/* * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.settings.applications; import com.android.settings.R; import android.app.ActivityManager; import android.app.ActivityManagerNative; import android.content.ComponentName; import android.content.Context; import android.content.pm.ApplicationInfo; import android.content.pm.PackageInfo; import android.content.pm.PackageItemInfo; import android.content.pm.PackageManager; import android.content.pm.ServiceInfo; import android.content.res.Resources; import android.os.Debug; import android.os.Handler; import android.os.HandlerThread; import android.os.Looper; import android.os.Message; import android.os.RemoteException; import android.os.SystemClock; import android.text.format.Formatter; import android.util.Log; import android.util.SparseArray; import java.util.ArrayList; import java.util.Collections; import java.util.Comparator; import java.util.HashMap; import java.util.Iterator; import java.util.List; /** * Singleton for retrieving and monitoring the state about all running * applications/processes/services. */ public class RunningState { static Object sGlobalLock = new Object(); static RunningState sInstance; static final int MSG_UPDATE_CONTENTS = 1; static final int MSG_REFRESH_UI = 2; static final int MSG_UPDATE_TIME = 3; static final long TIME_UPDATE_DELAY = 1000; static final long CONTENTS_UPDATE_DELAY = 2000; static final int MAX_SERVICES = 100; final Context mApplicationContext; final ActivityManager mAm; final PackageManager mPm; OnRefreshUiListener mRefreshUiListener; // Processes that are hosting a service we are interested in, organized // by uid and name. Note that this mapping does not change even across // service restarts, and during a restart there will still be a process // entry. final SparseArray> mServiceProcessesByName = new SparseArray>(); // Processes that are hosting a service we are interested in, organized // by their pid. These disappear and re-appear as services are restarted. final SparseArray mServiceProcessesByPid = new SparseArray(); // Used to sort the interesting processes. final ServiceProcessComparator mServiceProcessComparator = new ServiceProcessComparator(); // Additional heavy-weight processes to be shown to the user, even if // there is no service running in them. final ArrayList mHeavyProcesses = new ArrayList(); // All currently running processes, for finding dependencies etc. final SparseArray mRunningProcesses = new SparseArray(); // The processes associated with services, in sorted order. final ArrayList mProcessItems = new ArrayList(); // All processes, used for retrieving memory information. final ArrayList mAllProcessItems = new ArrayList(); int mSequence = 0; // ----- following protected by mLock ----- // Lock for protecting the state that will be shared between the // background update thread and the UI thread. final Object mLock = new Object(); boolean mResumed; boolean mHaveData; ArrayList mItems = new ArrayList(); ArrayList mMergedItems = new ArrayList(); int mNumBackgroundProcesses; long mBackgroundProcessMemory; int mNumForegroundProcesses; long mForegroundProcessMemory; int mNumServiceProcesses; long mServiceProcessMemory; // ----- BACKGROUND MONITORING THREAD ----- final HandlerThread mBackgroundThread; final class BackgroundHandler extends Handler { public BackgroundHandler(Looper looper) { super(looper); } @Override public void handleMessage(Message msg) { switch (msg.what) { case MSG_UPDATE_CONTENTS: synchronized (mLock) { if (!mResumed) { return; } } Message cmd = mHandler.obtainMessage(MSG_REFRESH_UI); cmd.arg1 = update(mApplicationContext, mAm) ? 1 : 0; mHandler.sendMessage(cmd); removeMessages(MSG_UPDATE_CONTENTS); msg = obtainMessage(MSG_UPDATE_CONTENTS); sendMessageDelayed(msg, CONTENTS_UPDATE_DELAY); break; } } }; final BackgroundHandler mBackgroundHandler; final Handler mHandler = new Handler() { int mNextUpdate = OnRefreshUiListener.REFRESH_TIME; @Override public void handleMessage(Message msg) { switch (msg.what) { case MSG_REFRESH_UI: mNextUpdate = msg.arg1 != 0 ? OnRefreshUiListener.REFRESH_STRUCTURE : OnRefreshUiListener.REFRESH_DATA; break; case MSG_UPDATE_TIME: synchronized (mLock) { if (!mResumed) { return; } } removeMessages(MSG_UPDATE_TIME); Message m = obtainMessage(MSG_UPDATE_TIME); sendMessageDelayed(m, TIME_UPDATE_DELAY); if (mRefreshUiListener != null) { //Log.i("foo", "Refresh UI: " + mNextUpdate // + " @ " + SystemClock.uptimeMillis()); mRefreshUiListener.onRefreshUi(mNextUpdate); mNextUpdate = OnRefreshUiListener.REFRESH_TIME; } break; } } }; // ----- DATA STRUCTURES ----- static interface OnRefreshUiListener { public static final int REFRESH_TIME = 0; public static final int REFRESH_DATA = 1; public static final int REFRESH_STRUCTURE = 2; public void onRefreshUi(int what); } static class BaseItem { final boolean mIsProcess; PackageItemInfo mPackageInfo; CharSequence mDisplayLabel; String mLabel; String mDescription; int mCurSeq; long mActiveSince; long mSize; String mSizeStr; String mCurSizeStr; boolean mNeedDivider; public BaseItem(boolean isProcess) { mIsProcess = isProcess; } } static class ServiceItem extends BaseItem { ActivityManager.RunningServiceInfo mRunningService; ServiceInfo mServiceInfo; boolean mShownAsStarted; MergedItem mMergedItem; public ServiceItem() { super(false); } } static class ProcessItem extends BaseItem { final HashMap mServices = new HashMap(); final SparseArray mDependentProcesses = new SparseArray(); final int mUid; final String mProcessName; int mPid; ProcessItem mClient; int mLastNumDependentProcesses; int mRunningSeq; ActivityManager.RunningAppProcessInfo mRunningProcessInfo; MergedItem mMergedItem; // Purely for sorting. boolean mIsSystem; boolean mIsStarted; long mActiveSince; public ProcessItem(Context context, int uid, String processName) { super(true); mDescription = context.getResources().getString( R.string.service_process_name, processName); mUid = uid; mProcessName = processName; } void ensureLabel(PackageManager pm) { if (mLabel != null) { return; } try { ApplicationInfo ai = pm.getApplicationInfo(mProcessName, 0); if (ai.uid == mUid) { mDisplayLabel = ai.loadLabel(pm); mLabel = mDisplayLabel.toString(); mPackageInfo = ai; return; } } catch (PackageManager.NameNotFoundException e) { } // If we couldn't get information about the overall // process, try to find something about the uid. String[] pkgs = pm.getPackagesForUid(mUid); // If there is one package with this uid, that is what we want. if (pkgs.length == 1) { try { ApplicationInfo ai = pm.getApplicationInfo(pkgs[0], 0); mDisplayLabel = ai.loadLabel(pm); mLabel = mDisplayLabel.toString(); mPackageInfo = ai; return; } catch (PackageManager.NameNotFoundException e) { } } // If there are multiple, see if one gives us the official name // for this uid. for (String name : pkgs) { try { PackageInfo pi = pm.getPackageInfo(name, 0); if (pi.sharedUserLabel != 0) { CharSequence nm = pm.getText(name, pi.sharedUserLabel, pi.applicationInfo); if (nm != null) { mDisplayLabel = nm; mLabel = nm.toString(); mPackageInfo = pi.applicationInfo; return; } } } catch (PackageManager.NameNotFoundException e) { } } // If still don't have anything to display, just use the // service info. if (mServices.size() > 0) { mPackageInfo = mServices.values().iterator().next() .mServiceInfo.applicationInfo; mDisplayLabel = mPackageInfo.loadLabel(pm); mLabel = mDisplayLabel.toString(); return; } // Finally... whatever, just pick the first package's name. try { ApplicationInfo ai = pm.getApplicationInfo(pkgs[0], 0); mDisplayLabel = ai.loadLabel(pm); mLabel = mDisplayLabel.toString(); mPackageInfo = ai; return; } catch (PackageManager.NameNotFoundException e) { } } boolean updateService(Context context, ActivityManager.RunningServiceInfo service) { final PackageManager pm = context.getPackageManager(); boolean changed = false; ServiceItem si = mServices.get(service.service); if (si == null) { changed = true; si = new ServiceItem(); si.mRunningService = service; try { si.mServiceInfo = pm.getServiceInfo(service.service, 0); } catch (PackageManager.NameNotFoundException e) { } si.mDisplayLabel = makeLabel(pm, si.mRunningService.service.getClassName(), si.mServiceInfo); mLabel = mDisplayLabel != null ? mDisplayLabel.toString() : null; si.mPackageInfo = si.mServiceInfo.applicationInfo; mServices.put(service.service, si); } si.mCurSeq = mCurSeq; si.mRunningService = service; long activeSince = service.restarting == 0 ? service.activeSince : -1; if (si.mActiveSince != activeSince) { si.mActiveSince = activeSince; changed = true; } if (service.clientPackage != null && service.clientLabel != 0) { if (si.mShownAsStarted) { si.mShownAsStarted = false; changed = true; } try { Resources clientr = pm.getResourcesForApplication(service.clientPackage); String label = clientr.getString(service.clientLabel); si.mDescription = context.getResources().getString( R.string.service_client_name, label); } catch (PackageManager.NameNotFoundException e) { si.mDescription = null; } } else { if (!si.mShownAsStarted) { si.mShownAsStarted = true; changed = true; } si.mDescription = context.getResources().getString( R.string.service_started_by_app); } return changed; } boolean updateSize(Context context, Debug.MemoryInfo mem, int curSeq) { mSize = ((long)mem.getTotalPss()) * 1024; if (mCurSeq == curSeq) { String sizeStr = Formatter.formatShortFileSize( context, mSize); if (!sizeStr.equals(mSizeStr)){ mSizeStr = sizeStr; // We update this on the second tick where we update just // the text in the current items, so no need to say we // changed here. return false; } } return false; } boolean buildDependencyChain(Context context, PackageManager pm, int curSeq) { final int NP = mDependentProcesses.size(); boolean changed = false; for (int i=0; i dest, ArrayList destProc) { final int NP = mDependentProcesses.size(); for (int i=0; i 0) { destProc.add(proc); } } } } static class MergedItem extends BaseItem { ProcessItem mProcess; final ArrayList mOtherProcesses = new ArrayList(); final ArrayList mServices = new ArrayList(); MergedItem() { super(false); } boolean update(Context context) { mPackageInfo = mProcess.mPackageInfo; mDisplayLabel = mProcess.mDisplayLabel; mLabel = mProcess.mLabel; int numProcesses = (mProcess.mPid > 0 ? 1 : 0) + mOtherProcesses.size(); int numServices = mServices.size(); int resid = R.string.running_processes_item_description_s_s; if (numProcesses != 1) { resid = numServices != 1 ? R.string.running_processes_item_description_p_p : R.string.running_processes_item_description_p_s; } else if (numServices != 1) { resid = R.string.running_processes_item_description_s_p; } mDescription = context.getResources().getString(resid, numProcesses, numServices); mActiveSince = -1; for (int i=0; i= 0 && mActiveSince < si.mActiveSince) { mActiveSince = si.mActiveSince; } } return false; } boolean updateSize(Context context) { mSize = mProcess.mSize; for (int i=0; i { public int compare(ProcessItem object1, ProcessItem object2) { if (object1.mIsStarted != object2.mIsStarted) { // Non-started processes go last. return object1.mIsStarted ? -1 : 1; } if (object1.mIsSystem != object2.mIsSystem) { // System processes go below non-system. return object1.mIsSystem ? 1 : -1; } if (object1.mActiveSince != object2.mActiveSince) { // Remaining ones are sorted with the longest running // services last. return (object1.mActiveSince > object2.mActiveSince) ? -1 : 1; } return 0; } } static CharSequence makeLabel(PackageManager pm, String className, PackageItemInfo item) { if (item != null && (item.labelRes != 0 || item.nonLocalizedLabel != null)) { CharSequence label = item.loadLabel(pm); if (label != null) { return label; } } String label = className; int tail = label.lastIndexOf('.'); if (tail >= 0) { label = label.substring(tail+1, label.length()); } return label; } static RunningState getInstance(Context context) { synchronized (sGlobalLock) { if (sInstance == null) { sInstance = new RunningState(context); } return sInstance; } } private RunningState(Context context) { mApplicationContext = context.getApplicationContext(); mAm = (ActivityManager)mApplicationContext.getSystemService(Context.ACTIVITY_SERVICE); mPm = mApplicationContext.getPackageManager(); mResumed = false; mBackgroundThread = new HandlerThread("RunningState:Background"); mBackgroundThread.start(); mBackgroundHandler = new BackgroundHandler(mBackgroundThread.getLooper()); } void resume(OnRefreshUiListener listener) { synchronized (mLock) { mResumed = true; mRefreshUiListener = listener; if (!mBackgroundHandler.hasMessages(MSG_UPDATE_CONTENTS)) { mBackgroundHandler.sendEmptyMessage(MSG_UPDATE_CONTENTS); } mHandler.sendEmptyMessage(MSG_UPDATE_TIME); } } void updateNow() { synchronized (mLock) { mBackgroundHandler.removeMessages(MSG_UPDATE_CONTENTS); mBackgroundHandler.sendEmptyMessage(MSG_UPDATE_CONTENTS); } } boolean hasData() { synchronized (mLock) { return mHaveData; } } void waitForData() { synchronized (mLock) { while (!mHaveData) { try { mLock.wait(0); } catch (InterruptedException e) { } } } } void pause() { synchronized (mLock) { mResumed = false; mRefreshUiListener = null; mHandler.removeMessages(MSG_UPDATE_TIME); } } private boolean update(Context context, ActivityManager am) { final PackageManager pm = context.getPackageManager(); mSequence++; boolean changed = false; List services = am.getRunningServices(MAX_SERVICES); final int NS = services != null ? services.size() : 0; for (int i=0; i procs = mServiceProcessesByName.get(si.uid); if (procs == null) { procs = new HashMap(); mServiceProcessesByName.put(si.uid, procs); } ProcessItem proc = procs.get(si.process); if (proc == null) { changed = true; proc = new ProcessItem(context, si.uid, si.process); procs.put(si.process, proc); } if (proc.mCurSeq != mSequence) { int pid = si.restarting == 0 ? si.pid : 0; if (pid != proc.mPid) { changed = true; if (proc.mPid != pid) { if (proc.mPid != 0) { mServiceProcessesByPid.remove(proc.mPid); } if (pid != 0) { mServiceProcessesByPid.put(pid, proc); } proc.mPid = pid; } } proc.mDependentProcesses.clear(); proc.mCurSeq = mSequence; } changed |= proc.updateService(context, si); } // Now update the map of other processes that are running (but // don't have services actively running inside them). List processes = am.getRunningAppProcesses(); final int NP = processes != null ? processes.size() : 0; for (int i=0; i procs = mServiceProcessesByName.valueAt(i); Iterator pit = procs.values().iterator(); while (pit.hasNext()) { ProcessItem pi = pit.next(); if (pi.mCurSeq == mSequence) { pi.ensureLabel(pm); if (pi.mPid == 0) { // Sanity: a non-process can't be dependent on // anything. pi.mDependentProcesses.clear(); } } else { changed = true; pit.remove(); if (procs.size() == 0) { mServiceProcessesByName.remove(mServiceProcessesByName.keyAt(i)); } if (pi.mPid != 0) { mServiceProcessesByPid.remove(pi.mPid); } continue; } Iterator sit = pi.mServices.values().iterator(); while (sit.hasNext()) { ServiceItem si = sit.next(); if (si.mCurSeq != mSequence) { changed = true; sit.remove(); } } } } if (changed) { // First determine an order for the services. ArrayList sortedProcesses = new ArrayList(); for (int i=0; i si.mRunningService.activeSince) { pi.mActiveSince = si.mRunningService.activeSince; } } } sortedProcesses.add(pi); } } Collections.sort(sortedProcesses, mServiceProcessComparator); ArrayList newItems = new ArrayList(); ArrayList newMergedItems = new ArrayList(); mProcessItems.clear(); for (int i=0; i 0) { mProcessItems.add(pi); } // Now add the services running in it. MergedItem mergedItem = null; boolean haveAllMerged = false; boolean needDivider = false; for (ServiceItem si : pi.mServices.values()) { si.mNeedDivider = needDivider; needDivider = true; newItems.add(si); if (si.mMergedItem != null) { if (mergedItem != null && mergedItem != si.mMergedItem) { haveAllMerged = false; } mergedItem = si.mMergedItem; } else { haveAllMerged = false; } } if (!haveAllMerged || mergedItem == null || mergedItem.mServices.size() != pi.mServices.size()) { // Whoops, we need to build a new MergedItem! mergedItem = new MergedItem(); for (ServiceItem si : pi.mServices.values()) { mergedItem.mServices.add(si); si.mMergedItem = mergedItem; } mergedItem.mProcess = pi; mergedItem.mOtherProcesses.clear(); for (int mpi=firstProc; mpi<(mProcessItems.size()-1); mpi++) { mergedItem.mOtherProcesses.add(mProcessItems.get(mpi)); } } mergedItem.update(context); newMergedItems.add(mergedItem); } // Finally, heavy-weight processes need to be shown and will // go at the top. NHP = mHeavyProcesses.size(); for (int i=0; i= ActivityManager.RunningAppProcessInfo.IMPORTANCE_BACKGROUND) { numBackgroundProcesses++; mAllProcessItems.add(proc); } else if (proc.mRunningProcessInfo.importance <= ActivityManager.RunningAppProcessInfo.IMPORTANCE_VISIBLE) { numForegroundProcesses++; mAllProcessItems.add(proc); } else { Log.i("RunningState", "Unknown non-service process: " + proc.mProcessName + " #" + proc.mPid); } } else { numServiceProcesses++; } } long backgroundProcessMemory = 0; long foregroundProcessMemory = 0; long serviceProcessMemory = 0; try { final int numProc = mAllProcessItems.size(); int[] pids = new int[numProc]; for (int i=0; i=0; i--) { ProcessItem proc = mAllProcessItems.get(i); changed |= proc.updateSize(context, mem[i], mSequence); if (proc.mCurSeq == mSequence) { serviceProcessMemory += proc.mSize; } else if (proc.mRunningProcessInfo.importance >= ActivityManager.RunningAppProcessInfo.IMPORTANCE_BACKGROUND) { backgroundProcessMemory += proc.mSize; } else if (proc.mRunningProcessInfo.importance <= ActivityManager.RunningAppProcessInfo.IMPORTANCE_VISIBLE) { foregroundProcessMemory += proc.mSize; } } } catch (RemoteException e) { } for (int i=0; i getCurrentItems() { synchronized (mLock) { return mItems; } } ArrayList getCurrentMergedItems() { synchronized (mLock) { return mMergedItems; } } }