next();
if (c.binding.client != app) {
try {
//c.conn.connected(r.className, null);
} catch (Exception e) {
// todo: this should be asynchronous!
Log.w(TAG, "Exception thrown disconnected servce "
+ r.shortName
+ " from app " + app.processName, e);
}
}
}
}
}
}
}
// Clean up any connections this application has to other services.
if (app.connections.size() > 0) {
Iterator<ConnectionRecord> it = app.connections.iterator();
while (it.hasNext()) {
ConnectionRecord r = it.next();
removeConnectionLocked(r, app, null);
}
}
app.connections.clear();
if (app.services.size() != 0) {
// Any services running in the application need to be placed
// back in the pending list.
Iterator it = app.services.iterator();
while (it.hasNext()) {
ServiceRecord sr = (ServiceRecord)it.next();
synchronized (sr.stats.getBatteryStats()) {
sr.stats.stopLaunchedLocked();
}
sr.app = null;
sr.executeNesting = 0;
mStoppingServices.remove(sr);
boolean hasClients = sr.bindings.size() > 0;
if (hasClients) {
Iterator<IntentBindRecord> bindings
= sr.bindings.values().iterator();
while (bindings.hasNext()) {
IntentBindRecord b = bindings.next();
if (DEBUG_SERVICE) Log.v(TAG, "Killing binding " + b
+ ": shouldUnbind=" + b.hasBound);
b.binder = null;
b.requested = b.received = b.hasBound = false;
}
}
if (sr.crashCount >= 2) {
Log.w(TAG, "Service crashed " + sr.crashCount
+ " times, stopping: " + sr);
EventLog.writeEvent(EventLogTags.AM_SERVICE_CRASHED_TOO_MUCH,
sr.crashCount, sr.shortName, app.pid);
bringDownServiceLocked(sr, true);
} else if (!allowRestart) {
bringDownServiceLocked(sr, true);
} else {
boolean canceled = scheduleServiceRestartLocked(sr, true);
// Should the service remain running? Note that in the
// extreme case of so many attempts to deliver a command
// that it failed, that we also will stop it here.
if (sr.startRequested && (sr.stopIfKilled || canceled)) {
if (sr.pendingStarts.size() == 0) {
sr.startRequested = false;
if (!hasClients) {
// Whoops, no reason to restart!
bringDownServiceLocked(sr, true);
}
}
}
}
}
if (!allowRestart) {
app.services.clear();
}
}
// Make sure we have no more records on the stopping list.
int i = mStoppingServices.size();
while (i > 0) {
i--;
ServiceRecord sr = mStoppingServices.get(i);
if (sr.app == app) {
mStoppingServices.remove(i);
}
}
app.executingServices.clear();
}
private final void removeDyingProviderLocked(ProcessRecord proc,
ContentProviderRecord cpr) {
synchronized (cpr) {
cpr.launchingApp = null;
cpr.notifyAll();
}
mProvidersByClass.remove(cpr.info.name);
String names[] = cpr.info.authority.split(";");
for (int j = 0; j < names.length; j++) {
mProvidersByName.remove(names[j]);
}
Iterator<ProcessRecord> cit = cpr.clients.iterator();
while (cit.hasNext()) {
ProcessRecord capp = cit.next();
if (!capp.persistent && capp.thread != null
&& capp.pid != 0
&& capp.pid != MY_PID) {
Log.i(TAG, "Killing app " + capp.processName
+ " (pid " + capp.pid
+ ") because provider " + cpr.info.name
+ " is in dying process " + proc.processName);
Process.killProcess(capp.pid);
}
}
mLaunchingProviders.remove(cpr);
}
/**
* Main code for cleaning up a process when it has gone away. This is
* called both as a result of the process dying, or directly when stopping
* a process when running in single process mode.
*/
private final void cleanUpApplicationRecordLocked(ProcessRecord app,
boolean restarting, int index) {
if (index >= 0) {
mLruProcesses.remove(index);
}
mProcessesToGc.remove(app);
// Dismiss any open dialogs.
if (app.crashDialog != null) {
app.crashDialog.dismiss();
app.crashDialog = null;
}
if (app.anrDialog != null) {
app.anrDialog.dismiss();
app.anrDialog = null;
}
if (app.waitDialog != null) {
app.waitDialog.dismiss();
app.waitDialog = null;
}
app.crashing = false;
app.notResponding = false;
app.resetPackageList();
app.thread = null;
app.forcingToForeground = null;
app.foregroundServices = false;
killServicesLocked(app, true);
boolean restart = false;
int NL = mLaunchingProviders.size();
// Remove published content providers.
if (!app.pubProviders.isEmpty()) {
Iterator it = app.pubProviders.values().iterator();
while (it.hasNext()) {
ContentProviderRecord cpr = (ContentProviderRecord)it.next();
cpr.provider = null;
cpr.app = null;
// See if someone is waiting for this provider... in which
// case we don't remove it, but just let it restart.
int i = 0;
if (!app.bad) {
for (; i<NL; i++) {
if (mLaunchingProviders.get(i) == cpr) {
restart = true;
break;
}
}
} else {
i = NL;
}
if (i >= NL) {
removeDyingProviderLocked(app, cpr);
NL = mLaunchingProviders.size();
}
}
app.pubProviders.clear();
}
// Take care of any launching providers waiting for this process.
if (checkAppInLaunchingProvidersLocked(app, false)) {
restart = true;
}
// Unregister from connected content providers.
if (!app.conProviders.isEmpty()) {
Iterator it = app.conProviders.keySet().iterator();
while (it.hasNext()) {
ContentProviderRecord cpr = (ContentProviderRecord)it.next();
cpr.clients.remove(app);
}
app.conProviders.clear();
}
// At this point there may be remaining entries in mLaunchingProviders
// where we were the only one waiting, so they are no longer of use.
// Look for these and clean up if found.
// XXX Commented out for now. Trying to figure out a way to reproduce
// the actual situation to identify what is actually going on.
if (false) {
for (int i=0; i<NL; i++) {
ContentProviderRecord cpr = (ContentProviderRecord)
mLaunchingProviders.get(i);
if (cpr.clients.size() <= 0 && cpr.externals <= 0) {
synchronized (cpr) {
cpr.launchingApp = null;
cpr.notifyAll();
}
}
}
}
skipCurrentReceiverLocked(app);
// Unregister any receivers.
if (app.receivers.size() > 0) {
Iterator<ReceiverList> it = app.receivers.iterator();
while (it.hasNext()) {
removeReceiverLocked(it.next());
}
app.receivers.clear();
}
// If the app is undergoing backup, tell the backup manager about it
if (mBackupTarget != null && app.pid == mBackupTarget.app.pid) {
if (DEBUG_BACKUP) Log.d(TAG, "App " + mBackupTarget.appInfo + " died during backup");
try {
IBackupManager bm = IBackupManager.Stub.asInterface(
ServiceManager.getService(Context.BACKUP_SERVICE));
bm.agentDisconnected(app.info.packageName);
} catch (RemoteException e) {
// can't happen; backup manager is local
}
}
// If the caller is restarting this app, then leave it in its
// current lists and let the caller take care of it.
if (restarting) {
return;
}
if (!app.persistent) {
if (DEBUG_PROCESSES) Log.v(TAG,
"Removing non-persistent process during cleanup: " + app);
mProcessNames.remove(app.processName, app.info.uid);
} else if (!app.removed) {
// This app is persistent, so we need to keep its record around.
// If it is not already on the pending app list, add it there
// and start a new process for it.
app.thread = null;
app.forcingToForeground = null;
app.foregroundServices = false;
if (mPersistentStartingProcesses.indexOf(app) < 0) {
mPersistentStartingProcesses.add(app);
restart = true;
}
}
mProcessesOnHold.remove(app);
if (app == mHomeProcess) {
mHomeProcess = null;
}
if (restart) {
// We have components that still need to be running in the
// process, so re-launch it.
mProcessNames.put(app.processName, app.info.uid, app);
startProcessLocked(app, "restart", app.processName);
} else if (app.pid > 0 && app.pid != MY_PID) {
// Goodbye!
synchronized (mPidsSelfLocked) {
mPidsSelfLocked.remove(app.pid);
mHandler.removeMessages(PROC_START_TIMEOUT_MSG, app);
}
app.setPid(0);
}
}
boolean checkAppInLaunchingProvidersLocked(ProcessRecord app, boolean alwaysBad) {
// Look through the content providers we are waiting to have launched,
// and if any run in this process then either schedule a restart of
// the process or kill the client waiting for it if this process has
// gone bad.
int NL = mLaunchingProviders.size();
boolean restart = false;
for (int i=0; i<NL; i++) {
ContentProviderRecord cpr = (ContentProviderRecord)
mLaunchingProviders.get(i);
if (cpr.launchingApp == app) {
if (!alwaysBad && !app.bad) {
restart = true;
} else {
removeDyingProviderLocked(app, cpr);
NL = mLaunchingProviders.size();
}
}
}
return restart;
}
// =========================================================
// SERVICES
// =========================================================
ActivityManager.RunningServiceInfo makeRunningServiceInfoLocked(ServiceRecord r) {
ActivityManager.RunningServiceInfo info =
new ActivityManager.RunningServiceInfo();
info.service = r.name;
if (r.app != null) {
info.pid = r.app.pid;
}
info.uid = r.appInfo.uid;
info.process = r.processName;
info.foreground = r.isForeground;
info.activeSince = r.createTime;
info.started = r.startRequested;
info.clientCount = r.connections.size();
info.crashCount = r.crashCount;
info.lastActivityTime = r.lastActivity;
if (r.isForeground) {
info.flags |= ActivityManager.RunningServiceInfo.FLAG_FOREGROUND;
}
if (r.startRequested) {
info.flags |= ActivityManager.RunningServiceInfo.FLAG_STARTED;
}
if (r.app != null && r.app.pid == Process.myPid()) {
info.flags |= ActivityManager.RunningServiceInfo.FLAG_SYSTEM_PROCESS;
}
if (r.app != null && r.app.persistent) {
info.flags |= ActivityManager.RunningServiceInfo.FLAG_PERSISTENT_PROCESS;
}
for (ConnectionRecord conn : r.connections.values()) {
if (conn.clientLabel != 0) {
info.clientPackage = conn.binding.client.info.packageName;
info.clientLabel = conn.clientLabel;
break;
}
}
return info;
}
public List<ActivityManager.RunningServiceInfo> getServices(int maxNum,
int flags) {
synchronized (this) {
ArrayList<ActivityManager.RunningServiceInfo> res
= new ArrayList<ActivityManager.RunningServiceInfo>();
if (mServices.size() > 0) {
Iterator<ServiceRecord> it = mServices.values().iterator();
while (it.hasNext() && res.size() < maxNum) {
res.add(makeRunningServiceInfoLocked(it.next()));
}
}
for (int i=0; i<mRestartingServices.size() && res.size() < maxNum; i++) {
ServiceRecord r = mRestartingServices.get(i);
ActivityManager.RunningServiceInfo info =
makeRunningServiceInfoLocked(r);
info.restarting = r.nextRestartTime;
res.add(info);
}
return res;
}
}
public PendingIntent getRunningServiceControlPanel(ComponentName name) {
synchronized (this) {
ServiceRecord r = mServices.get(name);
if (r != null) {
for (ConnectionRecord conn : r.connections.values()) {
if (conn.clientIntent != null) {
return conn.clientIntent;
}
}
}
}
return null;
}
private final ServiceRecord findServiceLocked(ComponentName name,
IBinder token) {
ServiceRecord r = mServices.get(name);
return r == token ? r : null;
}
private final class ServiceLookupResult {
final ServiceRecord record;
final String permission;
ServiceLookupResult(ServiceRecord _record, String _permission) {
record = _record;
permission = _permission;
}
};
private ServiceLookupResult findServiceLocked(Intent service,
String resolvedType) {
ServiceRecord r = null;
if (service.getComponent() != null) {
r = mServices.get(service.getComponent());
}
if (r == null) {
Intent.FilterComparison filter = new Intent.FilterComparison(service);
r = mServicesByIntent.get(filter);
}
if (r == null) {
try {
ResolveInfo rInfo =
ActivityThread.getPackageManager().resolveService(
service, resolvedType, 0);
ServiceInfo sInfo =
rInfo != null ? rInfo.serviceInfo : null;
if (sInfo == null) {
return null;
}
ComponentName name = new ComponentName(
sInfo.applicationInfo.packageName, sInfo.name);
r = mServices.get(name);
} catch (RemoteException ex) {
// pm is in same process, this will never happen.
}
}
if (r != null) {
int callingPid = Binder.getCallingPid();
int callingUid = Binder.getCallingUid();
if (checkComponentPermission(r.permission,
callingPid, callingUid, r.exported ? -1 : r.appInfo.uid)
!= PackageManager.PERMISSION_GRANTED) {
Log.w(TAG, "Permission Denial: Accessing service " + r.name
+ " from pid=" + callingPid
+ ", uid=" + callingUid
+ " requires " + r.permission);
return new ServiceLookupResult(null, r.permission);
}
return new ServiceLookupResult(r, null);
}
return null;
}
private class ServiceRestarter implements Runnable {
private ServiceRecord mService;
void setService(ServiceRecord service) {
mService = service;
}
public void run() {
synchronized(ActivityManagerService.this) {
performServiceRestartLocked(mService);
}
}
}
private ServiceLookupResult retrieveServiceLocked(Intent service,
String resolvedType, int callingPid, int callingUid) {
ServiceRecord r = null;
if (service.getComponent() != null) {
r = mServices.get(service.getComponent());
}
Intent.FilterComparison filter = new Intent.FilterComparison(service);
r = mServicesByIntent.get(filter);
if (r == null) {
try {
ResolveInfo rInfo =
ActivityThread.getPackageManager().resolveService(
service, resolvedType, STOCK_PM_FLAGS);
ServiceInfo sInfo =
rInfo != null ? rInfo.serviceInfo : null;
if (sInfo == null) {
Log.w(TAG, "Unable to start service " + service +
": not found");
return null;
}
ComponentName name = new ComponentName(
sInfo.applicationInfo.packageName, sInfo.name);
r = mServices.get(name);
if (r == null) {
filter = new Intent.FilterComparison(service.cloneFilter());
ServiceRestarter res = new ServiceRestarter();
BatteryStatsImpl.Uid.Pkg.Serv ss = null;
BatteryStatsImpl stats = mBatteryStatsService.getActiveStatistics();
synchronized (stats) {
ss = stats.getServiceStatsLocked(
sInfo.applicationInfo.uid, sInfo.packageName,
sInfo.name);
}
r = new ServiceRecord(ss, name, filter, sInfo, res);
res.setService(r);
mServices.put(name, r);
mServicesByIntent.put(filter, r);
// Make sure this component isn't in the pending list.
int N = mPendingServices.size();
for (int i=0; i<N; i++) {
ServiceRecord pr = mPendingServices.get(i);
if (pr.name.equals(name)) {
mPendingServices.remove(i);
i--;
N--;
}
}
}
} catch (RemoteException ex) {
// pm is in same process, this will never happen.
}
}
if (r != null) {
if (checkComponentPermission(r.permission,
callingPid, callingUid, r.exported ? -1 : r.appInfo.uid)
!= PackageManager.PERMISSION_GRANTED) {
Log.w(TAG, "Permission Denial: Accessing service " + r.name
+ " from pid=" + Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ " requires " + r.permission);
return new ServiceLookupResult(null, r.permission);
}
return new ServiceLookupResult(r, null);
}
return null;
}
private final void bumpServiceExecutingLocked(ServiceRecord r) {
long now = SystemClock.uptimeMillis();
if (r.executeNesting == 0 && r.app != null) {
if (r.app.executingServices.size() == 0) {
Message msg = mHandler.obtainMessage(SERVICE_TIMEOUT_MSG);
msg.obj = r.app;
mHandler.sendMessageAtTime(msg, now+SERVICE_TIMEOUT);
}
r.app.executingServices.add(r);
}
r.executeNesting++;
r.executingStart = now;
}
private final void sendServiceArgsLocked(ServiceRecord r,
boolean oomAdjusted) {
final int N = r.pendingStarts.size();
if (N == 0) {
return;
}
int i = 0;
while (i < N) {
try {
ServiceRecord.StartItem si = r.pendingStarts.get(i);
if (DEBUG_SERVICE) Log.v(TAG, "Sending arguments to service: "
+ r.name + " " + r.intent + " args=" + si.intent);
if (si.intent == null && N > 1) {
// If somehow we got a dummy start at the front, then
// just drop it here.
i++;
continue;
}
bumpServiceExecutingLocked(r);
if (!oomAdjusted) {
oomAdjusted = true;
updateOomAdjLocked(r.app);
}
int flags = 0;
if (si.deliveryCount > 0) {
flags |= Service.START_FLAG_RETRY;
}
if (si.doneExecutingCount > 0) {
flags |= Service.START_FLAG_REDELIVERY;
}
r.app.thread.scheduleServiceArgs(r, si.id, flags, si.intent);
si.deliveredTime = SystemClock.uptimeMillis();
r.deliveredStarts.add(si);
si.deliveryCount++;
i++;
} catch (RemoteException e) {
// Remote process gone... we'll let the normal cleanup take
// care of this.
break;
} catch (Exception e) {
Log.w(TAG, "Unexpected exception", e);
break;
}
}
if (i == N) {
r.pendingStarts.clear();
} else {
while (i > 0) {
i--;
r.pendingStarts.remove(i);
}
}
}
private final boolean requestServiceBindingLocked(ServiceRecord r,
IntentBindRecord i, boolean rebind) {
if (r.app == null || r.app.thread == null) {
// If service is not currently running, can't yet bind.
return false;
}
if ((!i.requested || rebind) && i.apps.size() > 0) {
try {
bumpServiceExecutingLocked(r);
if (DEBUG_SERVICE) Log.v(TAG, "Connecting binding " + i
+ ": shouldUnbind=" + i.hasBound);
r.app.thread.scheduleBindService(r, i.intent.getIntent(), rebind);
if (!rebind) {
i.requested = true;
}
i.hasBound = true;
i.doRebind = false;
} catch (RemoteException e) {
return false;
}
}
return true;
}
private final void requestServiceBindingsLocked(ServiceRecord r) {
Iterator<IntentBindRecord> bindings = r.bindings.values().iterator();
while (bindings.hasNext()) {
IntentBindRecord i = bindings.next();
if (!requestServiceBindingLocked(r, i, false)) {
break;
}
}
}
private final void realStartServiceLocked(ServiceRecord r,
ProcessRecord app) throws RemoteException {
if (app.thread == null) {
throw new RemoteException();
}
r.app = app;
r.restartTime = r.lastActivity = SystemClock.uptimeMillis();
app.services.add(r);
bumpServiceExecutingLocked(r);
updateLruProcessLocked(app, true, true);
boolean created = false;
try {
if (DEBUG_SERVICE) Log.v(TAG, "Scheduling start service: "
+ r.name + " " + r.intent);
mStringBuilder.setLength(0);
r.intent.getIntent().toShortString(mStringBuilder, false, true);
EventLog.writeEvent(EventLogTags.AM_CREATE_SERVICE,
System.identityHashCode(r), r.shortName,
mStringBuilder.toString(), r.app.pid);
synchronized (r.stats.getBatteryStats()) {
r.stats.startLaunchedLocked();
}
ensurePackageDexOpt(r.serviceInfo.packageName);
app.thread.scheduleCreateService(r, r.serviceInfo);
r.postNotification();
created = true;
} finally {
if (!created) {
app.services.remove(r);
scheduleServiceRestartLocked(r, false);
}
}
requestServiceBindingsLocked(r);
// If the service is in the started state, and there are no
// pending arguments, then fake up one so its onStartCommand() will
// be called.
if (r.startRequested && r.callStart && r.pendingStarts.size() == 0) {
r.lastStartId++;
if (r.lastStartId < 1) {
r.lastStartId = 1;
}
r.pendingStarts.add(new ServiceRecord.StartItem(r.lastStartId, null));
}
sendServiceArgsLocked(r, true);
}
private final boolean scheduleServiceRestartLocked(ServiceRecord r,
boolean allowCancel) {
boolean canceled = false;
final long now = SystemClock.uptimeMillis();
long minDuration = SERVICE_RESTART_DURATION;
long resetTime = SERVICE_RESET_RUN_DURATION;
// Any delivered but not yet finished starts should be put back
// on the pending list.
final int N = r.deliveredStarts.size();
if (N > 0) {
for (int i=N-1; i>=0; i--) {
ServiceRecord.StartItem si = r.deliveredStarts.get(i);
if (si.intent == null) {
// We'll generate this again if needed.
} else if (!allowCancel || (si.deliveryCount < ServiceRecord.MAX_DELIVERY_COUNT
&& si.doneExecutingCount < ServiceRecord.MAX_DONE_EXECUTING_COUNT)) {
r.pendingStarts.add(0, si);
long dur = SystemClock.uptimeMillis() - si.deliveredTime;
dur *= 2;
if (minDuration < dur) minDuration = dur;
if (resetTime < dur) resetTime = dur;
} else {
Log.w(TAG, "Canceling start item " + si.intent + " in service "
+ r.name);
canceled = true;
}
}
r.deliveredStarts.clear();
}
r.totalRestartCount++;
if (r.restartDelay == 0) {
r.restartCount++;
r.restartDelay = minDuration;
} else {
// If it has been a "reasonably long time" since the service
// was started, then reset our restart duration back to
// the beginning, so we don't infinitely increase the duration
// on a service that just occasionally gets killed (which is
// a normal case, due to process being killed to reclaim memory).
if (now > (r.restartTime+resetTime)) {
r.restartCount = 1;
r.restartDelay = minDuration;
} else {
r.restartDelay *= SERVICE_RESTART_DURATION_FACTOR;
if (r.restartDelay < minDuration) {
r.restartDelay = minDuration;
}
}
}
r.nextRestartTime = now + r.restartDelay;
// Make sure that we don't end up restarting a bunch of services
// all at the same time.
boolean repeat;
do {
repeat = false;
for (int i=mRestartingServices.size()-1; i>=0; i--) {
ServiceRecord r2 = mRestartingServices.get(i);
if (r2 != r && r.nextRestartTime
>= (r2.nextRestartTime-SERVICE_MIN_RESTART_TIME_BETWEEN)
&& r.nextRestartTime
< (r2.nextRestartTime+SERVICE_MIN_RESTART_TIME_BETWEEN)) {
r.nextRestartTime = r2.nextRestartTime + SERVICE_MIN_RESTART_TIME_BETWEEN;
r.restartDelay = r.nextRestartTime - now;
repeat = true;
break;
}
}
} while (repeat);
if (!mRestartingServices.contains(r)) {
mRestartingServices.add(r);
}
r.cancelNotification();
mHandler.removeCallbacks(r.restarter);
mHandler.postAtTime(r.restarter, r.nextRestartTime);
r.nextRestartTime = SystemClock.uptimeMillis() + r.restartDelay;
Log.w(TAG, "Scheduling restart of crashed service "
+ r.shortName + " in " + r.restartDelay + "ms");
EventLog.writeEvent(EventLogTags.AM_SCHEDULE_SERVICE_RESTART,
r.shortName, r.restartDelay);
Message msg = Message.obtain();
msg.what = SERVICE_ERROR_MSG;
msg.obj = r;
mHandler.sendMessage(msg);
return canceled;
}
final void performServiceRestartLocked(ServiceRecord r) {
if (!mRestartingServices.contains(r)) {
return;
}
bringUpServiceLocked(r, r.intent.getIntent().getFlags(), true);
}
private final boolean unscheduleServiceRestartLocked(ServiceRecord r) {
if (r.restartDelay == 0) {
return false;
}
r.resetRestartCounter();
mRestartingServices.remove(r);
mHandler.removeCallbacks(r.restarter);
return true;
}
private final boolean bringUpServiceLocked(ServiceRecord r,
int intentFlags, boolean whileRestarting) {
//Log.i(TAG, "Bring up service:");
//r.dump(" ");
if (r.app != null && r.app.thread != null) {
sendServiceArgsLocked(r, false);
return true;
}
if (!whileRestarting && r.restartDelay > 0) {
// If waiting for a restart, then do nothing.
return true;
}
if (DEBUG_SERVICE) Log.v(TAG, "Bringing up service " + r.name
+ " " + r.intent);
// We are now bringing the service up, so no longer in the
// restarting state.
mRestartingServices.remove(r);
final String appName = r.processName;
ProcessRecord app = getProcessRecordLocked(appName, r.appInfo.uid);
if (app != null && app.thread != null) {
try {
realStartServiceLocked(r, app);
return true;
} catch (RemoteException e) {
Log.w(TAG, "Exception when starting service " + r.shortName, e);
}
// If a dead object exception was thrown -- fall through to
// restart the application.
}
// Not running -- get it started, and enqueue this service record
// to be executed when the app comes up.
if (startProcessLocked(appName, r.appInfo, true, intentFlags,
"service", r.name, false) == null) {
Log.w(TAG, "Unable to launch app "
+ r.appInfo.packageName + "/"
+ r.appInfo.uid + " for service "
+ r.intent.getIntent() + ": process is bad");
bringDownServiceLocked(r, true);
return false;
}
if (!mPendingServices.contains(r)) {
mPendingServices.add(r);
}
return true;
}
private final void bringDownServiceLocked(ServiceRecord r, boolean force) {
//Log.i(TAG, "Bring down service:");
//r.dump(" ");
// Does it still need to run?
if (!force && r.startRequested) {
return;
}
if (r.connections.size() > 0) {
if (!force) {
// XXX should probably keep a count of the number of auto-create
// connections directly in the service.
Iterator<ConnectionRecord> it = r.connections.values().iterator();
while (it.hasNext()) {
ConnectionRecord cr = it.next();
if ((cr.flags&Context.BIND_AUTO_CREATE) != 0) {
return;
}
}
}
// Report to all of the connections that the service is no longer
// available.
Iterator<ConnectionRecord> it = r.connections.values().iterator();
while (it.hasNext()) {
ConnectionRecord c = it.next();
try {
// todo: shouldn't be a synchronous call!
c.conn.connected(r.name, null);
} catch (Exception e) {
Log.w(TAG, "Failure disconnecting service " + r.name +
" to connection " + c.conn.asBinder() +
" (in " + c.binding.client.processName + ")", e);
}
}
}
// Tell the service that it has been unbound.
if (r.bindings.size() > 0 && r.app != null && r.app.thread != null) {
Iterator<IntentBindRecord> it = r.bindings.values().iterator();
while (it.hasNext()) {
IntentBindRecord ibr = it.next();
if (DEBUG_SERVICE) Log.v(TAG, "Bringing down binding " + ibr
+ ": hasBound=" + ibr.hasBound);
if (r.app != null && r.app.thread != null && ibr.hasBound) {
try {
bumpServiceExecutingLocked(r);
updateOomAdjLocked(r.app);
ibr.hasBound = false;
r.app.thread.scheduleUnbindService(r,
ibr.intent.getIntent());
} catch (Exception e) {
Log.w(TAG, "Exception when unbinding service "
+ r.shortName, e);
serviceDoneExecutingLocked(r, true);
}
}
}
}
if (DEBUG_SERVICE) Log.v(TAG, "Bringing down service " + r.name
+ " " + r.intent);
EventLog.writeEvent(EventLogTags.AM_DESTROY_SERVICE,
System.identityHashCode(r), r.shortName,
(r.app != null) ? r.app.pid : -1);
mServices.remove(r.name);
mServicesByIntent.remove(r.intent);
if (localLOGV) Log.v(TAG, "BRING DOWN SERVICE: " + r.shortName);
r.totalRestartCount = 0;
unscheduleServiceRestartLocked(r);
// Also make sure it is not on the pending list.
int N = mPendingServices.size();
for (int i=0; i<N; i++) {
if (mPendingServices.get(i) == r) {
mPendingServices.remove(i);
if (DEBUG_SERVICE) Log.v(
TAG, "Removed pending service: " + r.shortName);
i--;
N--;
}
}
r.cancelNotification();
r.isForeground = false;
r.foregroundId = 0;
r.foregroundNoti = null;
// Clear start entries.
r.deliveredStarts.clear();
r.pendingStarts.clear();
if (r.app != null) {
synchronized (r.stats.getBatteryStats()) {
r.stats.stopLaunchedLocked();
}
r.app.services.remove(r);
if (r.app.thread != null) {
try {
if (DEBUG_SERVICE) Log.v(TAG,
"Stopping service: " + r.shortName);
bumpServiceExecutingLocked(r);
mStoppingServices.add(r);
updateOomAdjLocked(r.app);
r.app.thread.scheduleStopService(r);
} catch (Exception e) {
Log.w(TAG, "Exception when stopping service "
+ r.shortName, e);
serviceDoneExecutingLocked(r, true);
}
updateServiceForegroundLocked(r.app, false);
} else {
if (DEBUG_SERVICE) Log.v(
TAG, "Removed service that has no process: " + r.shortName);
}
} else {
if (DEBUG_SERVICE) Log.v(
TAG, "Removed service that is not running: " + r.shortName);
}
}
ComponentName startServiceLocked(IApplicationThread caller,
Intent service, String resolvedType,
int callingPid, int callingUid) {
synchronized(this) {
if (DEBUG_SERVICE) Log.v(TAG, "startService: " + service
+ " type=" + resolvedType + " args=" + service.getExtras());
if (caller != null) {
final ProcessRecord callerApp = getRecordForAppLocked(caller);
if (callerApp == null) {
throw new SecurityException(
"Unable to find app for caller " + caller
+ " (pid=" + Binder.getCallingPid()
+ ") when starting service " + service);
}
}
ServiceLookupResult res =
retrieveServiceLocked(service, resolvedType,
callingPid, callingUid);
if (res == null) {
return null;
}
if (res.record == null) {
return new ComponentName("!", res.permission != null
? res.permission : "private to package");
}
ServiceRecord r = res.record;
if (unscheduleServiceRestartLocked(r)) {
if (DEBUG_SERVICE) Log.v(TAG, "START SERVICE WHILE RESTART PENDING: "
+ r.shortName);
}
r.startRequested = true;
r.callStart = false;
r.lastStartId++;
if (r.lastStartId < 1) {
r.lastStartId = 1;
}
r.pendingStarts.add(new ServiceRecord.StartItem(r.lastStartId, service));
r.lastActivity = SystemClock.uptimeMillis();
synchronized (r.stats.getBatteryStats()) {
r.stats.startRunningLocked();
}
if (!bringUpServiceLocked(r, service.getFlags(), false)) {
return new ComponentName("!", "Service process is bad");
}
return r.name;
}
}
public ComponentName startService(IApplicationThread caller, Intent service,
String resolvedType) {
// Refuse possible leaked file descriptors
if (service != null && service.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
synchronized(this) {
final int callingPid = Binder.getCallingPid();
final int callingUid = Binder.getCallingUid();
final long origId = Binder.clearCallingIdentity();
ComponentName res = startServiceLocked(caller, service,
resolvedType, callingPid, callingUid);
Binder.restoreCallingIdentity(origId);
return res;
}
}
ComponentName startServiceInPackage(int uid,
Intent service, String resolvedType) {
synchronized(this) {
final long origId = Binder.clearCallingIdentity();
ComponentName res = startServiceLocked(null, service,
resolvedType, -1, uid);
Binder.restoreCallingIdentity(origId);
return res;
}
}
public int stopService(IApplicationThread caller, Intent service,
String resolvedType) {
// Refuse possible leaked file descriptors
if (service != null && service.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
synchronized(this) {
if (DEBUG_SERVICE) Log.v(TAG, "stopService: " + service
+ " type=" + resolvedType);
final ProcessRecord callerApp = getRecordForAppLocked(caller);
if (caller != null && callerApp == null) {
throw new SecurityException(
"Unable to find app for caller " + caller
+ " (pid=" + Binder.getCallingPid()
+ ") when stopping service " + service);
}
// If this service is active, make sure it is stopped.
ServiceLookupResult r = findServiceLocked(service, resolvedType);
if (r != null) {
if (r.record != null) {
synchronized (r.record.stats.getBatteryStats()) {
r.record.stats.stopRunningLocked();
}
r.record.startRequested = false;
r.record.callStart = false;
final long origId = Binder.clearCallingIdentity();
bringDownServiceLocked(r.record, false);
Binder.restoreCallingIdentity(origId);
return 1;
}
return -1;
}
}
return 0;
}
public IBinder peekService(Intent service, String resolvedType) {
// Refuse possible leaked file descriptors
if (service != null && service.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
IBinder ret = null;
synchronized(this) {
ServiceLookupResult r = findServiceLocked(service, resolvedType);
if (r != null) {
// r.record is null if findServiceLocked() failed the caller permission check
if (r.record == null) {
throw new SecurityException(
"Permission Denial: Accessing service " + r.record.name
+ " from pid=" + Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ " requires " + r.permission);
}
IntentBindRecord ib = r.record.bindings.get(r.record.intent);
if (ib != null) {
ret = ib.binder;
}
}
}
return ret;
}
public boolean stopServiceToken(ComponentName className, IBinder token,
int startId) {
synchronized(this) {
if (DEBUG_SERVICE) Log.v(TAG, "stopServiceToken: " + className
+ " " + token + " startId=" + startId);
ServiceRecord r = findServiceLocked(className, token);
if (r != null) {
if (startId >= 0) {
// Asked to only stop if done with all work. Note that
// to avoid leaks, we will take this as dropping all
// start items up to and including this one.
ServiceRecord.StartItem si = r.findDeliveredStart(startId, false);
if (si != null) {
while (r.deliveredStarts.size() > 0) {
if (r.deliveredStarts.remove(0) == si) {
break;
}
}
}
if (r.lastStartId != startId) {
return false;
}
if (r.deliveredStarts.size() > 0) {
Log.w(TAG, "stopServiceToken startId " + startId
+ " is last, but have " + r.deliveredStarts.size()
+ " remaining args");
}
}
synchronized (r.stats.getBatteryStats()) {
r.stats.stopRunningLocked();
r.startRequested = false;
r.callStart = false;
}
final long origId = Binder.clearCallingIdentity();
bringDownServiceLocked(r, false);
Binder.restoreCallingIdentity(origId);
return true;
}
}
return false;
}
public void setServiceForeground(ComponentName className, IBinder token,
int id, Notification notification, boolean removeNotification) {
final long origId = Binder.clearCallingIdentity();
try {
synchronized(this) {
ServiceRecord r = findServiceLocked(className, token);
if (r != null) {
if (id != 0) {
if (notification == null) {
throw new IllegalArgumentException("null notification");
}
if (r.foregroundId != id) {
r.cancelNotification();
r.foregroundId = id;
}
notification.flags |= Notification.FLAG_FOREGROUND_SERVICE;
r.foregroundNoti = notification;
r.isForeground = true;
r.postNotification();
if (r.app != null) {
updateServiceForegroundLocked(r.app, true);
}
} else {
if (r.isForeground) {
r.isForeground = false;
if (r.app != null) {
updateServiceForegroundLocked(r.app, true);
}
}
if (removeNotification) {
r.cancelNotification();
r.foregroundId = 0;
r.foregroundNoti = null;
}
}
}
}
} finally {
Binder.restoreCallingIdentity(origId);
}
}
public void updateServiceForegroundLocked(ProcessRecord proc, boolean oomAdj) {
boolean anyForeground = false;
for (ServiceRecord sr : (HashSet<ServiceRecord>)proc.services) {
if (sr.isForeground) {
anyForeground = true;
break;
}
}
if (anyForeground != proc.foregroundServices) {
proc.foregroundServices = anyForeground;
if (oomAdj) {
updateOomAdjLocked();
}
}
}
public int bindService(IApplicationThread caller, IBinder token,
Intent service, String resolvedType,
IServiceConnection connection, int flags) {
// Refuse possible leaked file descriptors
if (service != null && service.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
synchronized(this) {
if (DEBUG_SERVICE) Log.v(TAG, "bindService: " + service
+ " type=" + resolvedType + " conn=" + connection.asBinder()
+ " flags=0x" + Integer.toHexString(flags));
final ProcessRecord callerApp = getRecordForAppLocked(caller);
if (callerApp == null) {
throw new SecurityException(
"Unable to find app for caller " + caller
+ " (pid=" + Binder.getCallingPid()
+ ") when binding service " + service);
}
HistoryRecord activity = null;
if (token != null) {
int aindex = indexOfTokenLocked(token);
if (aindex < 0) {
Log.w(TAG, "Binding with unknown activity: " + token);
return 0;
}
activity = (HistoryRecord)mHistory.get(aindex);
}
int clientLabel = 0;
PendingIntent clientIntent = null;
if (callerApp.info.uid == Process.SYSTEM_UID) {
// Hacky kind of thing -- allow system stuff to tell us
// what they are, so we can report this elsewhere for
// others to know why certain services are running.
try {
clientIntent = (PendingIntent)service.getParcelableExtra(
Intent.EXTRA_CLIENT_INTENT);
} catch (RuntimeException e) {
}
if (clientIntent != null) {
clientLabel = service.getIntExtra(Intent.EXTRA_CLIENT_LABEL, 0);
if (clientLabel != 0) {
// There are no useful extras in the intent, trash them.
// System code calling with this stuff just needs to know
// this will happen.
service = service.cloneFilter();
}
}
}
ServiceLookupResult res =
retrieveServiceLocked(service, resolvedType,
Binder.getCallingPid(), Binder.getCallingUid());
if (res == null) {
return 0;
}
if (res.record == null) {
return -1;
}
ServiceRecord s = res.record;
final long origId = Binder.clearCallingIdentity();
if (unscheduleServiceRestartLocked(s)) {
if (DEBUG_SERVICE) Log.v(TAG, "BIND SERVICE WHILE RESTART PENDING: "
+ s.shortName);
}
AppBindRecord b = s.retrieveAppBindingLocked(service, callerApp);
ConnectionRecord c = new ConnectionRecord(b, activity,
connection, flags, clientLabel, clientIntent);
IBinder binder = connection.asBinder();
s.connections.put(binder, c);
b.connections.add(c);
if (activity != null) {
if (activity.connections == null) {
activity.connections = new HashSet<ConnectionRecord>();
}
activity.connections.add(c);
}
b.client.connections.add(c);
mServiceConnections.put(binder, c);
if ((flags&Context.BIND_AUTO_CREATE) != 0) {
s.lastActivity = SystemClock.uptimeMillis();
if (!bringUpServiceLocked(s, service.getFlags(), false)) {
return 0;
}
}
if (s.app != null) {
// This could have made the service more important.
updateOomAdjLocked(s.app);
}
if (DEBUG_SERVICE) Log.v(TAG, "Bind " + s + " with " + b
+ ": received=" + b.intent.received
+ " apps=" + b.intent.apps.size()
+ " doRebind=" + b.intent.doRebind);
if (s.app != null && b.intent.received) {
// Service is already running, so we can immediately
// publish the connection.
try {
c.conn.connected(s.name, b.intent.binder);
} catch (Exception e) {
Log.w(TAG, "Failure sending service " + s.shortName
+ " to connection " + c.conn.asBinder()
+ " (in " + c.binding.client.processName + ")", e);
}
// If this is the first app connected back to this binding,
// and the service had previously asked to be told when
// rebound, then do so.
if (b.intent.apps.size() == 1 && b.intent.doRebind) {
requestServiceBindingLocked(s, b.intent, true);
}
} else if (!b.intent.requested) {
requestServiceBindingLocked(s, b.intent, false);
}
Binder.restoreCallingIdentity(origId);
}
return 1;
}
private void removeConnectionLocked(
ConnectionRecord c, ProcessRecord skipApp, HistoryRecord skipAct) {
IBinder binder = c.conn.asBinder();
AppBindRecord b = c.binding;
ServiceRecord s = b.service;
s.connections.remove(binder);
b.connections.remove(c);
if (c.activity != null && c.activity != skipAct) {
if (c.activity.connections != null) {
c.activity.connections.remove(c);
}
}
if (b.client != skipApp) {
b.client.connections.remove(c);
}
mServiceConnections.remove(binder);
if (b.connections.size() == 0) {
b.intent.apps.remove(b.client);
}
if (DEBUG_SERVICE) Log.v(TAG, "Disconnecting binding " + b.intent
+ ": shouldUnbind=" + b.intent.hasBound);
if (s.app != null && s.app.thread != null && b.intent.apps.size() == 0
&& b.intent.hasBound) {
try {
bumpServiceExecutingLocked(s);
updateOomAdjLocked(s.app);
b.intent.hasBound = false;
// Assume the client doesn't want to know about a rebind;
// we will deal with that later if it asks for one.
b.intent.doRebind = false;
s.app.thread.scheduleUnbindService(s, b.intent.intent.getIntent());
} catch (Exception e) {
Log.w(TAG, "Exception when unbinding service " + s.shortName, e);
serviceDoneExecutingLocked(s, true);
}
}
if ((c.flags&Context.BIND_AUTO_CREATE) != 0) {
bringDownServiceLocked(s, false);
}
}
public boolean unbindService(IServiceConnection connection) {
synchronized (this) {
IBinder binder = connection.asBinder();
if (DEBUG_SERVICE) Log.v(TAG, "unbindService: conn=" + binder);
ConnectionRecord r = mServiceConnections.get(binder);
if (r == null) {
Log.w(TAG, "Unbind failed: could not find connection for "
+ connection.asBinder());
return false;
}
final long origId = Binder.clearCallingIdentity();
removeConnectionLocked(r, null, null);
if (r.binding.service.app != null) {
// This could have made the service less important.
updateOomAdjLocked(r.binding.service.app);
}
Binder.restoreCallingIdentity(origId);
}
return true;
}
public void publishService(IBinder token, Intent intent, IBinder service) {
// Refuse possible leaked file descriptors
if (intent != null && intent.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
synchronized(this) {
if (!(token instanceof ServiceRecord)) {
throw new IllegalArgumentException("Invalid service token");
}
ServiceRecord r = (ServiceRecord)token;
final long origId = Binder.clearCallingIdentity();
if (DEBUG_SERVICE) Log.v(TAG, "PUBLISHING SERVICE " + r.name
+ " " + intent + ": " + service);
if (r != null) {
Intent.FilterComparison filter
= new Intent.FilterComparison(intent);
IntentBindRecord b = r.bindings.get(filter);
if (b != null && !b.received) {
b.binder = service;
b.requested = true;
b.received = true;
if (r.connections.size() > 0) {
Iterator<ConnectionRecord> it
= r.connections.values().iterator();
while (it.hasNext()) {
ConnectionRecord c = it.next();
if (!filter.equals(c.binding.intent.intent)) {
if (DEBUG_SERVICE) Log.v(
TAG, "Not publishing to: " + c);
if (DEBUG_SERVICE) Log.v(
TAG, "Bound intent: " + c.binding.intent.intent);
if (DEBUG_SERVICE) Log.v(
TAG, "Published intent: " + intent);
continue;
}
if (DEBUG_SERVICE) Log.v(TAG, "Publishing to: " + c);
try {
c.conn.connected(r.name, service);
} catch (Exception e) {
Log.w(TAG, "Failure sending service " + r.name +
" to connection " + c.conn.asBinder() +
" (in " + c.binding.client.processName + ")", e);
}
}
}
}
serviceDoneExecutingLocked(r, mStoppingServices.contains(r));
Binder.restoreCallingIdentity(origId);
}
}
}
public void unbindFinished(IBinder token, Intent intent, boolean doRebind) {
// Refuse possible leaked file descriptors
if (intent != null && intent.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
synchronized(this) {
if (!(token instanceof ServiceRecord)) {
throw new IllegalArgumentException("Invalid service token");
}
ServiceRecord r = (ServiceRecord)token;
final long origId = Binder.clearCallingIdentity();
if (r != null) {
Intent.FilterComparison filter
= new Intent.FilterComparison(intent);
IntentBindRecord b = r.bindings.get(filter);
if (DEBUG_SERVICE) Log.v(TAG, "unbindFinished in " + r
+ " at " + b + ": apps="
+ (b != null ? b.apps.size() : 0));
if (b != null) {
if (b.apps.size() > 0) {
// Applications have already bound since the last
// unbind, so just rebind right here.
requestServiceBindingLocked(r, b, true);
} else {
// Note to tell the service the next time there is
// a new client.
b.doRebind = true;
}
}
serviceDoneExecutingLocked(r, mStoppingServices.contains(r));
Binder.restoreCallingIdentity(origId);
}
}
}
public void serviceDoneExecuting(IBinder token, int type, int startId, int res) {
synchronized(this) {
if (!(token instanceof ServiceRecord)) {
throw new IllegalArgumentException("Invalid service token");
}
ServiceRecord r = (ServiceRecord)token;
boolean inStopping = mStoppingServices.contains(token);
if (r != null) {
if (DEBUG_SERVICE) Log.v(TAG, "DONE EXECUTING SERVICE " + r.name
+ ": nesting=" + r.executeNesting
+ ", inStopping=" + inStopping);
if (r != token) {
Log.w(TAG, "Done executing service " + r.name
+ " with incorrect token: given " + token
+ ", expected " + r);
return;
}
if (type == 1) {
// This is a call from a service start... take care of
// book-keeping.
r.callStart = true;
switch (res) {
case Service.START_STICKY_COMPATIBILITY:
case Service.START_STICKY: {
// We are done with the associated start arguments.
r.findDeliveredStart(startId, true);
// Don't stop if killed.
r.stopIfKilled = false;
break;
}
case Service.START_NOT_STICKY: {
// We are done with the associated start arguments.
r.findDeliveredStart(startId, true);
if (r.lastStartId == startId) {
// There is no more work, and this service
// doesn't want to hang around if killed.
r.stopIfKilled = true;
}
break;
}
case Service.START_REDELIVER_INTENT: {
// We'll keep this item until they explicitly
// call stop for it, but keep track of the fact
// that it was delivered.
ServiceRecord.StartItem si = r.findDeliveredStart(startId, false);
if (si != null) {
si.deliveryCount = 0;
si.doneExecutingCount++;
// Don't stop if killed.
r.stopIfKilled = true;
}
break;
}
default:
throw new IllegalArgumentException(
"Unknown service start result: " + res);
}
if (res == Service.START_STICKY_COMPATIBILITY) {
r.callStart = false;
}
}
final long origId = Binder.clearCallingIdentity();
serviceDoneExecutingLocked(r, inStopping);
Binder.restoreCallingIdentity(origId);
} else {
Log.w(TAG, "Done executing unknown service " + r.name
+ " with token " + token);
}
}
}
public void serviceDoneExecutingLocked(ServiceRecord r, boolean inStopping) {
r.executeNesting--;
if (r.executeNesting <= 0 && r.app != null) {
r.app.executingServices.remove(r);
if (r.app.executingServices.size() == 0) {
mHandler.removeMessages(SERVICE_TIMEOUT_MSG, r.app);
}
if (inStopping) {
mStoppingServices.remove(r);
}
updateOomAdjLocked(r.app);
}
}
void serviceTimeout(ProcessRecord proc) {
synchronized(this) {
if (proc.executingServices.size() == 0 || proc.thread == null) {
return;
}
long maxTime = SystemClock.uptimeMillis() - SERVICE_TIMEOUT;
Iterator<ServiceRecord> it = proc.executingServices.iterator();
ServiceRecord timeout = null;
long nextTime = 0;
while (it.hasNext()) {
ServiceRecord sr = it.next();
if (sr.executingStart < maxTime) {
timeout = sr;
break;
}
if (sr.executingStart > nextTime) {
nextTime = sr.executingStart;
}
}
if (timeout != null && mLruProcesses.contains(proc)) {
Log.w(TAG, "Timeout executing service: " + timeout);
appNotRespondingLocked(proc, null, null, "Executing service " + timeout.name);
} else {
Message msg = mHandler.obtainMessage(SERVICE_TIMEOUT_MSG);
msg.obj = proc;
mHandler.sendMessageAtTime(msg, nextTime+SERVICE_TIMEOUT);
}
}
}
// =========================================================
// BACKUP AND RESTORE
// =========================================================
// Cause the target app to be launched if necessary and its backup agent
// instantiated. The backup agent will invoke backupAgentCreated() on the
// activity manager to announce its creation.
public boolean bindBackupAgent(ApplicationInfo app, int backupMode) {
if (DEBUG_BACKUP) Log.v(TAG, "startBackupAgent: app=" + app + " mode=" + backupMode);
enforceCallingPermission("android.permission.BACKUP", "startBackupAgent");
synchronized(this) {
// !!! TODO: currently no check here that we're already bound
BatteryStatsImpl.Uid.Pkg.Serv ss = null;
BatteryStatsImpl stats = mBatteryStatsService.getActiveStatistics();
synchronized (stats) {
ss = stats.getServiceStatsLocked(app.uid, app.packageName, app.name);
}
BackupRecord r = new BackupRecord(ss, app, backupMode);
ComponentName hostingName = new ComponentName(app.packageName, app.backupAgentName);
// startProcessLocked() returns existing proc's record if it's already running
ProcessRecord proc = startProcessLocked(app.processName, app,
false, 0, "backup", hostingName, false);
if (proc == null) {
Log.e(TAG, "Unable to start backup agent process " + r);
return false;
}
r.app = proc;
mBackupTarget = r;
mBackupAppName = app.packageName;
// Try not to kill the process during backup
updateOomAdjLocked(proc);
// If the process is already attached, schedule the creation of the backup agent now.
// If it is not yet live, this will be done when it attaches to the framework.
if (proc.thread != null) {
if (DEBUG_BACKUP) Log.v(TAG, "Agent proc already running: " + proc);
try {
proc.thread.scheduleCreateBackupAgent(app, backupMode);
} catch (RemoteException e) {
// Will time out on the backup manager side
}
} else {
if (DEBUG_BACKUP) Log.v(TAG, "Agent proc not running, waiting for attach");
}
// Invariants: at this point, the target app process exists and the application
// is either already running or in the process of coming up. mBackupTarget and
// mBackupAppName describe the app, so that when it binds back to the AM we
// know that it's scheduled for a backup-agent operation.
}
return true;
}
// A backup agent has just come up
public void backupAgentCreated(String agentPackageName, IBinder agent) {
if (DEBUG_BACKUP) Log.v(TAG, "backupAgentCreated: " + agentPackageName
+ " = " + agent);
synchronized(this) {
if (!agentPackageName.equals(mBackupAppName)) {
Log.e(TAG, "Backup agent created for " + agentPackageName + " but not requested!");
return;
}
long oldIdent = Binder.clearCallingIdentity();
try {
IBackupManager bm = IBackupManager.Stub.asInterface(
ServiceManager.getService(Context.BACKUP_SERVICE));
bm.agentConnected(agentPackageName, agent);
} catch (RemoteException e) {
// can't happen; the backup manager service is local
} catch (Exception e) {
Log.w(TAG, "Exception trying to deliver BackupAgent binding: ");
e.printStackTrace();
} finally {
Binder.restoreCallingIdentity(oldIdent);
}
}
}
// done with this agent
public void unbindBackupAgent(ApplicationInfo appInfo) {
if (DEBUG_BACKUP) Log.v(TAG, "unbindBackupAgent: " + appInfo);
if (appInfo == null) {
Log.w(TAG, "unbind backup agent for null app");
return;
}
synchronized(this) {
if (mBackupAppName == null) {
Log.w(TAG, "Unbinding backup agent with no active backup");
return;
}
if (!mBackupAppName.equals(appInfo.packageName)) {
Log.e(TAG, "Unbind of " + appInfo + " but is not the current backup target");
return;
}
ProcessRecord proc = mBackupTarget.app;
mBackupTarget = null;
mBackupAppName = null;
// Not backing this app up any more; reset its OOM adjustment
updateOomAdjLocked(proc);
// If the app crashed during backup, 'thread' will be null here
if (proc.thread != null) {
try {
proc.thread.scheduleDestroyBackupAgent(appInfo);
} catch (Exception e) {
Log.e(TAG, "Exception when unbinding backup agent:");
e.printStackTrace();
}
}
}
}
// =========================================================
// BROADCASTS
// =========================================================
private final List getStickies(String action, IntentFilter filter,
List cur) {
final ContentResolver resolver = mContext.getContentResolver();
final ArrayList<Intent> list = mStickyBroadcasts.get(action);
if (list == null) {
return cur;
}
int N = list.size();
for (int i=0; i<N; i++) {
Intent intent = list.get(i);
if (filter.match(resolver, intent, true, TAG) >= 0) {
if (cur == null) {
cur = new ArrayList<Intent>();
}
cur.add(intent);
}
}
return cur;
}
private final void scheduleBroadcastsLocked() {
if (DEBUG_BROADCAST) Log.v(TAG, "Schedule broadcasts: current="
+ mBroadcastsScheduled);
if (mBroadcastsScheduled) {
return;
}
mHandler.sendEmptyMessage(BROADCAST_INTENT_MSG);
mBroadcastsScheduled = true;
}
public Intent registerReceiver(IApplicationThread caller,
IIntentReceiver receiver, IntentFilter filter, String permission) {
synchronized(this) {
ProcessRecord callerApp = null;
if (caller != null) {
callerApp = getRecordForAppLocked(caller);
if (callerApp == null) {
throw new SecurityException(
"Unable to find app for caller " + caller
+ " (pid=" + Binder.getCallingPid()
+ ") when registering receiver " + receiver);
}
}
List allSticky = null;
// Look for any matching sticky broadcasts...
Iterator actions = filter.actionsIterator();
if (actions != null) {
while (actions.hasNext()) {
String action = (String)actions.next();
allSticky = getStickies(action, filter, allSticky);
}
} else {
allSticky = getStickies(null, filter, allSticky);
}
// The first sticky in the list is returned directly back to
// the client.
Intent sticky = allSticky != null ? (Intent)allSticky.get(0) : null;
if (DEBUG_BROADCAST) Log.v(TAG, "Register receiver " + filter
+ ": " + sticky);
if (receiver == null) {
return sticky;
}
ReceiverList rl
= (ReceiverList)mRegisteredReceivers.get(receiver.asBinder());
if (rl == null) {
rl = new ReceiverList(this, callerApp,
Binder.getCallingPid(),
Binder.getCallingUid(), receiver);
if (rl.app != null) {
rl.app.receivers.add(rl);
} else {
try {
receiver.asBinder().linkToDeath(rl, 0);
} catch (RemoteException e) {
return sticky;
}
rl.linkedToDeath = true;
}
mRegisteredReceivers.put(receiver.asBinder(), rl);
}
BroadcastFilter bf = new BroadcastFilter(filter, rl, permission);
rl.add(bf);
if (!bf.debugCheck()) {
Log.w(TAG, "==> For Dynamic broadast");
}
mReceiverResolver.addFilter(bf);
// Enqueue broadcasts for all existing stickies that match
// this filter.
if (allSticky != null) {
ArrayList receivers = new ArrayList();
receivers.add(bf);
int N = allSticky.size();
for (int i=0; i<N; i++) {
Intent intent = (Intent)allSticky.get(i);
BroadcastRecord r = new BroadcastRecord(intent, null,
null, -1, -1, null, receivers, null, 0, null, null,
false, true, true);
if (mParallelBroadcasts.size() == 0) {
scheduleBroadcastsLocked();
}
mParallelBroadcasts.add(r);
}
}
return sticky;
}
}
public void unregisterReceiver(IIntentReceiver receiver) {
if (DEBUG_BROADCAST) Log.v(TAG, "Unregister receiver: " + receiver);
boolean doNext = false;
synchronized(this) {
ReceiverList rl
= (ReceiverList)mRegisteredReceivers.get(receiver.asBinder());
if (rl != null) {
if (rl.curBroadcast != null) {
BroadcastRecord r = rl.curBroadcast;
doNext = finishReceiverLocked(
receiver.asBinder(), r.resultCode, r.resultData,
r.resultExtras, r.resultAbort, true);
}
if (rl.app != null) {
rl.app.receivers.remove(rl);
}
removeReceiverLocked(rl);
if (rl.linkedToDeath) {
rl.linkedToDeath = false;
rl.receiver.asBinder().unlinkToDeath(rl, 0);
}
}
}
if (!doNext) {
return;
}
final long origId = Binder.clearCallingIdentity();
processNextBroadcast(false);
trimApplications();
Binder.restoreCallingIdentity(origId);
}
void removeReceiverLocked(ReceiverList rl) {
mRegisteredReceivers.remove(rl.receiver.asBinder());
int N = rl.size();
for (int i=0; i<N; i++) {
mReceiverResolver.removeFilter(rl.get(i));
}
}
private final int broadcastIntentLocked(ProcessRecord callerApp,
String callerPackage, Intent intent, String resolvedType,
IIntentReceiver resultTo, int resultCode, String resultData,
Bundle map, String requiredPermission,
boolean ordered, boolean sticky, int callingPid, int callingUid) {
intent = new Intent(intent);
if (DEBUG_BROADCAST_LIGHT) Log.v(
TAG, (sticky ? "Broadcast sticky: ": "Broadcast: ") + intent
+ " ordered=" + ordered);
if ((resultTo != null) && !ordered) {
Log.w(TAG, "Broadcast " + intent + " not ordered but result callback requested!");
}
// Handle special intents: if this broadcast is from the package
// manager about a package being removed, we need to remove all of
// its activities from the history stack.
final boolean uidRemoved = intent.ACTION_UID_REMOVED.equals(
intent.getAction());
if (intent.ACTION_PACKAGE_REMOVED.equals(intent.getAction())
|| intent.ACTION_PACKAGE_CHANGED.equals(intent.getAction())
|| uidRemoved) {
if (checkComponentPermission(
android.Manifest.permission.BROADCAST_PACKAGE_REMOVED,
callingPid, callingUid, -1)
== PackageManager.PERMISSION_GRANTED) {
if (uidRemoved) {
final Bundle intentExtras = intent.getExtras();
final int uid = intentExtras != null
? intentExtras.getInt(Intent.EXTRA_UID) : -1;
if (uid >= 0) {
BatteryStatsImpl bs = mBatteryStatsService.getActiveStatistics();
synchronized (bs) {
bs.removeUidStatsLocked(uid);
}
}
} else {
Uri data = intent.getData();
String ssp;
if (data != null && (ssp=data.getSchemeSpecificPart()) != null) {
if (!intent.getBooleanExtra(Intent.EXTRA_DONT_KILL_APP, false)) {
forceStopPackageLocked(ssp,
intent.getIntExtra(Intent.EXTRA_UID, -1), false);
AttributeCache ac = AttributeCache.instance();
if (ac != null) {
ac.removePackage(ssp);
}
}
}
}
} else {
String msg = "Permission Denial: " + intent.getAction()
+ " broadcast from " + callerPackage + " (pid=" + callingPid
+ ", uid=" + callingUid + ")"
+ " requires "
+ android.Manifest.permission.BROADCAST_PACKAGE_REMOVED;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
}
/*
* If this is the time zone changed action, queue up a message that will reset the timezone
* of all currently running processes. This message will get queued up before the broadcast
* happens.
*/
if (intent.ACTION_TIMEZONE_CHANGED.equals(intent.getAction())) {
mHandler.sendEmptyMessage(UPDATE_TIME_ZONE);
}
/*
* Prevent non-system code (defined here to be non-persistent
* processes) from sending protected broadcasts.
*/
if (callingUid == Process.SYSTEM_UID || callingUid == Process.PHONE_UID
|| callingUid == Process.SHELL_UID || callingUid == 0) {
// Always okay.
} else if (callerApp == null || !callerApp.persistent) {
try {
if (ActivityThread.getPackageManager().isProtectedBroadcast(
intent.getAction())) {
String msg = "Permission Denial: not allowed to send broadcast "
+ intent.getAction() + " from pid="
+ callingPid + ", uid=" + callingUid;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
} catch (RemoteException e) {
Log.w(TAG, "Remote exception", e);
return BROADCAST_SUCCESS;
}
}
// Add to the sticky list if requested.
if (sticky) {
if (checkPermission(android.Manifest.permission.BROADCAST_STICKY,
callingPid, callingUid)
!= PackageManager.PERMISSION_GRANTED) {
String msg = "Permission Denial: broadcastIntent() requesting a sticky broadcast from pid="
+ callingPid + ", uid=" + callingUid
+ " requires " + android.Manifest.permission.BROADCAST_STICKY;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
if (requiredPermission != null) {
Log.w(TAG, "Can't broadcast sticky intent " + intent
+ " and enforce permission " + requiredPermission);
return BROADCAST_STICKY_CANT_HAVE_PERMISSION;
}
if (intent.getComponent() != null) {
throw new SecurityException(
"Sticky broadcasts can't target a specific component");
}
ArrayList<Intent> list = mStickyBroadcasts.get(intent.getAction());
if (list == null) {
list = new ArrayList<Intent>();
mStickyBroadcasts.put(intent.getAction(), list);
}
int N = list.size();
int i;
for (i=0; i<N; i++) {
if (intent.filterEquals(list.get(i))) {
// This sticky already exists, replace it.
list.set(i, new Intent(intent));
break;
}
}
if (i >= N) {
list.add(new Intent(intent));
}
}
// Figure out who all will receive this broadcast.
List receivers = null;
List<BroadcastFilter> registeredReceivers = null;
try {
if (intent.getComponent() != null) {
// Broadcast is going to one specific receiver class...
ActivityInfo ai = ActivityThread.getPackageManager().
getReceiverInfo(intent.getComponent(), STOCK_PM_FLAGS);
if (ai != null) {
receivers = new ArrayList();
ResolveInfo ri = new ResolveInfo();
ri.activityInfo = ai;
receivers.add(ri);
}
} else {
// Need to resolve the intent to interested receivers...
if ((intent.getFlags()&Intent.FLAG_RECEIVER_REGISTERED_ONLY)
== 0) {
receivers =
ActivityThread.getPackageManager().queryIntentReceivers(
intent, resolvedType, STOCK_PM_FLAGS);
}
registeredReceivers = mReceiverResolver.queryIntent(intent, resolvedType, false);
}
} catch (RemoteException ex) {
// pm is in same process, this will never happen.
}
final boolean replacePending =
(intent.getFlags()&Intent.FLAG_RECEIVER_REPLACE_PENDING) != 0;
if (DEBUG_BROADCAST) Log.v(TAG, "Enqueing broadcast: " + intent.getAction()
+ " replacePending=" + replacePending);
int NR = registeredReceivers != null ? registeredReceivers.size() : 0;
if (!ordered && NR > 0) {
// If we are not serializing this broadcast, then send the
// registered receivers separately so they don't wait for the
// components to be launched.
BroadcastRecord r = new BroadcastRecord(intent, callerApp,
callerPackage, callingPid, callingUid, requiredPermission,
registeredReceivers, resultTo, resultCode, resultData, map,
ordered, sticky, false);
if (DEBUG_BROADCAST) Log.v(
TAG, "Enqueueing parallel broadcast " + r
+ ": prev had " + mParallelBroadcasts.size());
boolean replaced = false;
if (replacePending) {
for (int i=mParallelBroadcasts.size()-1; i>=0; i--) {
if (intent.filterEquals(mParallelBroadcasts.get(i).intent)) {
if (DEBUG_BROADCAST) Log.v(TAG,
"***** DROPPING PARALLEL: " + intent);
mParallelBroadcasts.set(i, r);
replaced = true;
break;
}
}
}
if (!replaced) {
mParallelBroadcasts.add(r);
scheduleBroadcastsLocked();
}
registeredReceivers = null;
NR = 0;
}
// Merge into one list.
int ir = 0;
if (receivers != null) {
// A special case for PACKAGE_ADDED: do not allow the package
// being added to see this broadcast. This prevents them from
// using this as a back door to get run as soon as they are
// installed. Maybe in the future we want to have a special install
// broadcast or such for apps, but we'd like to deliberately make
// this decision.
boolean skip = false;
if (intent.ACTION_PACKAGE_ADDED.equals(intent.getAction())) {
skip = true;
} else if (intent.ACTION_PACKAGE_RESTARTED.equals(intent.getAction())) {
skip = true;
} else if (intent.ACTION_PACKAGE_DATA_CLEARED.equals(intent.getAction())) {
skip = true;
}
String skipPackage = (skip && intent.getData() != null)
? intent.getData().getSchemeSpecificPart()
: null;
if (skipPackage != null && receivers != null) {
int NT = receivers.size();
for (int it=0; it<NT; it++) {
ResolveInfo curt = (ResolveInfo)receivers.get(it);
if (curt.activityInfo.packageName.equals(skipPackage)) {
receivers.remove(it);
it--;
NT--;
}
}
}
int NT = receivers != null ? receivers.size() : 0;
int it = 0;
ResolveInfo curt = null;
BroadcastFilter curr = null;
while (it < NT && ir < NR) {
if (curt == null) {
curt = (ResolveInfo)receivers.get(it);
}
if (curr == null) {
curr = registeredReceivers.get(ir);
}
if (curr.getPriority() >= curt.priority) {
// Insert this broadcast record into the final list.
receivers.add(it, curr);
ir++;
curr = null;
it++;
NT++;
} else {
// Skip to the next ResolveInfo in the final list.
it++;
curt = null;
}
}
}
while (ir < NR) {
if (receivers == null) {
receivers = new ArrayList();
}
receivers.add(registeredReceivers.get(ir));
ir++;
}
if ((receivers != null && receivers.size() > 0)
|| resultTo != null) {
BroadcastRecord r = new BroadcastRecord(intent, callerApp,
callerPackage, callingPid, callingUid, requiredPermission,
receivers, resultTo, resultCode, resultData, map, ordered,
sticky, false);
if (DEBUG_BROADCAST) Log.v(
TAG, "Enqueueing ordered broadcast " + r
+ ": prev had " + mOrderedBroadcasts.size());
if (DEBUG_BROADCAST) {
int seq = r.intent.getIntExtra("seq", -1);
Log.i(TAG, "Enqueueing broadcast " + r.intent.getAction() + " seq=" + seq);
}
boolean replaced = false;
if (replacePending) {
for (int i=mOrderedBroadcasts.size()-1; i>=0; i--) {
if (intent.filterEquals(mOrderedBroadcasts.get(i).intent)) {
if (DEBUG_BROADCAST) Log.v(TAG,
"***** DROPPING ORDERED: " + intent);
mOrderedBroadcasts.set(i, r);
replaced = true;
break;
}
}
}
if (!replaced) {
mOrderedBroadcasts.add(r);
scheduleBroadcastsLocked();
}
}
return BROADCAST_SUCCESS;
}
public final int broadcastIntent(IApplicationThread caller,
Intent intent, String resolvedType, IIntentReceiver resultTo,
int resultCode, String resultData, Bundle map,
String requiredPermission, boolean serialized, boolean sticky) {
// Refuse possible leaked file descriptors
if (intent != null && intent.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
synchronized(this) {
int flags = intent.getFlags();
if (!mSystemReady) {
// if the caller really truly claims to know what they're doing, go
// ahead and allow the broadcast without launching any receivers
if ((flags&Intent.FLAG_RECEIVER_REGISTERED_ONLY_BEFORE_BOOT) != 0) {
intent = new Intent(intent);
intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY);
} else if ((flags&Intent.FLAG_RECEIVER_REGISTERED_ONLY) == 0){
Log.e(TAG, "Attempt to launch receivers of broadcast intent " + intent
+ " before boot completion");
throw new IllegalStateException("Cannot broadcast before boot completed");
}
}
if ((flags&Intent.FLAG_RECEIVER_BOOT_UPGRADE) != 0) {
throw new IllegalArgumentException(
"Can't use FLAG_RECEIVER_BOOT_UPGRADE here");
}
final ProcessRecord callerApp = getRecordForAppLocked(caller);
final int callingPid = Binder.getCallingPid();
final int callingUid = Binder.getCallingUid();
final long origId = Binder.clearCallingIdentity();
int res = broadcastIntentLocked(callerApp,
callerApp != null ? callerApp.info.packageName : null,
intent, resolvedType, resultTo,
resultCode, resultData, map, requiredPermission, serialized,
sticky, callingPid, callingUid);
Binder.restoreCallingIdentity(origId);
return res;
}
}
int broadcastIntentInPackage(String packageName, int uid,
Intent intent, String resolvedType, IIntentReceiver resultTo,
int resultCode, String resultData, Bundle map,
String requiredPermission, boolean serialized, boolean sticky) {
synchronized(this) {
final long origId = Binder.clearCallingIdentity();
int res = broadcastIntentLocked(null, packageName, intent, resolvedType,
resultTo, resultCode, resultData, map, requiredPermission,
serialized, sticky, -1, uid);
Binder.restoreCallingIdentity(origId);
return res;
}
}
public final void unbroadcastIntent(IApplicationThread caller,
Intent intent) {
// Refuse possible leaked file descriptors
if (intent != null && intent.hasFileDescriptors() == true) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
synchronized(this) {
if (checkCallingPermission(android.Manifest.permission.BROADCAST_STICKY)
!= PackageManager.PERMISSION_GRANTED) {
String msg = "Permission Denial: unbroadcastIntent() from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ " requires " + android.Manifest.permission.BROADCAST_STICKY;
Log.w(TAG, msg);
throw new SecurityException(msg);
}
ArrayList<Intent> list = mStickyBroadcasts.get(intent.getAction());
if (list != null) {
int N = list.size();
int i;
for (i=0; i<N; i++) {
if (intent.filterEquals(list.get(i))) {
list.remove(i);
break;
}
}
}
}
}
private final boolean finishReceiverLocked(IBinder receiver, int resultCode,
String resultData, Bundle resultExtras, boolean resultAbort,
boolean explicit) {
if (mOrderedBroadcasts.size() == 0) {
if (explicit) {
Log.w(TAG, "finishReceiver called but no pending broadcasts");
}
return false;
}
BroadcastRecord r = mOrderedBroadcasts.get(0);
if (r.receiver == null) {
if (explicit) {
Log.w(TAG, "finishReceiver called but none active");
}
return false;
}
if (r.receiver != receiver) {
Log.w(TAG, "finishReceiver called but active receiver is different");
return false;
}
int state = r.state;
r.state = r.IDLE;
if (state == r.IDLE) {
if (explicit) {
Log.w(TAG, "finishReceiver called but state is IDLE");
}
}
r.receiver = null;
r.intent.setComponent(null);
if (r.curApp != null) {
r.curApp.curReceiver = null;
}
if (r.curFilter != null) {
r.curFilter.receiverList.curBroadcast = null;
}
r.curFilter = null;
r.curApp = null;
r.curComponent = null;
r.curReceiver = null;
mPendingBroadcast = null;
r.resultCode = resultCode;
r.resultData = resultData;
r.resultExtras = resultExtras;
r.resultAbort = resultAbort;
// We will process the next receiver right now if this is finishing
// an app receiver (which is always asynchronous) or after we have
// come back from calling a receiver.
return state == BroadcastRecord.APP_RECEIVE
|| state == BroadcastRecord.CALL_DONE_RECEIVE;
}
public void finishReceiver(IBinder who, int resultCode, String resultData,
Bundle resultExtras, boolean resultAbort) {
if (DEBUG_BROADCAST) Log.v(TAG, "Finish receiver: " + who);
// Refuse possible leaked file descriptors
if (resultExtras != null && resultExtras.hasFileDescriptors()) {
throw new IllegalArgumentException("File descriptors passed in Bundle");
}
boolean doNext;
final long origId = Binder.clearCallingIdentity();
synchronized(this) {
doNext = finishReceiverLocked(
who, resultCode, resultData, resultExtras, resultAbort, true);
}
if (doNext) {
processNextBroadcast(false);
}
trimApplications();
Binder.restoreCallingIdentity(origId);
}
private final void logBroadcastReceiverDiscard(BroadcastRecord r) {
if (r.nextReceiver > 0) {
Object curReceiver = r.receivers.get(r.nextReceiver-1);
if (curReceiver instanceof BroadcastFilter) {
BroadcastFilter bf = (BroadcastFilter) curReceiver;
EventLog.writeEvent(EventLogTags.AM_BROADCAST_DISCARD_FILTER,
System.identityHashCode(r),
r.intent.getAction(),
r.nextReceiver - 1,
System.identityHashCode(bf));
} else {
EventLog.writeEvent(EventLogTags.AM_BROADCAST_DISCARD_APP,
System.identityHashCode(r),
r.intent.getAction(),
r.nextReceiver - 1,
((ResolveInfo)curReceiver).toString());
}
} else {
Log.w(TAG, "Discarding broadcast before first receiver is invoked: "
+ r);
EventLog.writeEvent(EventLogTags.AM_BROADCAST_DISCARD_APP,
System.identityHashCode(r),
r.intent.getAction(),
r.nextReceiver,
"NONE");
}
}
private final void broadcastTimeout() {
synchronized (this) {
if (mOrderedBroadcasts.size() == 0) {
return;
}
long now = SystemClock.uptimeMillis();
BroadcastRecord r = mOrderedBroadcasts.get(0);
if ((r.receiverTime+BROADCAST_TIMEOUT) > now) {
if (DEBUG_BROADCAST) Log.v(TAG,
"Premature timeout @ " + now + ": resetting BROADCAST_TIMEOUT_MSG for "
+ (r.receiverTime + BROADCAST_TIMEOUT));
Message msg = mHandler.obtainMessage(BROADCAST_TIMEOUT_MSG);
mHandler.sendMessageAtTime(msg, r.receiverTime+BROADCAST_TIMEOUT);
return;
}
Log.w(TAG, "Timeout of broadcast " + r + " - receiver=" + r.receiver);
r.receiverTime = now;
r.anrCount++;
// Current receiver has passed its expiration date.
if (r.nextReceiver <= 0) {
Log.w(TAG, "Timeout on receiver with nextReceiver <= 0");
return;
}
ProcessRecord app = null;
Object curReceiver = r.receivers.get(r.nextReceiver-1);
Log.w(TAG, "Receiver during timeout: " + curReceiver);
logBroadcastReceiverDiscard(r);
if (curReceiver instanceof BroadcastFilter) {
BroadcastFilter bf = (BroadcastFilter)curReceiver;
if (bf.receiverList.pid != 0
&& bf.receiverList.pid != MY_PID) {
synchronized (this.mPidsSelfLocked) {
app = this.mPidsSelfLocked.get(
bf.receiverList.pid);
}
}
} else {
app = r.curApp;
}
if (app != null) {
appNotRespondingLocked(app, null, null, "Broadcast of " + r.intent.toString());
}
if (mPendingBroadcast == r) {
mPendingBroadcast = null;
}
// Move on to the next receiver.
finishReceiverLocked(r.receiver, r.resultCode, r.resultData,
r.resultExtras, r.resultAbort, true);
scheduleBroadcastsLocked();
}
}
private final void processCurBroadcastLocked(BroadcastRecord r,
ProcessRecord app) throws RemoteException {
if (app.thread == null) {
throw new RemoteException();
}
r.receiver = app.thread.asBinder();
r.curApp = app;
app.curReceiver = r;
updateLruProcessLocked(app, true, true);
// Tell the application to launch this receiver.
r.intent.setComponent(r.curComponent);
boolean started = false;
try {
if (DEBUG_BROADCAST_LIGHT) Log.v(TAG,
"Delivering to component " + r.curComponent
+ ": " + r);
ensurePackageDexOpt(r.intent.getComponent().getPackageName());
app.thread.scheduleReceiver(new Intent(r.intent), r.curReceiver,
r.resultCode, r.resultData, r.resultExtras, r.ordered);
started = true;
} finally {
if (!started) {
r.receiver = null;
r.curApp = null;
app.curReceiver = null;
}
}
}
static void performReceive(ProcessRecord app, IIntentReceiver receiver,
Intent intent, int resultCode, String data, Bundle extras,
boolean ordered, boolean sticky) throws RemoteException {
if (app != null && app.thread != null) {
// If we have an app thread, do the call through that so it is
// correctly ordered with other one-way calls.
app.thread.scheduleRegisteredReceiver(receiver, intent, resultCode,
data, extras, ordered, sticky);
} else {
receiver.performReceive(intent, resultCode, data, extras, ordered, sticky);
}
}
private final void deliverToRegisteredReceiver(BroadcastRecord r,
BroadcastFilter filter, boolean ordered) {
boolean skip = false;
if (filter.requiredPermission != null) {
int perm = checkComponentPermission(filter.requiredPermission,
r.callingPid, r.callingUid, -1);
if (perm != PackageManager.PERMISSION_GRANTED) {
Log.w(TAG, "Permission Denial: broadcasting "
+ r.intent.toString()
+ " from " + r.callerPackage + " (pid="
+ r.callingPid + ", uid=" + r.callingUid + ")"
+ " requires " + filter.requiredPermission
+ " due to registered receiver " + filter);
skip = true;
}
}
if (r.requiredPermission != null) {
int perm = checkComponentPermission(r.requiredPermission,
filter.receiverList.pid, filter.receiverList.uid, -1);
if (perm != PackageManager.PERMISSION_GRANTED) {
Log.w(TAG, "Permission Denial: receiving "
+ r.intent.toString()
+ " to " + filter.receiverList.app
+ " (pid=" + filter.receiverList.pid
+ ", uid=" + filter.receiverList.uid + ")"
+ " requires " + r.requiredPermission
+ " due to sender " + r.callerPackage
+ " (uid " + r.callingUid + ")");
skip = true;
}
}
if (!skip) {
// If this is not being sent as an ordered broadcast, then we
// don't want to touch the fields that keep track of the current
// state of ordered broadcasts.
if (ordered) {
r.receiver = filter.receiverList.receiver.asBinder();
r.curFilter = filter;
filter.receiverList.curBroadcast = r;
r.state = BroadcastRecord.CALL_IN_RECEIVE;
if (filter.receiverList.app != null) {
// Bump hosting application to no longer be in background
// scheduling class. Note that we can't do that if there
// isn't an app... but we can only be in that case for
// things that directly call the IActivityManager API, which
// are already core system stuff so don't matter for this.
r.curApp = filter.receiverList.app;
filter.receiverList.app.curReceiver = r;
updateOomAdjLocked();
}
}
try {
if (DEBUG_BROADCAST_LIGHT) {
int seq = r.intent.getIntExtra("seq", -1);
Log.i(TAG, "Delivering to " + filter.receiverList.app
+ " (seq=" + seq + "): " + r);
}
performReceive(filter.receiverList.app, filter.receiverList.receiver,
new Intent(r.intent), r.resultCode,
r.resultData, r.resultExtras, r.ordered, r.initialSticky);
if (ordered) {
r.state = BroadcastRecord.CALL_DONE_RECEIVE;
}
} catch (RemoteException e) {
Log.w(TAG, "Failure sending broadcast " + r.intent, e);
if (ordered) {
r.receiver = null;
r.curFilter = null;
filter.receiverList.curBroadcast = null;
if (filter.receiverList.app != null) {
filter.receiverList.app.curReceiver = null;
}
}
}
}
}
private final void addBroadcastToHistoryLocked(BroadcastRecord r) {
if (r.callingUid < 0) {
// This was from a registerReceiver() call; ignore it.
return;
}
System.arraycopy(mBroadcastHistory, 0, mBroadcastHistory, 1,
MAX_BROADCAST_HISTORY-1);
r.finishTime = SystemClock.uptimeMillis();
mBroadcastHistory[0] = r;
}
private final void processNextBroadcast(boolean fromMsg) {
synchronized(this) {
BroadcastRecord r;
if (DEBUG_BROADCAST) Log.v(TAG, "processNextBroadcast: "
+ mParallelBroadcasts.size() + " broadcasts, "
+ mOrderedBroadcasts.size() + " serialized broadcasts");
updateCpuStats();
if (fromMsg) {
mBroadcastsScheduled = false;
}
// First, deliver any non-serialized broadcasts right away.
while (mParallelBroadcasts.size() > 0) {
r = mParallelBroadcasts.remove(0);
r.dispatchTime = SystemClock.uptimeMillis();
final int N = r.receivers.size();
if (DEBUG_BROADCAST_LIGHT) Log.v(TAG, "Processing parallel broadcast "
+ r);
for (int i=0; i<N; i++) {
Object target = r.receivers.get(i);
if (DEBUG_BROADCAST) Log.v(TAG,
"Delivering non-serialized to registered "
+ target + ": " + r);
deliverToRegisteredReceiver(r, (BroadcastFilter)target, false);
}
addBroadcastToHistoryLocked(r);
if (DEBUG_BROADCAST_LIGHT) Log.v(TAG, "Done with parallel broadcast "
+ r);
}
// Now take care of the next serialized one...
// If we are waiting for a process to come up to handle the next
// broadcast, then do nothing at this point. Just in case, we
// check that the process we're waiting for still exists.
if (mPendingBroadcast != null) {
if (DEBUG_BROADCAST_LIGHT) {
Log.v(TAG, "processNextBroadcast: waiting for "
+ mPendingBroadcast.curApp);
}
boolean isDead;
synchronized (mPidsSelfLocked) {
isDead = (mPidsSelfLocked.get(mPendingBroadcast.curApp.pid) == null);
}
if (!isDead) {
// It's still alive, so keep waiting
return;
} else {
Log.w(TAG, "pending app " + mPendingBroadcast.curApp
+ " died before responding to broadcast");
mPendingBroadcast = null;
}
}
boolean looped = false;
do {
if (mOrderedBroadcasts.size() == 0) {
// No more broadcasts pending, so all done!
scheduleAppGcsLocked();
if (looped) {
// If we had finished the last ordered broadcast, then
// make sure all processes have correct oom and sched
// adjustments.
updateOomAdjLocked();
}
return;
}
r = mOrderedBroadcasts.get(0);
boolean forceReceive = false;
// Ensure that even if something goes awry with the timeout
// detection, we catch "hung" broadcasts here, discard them,
// and continue to make progress.
int numReceivers = (r.receivers != null) ? r.receivers.size() : 0;
long now = SystemClock.uptimeMillis();
if (r.dispatchTime > 0) {
if ((numReceivers > 0) &&
(now > r.dispatchTime + (2*BROADCAST_TIMEOUT*numReceivers))) {
Log.w(TAG, "Hung broadcast discarded after timeout failure:"
+ " now=" + now
+ " dispatchTime=" + r.dispatchTime
+ " startTime=" + r.receiverTime
+ " intent=" + r.intent
+ " numReceivers=" + numReceivers
+ " nextReceiver=" + r.nextReceiver
+ " state=" + r.state);
broadcastTimeout(); // forcibly finish this broadcast
forceReceive = true;
r.state = BroadcastRecord.IDLE;
}
}
if (r.state != BroadcastRecord.IDLE) {
if (DEBUG_BROADCAST) Log.d(TAG,
"processNextBroadcast() called when not idle (state="
+ r.state + ")");
return;
}
if (r.receivers == null || r.nextReceiver >= numReceivers
|| r.resultAbort || forceReceive) {
// No more receivers for this broadcast! Send the final
// result if requested...
if (r.resultTo != null) {
try {
if (DEBUG_BROADCAST) {
int seq = r.intent.getIntExtra("seq", -1);
Log.i(TAG, "Finishing broadcast " + r.intent.getAction()
+ " seq=" + seq + " app=" + r.callerApp);
}
performReceive(r.callerApp, r.resultTo,
new Intent(r.intent), r.resultCode,
r.resultData, r.resultExtras, false, false);
} catch (RemoteException e) {
Log.w(TAG, "Failure sending broadcast result of " + r.intent, e);
}
}
if (DEBUG_BROADCAST) Log.v(TAG, "Cancelling BROADCAST_TIMEOUT_MSG");
mHandler.removeMessages(BROADCAST_TIMEOUT_MSG);
if (DEBUG_BROADCAST_LIGHT) Log.v(TAG, "Finished with ordered broadcast "
+ r);
// ... and on to the next...
addBroadcastToHistoryLocked(r);
mOrderedBroadcasts.remove(0);
r = null;
looped = true;
continue;
}
} while (r == null);
// Get the next receiver...
int recIdx = r.nextReceiver++;
// Keep track of when this receiver started, and make sure there
// is a timeout message pending to kill it if need be.
r.receiverTime = SystemClock.uptimeMillis();
if (recIdx == 0) {
r.dispatchTime = r.receiverTime;
if (DEBUG_BROADCAST_LIGHT) Log.v(TAG, "Processing ordered broadcast "
+ r);
if (DEBUG_BROADCAST) Log.v(TAG,
"Submitting BROADCAST_TIMEOUT_MSG for "
+ (r.receiverTime + BROADCAST_TIMEOUT));
Message msg = mHandler.obtainMessage(BROADCAST_TIMEOUT_MSG);
mHandler.sendMessageAtTime(msg, r.receiverTime+BROADCAST_TIMEOUT);
}
Object nextReceiver = r.receivers.get(recIdx);
if (nextReceiver instanceof BroadcastFilter) {
// Simple case: this is a registered receiver who gets
// a direct call.
BroadcastFilter filter = (BroadcastFilter)nextReceiver;
if (DEBUG_BROADCAST) Log.v(TAG,
"Delivering serialized to registered "
+ filter + ": " + r);
deliverToRegisteredReceiver(r, filter, r.ordered);
if (r.receiver == null || !r.ordered) {
// The receiver has already finished, so schedule to
// process the next one.
r.state = BroadcastRecord.IDLE;
scheduleBroadcastsLocked();
}
return;
}
// Hard case: need to instantiate the receiver, possibly
// starting its application process to host it.
ResolveInfo info =
(ResolveInfo)nextReceiver;
boolean skip = false;
int perm = checkComponentPermission(info.activityInfo.permission,
r.callingPid, r.callingUid,
info.activityInfo.exported
? -1 : info.activityInfo.applicationInfo.uid);
if (perm != PackageManager.PERMISSION_GRANTED) {
Log.w(TAG, "Permission Denial: broadcasting "
+ r.intent.toString()
+ " from " + r.callerPackage + " (pid=" + r.callingPid
+ ", uid=" + r.callingUid + ")"
+ " requires " + info.activityInfo.permission
+ " due to receiver " + info.activityInfo.packageName
+ "/" + info.activityInfo.name);
skip = true;
}
if (r.callingUid != Process.SYSTEM_UID &&
r.requiredPermission != null) {
try {
perm = ActivityThread.getPackageManager().
checkPermission(r.requiredPermission,
info.activityInfo.applicationInfo.packageName);
} catch (RemoteException e) {
perm = PackageManager.PERMISSION_DENIED;
}
if (perm != PackageManager.PERMISSION_GRANTED) {
Log.w(TAG, "Permission Denial: receiving "
+ r.intent + " to "
+ info.activityInfo.applicationInfo.packageName
+ " requires " + r.requiredPermission
+ " due to sender " + r.callerPackage
+ " (uid " + r.callingUid + ")");
skip = true;
}
}
if (r.curApp != null && r.curApp.crashing) {
// If the target process is crashing, just skip it.
skip = true;
}
if (skip) {
r.receiver = null;
r.curFilter = null;
r.state = BroadcastRecord.IDLE;
scheduleBroadcastsLocked();
return;
}
r.state = BroadcastRecord.APP_RECEIVE;
String targetProcess = info.activityInfo.processName;
r.curComponent = new ComponentName(
info.activityInfo.applicationInfo.packageName,
info.activityInfo.name);
r.curReceiver = info.activityInfo;
// Is this receiver's application already running?
ProcessRecord app = getProcessRecordLocked(targetProcess,
info.activityInfo.applicationInfo.uid);
if (app != null && app.thread != null) {
try {
processCurBroadcastLocked(r, app);
return;
} catch (RemoteException e) {
Log.w(TAG, "Exception when sending broadcast to "
+ r.curComponent, e);
}
// If a dead object exception was thrown -- fall through to
// restart the application.
}
// Not running -- get it started, to be executed when the app comes up.
if ((r.curApp=startProcessLocked(targetProcess,
info.activityInfo.applicationInfo, true,
r.intent.getFlags() | Intent.FLAG_FROM_BACKGROUND,
"broadcast", r.curComponent,
(r.intent.getFlags()&Intent.FLAG_RECEIVER_BOOT_UPGRADE) != 0))
== null) {
// Ah, this recipient is unavailable. Finish it if necessary,
// and mark the broadcast record as ready for the next.
Log.w(TAG, "Unable to launch app "
+ info.activityInfo.applicationInfo.packageName + "/"
+ info.activityInfo.applicationInfo.uid + " for broadcast "
+ r.intent + ": process is bad");
logBroadcastReceiverDiscard(r);
finishReceiverLocked(r.receiver, r.resultCode, r.resultData,
r.resultExtras, r.resultAbort, true);
scheduleBroadcastsLocked();
r.state = BroadcastRecord.IDLE;
return;
}
mPendingBroadcast = r;
}
}
// =========================================================
// INSTRUMENTATION
// =========================================================
public boolean startInstrumentation(ComponentName className,
String profileFile, int flags, Bundle arguments,
IInstrumentationWatcher watcher) {
// Refuse possible leaked file descriptors
if (arguments != null && arguments.hasFileDescriptors()) {
throw new IllegalArgumentException("File descriptors passed in Bundle");
}
synchronized(this) {
InstrumentationInfo ii = null;
ApplicationInfo ai = null;
try {
ii = mContext.getPackageManager().getInstrumentationInfo(
className, STOCK_PM_FLAGS);
ai = mContext.getPackageManager().getApplicationInfo(
ii.targetPackage, STOCK_PM_FLAGS);
} catch (PackageManager.NameNotFoundException e) {
}
if (ii == null) {
reportStartInstrumentationFailure(watcher, className,
"Unable to find instrumentation info for: " + className);
return false;
}
if (ai == null) {
reportStartInstrumentationFailure(watcher, className,
"Unable to find instrumentation target package: " + ii.targetPackage);
return false;
}
int match = mContext.getPackageManager().checkSignatures(
ii.targetPackage, ii.packageName);
if (match < 0 && match != PackageManager.SIGNATURE_FIRST_NOT_SIGNED) {
String msg = "Permission Denial: starting instrumentation "
+ className + " from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingPid()
+ " not allowed because package " + ii.packageName
+ " does not have a signature matching the target "
+ ii.targetPackage;
reportStartInstrumentationFailure(watcher, className, msg);
throw new SecurityException(msg);
}
final long origId = Binder.clearCallingIdentity();
forceStopPackageLocked(ii.targetPackage, -1, true);
ProcessRecord app = addAppLocked(ai);
app.instrumentationClass = className;
app.instrumentationInfo = ai;
app.instrumentationProfileFile = profileFile;
app.instrumentationArguments = arguments;
app.instrumentationWatcher = watcher;
app.instrumentationResultClass = className;
Binder.restoreCallingIdentity(origId);
}
return true;
}
/**
* Report errors that occur while attempting to start Instrumentation. Always writes the
* error to the logs, but if somebody is watching, send the report there too. This enables
* the "am" command to report errors with more information.
*
* @param watcher The IInstrumentationWatcher. Null if there isn't one.
* @param cn The component name of the instrumentation.
* @param report The error report.
*/
private void reportStartInstrumentationFailure(IInstrumentationWatcher watcher,
ComponentName cn, String report) {
Log.w(TAG, report);
try {
if (watcher != null) {
Bundle results = new Bundle();
results.putString(Instrumentation.REPORT_KEY_IDENTIFIER, "ActivityManagerService");
results.putString("Error", report);
watcher.instrumentationStatus(cn, -1, results);
}
} catch (RemoteException e) {
Log.w(TAG, e);
}
}
void finishInstrumentationLocked(ProcessRecord app, int resultCode, Bundle results) {
if (app.instrumentationWatcher != null) {
try {
// NOTE: IInstrumentationWatcher *must* be oneway here
app.instrumentationWatcher.instrumentationFinished(
app.instrumentationClass,
resultCode,
results);
} catch (RemoteException e) {
}
}
app.instrumentationWatcher = null;
app.instrumentationClass = null;
app.instrumentationInfo = null;
app.instrumentationProfileFile = null;
app.instrumentationArguments = null;
forceStopPackageLocked(app.processName, -1, false);
}
public void finishInstrumentation(IApplicationThread target,
int resultCode, Bundle results) {
// Refuse possible leaked file descriptors
if (results != null && results.hasFileDescriptors()) {
throw new IllegalArgumentException("File descriptors passed in Intent");
}
synchronized(this) {
ProcessRecord app = getRecordForAppLocked(target);
if (app == null) {
Log.w(TAG, "finishInstrumentation: no app for " + target);
return;
}
final long origId = Binder.clearCallingIdentity();
finishInstrumentationLocked(app, resultCode, results);
Binder.restoreCallingIdentity(origId);
}
}
// =========================================================
// CONFIGURATION
// =========================================================
public ConfigurationInfo getDeviceConfigurationInfo() {
ConfigurationInfo config = new ConfigurationInfo();
synchronized (this) {
config.reqTouchScreen = mConfiguration.touchscreen;
config.reqKeyboardType = mConfiguration.keyboard;
config.reqNavigation = mConfiguration.navigation;
if (mConfiguration.navigation == Configuration.NAVIGATION_DPAD
|| mConfiguration.navigation == Configuration.NAVIGATION_TRACKBALL) {
config.reqInputFeatures |= ConfigurationInfo.INPUT_FEATURE_FIVE_WAY_NAV;
}
if (mConfiguration.keyboard != Configuration.KEYBOARD_UNDEFINED
&& mConfiguration.keyboard != Configuration.KEYBOARD_NOKEYS) {
config.reqInputFeatures |= ConfigurationInfo.INPUT_FEATURE_HARD_KEYBOARD;
}
config.reqGlEsVersion = GL_ES_VERSION;
}
return config;
}
public Configuration getConfiguration() {
Configuration ci;
synchronized(this) {
ci = new Configuration(mConfiguration);
}
return ci;
}
public void updateConfiguration(Configuration values) {
enforceCallingPermission(android.Manifest.permission.CHANGE_CONFIGURATION,
"updateConfiguration()");
synchronized(this) {
if (values == null && mWindowManager != null) {
// sentinel: fetch the current configuration from the window manager
values = mWindowManager.computeNewConfiguration();
}
final long origId = Binder.clearCallingIdentity();
updateConfigurationLocked(values, null);
Binder.restoreCallingIdentity(origId);
}
}
/**
* Do either or both things: (1) change the current configuration, and (2)
* make sure the given activity is running with the (now) current
* configuration. Returns true if the activity has been left running, or
* false if <var>starting</var> is being destroyed to match the new
* configuration.
*/
public boolean updateConfigurationLocked(Configuration values,
HistoryRecord starting) {
int changes = 0;
boolean kept = true;
if (values != null) {
Configuration newConfig = new Configuration(mConfiguration);
changes = newConfig.updateFrom(values);
if (changes != 0) {
if (DEBUG_SWITCH || DEBUG_CONFIGURATION) {
Log.i(TAG, "Updating configuration to: " + values);
}
EventLog.writeEvent(EventLogTags.CONFIGURATION_CHANGED, changes);
if (values.locale != null) {
saveLocaleLocked(values.locale,
!values.locale.equals(mConfiguration.locale),
values.userSetLocale);
}
mConfiguration = newConfig;
Log.i(TAG, "Config changed: " + newConfig);
AttributeCache ac = AttributeCache.instance();
if (ac != null) {
ac.updateConfiguration(mConfiguration);
}
Message msg = mHandler.obtainMessage(UPDATE_CONFIGURATION_MSG);
msg.obj = new Configuration(mConfiguration);
mHandler.sendMessage(msg);
for (int i=mLruProcesses.size()-1; i>=0; i--) {
ProcessRecord app = mLruProcesses.get(i);
try {
if (app.thread != null) {
if (DEBUG_CONFIGURATION) Log.v(TAG, "Sending to proc "
+ app.processName + " new config " + mConfiguration);
app.thread.scheduleConfigurationChanged(mConfiguration);
}
} catch (Exception e) {
}
}
Intent intent = new Intent(Intent.ACTION_CONFIGURATION_CHANGED);
intent.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY
| Intent.FLAG_RECEIVER_REPLACE_PENDING);
broadcastIntentLocked(null, null, intent, null, null, 0, null, null,
null, false, false, MY_PID, Process.SYSTEM_UID);
if ((changes&ActivityInfo.CONFIG_LOCALE) != 0) {
broadcastIntentLocked(null, null,
new Intent(Intent.ACTION_LOCALE_CHANGED),
null, null, 0, null, null,
null, false, false, MY_PID, Process.SYSTEM_UID);
}
}
}
if (changes != 0 && starting == null) {
// If the configuration changed, and the caller is not already
// in the process of starting an activity, then find the top
// activity to check if its configuration needs to change.
starting = topRunningActivityLocked(null);
}
if (starting != null) {
kept = ensureActivityConfigurationLocked(starting, changes);
if (kept) {
// If this didn't result in the starting activity being
// destroyed, then we need to make sure at this point that all
// other activities are made visible.
if (DEBUG_SWITCH) Log.i(TAG, "Config didn't destroy " + starting
+ ", ensuring others are correct.");
ensureActivitiesVisibleLocked(starting, changes);
}
}
return kept;
}
private final boolean relaunchActivityLocked(HistoryRecord r,
int changes, boolean andResume) {
List<ResultInfo> results = null;
List<Intent> newIntents = null;
if (andResume) {
results = r.results;
newIntents = r.newIntents;
}
if (DEBUG_SWITCH) Log.v(TAG, "Relaunching: " + r
+ " with results=" + results + " newIntents=" + newIntents
+ " andResume=" + andResume);
EventLog.writeEvent(andResume ? EventLogTags.AM_RELAUNCH_RESUME_ACTIVITY
: EventLogTags.AM_RELAUNCH_ACTIVITY, System.identityHashCode(r),
r.task.taskId, r.shortComponentName);
r.startFreezingScreenLocked(r.app, 0);
try {
if (DEBUG_SWITCH) Log.i(TAG, "Switch is restarting resumed " + r);
r.app.thread.scheduleRelaunchActivity(r, results, newIntents,
changes, !andResume, mConfiguration);
// Note: don't need to call pauseIfSleepingLocked() here, because
// the caller will only pass in 'andResume' if this activity is
// currently resumed, which implies we aren't sleeping.
} catch (RemoteException e) {
return false;
}
if (andResume) {
r.results = null;
r.newIntents = null;
reportResumedActivityLocked(r);
}
return true;
}
/**
* Make sure the given activity matches the current configuration. Returns
* false if the activity had to be destroyed. Returns true if the
* configuration is the same, or the activity will remain running as-is
* for whatever reason. Ensures the HistoryRecord is updated with the
* correct configuration and all other bookkeeping is handled.
*/
private final boolean ensureActivityConfigurationLocked(HistoryRecord r,
int globalChanges) {
if (DEBUG_SWITCH || DEBUG_CONFIGURATION) Log.v(TAG,
"Ensuring correct configuration: " + r);
// Short circuit: if the two configurations are the exact same
// object (the common case), then there is nothing to do.
Configuration newConfig = mConfiguration;
if (r.configuration == newConfig) {
if (DEBUG_SWITCH || DEBUG_CONFIGURATION) Log.v(TAG,
"Configuration unchanged in " + r);
return true;
}
// We don't worry about activities that are finishing.
if (r.finishing) {
if (DEBUG_SWITCH || DEBUG_CONFIGURATION) Log.v(TAG,
"Configuration doesn't matter in finishing " + r);
r.stopFreezingScreenLocked(false);
return true;
}
// Okay we now are going to make this activity have the new config.
// But then we need to figure out how it needs to deal with that.
Configuration oldConfig = r.configuration;
r.configuration = newConfig;
// If the activity isn't currently running, just leave the new
// configuration and it will pick that up next time it starts.
if (r.app == null || r.app.thread == null) {
if (DEBUG_SWITCH || DEBUG_CONFIGURATION) Log.v(TAG,
"Configuration doesn't matter not running " + r);
r.stopFreezingScreenLocked(false);
return true;
}
// If the activity isn't persistent, there is a chance we will
// need to restart it.
if (!r.persistent) {
// Figure out what has changed between the two configurations.
int changes = oldConfig.diff(newConfig);
if (DEBUG_SWITCH || DEBUG_CONFIGURATION) {
Log.v(TAG, "Checking to restart " + r.info.name + ": changed=0x"
+ Integer.toHexString(changes) + ", handles=0x"
+ Integer.toHexString(r.info.configChanges)
+ ", newConfig=" + newConfig);
}
if ((changes&(~r.info.configChanges)) != 0) {
// Aha, the activity isn't handling the change, so DIE DIE DIE.
r.configChangeFlags |= changes;
r.startFreezingScreenLocked(r.app, globalChanges);
if (r.app == null || r.app.thread == null) {
if (DEBUG_SWITCH || DEBUG_CONFIGURATION) Log.v(TAG,
"Switch is destroying non-running " + r);
destroyActivityLocked(r, true);
} else if (r.state == ActivityState.PAUSING) {
// A little annoying: we are waiting for this activity to
// finish pausing. Let's not do anything now, but just
// flag that it needs to be restarted when done pausing.
if (DEBUG_SWITCH || DEBUG_CONFIGURATION) Log.v(TAG,
"Switch is skipping already pausing " + r);
r.configDestroy = true;
return true;
} else if (r.state == ActivityState.RESUMED) {
// Try to optimize this case: the configuration is changing
// and we need to restart the top, resumed activity.
// Instead of doing the normal handshaking, just say
// "restart!".
if (DEBUG_SWITCH || DEBUG_CONFIGURATION) Log.v(TAG,
"Switch is restarting resumed " + r);
relaunchActivityLocked(r, r.configChangeFlags, true);
r.configChangeFlags = 0;
} else {
if (DEBUG_SWITCH || DEBUG_CONFIGURATION) Log.v(TAG,
"Switch is restarting non-resumed " + r);
relaunchActivityLocked(r, r.configChangeFlags, false);
r.configChangeFlags = 0;
}
// All done... tell the caller we weren't able to keep this
// activity around.
return false;
}
}
// Default case: the activity can handle this new configuration, so
// hand it over. Note that we don't need to give it the new
// configuration, since we always send configuration changes to all
// process when they happen so it can just use whatever configuration
// it last got.
if (r.app != null && r.app.thread != null) {
try {
if (DEBUG_CONFIGURATION) Log.v(TAG, "Sending new config to " + r);
r.app.thread.scheduleActivityConfigurationChanged(r);
} catch (RemoteException e) {
// If process died, whatever.
}
}
r.stopFreezingScreenLocked(false);
return true;
}
/**
* Save the locale. You must be inside a synchronized (this) block.
*/
private void saveLocaleLocked(Locale l, boolean isDiff, boolean isPersist) {
if(isDiff) {
SystemProperties.set("user.language", l.getLanguage());
SystemProperties.set("user.region", l.getCountry());
}
if(isPersist) {
SystemProperties.set("persist.sys.language", l.getLanguage());
SystemProperties.set("persist.sys.country", l.getCountry());
SystemProperties.set("persist.sys.localevar", l.getVariant());
}
}
// =========================================================
// LIFETIME MANAGEMENT
// =========================================================
private final int computeOomAdjLocked(ProcessRecord app, int hiddenAdj,
ProcessRecord TOP_APP, boolean recursed) {
if (mAdjSeq == app.adjSeq) {
// This adjustment has already been computed. If we are calling
// from the top, we may have already computed our adjustment with
// an earlier hidden adjustment that isn't really for us... if
// so, use the new hidden adjustment.
if (!recursed && app.hidden) {
app.curAdj = hiddenAdj;
}
return app.curAdj;
}
if (app.thread == null) {
app.adjSeq = mAdjSeq;
app.curSchedGroup = Process.THREAD_GROUP_BG_NONINTERACTIVE;
return (app.curAdj=EMPTY_APP_ADJ);
}
if (app.maxAdj <= FOREGROUND_APP_ADJ) {
// The max adjustment doesn't allow this app to be anything
// below foreground, so it is not worth doing work for it.
app.adjType = "fixed";
app.adjSeq = mAdjSeq;
app.curRawAdj = app.maxAdj;
app.curSchedGroup = Process.THREAD_GROUP_DEFAULT;
return (app.curAdj=app.maxAdj);
}
app.adjTypeCode = ActivityManager.RunningAppProcessInfo.REASON_UNKNOWN;
app.adjSource = null;
app.adjTarget = null;
app.empty = false;
app.hidden = false;
// Determine the importance of the process, starting with most
// important to least, and assign an appropriate OOM adjustment.
int adj;
int schedGroup;
int N;
if (app == TOP_APP) {
// The last app on the list is the foreground app.
adj = FOREGROUND_APP_ADJ;
schedGroup = Process.THREAD_GROUP_DEFAULT;
app.adjType = "top-activity";
} else if (app.instrumentationClass != null) {
// Don't want to kill running instrumentation.
adj = FOREGROUND_APP_ADJ;
schedGroup = Process.THREAD_GROUP_DEFAULT;
app.adjType = "instrumentation";
} else if (app.persistentActivities > 0) {
// Special persistent activities... shouldn't be used these days.
adj = FOREGROUND_APP_ADJ;
schedGroup = Process.THREAD_GROUP_DEFAULT;
app.adjType = "persistent";
} else if (app.curReceiver != null ||
(mPendingBroadcast != null && mPendingBroadcast.curApp == app)) {
// An app that is currently receiving a broadcast also
// counts as being in the foreground.
adj = FOREGROUND_APP_ADJ;
schedGroup = Process.THREAD_GROUP_DEFAULT;
app.adjType = "broadcast";
} else if (app.executingServices.size() > 0) {
// An app that is currently executing a service callback also
// counts as being in the foreground.
adj = FOREGROUND_APP_ADJ;
schedGroup = Process.THREAD_GROUP_DEFAULT;
app.adjType = "exec-service";
} else if (app.foregroundServices) {
// The user is aware of this app, so make it visible.
adj = VISIBLE_APP_ADJ;
schedGroup = Process.THREAD_GROUP_DEFAULT;
app.adjType = "foreground-service";
} else if (app.forcingToForeground != null) {
// The user is aware of this app, so make it visible.
adj = VISIBLE_APP_ADJ;
schedGroup = Process.THREAD_GROUP_DEFAULT;
app.adjType = "force-foreground";
app.adjSource = app.forcingToForeground;
} else if (app == mHomeProcess) {
// This process is hosting what we currently consider to be the
// home app, so we don't want to let it go into the background.
adj = HOME_APP_ADJ;
schedGroup = Process.THREAD_GROUP_BG_NONINTERACTIVE;
app.adjType = "home";
} else if ((N=app.activities.size()) != 0) {
// This app is in the background with paused activities.
app.hidden = true;
adj = hiddenAdj;
schedGroup = Process.THREAD_GROUP_BG_NONINTERACTIVE;
app.adjType = "bg-activities";
N = app.activities.size();
for (int j=0; j<N; j++) {
if (((HistoryRecord)app.activities.get(j)).visible) {
// This app has a visible activity!
app.hidden = false;
adj = VISIBLE_APP_ADJ;
schedGroup = Process.THREAD_GROUP_DEFAULT;
app.adjType = "visible";
break;
}
}
} else {
// A very not-needed process. If this is lower in the lru list,
// we will push it in to the empty bucket.
app.hidden = true;
app.empty = true;
schedGroup = Process.THREAD_GROUP_BG_NONINTERACTIVE;
adj = hiddenAdj;
app.adjType = "bg-empty";
}
//Log.i(TAG, "OOM " + app + ": initial adj=" + adj);
// By default, we use the computed adjustment. It may be changed if
// there are applications dependent on our services or providers, but
// this gives us a baseline and makes sure we don't get into an
// infinite recursion.
app.adjSeq = mAdjSeq;
app.curRawAdj = adj;
if (mBackupTarget != null && app == mBackupTarget.app) {
// If possible we want to avoid killing apps while they're being backed up
if (adj > BACKUP_APP_ADJ) {
if (DEBUG_BACKUP) Log.v(TAG, "oom BACKUP_APP_ADJ for " + app);
adj = BACKUP_APP_ADJ;
app.adjType = "backup";
app.hidden = false;
}
}
if (app.services.size() != 0 && (adj > FOREGROUND_APP_ADJ
|| schedGroup == Process.THREAD_GROUP_BG_NONINTERACTIVE)) {
final long now = SystemClock.uptimeMillis();
// This process is more important if the top activity is
// bound to the service.
Iterator jt = app.services.iterator();
while (jt.hasNext() && adj > FOREGROUND_APP_ADJ) {
ServiceRecord s = (ServiceRecord)jt.next();
if (s.startRequested) {
if (now < (s.lastActivity+MAX_SERVICE_INACTIVITY)) {
// This service has seen some activity within
// recent memory, so we will keep its process ahead
// of the background processes.
if (adj > SECONDARY_SERVER_ADJ) {
adj = SECONDARY_SERVER_ADJ;
app.adjType = "started-services";
app.hidden = false;
}
}
}
if (s.connections.size() > 0 && (adj > FOREGROUND_APP_ADJ
|| schedGroup == Process.THREAD_GROUP_BG_NONINTERACTIVE)) {
Iterator<ConnectionRecord> kt
= s.connections.values().iterator();
while (kt.hasNext() && adj > FOREGROUND_APP_ADJ) {
// XXX should compute this based on the max of
// all connected clients.
ConnectionRecord cr = kt.next();
if (cr.binding.client == app) {
// Binding to ourself is not interesting.
continue;
}
if ((cr.flags&Context.BIND_AUTO_CREATE) != 0) {
ProcessRecord client = cr.binding.client;
int myHiddenAdj = hiddenAdj;
if (myHiddenAdj > client.hiddenAdj) {
if (client.hiddenAdj > VISIBLE_APP_ADJ) {
myHiddenAdj = client.hiddenAdj;
} else {
myHiddenAdj = VISIBLE_APP_ADJ;
}
}
int clientAdj = computeOomAdjLocked(
client, myHiddenAdj, TOP_APP, true);
if (adj > clientAdj) {
adj = clientAdj > VISIBLE_APP_ADJ
? clientAdj : VISIBLE_APP_ADJ;
if (!client.hidden) {
app.hidden = false;
}
app.adjType = "service";
app.adjTypeCode = ActivityManager.RunningAppProcessInfo
.REASON_SERVICE_IN_USE;
app.adjSource = cr.binding.client;
app.adjTarget = s.serviceInfo.name;
}
if ((cr.flags&Context.BIND_NOT_FOREGROUND) == 0) {
if (client.curSchedGroup == Process.THREAD_GROUP_DEFAULT) {
schedGroup = Process.THREAD_GROUP_DEFAULT;
}
}
}
HistoryRecord a = cr.activity;
//if (a != null) {
// Log.i(TAG, "Connection to " + a ": state=" + a.state);
//}
if (a != null && adj > FOREGROUND_APP_ADJ &&
(a.state == ActivityState.RESUMED
|| a.state == ActivityState.PAUSING)) {
adj = FOREGROUND_APP_ADJ;
schedGroup = Process.THREAD_GROUP_DEFAULT;
app.hidden = false;
app.adjType = "service";
app.adjTypeCode = ActivityManager.RunningAppProcessInfo
.REASON_SERVICE_IN_USE;
app.adjSource = a;
app.adjTarget = s.serviceInfo.name;
}
}
}
}
// Finally, f this process has active services running in it, we
// would like to avoid killing it unless it would prevent the current
// application from running. By default we put the process in
// with the rest of the background processes; as we scan through
// its services we may bump it up from there.
if (adj > hiddenAdj) {
adj = hiddenAdj;
app.hidden = false;
app.adjType = "bg-services";
}
}
if (app.pubProviders.size() != 0 && (adj > FOREGROUND_APP_ADJ
|| schedGroup == Process.THREAD_GROUP_BG_NONINTERACTIVE)) {
Iterator jt = app.pubProviders.values().iterator();
while (jt.hasNext() && (adj > FOREGROUND_APP_ADJ
|| schedGroup == Process.THREAD_GROUP_BG_NONINTERACTIVE)) {
ContentProviderRecord cpr = (ContentProviderRecord)jt.next();
if (cpr.clients.size() != 0) {
Iterator<ProcessRecord> kt = cpr.clients.iterator();
while (kt.hasNext() && adj > FOREGROUND_APP_ADJ) {
ProcessRecord client = kt.next();
if (client == app) {
// Being our own client is not interesting.
continue;
}
int myHiddenAdj = hiddenAdj;
if (myHiddenAdj > client.hiddenAdj) {
if (client.hiddenAdj > FOREGROUND_APP_ADJ) {
myHiddenAdj = client.hiddenAdj;
} else {
myHiddenAdj = FOREGROUND_APP_ADJ;
}
}
int clientAdj = computeOomAdjLocked(
client, myHiddenAdj, TOP_APP, true);
if (adj > clientAdj) {
adj = clientAdj > FOREGROUND_APP_ADJ
? clientAdj : FOREGROUND_APP_ADJ;
if (!client.hidden) {
app.hidden = false;
}
app.adjType = "provider";
app.adjTypeCode = ActivityManager.RunningAppProcessInfo
.REASON_PROVIDER_IN_USE;
app.adjSource = client;
app.adjTarget = cpr.info.name;
}
if (client.curSchedGroup == Process.THREAD_GROUP_DEFAULT) {
schedGroup = Process.THREAD_GROUP_DEFAULT;
}
}
}
// If the provider has external (non-framework) process
// dependencies, ensure that its adjustment is at least
// FOREGROUND_APP_ADJ.
if (cpr.externals != 0) {
if (adj > FOREGROUND_APP_ADJ) {
adj = FOREGROUND_APP_ADJ;
schedGroup = Process.THREAD_GROUP_DEFAULT;
app.hidden = false;
app.adjType = "provider";
app.adjTarget = cpr.info.name;
}
}
}
}
app.curRawAdj = adj;
//Log.i(TAG, "OOM ADJ " + app + ": pid=" + app.pid +
// " adj=" + adj + " curAdj=" + app.curAdj + " maxAdj=" + app.maxAdj);
if (adj > app.maxAdj) {
adj = app.maxAdj;
if (app.maxAdj <= VISIBLE_APP_ADJ) {
schedGroup = Process.THREAD_GROUP_DEFAULT;
}
}
app.curAdj = adj;
app.curSchedGroup = schedGroup;
return adj;
}
/**
* Ask a given process to GC right now.
*/
final void performAppGcLocked(ProcessRecord app) {
try {
app.lastRequestedGc = SystemClock.uptimeMillis();
if (app.thread != null) {
if (app.reportLowMemory) {
app.reportLowMemory = false;
app.thread.scheduleLowMemory();
} else {
app.thread.processInBackground();
}
}
} catch (Exception e) {
// whatever.
}
}
/**
* Returns true if things are idle enough to perform GCs.
*/
private final boolean canGcNow() {
return mParallelBroadcasts.size() == 0
&& mOrderedBroadcasts.size() == 0
&& (mSleeping || (mResumedActivity != null &&
mResumedActivity.idle));
}
/**
* Perform GCs on all processes that are waiting for it, but only
* if things are idle.
*/
final void performAppGcsLocked() {
final int N = mProcessesToGc.size();
if (N <= 0) {
return;
}
if (canGcNow()) {
while (mProcessesToGc.size() > 0) {
ProcessRecord proc = mProcessesToGc.remove(0);
if (proc.curRawAdj > VISIBLE_APP_ADJ || proc.reportLowMemory) {
if ((proc.lastRequestedGc+GC_MIN_INTERVAL)
<= SystemClock.uptimeMillis()) {
// To avoid spamming the system, we will GC processes one
// at a time, waiting a few seconds between each.
performAppGcLocked(proc);
scheduleAppGcsLocked();
return;
} else {
// It hasn't been long enough since we last GCed this
// process... put it in the list to wait for its time.
addProcessToGcListLocked(proc);
break;
}
}
}
scheduleAppGcsLocked();
}
}
/**
* If all looks good, perform GCs on all processes waiting for them.
*/
final void performAppGcsIfAppropriateLocked() {
if (canGcNow()) {
performAppGcsLocked();
return;
}
// Still not idle, wait some more.
scheduleAppGcsLocked();
}
/**
* Schedule the execution of all pending app GCs.
*/
final void scheduleAppGcsLocked() {
mHandler.removeMessages(GC_BACKGROUND_PROCESSES_MSG);
if (mProcessesToGc.size() > 0) {
// Schedule a GC for the time to the next process.
ProcessRecord proc = mProcessesToGc.get(0);
Message msg = mHandler.obtainMessage(GC_BACKGROUND_PROCESSES_MSG);
long when = mProcessesToGc.get(0).lastRequestedGc + GC_MIN_INTERVAL;
long now = SystemClock.uptimeMillis();
if (when < (now+GC_TIMEOUT)) {
when = now + GC_TIMEOUT;
}
mHandler.sendMessageAtTime(msg, when);
}
}
/**
* Add a process to the array of processes waiting to be GCed. Keeps the
* list in sorted order by the last GC time. The process can't already be
* on the list.
*/
final void addProcessToGcListLocked(ProcessRecord proc) {
boolean added = false;
for (int i=mProcessesToGc.size()-1; i>=0; i--) {
if (mProcessesToGc.get(i).lastRequestedGc <
proc.lastRequestedGc) {
added = true;
mProcessesToGc.add(i+1, proc);
break;
}
}
if (!added) {
mProcessesToGc.add(0, proc);
}
}
/**
* Set up to ask a process to GC itself. This will either do it
* immediately, or put it on the list of processes to gc the next
* time things are idle.
*/
final void scheduleAppGcLocked(ProcessRecord app) {
long now = SystemClock.uptimeMillis();
if ((app.lastRequestedGc+GC_MIN_INTERVAL) > now) {
return;
}
if (!mProcessesToGc.contains(app)) {
addProcessToGcListLocked(app);
scheduleAppGcsLocked();
}
}
private final boolean updateOomAdjLocked(
ProcessRecord app, int hiddenAdj, ProcessRecord TOP_APP) {
app.hiddenAdj = hiddenAdj;
if (app.thread == null) {
return true;
}
int adj = computeOomAdjLocked(app, hiddenAdj, TOP_APP, false);
if ((app.pid != 0 && app.pid != MY_PID) || Process.supportsProcesses()) {
if (app.curRawAdj != app.setRawAdj) {
if (app.curRawAdj > FOREGROUND_APP_ADJ
&& app.setRawAdj <= FOREGROUND_APP_ADJ) {
// If this app is transitioning from foreground to
// non-foreground, have it do a gc.
scheduleAppGcLocked(app);
} else if (app.curRawAdj >= HIDDEN_APP_MIN_ADJ
&& app.setRawAdj < HIDDEN_APP_MIN_ADJ) {
// Likewise do a gc when an app is moving in to the
// background (such as a service stopping).
scheduleAppGcLocked(app);
}
app.setRawAdj = app.curRawAdj;
}
if (adj != app.setAdj) {
if (Process.setOomAdj(app.pid, adj)) {
if (DEBUG_SWITCH || DEBUG_OOM_ADJ) Log.v(
TAG, "Set app " + app.processName +
" oom adj to " + adj);
app.setAdj = adj;
} else {
return false;
}
}
if (app.setSchedGroup != app.curSchedGroup) {
app.setSchedGroup = app.curSchedGroup;
if (DEBUG_SWITCH || DEBUG_OOM_ADJ) Log.v(TAG,
"Setting process group of " + app.processName
+ " to " + app.curSchedGroup);
if (true) {
long oldId = Binder.clearCallingIdentity();
try {
Process.setProcessGroup(app.pid, app.curSchedGroup);
} catch (Exception e) {
Log.w(TAG, "Failed setting process group of " + app.pid
+ " to " + app.curSchedGroup);
e.printStackTrace();
} finally {
Binder.restoreCallingIdentity(oldId);
}
}
if (false) {
if (app.thread != null) {
try {
app.thread.setSchedulingGroup(app.curSchedGroup);
} catch (RemoteException e) {
}
}
}
}
}
return true;
}
private final HistoryRecord resumedAppLocked() {
HistoryRecord resumedActivity = mResumedActivity;
if (resumedActivity == null || resumedActivity.app == null) {
resumedActivity = mPausingActivity;
if (resumedActivity == null || resumedActivity.app == null) {
resumedActivity = topRunningActivityLocked(null);
}
}
return resumedActivity;
}
private final boolean updateOomAdjLocked(ProcessRecord app) {
final HistoryRecord TOP_ACT = resumedAppLocked();
final ProcessRecord TOP_APP = TOP_ACT != null ? TOP_ACT.app : null;
int curAdj = app.curAdj;
final boolean wasHidden = app.curAdj >= HIDDEN_APP_MIN_ADJ
&& app.curAdj <= HIDDEN_APP_MAX_ADJ;
mAdjSeq++;
final boolean res = updateOomAdjLocked(app, app.hiddenAdj, TOP_APP);
if (res) {
final boolean nowHidden = app.curAdj >= HIDDEN_APP_MIN_ADJ
&& app.curAdj <= HIDDEN_APP_MAX_ADJ;
if (nowHidden != wasHidden) {
// Changed to/from hidden state, so apps after it in the LRU
// list may also be changed.
updateOomAdjLocked();
}
}
return res;
}
private final boolean updateOomAdjLocked() {
boolean didOomAdj = true;
final HistoryRecord TOP_ACT = resumedAppLocked();
final ProcessRecord TOP_APP = TOP_ACT != null ? TOP_ACT.app : null;
if (false) {
RuntimeException e = new RuntimeException();
e.fillInStackTrace();
Log.i(TAG, "updateOomAdj: top=" + TOP_ACT, e);
}
mAdjSeq++;
// First try updating the OOM adjustment for each of the
// application processes based on their current state.
int i = mLruProcesses.size();
int curHiddenAdj = HIDDEN_APP_MIN_ADJ;
while (i > 0) {
i--;
ProcessRecord app = mLruProcesses.get(i);
//Log.i(TAG, "OOM " + app + ": cur hidden=" + curHiddenAdj);
if (updateOomAdjLocked(app, curHiddenAdj, TOP_APP)) {
if (curHiddenAdj < EMPTY_APP_ADJ
&& app.curAdj == curHiddenAdj) {
curHiddenAdj++;
}
} else {
didOomAdj = false;
}
}
// If we return false, we will fall back on killing processes to
// have a fixed limit. Do this if a limit has been requested; else
// only return false if one of the adjustments failed.
return ENFORCE_PROCESS_LIMIT || mProcessLimit > 0 ? false : didOomAdj;
}
private final void trimApplications() {
synchronized (this) {
int i;
// First remove any unused application processes whose package
// has been removed.
for (i=mRemovedProcesses.size()-1; i>=0; i--) {
final ProcessRecord app = mRemovedProcesses.get(i);
if (app.activities.size() == 0
&& app.curReceiver == null && app.services.size() == 0) {
Log.i(
TAG, "Exiting empty application process "
+ app.processName + " ("
+ (app.thread != null ? app.thread.asBinder() : null)
+ ")\n");
if (app.pid > 0 && app.pid != MY_PID) {
Process.killProcess(app.pid);
} else {
try {
app.thread.scheduleExit();
} catch (Exception e) {
// Ignore exceptions.
}
}
cleanUpApplicationRecordLocked(app, false, -1);
mRemovedProcesses.remove(i);
if (app.persistent) {
if (app.persistent) {
addAppLocked(app.info);
}
}
}
}
// Now try updating the OOM adjustment for each of the
// application processes based on their current state.
// If the setOomAdj() API is not supported, then go with our
// back-up plan...
if (!updateOomAdjLocked()) {
// Count how many processes are running services.
int numServiceProcs = 0;
for (i=mLruProcesses.size()-1; i>=0; i--) {
final ProcessRecord app = mLruProcesses.get(i);
if (app.persistent || app.services.size() != 0
|| app.curReceiver != null
|| app.persistentActivities > 0) {
// Don't count processes holding services against our
// maximum process count.
if (localLOGV) Log.v(
TAG, "Not trimming app " + app + " with services: "
+ app.services);
numServiceProcs++;
}
}
int curMaxProcs = mProcessLimit;
if (curMaxProcs <= 0) curMaxProcs = MAX_PROCESSES;
if (mAlwaysFinishActivities) {
curMaxProcs = 1;
}
curMaxProcs += numServiceProcs;
// Quit as many processes as we can to get down to the desired
// process count. First remove any processes that no longer
// have activites running in them.
for ( i=0;
i<mLruProcesses.size()
&& mLruProcesses.size() > curMaxProcs;
i++) {
final ProcessRecord app = mLruProcesses.get(i);
// Quit an application only if it is not currently
// running any activities.
if (!app.persistent && app.activities.size() == 0
&& app.curReceiver == null && app.services.size() == 0) {
Log.i(
TAG, "Exiting empty application process "
+ app.processName + " ("
+ (app.thread != null ? app.thread.asBinder() : null)
+ ")\n");
if (app.pid > 0 && app.pid != MY_PID) {
Process.killProcess(app.pid);
} else {
try {
app.thread.scheduleExit();
} catch (Exception e) {
// Ignore exceptions.
}
}
// todo: For now we assume the application is not buggy
// or evil, and will quit as a result of our request.
// Eventually we need to drive this off of the death
// notification, and kill the process if it takes too long.
cleanUpApplicationRecordLocked(app, false, i);
i--;
}
}
// If we still have too many processes, now from the least
// recently used process we start finishing activities.
if (Config.LOGV) Log.v(
TAG, "*** NOW HAVE " + mLruProcesses.size() +
" of " + curMaxProcs + " processes");
for ( i=0;
i<mLruProcesses.size()
&& mLruProcesses.size() > curMaxProcs;
i++) {
final ProcessRecord app = mLruProcesses.get(i);
// Quit the application only if we have a state saved for
// all of its activities.
boolean canQuit = !app.persistent && app.curReceiver == null
&& app.services.size() == 0
&& app.persistentActivities == 0;
int NUMA = app.activities.size();
int j;
if (Config.LOGV) Log.v(
TAG, "Looking to quit " + app.processName);
for (j=0; j<NUMA && canQuit; j++) {
HistoryRecord r = (HistoryRecord)app.activities.get(j);
if (Config.LOGV) Log.v(
TAG, " " + r.intent.getComponent().flattenToShortString()
+ ": frozen=" + r.haveState + ", visible=" + r.visible);
canQuit = (r.haveState || !r.stateNotNeeded)
&& !r.visible && r.stopped;
}
if (canQuit) {
// Finish all of the activities, and then the app itself.
for (j=0; j<NUMA; j++) {
HistoryRecord r = (HistoryRecord)app.activities.get(j);
if (!r.finishing) {
destroyActivityLocked(r, false);
}
r.resultTo = null;
}
Log.i(TAG, "Exiting application process "
+ app.processName + " ("
+ (app.thread != null ? app.thread.asBinder() : null)
+ ")\n");
if (app.pid > 0 && app.pid != MY_PID) {
Process.killProcess(app.pid);
} else {
try {
app.thread.scheduleExit();
} catch (Exception e) {
// Ignore exceptions.
}
}
// todo: For now we assume the application is not buggy
// or evil, and will quit as a result of our request.
// Eventually we need to drive this off of the death
// notification, and kill the process if it takes too long.
cleanUpApplicationRecordLocked(app, false, i);
i--;
//dump();
}
}
}
int curMaxActivities = MAX_ACTIVITIES;
if (mAlwaysFinishActivities) {
curMaxActivities = 1;
}
// Finally, if there are too many activities now running, try to
// finish as many as we can to get back down to the limit.
for ( i=0;
i<mLRUActivities.size()
&& mLRUActivities.size() > curMaxActivities;
i++) {
final HistoryRecord r
= (HistoryRecord)mLRUActivities.get(i);
// We can finish this one if we have its icicle saved and
// it is not persistent.
if ((r.haveState || !r.stateNotNeeded) && !r.visible
&& r.stopped && !r.persistent && !r.finishing) {
final int origSize = mLRUActivities.size();
destroyActivityLocked(r, true);
// This will remove it from the LRU list, so keep
// our index at the same value. Note that this check to
// see if the size changes is just paranoia -- if
// something unexpected happens, we don't want to end up
// in an infinite loop.
if (origSize > mLRUActivities.size()) {
i--;
}
}
}
}
}
/** This method sends the specified signal to each of the persistent apps */
public void signalPersistentProcesses(int sig) throws RemoteException {
if (sig != Process.SIGNAL_USR1) {
throw new SecurityException("Only SIGNAL_USR1 is allowed");
}
synchronized (this) {
if (checkCallingPermission(android.Manifest.permission.SIGNAL_PERSISTENT_PROCESSES)
!= PackageManager.PERMISSION_GRANTED) {
throw new SecurityException("Requires permission "
+ android.Manifest.permission.SIGNAL_PERSISTENT_PROCESSES);
}
for (int i = mLruProcesses.size() - 1 ; i >= 0 ; i--) {
ProcessRecord r = mLruProcesses.get(i);
if (r.thread != null && r.persistent) {
Process.sendSignal(r.pid, sig);
}
}
}
}
public boolean profileControl(String process, boolean start,
String path, ParcelFileDescriptor fd) throws RemoteException {
try {
synchronized (this) {
// note: hijacking SET_ACTIVITY_WATCHER, but should be changed to
// its own permission.
if (checkCallingPermission(android.Manifest.permission.SET_ACTIVITY_WATCHER)
!= PackageManager.PERMISSION_GRANTED) {
throw new SecurityException("Requires permission "
+ android.Manifest.permission.SET_ACTIVITY_WATCHER);
}
if (start && fd == null) {
throw new IllegalArgumentException("null fd");
}
ProcessRecord proc = null;
try {
int pid = Integer.parseInt(process);
synchronized (mPidsSelfLocked) {
proc = mPidsSelfLocked.get(pid);
}
} catch (NumberFormatException e) {
}
if (proc == null) {
HashMap<String, SparseArray<ProcessRecord>> all
= mProcessNames.getMap();
SparseArray<ProcessRecord> procs = all.get(process);
if (procs != null && procs.size() > 0) {
proc = procs.valueAt(0);
}
}
if (proc == null || proc.thread == null) {
throw new IllegalArgumentException("Unknown process: " + process);
}
boolean isSecure = "1".equals(SystemProperties.get(SYSTEM_SECURE, "0"));
if (isSecure) {
if ((proc.info.flags&ApplicationInfo.FLAG_DEBUGGABLE) == 0) {
throw new SecurityException("Process not debuggable: " + proc);
}
}
proc.thread.profilerControl(start, path, fd);
fd = null;
return true;
}
} catch (RemoteException e) {
throw new IllegalStateException("Process disappeared");
} finally {
if (fd != null) {
try {
fd.close();
} catch (IOException e) {
}
}
}
}
/** In this method we try to acquire our lock to make sure that we have not deadlocked */
public void monitor() {
synchronized (this) { }
}
}