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/*
* Copyright (C) 2015 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 android.app.ActivityManager;
import android.content.Context;
import android.content.pm.PackageManager;
import android.os.ParcelFileDescriptor;
import android.os.RemoteException;
import android.os.ServiceManager;
import android.os.SystemClock;
import android.text.format.Formatter;
import android.util.ArrayMap;
import android.util.Log;
import android.util.LongSparseArray;
import android.util.SparseArray;
import com.android.internal.app.ProcessMap;
import com.android.internal.app.procstats.DumpUtils;
import com.android.internal.app.procstats.IProcessStats;
import com.android.internal.app.procstats.ProcessState;
import com.android.internal.app.procstats.ProcessStats;
import com.android.internal.app.procstats.ProcessStats.ProcessDataCollection;
import com.android.internal.app.procstats.ProcessStats.TotalMemoryUseCollection;
import com.android.internal.app.procstats.ServiceState;
import com.android.internal.util.MemInfoReader;
import com.android.settings.R;
import com.android.settings.Utils;
import java.io.IOException;
import java.io.InputStream;
import java.util.ArrayList;
import java.util.Comparator;
import java.util.List;
public class ProcStatsData {
private static final String TAG = "ProcStatsManager";
private static final boolean DEBUG = ProcessStatsUi.DEBUG;
private static ProcessStats sStatsXfer;
private PackageManager mPm;
private Context mContext;
private long memTotalTime;
private IProcessStats mProcessStats;
private ProcessStats mStats;
private boolean mUseUss;
private long mDuration;
private int[] mMemStates;
private int[] mStates;
private MemInfo mMemInfo;
private ArrayList<ProcStatsPackageEntry> pkgEntries;
public ProcStatsData(Context context, boolean useXfer) {
mContext = context;
mPm = context.getPackageManager();
mProcessStats = IProcessStats.Stub.asInterface(
ServiceManager.getService(ProcessStats.SERVICE_NAME));
mMemStates = ProcessStats.ALL_MEM_ADJ;
mStates = ProcessStats.BACKGROUND_PROC_STATES;
if (useXfer) {
mStats = sStatsXfer;
}
}
public void setTotalTime(int totalTime) {
memTotalTime = totalTime;
}
public void xferStats() {
sStatsXfer = mStats;
}
public void setMemStates(int[] memStates) {
mMemStates = memStates;
refreshStats(false);
}
public void setStats(int[] stats) {
this.mStates = stats;
refreshStats(false);
}
public int getMemState() {
int factor = mStats.mMemFactor;
if (factor == ProcessStats.ADJ_NOTHING) {
return ProcessStats.ADJ_MEM_FACTOR_NORMAL;
}
if (factor >= ProcessStats.ADJ_SCREEN_ON) {
factor -= ProcessStats.ADJ_SCREEN_ON;
}
return factor;
}
public MemInfo getMemInfo() {
return mMemInfo;
}
public long getElapsedTime() {
return mStats.mTimePeriodEndRealtime - mStats.mTimePeriodStartRealtime;
}
public void setDuration(long duration) {
if (duration != mDuration) {
mDuration = duration;
refreshStats(true);
}
}
public long getDuration() {
return mDuration;
}
public List<ProcStatsPackageEntry> getEntries() {
return pkgEntries;
}
public void refreshStats(boolean forceLoad) {
if (mStats == null || forceLoad) {
load();
}
pkgEntries = new ArrayList<>();
long now = SystemClock.uptimeMillis();
memTotalTime = DumpUtils.dumpSingleTime(null, null, mStats.mMemFactorDurations,
mStats.mMemFactor, mStats.mStartTime, now);
ProcessStats.TotalMemoryUseCollection totalMem = new ProcessStats.TotalMemoryUseCollection(
ProcessStats.ALL_SCREEN_ADJ, mMemStates);
mStats.computeTotalMemoryUse(totalMem, now);
mMemInfo = new MemInfo(mContext, totalMem, memTotalTime);
ProcessDataCollection bgTotals = new ProcessDataCollection(
ProcessStats.ALL_SCREEN_ADJ, mMemStates, mStates);
ProcessDataCollection runTotals = new ProcessDataCollection(
ProcessStats.ALL_SCREEN_ADJ, mMemStates, ProcessStats.NON_CACHED_PROC_STATES);
createPkgMap(getProcs(bgTotals, runTotals), bgTotals, runTotals);
if (totalMem.sysMemZRamWeight > 0 && !totalMem.hasSwappedOutPss) {
distributeZRam(totalMem.sysMemZRamWeight);
}
ProcStatsPackageEntry osPkg = createOsEntry(bgTotals, runTotals, totalMem,
mMemInfo.baseCacheRam);
pkgEntries.add(osPkg);
}
private void createPkgMap(ArrayList<ProcStatsEntry> procEntries, ProcessDataCollection bgTotals,
ProcessDataCollection runTotals) {
// Combine processes into packages.
ArrayMap<String, ProcStatsPackageEntry> pkgMap = new ArrayMap<>();
for (int i = procEntries.size() - 1; i >= 0; i--) {
ProcStatsEntry proc = procEntries.get(i);
proc.evaluateTargetPackage(mPm, mStats, bgTotals, runTotals, sEntryCompare, mUseUss);
ProcStatsPackageEntry pkg = pkgMap.get(proc.mBestTargetPackage);
if (pkg == null) {
pkg = new ProcStatsPackageEntry(proc.mBestTargetPackage, memTotalTime);
pkgMap.put(proc.mBestTargetPackage, pkg);
pkgEntries.add(pkg);
}
pkg.addEntry(proc);
}
}
private void distributeZRam(double zramWeight) {
// Distribute kernel's Z-Ram across processes, based on how much they have been running.
// The idea is that the memory used by the kernel for this is not really the kernel's
// responsibility, but that of whoever got swapped in to it... and we will take how
// much a process runs for as a sign of the proportion of Z-Ram it is responsible for.
long zramMem = (long) (zramWeight / memTotalTime);
long totalTime = 0;
for (int i = pkgEntries.size() - 1; i >= 0; i--) {
ProcStatsPackageEntry entry = pkgEntries.get(i);
for (int j = entry.mEntries.size() - 1; j >= 0; j--) {
ProcStatsEntry proc = entry.mEntries.get(j);
totalTime += proc.mRunDuration;
}
}
for (int i = pkgEntries.size() - 1; i >= 0 && totalTime > 0; i--) {
ProcStatsPackageEntry entry = pkgEntries.get(i);
long pkgRunTime = 0;
long maxRunTime = 0;
for (int j = entry.mEntries.size() - 1; j >= 0; j--) {
ProcStatsEntry proc = entry.mEntries.get(j);
pkgRunTime += proc.mRunDuration;
if (proc.mRunDuration > maxRunTime) {
maxRunTime = proc.mRunDuration;
}
}
long pkgZRam = (zramMem*pkgRunTime)/totalTime;
if (pkgZRam > 0) {
zramMem -= pkgZRam;
totalTime -= pkgRunTime;
ProcStatsEntry procEntry = new ProcStatsEntry(entry.mPackage, 0,
mContext.getString(R.string.process_stats_os_zram), maxRunTime,
pkgZRam, memTotalTime);
procEntry.evaluateTargetPackage(mPm, mStats, null, null, sEntryCompare, mUseUss);
entry.addEntry(procEntry);
}
}
}
private ProcStatsPackageEntry createOsEntry(ProcessDataCollection bgTotals,
ProcessDataCollection runTotals, TotalMemoryUseCollection totalMem, long baseCacheRam) {
// Add in fake entry representing the OS itself.
ProcStatsPackageEntry osPkg = new ProcStatsPackageEntry("os", memTotalTime);
ProcStatsEntry osEntry;
if (totalMem.sysMemNativeWeight > 0) {
osEntry = new ProcStatsEntry(Utils.OS_PKG, 0,
mContext.getString(R.string.process_stats_os_native), memTotalTime,
(long) (totalMem.sysMemNativeWeight / memTotalTime), memTotalTime);
osEntry.evaluateTargetPackage(mPm, mStats, bgTotals, runTotals, sEntryCompare, mUseUss);
osPkg.addEntry(osEntry);
}
if (totalMem.sysMemKernelWeight > 0) {
osEntry = new ProcStatsEntry(Utils.OS_PKG, 0,
mContext.getString(R.string.process_stats_os_kernel), memTotalTime,
(long) (totalMem.sysMemKernelWeight / memTotalTime), memTotalTime);
osEntry.evaluateTargetPackage(mPm, mStats, bgTotals, runTotals, sEntryCompare, mUseUss);
osPkg.addEntry(osEntry);
}
/* Turned off now -- zram is being distributed across running apps.
if (totalMem.sysMemZRamWeight > 0) {
osEntry = new ProcStatsEntry(Utils.OS_PKG, 0,
mContext.getString(R.string.process_stats_os_zram), memTotalTime,
(long) (totalMem.sysMemZRamWeight / memTotalTime));
osEntry.evaluateTargetPackage(mPm, mStats, bgTotals, runTotals, sEntryCompare, mUseUss);
osPkg.addEntry(osEntry);
}
*/
if (baseCacheRam > 0) {
osEntry = new ProcStatsEntry(Utils.OS_PKG, 0,
mContext.getString(R.string.process_stats_os_cache), memTotalTime,
baseCacheRam / 1024, memTotalTime);
osEntry.evaluateTargetPackage(mPm, mStats, bgTotals, runTotals, sEntryCompare, mUseUss);
osPkg.addEntry(osEntry);
}
return osPkg;
}
private ArrayList<ProcStatsEntry> getProcs(ProcessDataCollection bgTotals,
ProcessDataCollection runTotals) {
final ArrayList<ProcStatsEntry> procEntries = new ArrayList<>();
if (DEBUG) Log.d(TAG, "-------------------- PULLING PROCESSES");
final ProcessMap<ProcStatsEntry> entriesMap = new ProcessMap<ProcStatsEntry>();
for (int ipkg = 0, N = mStats.mPackages.getMap().size(); ipkg < N; ipkg++) {
final SparseArray<LongSparseArray<ProcessStats.PackageState>> pkgUids = mStats.mPackages
.getMap().valueAt(ipkg);
for (int iu = 0; iu < pkgUids.size(); iu++) {
final LongSparseArray<ProcessStats.PackageState> vpkgs = pkgUids.valueAt(iu);
for (int iv = 0; iv < vpkgs.size(); iv++) {
final ProcessStats.PackageState st = vpkgs.valueAt(iv);
for (int iproc = 0; iproc < st.mProcesses.size(); iproc++) {
final ProcessState pkgProc = st.mProcesses.valueAt(iproc);
final ProcessState proc = mStats.mProcesses.get(pkgProc.getName(),
pkgProc.getUid());
if (proc == null) {
Log.w(TAG, "No process found for pkg " + st.mPackageName
+ "/" + st.mUid + " proc name " + pkgProc.getName());
continue;
}
ProcStatsEntry ent = entriesMap.get(proc.getName(), proc.getUid());
if (ent == null) {
ent = new ProcStatsEntry(proc, st.mPackageName, bgTotals, runTotals,
mUseUss);
if (ent.mRunWeight > 0) {
if (DEBUG) Log.d(TAG, "Adding proc " + proc.getName() + "/"
+ proc.getUid() + ": time="
+ ProcessStatsUi.makeDuration(ent.mRunDuration) + " ("
+ ((((double) ent.mRunDuration) / memTotalTime) * 100)
+ "%)"
+ " pss=" + ent.mAvgRunMem);
entriesMap.put(proc.getName(), proc.getUid(), ent);
procEntries.add(ent);
}
} else {
ent.addPackage(st.mPackageName);
}
}
}
}
}
if (DEBUG) Log.d(TAG, "-------------------- MAPPING SERVICES");
// Add in service info.
for (int ip = 0, N = mStats.mPackages.getMap().size(); ip < N; ip++) {
SparseArray<LongSparseArray<ProcessStats.PackageState>> uids = mStats.mPackages.getMap()
.valueAt(ip);
for (int iu = 0; iu < uids.size(); iu++) {
LongSparseArray<ProcessStats.PackageState> vpkgs = uids.valueAt(iu);
for (int iv = 0; iv < vpkgs.size(); iv++) {
ProcessStats.PackageState ps = vpkgs.valueAt(iv);
for (int is = 0, NS = ps.mServices.size(); is < NS; is++) {
ServiceState ss = ps.mServices.valueAt(is);
if (ss.getProcessName() != null) {
ProcStatsEntry ent = entriesMap.get(ss.getProcessName(),
uids.keyAt(iu));
if (ent != null) {
if (DEBUG) Log.d(TAG, "Adding service " + ps.mPackageName
+ "/" + ss.getName() + "/" + uids.keyAt(iu)
+ " to proc " + ss.getProcessName());
ent.addService(ss);
} else {
Log.w(TAG, "No process " + ss.getProcessName() + "/"
+ uids.keyAt(iu) + " for service " + ss.getName());
}
}
}
}
}
}
return procEntries;
}
private void load() {
try {
ParcelFileDescriptor pfd = mProcessStats.getStatsOverTime(mDuration);
mStats = new ProcessStats(false);
InputStream is = new ParcelFileDescriptor.AutoCloseInputStream(pfd);
mStats.read(is);
try {
is.close();
} catch (IOException e) {
}
if (mStats.mReadError != null) {
Log.w(TAG, "Failure reading process stats: " + mStats.mReadError);
}
} catch (RemoteException e) {
Log.e(TAG, "RemoteException:", e);
}
}
public static class MemInfo {
public double realUsedRam;
public double realFreeRam;
public double realTotalRam;
long baseCacheRam;
double[] mMemStateWeights = new double[ProcessStats.STATE_COUNT];
double freeWeight;
double usedWeight;
double weightToRam;
double totalRam;
double totalScale;
long memTotalTime;
public double getWeightToRam() {
return weightToRam;
}
private MemInfo(Context context, ProcessStats.TotalMemoryUseCollection totalMem,
long memTotalTime) {
this.memTotalTime = memTotalTime;
calculateWeightInfo(context, totalMem, memTotalTime);
double usedRam = (usedWeight * 1024) / memTotalTime;
double freeRam = (freeWeight * 1024) / memTotalTime;
totalRam = usedRam + freeRam;
totalScale = realTotalRam / totalRam;
weightToRam = totalScale / memTotalTime * 1024;
realUsedRam = usedRam * totalScale;
realFreeRam = freeRam * totalScale;
if (DEBUG) {
Log.i(TAG, "Scaled Used RAM: " + Formatter.formatShortFileSize(context,
(long) realUsedRam));
Log.i(TAG, "Scaled Free RAM: " + Formatter.formatShortFileSize(context,
(long) realFreeRam));
}
if (DEBUG) {
Log.i(TAG, "Adj Scaled Used RAM: " + Formatter.formatShortFileSize(context,
(long) realUsedRam));
Log.i(TAG, "Adj Scaled Free RAM: " + Formatter.formatShortFileSize(context,
(long) realFreeRam));
}
ActivityManager.MemoryInfo memInfo = new ActivityManager.MemoryInfo();
((ActivityManager) context.getSystemService(Context.ACTIVITY_SERVICE)).getMemoryInfo(
memInfo);
if (memInfo.hiddenAppThreshold >= realFreeRam) {
realUsedRam = freeRam;
realFreeRam = 0;
baseCacheRam = (long) realFreeRam;
} else {
realUsedRam += memInfo.hiddenAppThreshold;
realFreeRam -= memInfo.hiddenAppThreshold;
baseCacheRam = memInfo.hiddenAppThreshold;
}
}
private void calculateWeightInfo(Context context, TotalMemoryUseCollection totalMem,
long memTotalTime) {
MemInfoReader memReader = new MemInfoReader();
memReader.readMemInfo();
realTotalRam = memReader.getTotalSize();
freeWeight = totalMem.sysMemFreeWeight + totalMem.sysMemCachedWeight;
usedWeight = totalMem.sysMemKernelWeight + totalMem.sysMemNativeWeight;
if (!totalMem.hasSwappedOutPss) {
usedWeight += totalMem.sysMemZRamWeight;
}
for (int i = 0; i < ProcessStats.STATE_COUNT; i++) {
if (i == ProcessStats.STATE_SERVICE_RESTARTING) {
// These don't really run.
mMemStateWeights[i] = 0;
} else {
mMemStateWeights[i] = totalMem.processStateWeight[i];
if (i >= ProcessStats.STATE_HOME) {
freeWeight += totalMem.processStateWeight[i];
} else {
usedWeight += totalMem.processStateWeight[i];
}
}
}
if (DEBUG) {
Log.i(TAG, "Used RAM: " + Formatter.formatShortFileSize(context,
(long) ((usedWeight * 1024) / memTotalTime)));
Log.i(TAG, "Free RAM: " + Formatter.formatShortFileSize(context,
(long) ((freeWeight * 1024) / memTotalTime)));
Log.i(TAG, "Total RAM: " + Formatter.formatShortFileSize(context,
(long) (((freeWeight + usedWeight) * 1024) / memTotalTime)));
}
}
}
final static Comparator<ProcStatsEntry> sEntryCompare = new Comparator<ProcStatsEntry>() {
@Override
public int compare(ProcStatsEntry lhs, ProcStatsEntry rhs) {
if (lhs.mRunWeight < rhs.mRunWeight) {
return 1;
} else if (lhs.mRunWeight > rhs.mRunWeight) {
return -1;
} else if (lhs.mRunDuration < rhs.mRunDuration) {
return 1;
} else if (lhs.mRunDuration > rhs.mRunDuration) {
return -1;
}
return 0;
}
};
}