/* * Copyright (C) 2013 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.internal.app.procstats; import android.os.Parcel; import android.os.Parcelable; import android.os.SystemClock; import android.os.SystemProperties; import android.os.UserHandle; import android.text.format.DateFormat; import android.util.ArrayMap; import android.util.ArraySet; import android.util.DebugUtils; import android.util.Log; import android.util.Slog; import android.util.SparseArray; import android.util.TimeUtils; import com.android.internal.app.procstats.ProcessStats; import com.android.internal.app.procstats.ProcessStats.PackageState; import com.android.internal.app.procstats.ProcessStats.ProcessStateHolder; import com.android.internal.app.procstats.ProcessStats.TotalMemoryUseCollection; import static com.android.internal.app.procstats.ProcessStats.PSS_SAMPLE_COUNT; import static com.android.internal.app.procstats.ProcessStats.PSS_MINIMUM; import static com.android.internal.app.procstats.ProcessStats.PSS_AVERAGE; import static com.android.internal.app.procstats.ProcessStats.PSS_MAXIMUM; import static com.android.internal.app.procstats.ProcessStats.PSS_USS_MINIMUM; import static com.android.internal.app.procstats.ProcessStats.PSS_USS_AVERAGE; import static com.android.internal.app.procstats.ProcessStats.PSS_USS_MAXIMUM; import static com.android.internal.app.procstats.ProcessStats.PSS_COUNT; import static com.android.internal.app.procstats.ProcessStats.STATE_NOTHING; import static com.android.internal.app.procstats.ProcessStats.STATE_PERSISTENT; import static com.android.internal.app.procstats.ProcessStats.STATE_TOP; import static com.android.internal.app.procstats.ProcessStats.STATE_IMPORTANT_FOREGROUND; import static com.android.internal.app.procstats.ProcessStats.STATE_IMPORTANT_BACKGROUND; import static com.android.internal.app.procstats.ProcessStats.STATE_BACKUP; import static com.android.internal.app.procstats.ProcessStats.STATE_HEAVY_WEIGHT; import static com.android.internal.app.procstats.ProcessStats.STATE_SERVICE; import static com.android.internal.app.procstats.ProcessStats.STATE_SERVICE_RESTARTING; import static com.android.internal.app.procstats.ProcessStats.STATE_RECEIVER; import static com.android.internal.app.procstats.ProcessStats.STATE_HOME; import static com.android.internal.app.procstats.ProcessStats.STATE_LAST_ACTIVITY; import static com.android.internal.app.procstats.ProcessStats.STATE_CACHED_ACTIVITY; import static com.android.internal.app.procstats.ProcessStats.STATE_CACHED_ACTIVITY_CLIENT; import static com.android.internal.app.procstats.ProcessStats.STATE_CACHED_EMPTY; import static com.android.internal.app.procstats.ProcessStats.STATE_COUNT; import dalvik.system.VMRuntime; import libcore.util.EmptyArray; import java.io.IOException; import java.io.InputStream; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.Comparator; import java.util.Objects; public final class ProcessState { private static final String TAG = "ProcessStats"; private static final boolean DEBUG = false; private static final boolean DEBUG_PARCEL = false; // Map from process states to the states we track. private static final int[] PROCESS_STATE_TO_STATE = new int[] { STATE_PERSISTENT, // ActivityManager.PROCESS_STATE_PERSISTENT STATE_PERSISTENT, // ActivityManager.PROCESS_STATE_PERSISTENT_UI STATE_TOP, // ActivityManager.PROCESS_STATE_TOP STATE_IMPORTANT_FOREGROUND, // ActivityManager.PROCESS_STATE_BOUND_FOREGROUND_SERVICE STATE_IMPORTANT_FOREGROUND, // ActivityManager.PROCESS_STATE_FOREGROUND_SERVICE STATE_TOP, // ActivityManager.PROCESS_STATE_TOP_SLEEPING STATE_IMPORTANT_FOREGROUND, // ActivityManager.PROCESS_STATE_IMPORTANT_FOREGROUND STATE_IMPORTANT_BACKGROUND, // ActivityManager.PROCESS_STATE_IMPORTANT_BACKGROUND STATE_IMPORTANT_BACKGROUND, // ActivityManager.PROCESS_STATE_TRANSIENT_BACKGROUND STATE_BACKUP, // ActivityManager.PROCESS_STATE_BACKUP STATE_HEAVY_WEIGHT, // ActivityManager.PROCESS_STATE_HEAVY_WEIGHT STATE_SERVICE, // ActivityManager.PROCESS_STATE_SERVICE STATE_RECEIVER, // ActivityManager.PROCESS_STATE_RECEIVER STATE_HOME, // ActivityManager.PROCESS_STATE_HOME STATE_LAST_ACTIVITY, // ActivityManager.PROCESS_STATE_LAST_ACTIVITY STATE_CACHED_ACTIVITY, // ActivityManager.PROCESS_STATE_CACHED_ACTIVITY STATE_CACHED_ACTIVITY_CLIENT, // ActivityManager.PROCESS_STATE_CACHED_ACTIVITY_CLIENT STATE_CACHED_EMPTY, // ActivityManager.PROCESS_STATE_CACHED_EMPTY }; public static final Comparator COMPARATOR = new Comparator() { @Override public int compare(ProcessState lhs, ProcessState rhs) { if (lhs.mTmpTotalTime < rhs.mTmpTotalTime) { return -1; } else if (lhs.mTmpTotalTime > rhs.mTmpTotalTime) { return 1; } return 0; } }; static class PssAggr { long pss = 0; long samples = 0; void add(long newPss, long newSamples) { pss = (long)( (pss*(double)samples) + (newPss*(double)newSamples) ) / (samples+newSamples); samples += newSamples; } } // Used by reset to count rather than storing extra maps. Be careful. public int tmpNumInUse; public ProcessState tmpFoundSubProc; private final ProcessStats mStats; private final String mName; private final String mPackage; private final int mUid; private final int mVersion; private final DurationsTable mDurations; private final PssTable mPssTable; private ProcessState mCommonProcess; private int mCurState = STATE_NOTHING; private long mStartTime; private int mLastPssState = STATE_NOTHING; private long mLastPssTime; private boolean mActive; private int mNumActiveServices; private int mNumStartedServices; private int mNumExcessiveWake; private int mNumExcessiveCpu; private int mNumCachedKill; private long mMinCachedKillPss; private long mAvgCachedKillPss; private long mMaxCachedKillPss; private boolean mMultiPackage; private boolean mDead; // Set in computeProcessTimeLocked and used by COMPARATOR to sort. Be careful. private long mTmpTotalTime; /** * Create a new top-level process state, for the initial case where there is only * a single package running in a process. The initial state is not running. */ public ProcessState(ProcessStats processStats, String pkg, int uid, int vers, String name) { mStats = processStats; mName = name; mCommonProcess = this; mPackage = pkg; mUid = uid; mVersion = vers; mDurations = new DurationsTable(processStats.mTableData); mPssTable = new PssTable(processStats.mTableData); } /** * Create a new per-package process state for an existing top-level process * state. The current running state of the top-level process is also copied, * marked as started running at 'now'. */ public ProcessState(ProcessState commonProcess, String pkg, int uid, int vers, String name, long now) { mStats = commonProcess.mStats; mName = name; mCommonProcess = commonProcess; mPackage = pkg; mUid = uid; mVersion = vers; mCurState = commonProcess.mCurState; mStartTime = now; mDurations = new DurationsTable(commonProcess.mStats.mTableData); mPssTable = new PssTable(commonProcess.mStats.mTableData); } public ProcessState clone(long now) { ProcessState pnew = new ProcessState(this, mPackage, mUid, mVersion, mName, now); pnew.mDurations.addDurations(mDurations); pnew.mPssTable.copyFrom(mPssTable, PSS_COUNT); pnew.mNumExcessiveCpu = mNumExcessiveCpu; pnew.mNumCachedKill = mNumCachedKill; pnew.mMinCachedKillPss = mMinCachedKillPss; pnew.mAvgCachedKillPss = mAvgCachedKillPss; pnew.mMaxCachedKillPss = mMaxCachedKillPss; pnew.mActive = mActive; pnew.mNumActiveServices = mNumActiveServices; pnew.mNumStartedServices = mNumStartedServices; return pnew; } public String getName() { return mName; } public ProcessState getCommonProcess() { return mCommonProcess; } /** * Say that we are not part of a shared process, so mCommonProcess = this. */ public void makeStandalone() { mCommonProcess = this; } public String getPackage() { return mPackage; } public int getUid() { return mUid; } public int getVersion() { return mVersion; } public boolean isMultiPackage() { return mMultiPackage; } public void setMultiPackage(boolean val) { mMultiPackage = val; } public int getDurationsBucketCount() { return mDurations.getKeyCount(); } public void add(ProcessState other) { mDurations.addDurations(other.mDurations); mPssTable.mergeStats(other.mPssTable); mNumExcessiveCpu += other.mNumExcessiveCpu; if (other.mNumCachedKill > 0) { addCachedKill(other.mNumCachedKill, other.mMinCachedKillPss, other.mAvgCachedKillPss, other.mMaxCachedKillPss); } } public void resetSafely(long now) { mDurations.resetTable(); mPssTable.resetTable(); mStartTime = now; mLastPssState = STATE_NOTHING; mLastPssTime = 0; mNumExcessiveCpu = 0; mNumCachedKill = 0; mMinCachedKillPss = mAvgCachedKillPss = mMaxCachedKillPss = 0; } public void makeDead() { mDead = true; } private void ensureNotDead() { if (!mDead) { return; } Slog.w(TAG, "ProcessState dead: name=" + mName + " pkg=" + mPackage + " uid=" + mUid + " common.name=" + mCommonProcess.mName); } public void writeToParcel(Parcel out, long now) { out.writeInt(mMultiPackage ? 1 : 0); mDurations.writeToParcel(out); mPssTable.writeToParcel(out); out.writeInt(0); // was mNumExcessiveWake out.writeInt(mNumExcessiveCpu); out.writeInt(mNumCachedKill); if (mNumCachedKill > 0) { out.writeLong(mMinCachedKillPss); out.writeLong(mAvgCachedKillPss); out.writeLong(mMaxCachedKillPss); } } public boolean readFromParcel(Parcel in, boolean fully) { boolean multiPackage = in.readInt() != 0; if (fully) { mMultiPackage = multiPackage; } if (DEBUG_PARCEL) Slog.d(TAG, "Reading durations table..."); if (!mDurations.readFromParcel(in)) { return false; } if (DEBUG_PARCEL) Slog.d(TAG, "Reading pss table..."); if (!mPssTable.readFromParcel(in)) { return false; } in.readInt(); // was mNumExcessiveWake mNumExcessiveCpu = in.readInt(); mNumCachedKill = in.readInt(); if (mNumCachedKill > 0) { mMinCachedKillPss = in.readLong(); mAvgCachedKillPss = in.readLong(); mMaxCachedKillPss = in.readLong(); } else { mMinCachedKillPss = mAvgCachedKillPss = mMaxCachedKillPss = 0; } return true; } public void makeActive() { ensureNotDead(); mActive = true; } public void makeInactive() { mActive = false; } public boolean isInUse() { return mActive || mNumActiveServices > 0 || mNumStartedServices > 0 || mCurState != STATE_NOTHING; } public boolean isActive() { return mActive; } public boolean hasAnyData() { return !(mDurations.getKeyCount() == 0 && mCurState == STATE_NOTHING && mPssTable.getKeyCount() == 0); } /** * Update the current state of the given list of processes. * * @param state Current ActivityManager.PROCESS_STATE_* * @param memFactor Current mem factor constant. * @param now Current time. * @param pkgList Processes to update. */ public void setState(int state, int memFactor, long now, ArrayMap pkgList) { if (state < 0) { state = mNumStartedServices > 0 ? (STATE_SERVICE_RESTARTING+(memFactor*STATE_COUNT)) : STATE_NOTHING; } else { state = PROCESS_STATE_TO_STATE[state] + (memFactor*STATE_COUNT); } // First update the common process. mCommonProcess.setState(state, now); // If the common process is not multi-package, there is nothing else to do. if (!mCommonProcess.mMultiPackage) { return; } if (pkgList != null) { for (int ip=pkgList.size()-1; ip>=0; ip--) { pullFixedProc(pkgList, ip).setState(state, now); } } } public void setState(int state, long now) { ensureNotDead(); if (!mDead && (mCurState != state)) { //Slog.i(TAG, "Setting state in " + mName + "/" + mPackage + ": " + state); commitStateTime(now); mCurState = state; } } public void commitStateTime(long now) { if (mCurState != STATE_NOTHING) { long dur = now - mStartTime; if (dur > 0) { mDurations.addDuration(mCurState, dur); } } mStartTime = now; } public void incActiveServices(String serviceName) { if (DEBUG && "".equals(mName)) { RuntimeException here = new RuntimeException("here"); here.fillInStackTrace(); Slog.d(TAG, "incActiveServices: " + this + " service=" + serviceName + " to " + (mNumActiveServices+1), here); } if (mCommonProcess != this) { mCommonProcess.incActiveServices(serviceName); } mNumActiveServices++; } public void decActiveServices(String serviceName) { if (DEBUG && "".equals(mName)) { RuntimeException here = new RuntimeException("here"); here.fillInStackTrace(); Slog.d(TAG, "decActiveServices: " + this + " service=" + serviceName + " to " + (mNumActiveServices-1), here); } if (mCommonProcess != this) { mCommonProcess.decActiveServices(serviceName); } mNumActiveServices--; if (mNumActiveServices < 0) { Slog.wtfStack(TAG, "Proc active services underrun: pkg=" + mPackage + " uid=" + mUid + " proc=" + mName + " service=" + serviceName); mNumActiveServices = 0; } } public void incStartedServices(int memFactor, long now, String serviceName) { if (false) { RuntimeException here = new RuntimeException("here"); here.fillInStackTrace(); Slog.d(TAG, "incStartedServices: " + this + " service=" + serviceName + " to " + (mNumStartedServices+1), here); } if (mCommonProcess != this) { mCommonProcess.incStartedServices(memFactor, now, serviceName); } mNumStartedServices++; if (mNumStartedServices == 1 && mCurState == STATE_NOTHING) { setState(STATE_SERVICE_RESTARTING + (memFactor*STATE_COUNT), now); } } public void decStartedServices(int memFactor, long now, String serviceName) { if (false) { RuntimeException here = new RuntimeException("here"); here.fillInStackTrace(); Slog.d(TAG, "decActiveServices: " + this + " service=" + serviceName + " to " + (mNumStartedServices-1), here); } if (mCommonProcess != this) { mCommonProcess.decStartedServices(memFactor, now, serviceName); } mNumStartedServices--; if (mNumStartedServices == 0 && (mCurState%STATE_COUNT) == STATE_SERVICE_RESTARTING) { setState(STATE_NOTHING, now); } else if (mNumStartedServices < 0) { Slog.wtfStack(TAG, "Proc started services underrun: pkg=" + mPackage + " uid=" + mUid + " name=" + mName); mNumStartedServices = 0; } } public void addPss(long pss, long uss, boolean always, ArrayMap pkgList) { ensureNotDead(); if (!always) { if (mLastPssState == mCurState && SystemClock.uptimeMillis() < (mLastPssTime+(30*1000))) { return; } } mLastPssState = mCurState; mLastPssTime = SystemClock.uptimeMillis(); if (mCurState != STATE_NOTHING) { // First update the common process. mCommonProcess.mPssTable.mergeStats(mCurState, 1, pss, pss, pss, uss, uss, uss); // If the common process is not multi-package, there is nothing else to do. if (!mCommonProcess.mMultiPackage) { return; } if (pkgList != null) { for (int ip=pkgList.size()-1; ip>=0; ip--) { pullFixedProc(pkgList, ip).mPssTable.mergeStats(mCurState, 1, pss, pss, pss, uss, uss, uss); } } } } public void reportExcessiveCpu(ArrayMap pkgList) { ensureNotDead(); mCommonProcess.mNumExcessiveCpu++; if (!mCommonProcess.mMultiPackage) { return; } for (int ip=pkgList.size()-1; ip>=0; ip--) { pullFixedProc(pkgList, ip).mNumExcessiveCpu++; } } private void addCachedKill(int num, long minPss, long avgPss, long maxPss) { if (mNumCachedKill <= 0) { mNumCachedKill = num; mMinCachedKillPss = minPss; mAvgCachedKillPss = avgPss; mMaxCachedKillPss = maxPss; } else { if (minPss < mMinCachedKillPss) { mMinCachedKillPss = minPss; } if (maxPss > mMaxCachedKillPss) { mMaxCachedKillPss = maxPss; } mAvgCachedKillPss = (long)( ((mAvgCachedKillPss*(double)mNumCachedKill) + avgPss) / (mNumCachedKill+num) ); mNumCachedKill += num; } } public void reportCachedKill(ArrayMap pkgList, long pss) { ensureNotDead(); mCommonProcess.addCachedKill(1, pss, pss, pss); if (!mCommonProcess.mMultiPackage) { return; } for (int ip=pkgList.size()-1; ip>=0; ip--) { pullFixedProc(pkgList, ip).addCachedKill(1, pss, pss, pss); } } public ProcessState pullFixedProc(String pkgName) { if (mMultiPackage) { // The array map is still pointing to a common process state // that is now shared across packages. Update it to point to // the new per-package state. SparseArray vpkg = mStats.mPackages.get(pkgName, mUid); if (vpkg == null) { throw new IllegalStateException("Didn't find package " + pkgName + " / " + mUid); } PackageState pkg = vpkg.get(mVersion); if (pkg == null) { throw new IllegalStateException("Didn't find package " + pkgName + " / " + mUid + " vers " + mVersion); } ProcessState proc = pkg.mProcesses.get(mName); if (proc == null) { throw new IllegalStateException("Didn't create per-package process " + mName + " in pkg " + pkgName + " / " + mUid + " vers " + mVersion); } return proc; } return this; } private ProcessState pullFixedProc(ArrayMap pkgList, int index) { ProcessStateHolder holder = pkgList.valueAt(index); ProcessState proc = holder.state; if (mDead && proc.mCommonProcess != proc) { // Somehow we are contining to use a process state that is dead, because // it was not being told it was active during the last commit. We can recover // from this by generating a fresh new state, but this is bad because we // are losing whatever data we had in the old process state. Log.wtf(TAG, "Pulling dead proc: name=" + mName + " pkg=" + mPackage + " uid=" + mUid + " common.name=" + mCommonProcess.mName); proc = mStats.getProcessStateLocked(proc.mPackage, proc.mUid, proc.mVersion, proc.mName); } if (proc.mMultiPackage) { // The array map is still pointing to a common process state // that is now shared across packages. Update it to point to // the new per-package state. SparseArray vpkg = mStats.mPackages.get(pkgList.keyAt(index), proc.mUid); if (vpkg == null) { throw new IllegalStateException("No existing package " + pkgList.keyAt(index) + "/" + proc.mUid + " for multi-proc " + proc.mName); } PackageState pkg = vpkg.get(proc.mVersion); if (pkg == null) { throw new IllegalStateException("No existing package " + pkgList.keyAt(index) + "/" + proc.mUid + " for multi-proc " + proc.mName + " version " + proc.mVersion); } String savedName = proc.mName; proc = pkg.mProcesses.get(proc.mName); if (proc == null) { throw new IllegalStateException("Didn't create per-package process " + savedName + " in pkg " + pkg.mPackageName + "/" + pkg.mUid); } holder.state = proc; } return proc; } public long getDuration(int state, long now) { long time = mDurations.getValueForId((byte)state); if (mCurState == state) { time += now - mStartTime; } return time; } public long getPssSampleCount(int state) { return mPssTable.getValueForId((byte)state, PSS_SAMPLE_COUNT); } public long getPssMinimum(int state) { return mPssTable.getValueForId((byte)state, PSS_MINIMUM); } public long getPssAverage(int state) { return mPssTable.getValueForId((byte)state, PSS_AVERAGE); } public long getPssMaximum(int state) { return mPssTable.getValueForId((byte)state, PSS_MAXIMUM); } public long getPssUssMinimum(int state) { return mPssTable.getValueForId((byte)state, PSS_USS_MINIMUM); } public long getPssUssAverage(int state) { return mPssTable.getValueForId((byte)state, PSS_USS_AVERAGE); } public long getPssUssMaximum(int state) { return mPssTable.getValueForId((byte)state, PSS_USS_MAXIMUM); } /** * Sums up the PSS data and adds it to 'data'. * * @param data The aggregate data is added here. * @param now SystemClock.uptimeMillis() */ public void aggregatePss(TotalMemoryUseCollection data, long now) { final PssAggr fgPss = new PssAggr(); final PssAggr bgPss = new PssAggr(); final PssAggr cachedPss = new PssAggr(); boolean havePss = false; for (int i=0; i 0) { long avg = getPssAverage(type); havePss = true; if (procState <= STATE_IMPORTANT_FOREGROUND) { fgPss.add(avg, samples); } else if (procState <= STATE_RECEIVER) { bgPss.add(avg, samples); } else { cachedPss.add(avg, samples); } } } if (!havePss) { return; } boolean fgHasBg = false; boolean fgHasCached = false; boolean bgHasCached = false; if (fgPss.samples < 3 && bgPss.samples > 0) { fgHasBg = true; fgPss.add(bgPss.pss, bgPss.samples); } if (fgPss.samples < 3 && cachedPss.samples > 0) { fgHasCached = true; fgPss.add(cachedPss.pss, cachedPss.samples); } if (bgPss.samples < 3 && cachedPss.samples > 0) { bgHasCached = true; bgPss.add(cachedPss.pss, cachedPss.samples); } if (bgPss.samples < 3 && !fgHasBg && fgPss.samples > 0) { bgPss.add(fgPss.pss, fgPss.samples); } if (cachedPss.samples < 3 && !bgHasCached && bgPss.samples > 0) { cachedPss.add(bgPss.pss, bgPss.samples); } if (cachedPss.samples < 3 && !fgHasCached && fgPss.samples > 0) { cachedPss.add(fgPss.pss, fgPss.samples); } for (int i=0; i 0) { avg = getPssAverage(type); } else if (procState <= STATE_IMPORTANT_FOREGROUND) { samples = fgPss.samples; avg = fgPss.pss; } else if (procState <= STATE_RECEIVER) { samples = bgPss.samples; avg = bgPss.pss; } else { samples = cachedPss.samples; avg = cachedPss.pss; } double newAvg = ( (data.processStatePss[procState] * (double)data.processStateSamples[procState]) + (avg*(double)samples) ) / (data.processStateSamples[procState]+samples); data.processStatePss[procState] = (long)newAvg; data.processStateSamples[procState] += samples; data.processStateWeight[procState] += avg * (double)time; } } public long computeProcessTimeLocked(int[] screenStates, int[] memStates, int[] procStates, long now) { long totalTime = 0; for (int is=0; is 1) { DumpUtils.printScreenLabel(pw, printedScreen != iscreen ? iscreen : STATE_NOTHING); printedScreen = iscreen; } if (memStates.length > 1) { DumpUtils.printMemLabel(pw, printedMem != imem ? imem : STATE_NOTHING, '/'); printedMem = imem; } pw.print(DumpUtils.STATE_NAMES[procStates[ip]]); pw.print(": "); TimeUtils.formatDuration(time, pw); pw.println(running); totalTime += time; } } } } if (totalTime != 0) { pw.print(prefix); if (screenStates.length > 1) { DumpUtils.printScreenLabel(pw, STATE_NOTHING); } if (memStates.length > 1) { DumpUtils.printMemLabel(pw, STATE_NOTHING, '/'); } pw.print("TOTAL : "); TimeUtils.formatDuration(totalTime, pw); pw.println(); } } public void dumpPss(PrintWriter pw, String prefix, int[] screenStates, int[] memStates, int[] procStates) { boolean printedHeader = false; int printedScreen = -1; for (int is=0; is 0) { if (!printedHeader) { pw.print(prefix); pw.print("PSS/USS ("); pw.print(mPssTable.getKeyCount()); pw.println(" entries):"); printedHeader = true; } pw.print(prefix); pw.print(" "); if (screenStates.length > 1) { DumpUtils.printScreenLabel(pw, printedScreen != iscreen ? iscreen : STATE_NOTHING); printedScreen = iscreen; } if (memStates.length > 1) { DumpUtils.printMemLabel(pw, printedMem != imem ? imem : STATE_NOTHING, '/'); printedMem = imem; } pw.print(DumpUtils.STATE_NAMES[procStates[ip]]); pw.print(": "); pw.print(count); pw.print(" samples "); DebugUtils.printSizeValue(pw, getPssMinimum(bucket) * 1024); pw.print(" "); DebugUtils.printSizeValue(pw, getPssAverage(bucket) * 1024); pw.print(" "); DebugUtils.printSizeValue(pw, getPssMaximum(bucket) * 1024); pw.print(" / "); DebugUtils.printSizeValue(pw, getPssUssMinimum(bucket) * 1024); pw.print(" "); DebugUtils.printSizeValue(pw, getPssUssAverage(bucket) * 1024); pw.print(" "); DebugUtils.printSizeValue(pw, getPssUssMaximum(bucket) * 1024); pw.println(); } } } } if (mNumExcessiveCpu != 0) { pw.print(prefix); pw.print("Killed for excessive CPU use: "); pw.print(mNumExcessiveCpu); pw.println(" times"); } if (mNumCachedKill != 0) { pw.print(prefix); pw.print("Killed from cached state: "); pw.print(mNumCachedKill); pw.print(" times from pss "); DebugUtils.printSizeValue(pw, mMinCachedKillPss * 1024); pw.print("-"); DebugUtils.printSizeValue(pw, mAvgCachedKillPss * 1024); pw.print("-"); DebugUtils.printSizeValue(pw, mMaxCachedKillPss * 1024); pw.println(); } } private void dumpProcessSummaryDetails(PrintWriter pw, String prefix, String label, int[] screenStates, int[] memStates, int[] procStates, long now, long totalTime, boolean full) { ProcessStats.ProcessDataCollection totals = new ProcessStats.ProcessDataCollection( screenStates, memStates, procStates); computeProcessData(totals, now); final double percentage = (double) totals.totalTime / (double) totalTime * 100; // We don't print percentages < .01, so just drop those. if (percentage >= 0.005 || totals.numPss != 0) { if (prefix != null) { pw.print(prefix); } if (label != null) { pw.print(label); } totals.print(pw, totalTime, full); if (prefix != null) { pw.println(); } } } public void dumpInternalLocked(PrintWriter pw, String prefix, boolean dumpAll) { if (dumpAll) { pw.print(prefix); pw.print("myID="); pw.print(Integer.toHexString(System.identityHashCode(this))); pw.print(" mCommonProcess="); pw.print(Integer.toHexString(System.identityHashCode(mCommonProcess))); pw.print(" mPackage="); pw.println(mPackage); if (mMultiPackage) { pw.print(prefix); pw.print("mMultiPackage="); pw.println(mMultiPackage); } if (this != mCommonProcess) { pw.print(prefix); pw.print("Common Proc: "); pw.print(mCommonProcess.mName); pw.print("/"); pw.print(mCommonProcess.mUid); pw.print(" pkg="); pw.println(mCommonProcess.mPackage); } } if (mActive) { pw.print(prefix); pw.print("mActive="); pw.println(mActive); } if (mDead) { pw.print(prefix); pw.print("mDead="); pw.println(mDead); } if (mNumActiveServices != 0 || mNumStartedServices != 0) { pw.print(prefix); pw.print("mNumActiveServices="); pw.print(mNumActiveServices); pw.print(" mNumStartedServices="); pw.println(mNumStartedServices); } } public void computeProcessData(ProcessStats.ProcessDataCollection data, long now) { data.totalTime = 0; data.numPss = data.minPss = data.avgPss = data.maxPss = data.minUss = data.avgUss = data.maxUss = 0; for (int is=0; is 0) { long minPss = getPssMinimum(bucket); long avgPss = getPssAverage(bucket); long maxPss = getPssMaximum(bucket); long minUss = getPssUssMinimum(bucket); long avgUss = getPssUssAverage(bucket); long maxUss = getPssUssMaximum(bucket); if (data.numPss == 0) { data.minPss = minPss; data.avgPss = avgPss; data.maxPss = maxPss; data.minUss = minUss; data.avgUss = avgUss; data.maxUss = maxUss; } else { if (minPss < data.minPss) { data.minPss = minPss; } data.avgPss = (long)( ((data.avgPss*(double)data.numPss) + (avgPss*(double)samples)) / (data.numPss+samples) ); if (maxPss > data.maxPss) { data.maxPss = maxPss; } if (minUss < data.minUss) { data.minUss = minUss; } data.avgUss = (long)( ((data.avgUss*(double)data.numPss) + (avgUss*(double)samples)) / (data.numPss+samples) ); if (maxUss > data.maxUss) { data.maxUss = maxUss; } } data.numPss += samples; } } } } } public void dumpCsv(PrintWriter pw, boolean sepScreenStates, int[] screenStates, boolean sepMemStates, int[] memStates, boolean sepProcStates, int[] procStates, long now) { final int NSS = sepScreenStates ? screenStates.length : 1; final int NMS = sepMemStates ? memStates.length : 1; final int NPS = sepProcStates ? procStates.length : 1; for (int iss=0; iss 0) { pw.print("pkgpss,"); pw.print(pkgName); pw.print(","); pw.print(uid); pw.print(","); pw.print(vers); pw.print(","); pw.print(DumpUtils.collapseString(pkgName, itemName)); dumpAllPssCheckin(pw); pw.println(); } if (mNumExcessiveCpu > 0 || mNumCachedKill > 0) { pw.print("pkgkills,"); pw.print(pkgName); pw.print(","); pw.print(uid); pw.print(","); pw.print(vers); pw.print(","); pw.print(DumpUtils.collapseString(pkgName, itemName)); pw.print(","); pw.print("0"); // was mNumExcessiveWake pw.print(","); pw.print(mNumExcessiveCpu); pw.print(","); pw.print(mNumCachedKill); pw.print(","); pw.print(mMinCachedKillPss); pw.print(":"); pw.print(mAvgCachedKillPss); pw.print(":"); pw.print(mMaxCachedKillPss); pw.println(); } } public void dumpProcCheckin(PrintWriter pw, String procName, int uid, long now) { if (mDurations.getKeyCount() > 0) { pw.print("proc,"); pw.print(procName); pw.print(","); pw.print(uid); dumpAllStateCheckin(pw, now); pw.println(); } if (mPssTable.getKeyCount() > 0) { pw.print("pss,"); pw.print(procName); pw.print(","); pw.print(uid); dumpAllPssCheckin(pw); pw.println(); } if (mNumExcessiveCpu > 0 || mNumCachedKill > 0) { pw.print("kills,"); pw.print(procName); pw.print(","); pw.print(uid); pw.print(","); pw.print("0"); // was mNumExcessiveWake pw.print(","); pw.print(mNumExcessiveCpu); pw.print(","); pw.print(mNumCachedKill); pw.print(","); pw.print(mMinCachedKillPss); pw.print(":"); pw.print(mAvgCachedKillPss); pw.print(":"); pw.print(mMaxCachedKillPss); pw.println(); } } public void dumpAllStateCheckin(PrintWriter pw, long now) { boolean didCurState = false; for (int i=0; i