Android/frameworks_base
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
b4e12494935697fa4ede006b37e6be889ef27109
frameworks_base/services/java/com/android/server/am/ProcessTracker.java
Dianne Hackborn b4e1249493 Add new ActivityManager.isLowRamDevice(). 
This and the old isHighEndGfx() is set up through a
device configuration, rather than trying to compute it
automatically.

Change-Id: Ibc95c05791023a7ae6c88555b75bb61f2b613991
2013-06-26 15:50:02 -07:00

1467 lines
60 KiB
Java
Raw Blame History

/*
* 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.server.am;
import android.content.Context;
import android.content.pm.PackageManager;
import android.os.SystemClock;
import android.os.UserHandle;
import android.util.ArrayMap;
import android.util.ArraySet;
import android.util.SparseArray;
import android.util.TimeUtils;
import com.android.internal.util.ArrayUtils;
import com.android.server.ProcessMap;
import java.io.FileDescriptor;
import java.io.PrintWriter;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.Comparator;
public final class ProcessTracker {
public static final int STATE_NOTHING = -1;
public static final int STATE_PERSISTENT = 0;
public static final int STATE_TOP = 1;
public static final int STATE_FOREGROUND = 2;
public static final int STATE_VISIBLE = 3;
public static final int STATE_PERCEPTIBLE = 4;
public static final int STATE_BACKUP = 5;
public static final int STATE_SERVICE = 6;
public static final int STATE_HOME = 7;
public static final int STATE_PREVIOUS = 8;
public static final int STATE_CACHED = 9;
public static final int STATE_COUNT = STATE_CACHED+1;
public static final int PSS_SAMPLE_COUNT = 0;
public static final int PSS_MINIMUM = 1;
public static final int PSS_AVERAGE = 2;
public static final int PSS_MAXIMUM = 3;
public static final int PSS_COUNT = PSS_MAXIMUM+1;
public static final int ADJ_NOTHING = -1;
public static final int ADJ_MEM_FACTOR_NORMAL = 0;
public static final int ADJ_MEM_FACTOR_MODERATE = 1;
public static final int ADJ_MEM_FACTOR_LOW = 2;
public static final int ADJ_MEM_FACTOR_CRITICAL = 3;
public static final int ADJ_MEM_FACTOR_COUNT = ADJ_MEM_FACTOR_CRITICAL+1;
public static final int ADJ_SCREEN_MOD = ADJ_MEM_FACTOR_COUNT;
public static final int ADJ_SCREEN_OFF = 0;
public static final int ADJ_SCREEN_ON = ADJ_SCREEN_MOD;
public static final int ADJ_COUNT = ADJ_SCREEN_ON*2;
// Most data is kept in a sparse data structure: an integer array which integer
// holds the type of the entry, and the identifier for a long array that data
// exists in and the offset into the array to find it. The constants below
// define the encoding of that data in an integer.
// Where the "type"/"state" part of the data appears in an offset integer.
static int OFFSET_TYPE_SHIFT = 0;
static int OFFSET_TYPE_MASK = 0xff;
// Where the "which array" part of the data appears in an offset integer.
static int OFFSET_ARRAY_SHIFT = 8;
static int OFFSET_ARRAY_MASK = 0xff;
// Where the "index into array" part of the data appears in an offset integer.
static int OFFSET_INDEX_SHIFT = 16;
static int OFFSET_INDEX_MASK = 0xffff;
static final String[] STATE_NAMES = new String[] {
"Persistent ", "Top ", "Foreground ", "Visible ", "Perceptible",
"Backup ", "Service ", "Home ", "Previous ", "Cached "
};
static final String[] ADJ_SCREEN_NAMES_CSV = new String[] {
"off", "on"
};
static final String[] ADJ_MEM_NAMES_CSV = new String[] {
"norm", "mod", "low", "crit"
};
static final String[] STATE_NAMES_CSV = new String[] {
"pers", "top", "fore", "vis", "percept",
"backup", "service", "home", "prev", "cached"
};
static final String[] ADJ_SCREEN_TAGS = new String[] {
"0", "1"
};
static final String[] ADJ_MEM_TAGS = new String[] {
"n", "m", "l", "c"
};
static final String[] STATE_TAGS = new String[] {
"p", "t", "f", "v", "t",
"b", "s", "h", "v", "c"
};
static final String CSV_SEP = "\t";
final Context mContext;
final State mState = new State();
public static final class ProcessState {
final State mState;
final ProcessState mCommonProcess;
final String mPackage;
final int mUid;
final String mName;
int[] mDurationsTable;
int mDurationsTableSize;
//final long[] mDurations = new long[STATE_COUNT*ADJ_COUNT];
int mCurState = STATE_NOTHING;
long mStartTime;
int[] mPssTable;
int mPssTableSize;
boolean mMultiPackage;
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(State state, String pkg, int uid, String name) {
mState = state;
mCommonProcess = null;
mPackage = pkg;
mUid = uid;
mName = name;
}
/**
* 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, String name,
long now) {
mState = commonProcess.mState;
mCommonProcess = commonProcess;
mPackage = pkg;
mUid = uid;
mName = name;
mCurState = commonProcess.mCurState;
mStartTime = now;
}
ProcessState clone(String pkg, long now) {
ProcessState pnew = new ProcessState(this, pkg, mUid, mName, now);
if (mDurationsTable != null) {
mState.mFindTable = new int[mDurationsTable.length];
mState.mFindTableSize = 0;
for (int i=0; i<mDurationsTableSize; i++) {
int origEnt = mDurationsTable[i];
int type = (origEnt>>OFFSET_TYPE_SHIFT)&OFFSET_TYPE_MASK;
int newOff = mState.addLongData(i, type, 1);
mState.mFindTable[i] = newOff | type;
mState.setLong(newOff, 0, mState.getLong(origEnt, 0));
}
pnew.mDurationsTable = mState.mFindTable;
pnew.mDurationsTableSize = mState.mFindTableSize;
}
/*
if (mPssTable != null) {
mState.mFindTable = new int[mPssTable.length];
mState.mFindTableSize = 0;
for (int i=0; i<mPssTableSize; i++) {
int origEnt = mPssTable[i];
int type = (origEnt>>OFFSET_TYPE_SHIFT)&OFFSET_TYPE_MASK;
int newOff = mState.addLongData(i, type, PSS_COUNT);
mState.mFindTable[i] = newOff | type;
for (int j=0; j<PSS_COUNT; j++) {
mState.setLong(newOff, j, mState.getLong(origEnt, j));
}
}
pnew.mPssTable = mState.mFindTable;
pnew.mPssTableSize = mState.mFindTableSize;
}
*/
return pnew;
}
public void setState(int state, int memFactor, long now,
ArrayMap<String, ProcessTracker.ProcessState> pkgList) {
if (state != STATE_NOTHING) {
state += memFactor*STATE_COUNT;
}
if (mCommonProcess != null) {
// First update the common process.
mCommonProcess.setState(state, now);
if (!mCommonProcess.mMultiPackage) {
// This common process is for a single package, so it is shared
// with the per-package state. Nothing more to do.
return;
}
}
for (int ip=pkgList.size()-1; ip>=0; ip--) {
ProcessState proc = pkgList.valueAt(ip);
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.
proc = mState.mPackages.get(pkgList.keyAt(ip),
proc.mUid).mProcesses.get(proc.mName);
if (proc == null) {
throw new IllegalStateException("Didn't create per-package process");
}
pkgList.setValueAt(ip, proc);
}
proc.setState(state, now);
}
}
void setState(int state, long now) {
if (mCurState != state) {
if (mCurState != STATE_NOTHING) {
long dur = now - mStartTime;
int idx = State.binarySearch(mDurationsTable, mDurationsTableSize, mCurState);
int off;
if (idx >= 0) {
off = mDurationsTable[idx];
} else {
mState.mFindTable = mDurationsTable;
mState.mFindTableSize = mDurationsTableSize;
off = mState.addLongData(~idx, mCurState, 1);
mDurationsTable = mState.mFindTable;
mDurationsTableSize = mState.mFindTableSize;
}
long[] longs = mState.mLongs.get((off>>OFFSET_ARRAY_SHIFT)&OFFSET_ARRAY_MASK);
longs[(off>>OFFSET_INDEX_SHIFT)&OFFSET_INDEX_MASK] += dur;
}
mCurState = state;
mStartTime = now;
}
}
public void addPss(long pss) {
if (mCurState != STATE_NOTHING) {
int idx = State.binarySearch(mPssTable, mPssTableSize, mCurState);
int off;
if (idx >= 0) {
off = mPssTable[idx];
} else {
mState.mFindTable = mPssTable;
mState.mFindTableSize = mPssTableSize;
off = mState.addLongData(~idx, mCurState, PSS_COUNT);
mPssTable = mState.mFindTable;
mPssTableSize = mState.mFindTableSize;
}
long[] longs = mState.mLongs.get((off>>OFFSET_ARRAY_SHIFT)&OFFSET_ARRAY_MASK);
idx = (off>>OFFSET_INDEX_SHIFT)&OFFSET_INDEX_MASK;
long count = longs[idx+PSS_SAMPLE_COUNT];
if (count == 0) {
longs[idx+PSS_SAMPLE_COUNT] = 1;
longs[idx+PSS_MINIMUM] = pss;
longs[idx+PSS_AVERAGE] = pss;
longs[idx+PSS_MAXIMUM] = pss;
} else {
longs[idx+PSS_SAMPLE_COUNT] = count+1;
if (longs[idx+PSS_MINIMUM] > pss) {
longs[idx+PSS_MINIMUM] = pss;
}
longs[idx+PSS_AVERAGE] = ((longs[idx+PSS_AVERAGE]*count)+pss)/(count+1);
if (longs[idx+PSS_MAXIMUM] < pss) {
longs[idx+PSS_MAXIMUM] = pss;
}
}
}
}
long getDuration(int state, long now) {
int idx = State.binarySearch(mDurationsTable, mDurationsTableSize, state);
long time = idx >= 0 ? mState.getLong(mDurationsTable[idx], 0) : 0;
if (mCurState == state) {
time += now - mStartTime;
}
return time;
}
long getPssSampleCount(int state) {
int idx = State.binarySearch(mPssTable, mPssTableSize, state);
return idx >= 0 ? mState.getLong(mPssTable[idx], PSS_SAMPLE_COUNT) : 0;
}
long getPssMinimum(int state) {
int idx = State.binarySearch(mPssTable, mPssTableSize, state);
return idx >= 0 ? mState.getLong(mPssTable[idx], PSS_MINIMUM) : 0;
}
long getPssAverage(int state) {
int idx = State.binarySearch(mPssTable, mPssTableSize, state);
return idx >= 0 ? mState.getLong(mPssTable[idx], PSS_AVERAGE) : 0;
}
long getPssMaximum(int state) {
int idx = State.binarySearch(mPssTable, mPssTableSize, state);
return idx >= 0 ? mState.getLong(mPssTable[idx], PSS_MAXIMUM) : 0;
}
}
public static final class ServiceState {
final long[] mStartedDurations = new long[ADJ_COUNT];
int mStartedCount;
int mStartedState = STATE_NOTHING;
long mStartedStartTime;
final long[] mBoundDurations = new long[ADJ_COUNT];
int mBoundCount;
int mBoundState = STATE_NOTHING;
long mBoundStartTime;
final long[] mExecDurations = new long[ADJ_COUNT];
int mExecCount;
int mExecState = STATE_NOTHING;
long mExecStartTime;
public void setStarted(boolean started, int memFactor, long now) {
int state = started ? memFactor : STATE_NOTHING;
if (mStartedState != state) {
if (mStartedState != STATE_NOTHING) {
mStartedDurations[mStartedState] += now - mStartedStartTime;
} else if (started) {
mStartedCount++;
}
mStartedState = state;
mStartedStartTime = now;
}
}
public void setBound(boolean bound, int memFactor, long now) {
int state = bound ? memFactor : STATE_NOTHING;
if (mBoundState != state) {
if (mBoundState != STATE_NOTHING) {
mBoundDurations[mBoundState] += now - mBoundStartTime;
} else if (bound) {
mBoundCount++;
}
mBoundState = state;
mBoundStartTime = now;
}
}
public void setExecuting(boolean executing, int memFactor, long now) {
int state = executing ? memFactor : STATE_NOTHING;
if (mExecState != state) {
if (mExecState != STATE_NOTHING) {
mExecDurations[mExecState] += now - mExecStartTime;
} else if (executing) {
mExecCount++;
}
mExecState = state;
mExecStartTime = now;
}
}
}
public static final class PackageState {
final ArrayMap<String, ProcessState> mProcesses = new ArrayMap<String, ProcessState>();
final ArrayMap<String, ServiceState> mServices = new ArrayMap<String, ServiceState>();
final int mUid;
public PackageState(int uid) {
mUid = uid;
}
}
static final class State {
final ProcessMap<PackageState> mPackages = new ProcessMap<PackageState>();
final ProcessMap<ProcessState> mProcesses = new ProcessMap<ProcessState>();
final long[] mMemFactorDurations = new long[ADJ_COUNT];
int mMemFactor = STATE_NOTHING;
long mStartTime;
static final int LONGS_SIZE = 4096;
final ArrayList<long[]> mLongs = new ArrayList<long[]>();
int mNextLong;
int[] mFindTable;
int mFindTableSize;
int addLongData(int index, int type, int num) {
int tableLen = mFindTable != null ? mFindTable.length : 0;
if (mFindTableSize >= tableLen) {
int newSize = ArrayUtils.idealIntArraySize(tableLen + 1);
int[] newTable = new int[newSize];
if (tableLen > 0) {
System.arraycopy(mFindTable, 0, newTable, 0, tableLen);
}
mFindTable = newTable;
}
if (mFindTableSize > 0 && mFindTableSize - index != 0) {
System.arraycopy(mFindTable, index, mFindTable, index + 1,
mFindTableSize - index);
}
int off = allocLongData(num);
mFindTable[index] = type | off;
mFindTableSize++;
return off;
}
int allocLongData(int num) {
int whichLongs = mLongs.size()-1;
long[] longs = mLongs.get(whichLongs);
if (mNextLong + num > longs.length) {
longs = new long[LONGS_SIZE];
mLongs.add(longs);
whichLongs++;
mNextLong = 0;
}
int off = (whichLongs<<OFFSET_ARRAY_SHIFT) | (mNextLong<<OFFSET_INDEX_SHIFT);
mNextLong += num;
return off;
}
void setLong(int off, int index, long value) {
long[] longs = mLongs.get((off>>OFFSET_ARRAY_SHIFT)&OFFSET_ARRAY_MASK);
longs[index + ((off>>OFFSET_INDEX_SHIFT)&OFFSET_INDEX_MASK)] = value;
}
long getLong(int off, int index) {
long[] longs = mLongs.get((off>>OFFSET_ARRAY_SHIFT)&OFFSET_ARRAY_MASK);
return longs[index + ((off>>OFFSET_INDEX_SHIFT)&OFFSET_INDEX_MASK)];
}
static int binarySearch(int[] array, int size, int value) {
int lo = 0;
int hi = size - 1;
while (lo <= hi) {
int mid = (lo + hi) >>> 1;
int midVal = (array[mid] >> OFFSET_TYPE_SHIFT) & OFFSET_TYPE_MASK;
if (midVal < value) {
lo = mid + 1;
} else if (midVal > value) {
hi = mid - 1;
} else {
return mid; // value found
}
}
return ~lo; // value not present
}
PackageState getPackageStateLocked(String packageName, int uid) {
PackageState as = mPackages.get(packageName, uid);
if (as != null) {
return as;
}
as = new PackageState(uid);
mPackages.put(packageName, uid, as);
return as;
}
ProcessState getProcessStateLocked(String packageName, int uid, String processName) {
final PackageState pkgState = getPackageStateLocked(packageName, uid);
ProcessState ps = pkgState.mProcesses.get(processName);
if (ps != null) {
return ps;
}
ProcessState commonProc = mProcesses.get(processName, uid);
if (commonProc == null) {
commonProc = new ProcessState(this, packageName, uid, processName);
mProcesses.put(processName, uid, commonProc);
}
if (!commonProc.mMultiPackage) {
if (packageName.equals(commonProc.mPackage)) {
// This common process is not in use by multiple packages, and
// is for the calling package, so we can just use it directly.
ps = commonProc;
} else {
// This common process has not been in use by multiple packages,
// but it was created for a different package than the caller.
// We need to convert it to a multi-package process.
commonProc.mMultiPackage = true;
// The original package it was created for now needs to point
// to its own copy.
long now = SystemClock.uptimeMillis();
pkgState.mProcesses.put(commonProc.mPackage, commonProc.clone(
commonProc.mPackage, now));
ps = new ProcessState(commonProc, packageName, uid, processName, now);
}
} else {
// The common process is for multiple packages, we need to create a
// separate object for the per-package data.
ps = new ProcessState(commonProc, packageName, uid, processName,
SystemClock.uptimeMillis());
}
pkgState.mProcesses.put(processName, ps);
return ps;
}
State() {
reset();
}
void reset() {
mPackages.getMap().clear();
mProcesses.getMap().clear();
mLongs.clear();
mLongs.add(new long[LONGS_SIZE]);
mNextLong = 0;
Arrays.fill(mMemFactorDurations, 0);
mMemFactor = STATE_NOTHING;
mStartTime = 0;
}
}
public ProcessTracker(Context context) {
mContext = context;
}
public ProcessState getProcessStateLocked(String packageName, int uid, String processName) {
return mState.getProcessStateLocked(packageName, uid, processName);
}
public ServiceState getServiceStateLocked(String packageName, int uid, String className) {
final PackageState as = mState.getPackageStateLocked(packageName, uid);
ServiceState ss = as.mServices.get(className);
if (ss != null) {
return ss;
}
ss = new ServiceState();
as.mServices.put(className, ss);
return ss;
}
public boolean setMemFactor(int memFactor, boolean screenOn, long now) {
if (screenOn) {
memFactor += ADJ_SCREEN_ON;
}
if (memFactor != mState.mMemFactor) {
if (mState.mMemFactor != STATE_NOTHING) {
mState.mMemFactorDurations[mState.mMemFactor] += now - mState.mStartTime;
}
mState.mMemFactor = memFactor;
mState.mStartTime = now;
ArrayMap<String, SparseArray<PackageState>> pmap = mState.mPackages.getMap();
for (int i=0; i<pmap.size(); i++) {
SparseArray<PackageState> uids = pmap.valueAt(i);
for (int j=0; j<uids.size(); j++) {
PackageState pkg = uids.valueAt(j);
ArrayMap<String, ServiceState> services = pkg.mServices;
for (int k=0; k<services.size(); k++) {
ServiceState service = services.valueAt(k);
if (service.mStartedState != STATE_NOTHING) {
service.setStarted(true, memFactor, now);
}
if (service.mBoundState != STATE_NOTHING) {
service.setBound(true, memFactor, now);
}
}
}
}
return true;
}
return false;
}
public int getMemFactor() {
return mState.mMemFactor != STATE_NOTHING ? mState.mMemFactor : 0;
}
static private void printScreenLabel(PrintWriter pw, int offset) {
switch (offset) {
case ADJ_NOTHING:
pw.print(" ");
break;
case ADJ_SCREEN_OFF:
pw.print("Screen Off / ");
break;
case ADJ_SCREEN_ON:
pw.print("Screen On / ");
break;
default:
pw.print("?????????? / ");
break;
}
}
static private void printScreenLabelCsv(PrintWriter pw, int offset) {
switch (offset) {
case ADJ_NOTHING:
break;
case ADJ_SCREEN_OFF:
pw.print(ADJ_SCREEN_NAMES_CSV[0]);
break;
case ADJ_SCREEN_ON:
pw.print(ADJ_SCREEN_NAMES_CSV[1]);
break;
default:
pw.print("???");
break;
}
}
static private void printMemLabel(PrintWriter pw, int offset) {
switch (offset) {
case ADJ_NOTHING:
pw.print(" ");
break;
case ADJ_MEM_FACTOR_NORMAL:
pw.print("Norm / ");
break;
case ADJ_MEM_FACTOR_MODERATE:
pw.print("Mod / ");
break;
case ADJ_MEM_FACTOR_LOW:
pw.print("Low / ");
break;
case ADJ_MEM_FACTOR_CRITICAL:
pw.print("Crit / ");
break;
default:
pw.print("???? / ");
break;
}
}
static private void printMemLabelCsv(PrintWriter pw, int offset) {
if (offset >= ADJ_MEM_FACTOR_NORMAL) {
if (offset <= ADJ_MEM_FACTOR_CRITICAL) {
pw.print(ADJ_MEM_NAMES_CSV[offset]);
} else {
pw.print("???");
}
}
}
static void dumpSingleTime(PrintWriter pw, String prefix, long[] durations,
int curState, long curStartTime, long now) {
long totalTime = 0;
int printedScreen = -1;
for (int iscreen=0; iscreen<ADJ_COUNT; iscreen+=ADJ_SCREEN_MOD) {
int printedMem = -1;
for (int imem=0; imem<ADJ_MEM_FACTOR_COUNT; imem++) {
int state = imem+iscreen;
long time = durations[state];
String running = "";
if (curState == state) {
time += now - curStartTime;
running = " (running)";
}
if (time != 0) {
pw.print(prefix);
printScreenLabel(pw, printedScreen != iscreen
? iscreen : STATE_NOTHING);
printedScreen = iscreen;
printMemLabel(pw, printedMem != imem ? imem : STATE_NOTHING);
printedMem = imem;
TimeUtils.formatDuration(time, pw); pw.println(running);
totalTime += time;
}
}
}
if (totalTime != 0) {
pw.print(prefix);
printScreenLabel(pw, STATE_NOTHING);
pw.print("TOTAL: ");
TimeUtils.formatDuration(totalTime, pw);
pw.println();
}
}
static void dumpSingleTimeCsv(PrintWriter pw, String sep, long[] durations,
int curState, long curStartTime, long now) {
for (int iscreen=0; iscreen<ADJ_COUNT; iscreen+=ADJ_SCREEN_MOD) {
for (int imem=0; imem<ADJ_MEM_FACTOR_COUNT; imem++) {
int state = imem+iscreen;
long time = durations[state];
if (curState == state) {
time += now - curStartTime;
}
pw.print(sep);
pw.print(time);
}
}
}
static void dumpServiceTimeCheckin(PrintWriter pw, String label, String packageName,
int uid, String serviceName, ServiceState svc, int opCount, long[] durations,
int curState, long curStartTime, long now) {
if (opCount <= 0) {
return;
}
pw.print(label);
pw.print(",");
pw.print(packageName);
pw.print(",");
pw.print(uid);
pw.print(",");
pw.print(serviceName);
pw.print(opCount);
dumpSingleTimeCsv(pw, ",", durations, curState, curStartTime, now);
pw.println();
}
long computeProcessTimeLocked(ProcessState proc, int[] screenStates, int[] memStates,
int[] procStates, long now) {
long totalTime = 0;
/*
for (int i=0; i<proc.mDurationsTableSize; i++) {
int val = proc.mDurationsTable[i];
totalTime += proc.mState.getLong(val, 0);
if ((val&0xff) == proc.mCurState) {
totalTime += now - proc.mStartTime;
}
}
*/
for (int is=0; is<screenStates.length; is++) {
for (int im=0; im<memStates.length; im++) {
for (int ip=0; ip<procStates.length; ip++) {
int bucket = ((screenStates[is]+ memStates[im]) * STATE_COUNT)
+ procStates[ip];
totalTime += proc.getDuration(bucket, now);
}
}
}
proc.mTmpTotalTime = totalTime;
return totalTime;
}
ArrayList<ProcessState> collectProcessesLocked(int[] screenStates, int[] memStates,
int[] procStates, long now, String reqPackage) {
ArraySet<ProcessState> foundProcs = new ArraySet<ProcessState>();
ArrayMap<String, SparseArray<PackageState>> pkgMap = mState.mPackages.getMap();
for (int ip=0; ip<pkgMap.size(); ip++) {
if (reqPackage != null && !reqPackage.equals(pkgMap.keyAt(ip))) {
continue;
}
SparseArray<PackageState> procs = pkgMap.valueAt(ip);
for (int iu=0; iu<procs.size(); iu++) {
PackageState state = procs.valueAt(iu);
for (int iproc=0; iproc<state.mProcesses.size(); iproc++) {
ProcessState proc = state.mProcesses.valueAt(iproc);
if (proc.mCommonProcess != null) {
proc = proc.mCommonProcess;
}
foundProcs.add(proc);
}
}
}
ArrayList<ProcessState> outProcs = new ArrayList<ProcessState>(foundProcs.size());
for (int i=0; i<foundProcs.size(); i++) {
ProcessState proc = foundProcs.valueAt(i);
if (computeProcessTimeLocked(proc, screenStates, memStates,
procStates, now) > 0) {
outProcs.add(proc);
}
}
Collections.sort(outProcs, new Comparator<ProcessState>() {
@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;
}
});
return outProcs;
}
void dumpProcessState(PrintWriter pw, String prefix, ProcessState proc, int[] screenStates,
int[] memStates, int[] procStates, long now) {
long totalTime = 0;
int printedScreen = -1;
for (int is=0; is<screenStates.length; is++) {
int printedMem = -1;
for (int im=0; im<memStates.length; im++) {
for (int ip=0; ip<procStates.length; ip++) {
final int iscreen = screenStates[is];
final int imem = memStates[im];
final int bucket = ((iscreen + imem) * STATE_COUNT) + procStates[ip];
long time = proc.getDuration(bucket, now);
String running = "";
if (proc.mCurState == bucket) {
running = " (running)";
}
if (time != 0) {
pw.print(prefix);
if (screenStates.length > 1) {
printScreenLabel(pw, printedScreen != iscreen
? iscreen : STATE_NOTHING);
printedScreen = iscreen;
}
if (memStates.length > 1) {
printMemLabel(pw, printedMem != imem ? imem : STATE_NOTHING);
printedMem = imem;
}
pw.print(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) {
printScreenLabel(pw, STATE_NOTHING);
}
if (memStates.length > 1) {
printMemLabel(pw, STATE_NOTHING);
}
pw.print("TOTAL : ");
TimeUtils.formatDuration(totalTime, pw);
pw.println();
}
}
void dumpProcessPss(PrintWriter pw, String prefix, ProcessState proc, int[] screenStates,
int[] memStates, int[] procStates) {
boolean printedHeader = false;
int printedScreen = -1;
for (int is=0; is<screenStates.length; is++) {
int printedMem = -1;
for (int im=0; im<memStates.length; im++) {
for (int ip=0; ip<procStates.length; ip++) {
final int iscreen = screenStates[is];
final int imem = memStates[im];
final int bucket = ((iscreen + imem) * STATE_COUNT) + procStates[ip];
long count = proc.getPssSampleCount(bucket);
if (count > 0) {
if (!printedHeader) {
pw.print(prefix);
pw.print("PSS (");
pw.print(proc.mPssTableSize);
pw.println(" entries):");
printedHeader = true;
}
pw.print(prefix);
pw.print(" ");
if (screenStates.length > 1) {
printScreenLabel(pw, printedScreen != iscreen
? iscreen : STATE_NOTHING);
printedScreen = iscreen;
}
if (memStates.length > 1) {
printMemLabel(pw, printedMem != imem ? imem : STATE_NOTHING);
printedMem = imem;
}
pw.print(STATE_NAMES[procStates[ip]]); pw.print(": ");
pw.print(count);
pw.print(" samples ");
pw.print(proc.getPssMinimum(bucket));
pw.print("kB ");
pw.print(proc.getPssAverage(bucket));
pw.print("kB ");
pw.print(proc.getPssMaximum(bucket));
pw.println("kB");
}
}
}
}
}
void dumpStateHeadersCsv(PrintWriter pw, String sep, int[] screenStates,
int[] memStates, int[] procStates) {
final int NS = screenStates != null ? screenStates.length : 1;
final int NM = memStates != null ? memStates.length : 1;
final int NP = procStates != null ? procStates.length : 1;
for (int is=0; is<NS; is++) {
for (int im=0; im<NM; im++) {
for (int ip=0; ip<NP; ip++) {
pw.print(sep);
boolean printed = false;
if (screenStates != null && screenStates.length > 1) {
printScreenLabelCsv(pw, screenStates[is]);
printed = true;
}
if (memStates != null && memStates.length > 1) {
if (printed) {
pw.print("-");
}
printMemLabelCsv(pw, memStates[im]);
printed = true;
}
if (procStates != null && procStates.length > 1) {
if (printed) {
pw.print("-");
}
pw.print(STATE_NAMES_CSV[procStates[ip]]);
}
}
}
}
}
void dumpProcessStateCsv(PrintWriter pw, ProcessState proc,
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<NSS; iss++) {
for (int ims=0; ims<NMS; ims++) {
for (int ips=0; ips<NPS; ips++) {
final int vsscreen = sepScreenStates ? screenStates[iss] : 0;
final int vsmem = sepMemStates ? memStates[ims] : 0;
final int vsproc = sepProcStates ? procStates[ips] : 0;
final int NSA = sepScreenStates ? 1 : screenStates.length;
final int NMA = sepMemStates ? 1 : memStates.length;
final int NPA = sepProcStates ? 1 : procStates.length;
long totalTime = 0;
for (int isa=0; isa<NSA; isa++) {
for (int ima=0; ima<NMA; ima++) {
for (int ipa=0; ipa<NPA; ipa++) {
final int vascreen = sepScreenStates ? 0 : screenStates[isa];
final int vamem = sepMemStates ? 0 : memStates[ima];
final int vaproc = sepProcStates ? 0 : procStates[ipa];
final int bucket = ((vsscreen + vascreen + vsmem + vamem)
* STATE_COUNT) + vsproc + vaproc;
totalTime += proc.getDuration(bucket, now);
}
}
}
pw.print(CSV_SEP);
pw.print(totalTime);
}
}
}
}
void dumpProcessList(PrintWriter pw, String prefix, ArrayList<ProcessState> procs,
int[] screenStates, int[] memStates, int[] procStates, long now) {
String innerPrefix = prefix + " ";
for (int i=procs.size()-1; i>=0; i--) {
ProcessState proc = procs.get(i);
pw.print(prefix);
pw.print(proc.mName);
pw.print(" / ");
UserHandle.formatUid(pw, proc.mUid);
pw.print(" (");
pw.print(proc.mDurationsTableSize);
pw.print(" entries)");
pw.println(":");
dumpProcessState(pw, innerPrefix, proc, screenStates, memStates, procStates, now);
if (proc.mPssTableSize > 0) {
dumpProcessPss(pw, innerPrefix, proc, screenStates, memStates, procStates);
}
}
}
void dumpProcessListCsv(PrintWriter pw, ArrayList<ProcessState> procs,
boolean sepScreenStates, int[] screenStates, boolean sepMemStates, int[] memStates,
boolean sepProcStates, int[] procStates, long now) {
pw.print("process");
pw.print(CSV_SEP);
pw.print("uid");
dumpStateHeadersCsv(pw, CSV_SEP, sepScreenStates ? screenStates : null,
sepMemStates ? memStates : null,
sepProcStates ? procStates : null);
pw.println();
for (int i=procs.size()-1; i>=0; i--) {
ProcessState proc = procs.get(i);
pw.print(proc.mName);
pw.print(CSV_SEP);
UserHandle.formatUid(pw, proc.mUid);
dumpProcessStateCsv(pw, proc, sepScreenStates, screenStates,
sepMemStates, memStates, sepProcStates, procStates, now);
pw.println();
}
}
void dumpFilteredProcesses(PrintWriter pw, String header, String prefix,
int[] screenStates, int[] memStates, int[] procStates, long now, String reqPackage) {
ArrayList<ProcessState> procs = collectProcessesLocked(screenStates, memStates,
procStates, now, reqPackage);
if (procs.size() > 0) {
pw.println();
pw.println(header);
dumpProcessList(pw, prefix, procs, screenStates, memStates, procStates, now);
}
}
boolean dumpFilteredProcessesCsv(PrintWriter pw, String header,
boolean sepScreenStates, int[] screenStates, boolean sepMemStates, int[] memStates,
boolean sepProcStates, int[] procStates, long now, String reqPackage) {
ArrayList<ProcessState> procs = collectProcessesLocked(screenStates, memStates,
procStates, now, reqPackage);
if (procs.size() > 0) {
if (header != null) {
pw.println(header);
}
dumpProcessListCsv(pw, procs, sepScreenStates, screenStates,
sepMemStates, memStates, sepProcStates, procStates, now);
return true;
}
return false;
}
void dumpAllProcessState(PrintWriter pw, String prefix, ProcessState proc, long now) {
long totalTime = 0;
int printedScreen = -1;
for (int iscreen=0; iscreen<ADJ_COUNT; iscreen+=ADJ_SCREEN_MOD) {
int printedMem = -1;
for (int imem=0; imem<ADJ_MEM_FACTOR_COUNT; imem++) {
for (int is=0; is<STATE_NAMES.length; is++) {
int bucket = is+(STATE_COUNT*(imem+iscreen));
long time = proc.getDuration(bucket, now);
String running = "";
if (proc.mCurState == bucket) {
running = " (running)";
}
if (time != 0) {
pw.print(prefix);
printScreenLabel(pw, printedScreen != iscreen
? iscreen : STATE_NOTHING);
printedScreen = iscreen;
printMemLabel(pw, printedMem != imem
? imem : STATE_NOTHING);
printedMem = imem;
pw.print(STATE_NAMES[is]); pw.print(": ");
TimeUtils.formatDuration(time, pw); pw.println(running);
totalTime += time;
}
}
}
}
if (totalTime != 0) {
pw.print(prefix);
printScreenLabel(pw, STATE_NOTHING);
printMemLabel(pw, STATE_NOTHING);
pw.print("TOTAL : ");
TimeUtils.formatDuration(totalTime, pw);
pw.println();
}
}
static int printArrayEntry(PrintWriter pw, String[] array, int value, int mod) {
int index = value/mod;
if (index >= 0 && index < array.length) {
pw.print(array[index]);
} else {
pw.print('?');
}
return value - index*mod;
}
void printProcStateTag(PrintWriter pw, int state) {
state = printArrayEntry(pw, ADJ_SCREEN_TAGS, state, ADJ_SCREEN_MOD*STATE_COUNT);
state = printArrayEntry(pw, ADJ_MEM_TAGS, state, STATE_COUNT);
printArrayEntry(pw, STATE_TAGS, state, 1);
}
void printProcStateTagAndValue(PrintWriter pw, int state, long value) {
pw.print(',');
printProcStateTag(pw, state);
pw.print(':');
pw.print(value);
}
void dumpAllProcessStateCheckin(PrintWriter pw, ProcessState proc, long now) {
boolean didCurState = false;
for (int i=0; i<proc.mDurationsTableSize; i++) {
int off = proc.mDurationsTable[i];
int type = (off>>OFFSET_TYPE_SHIFT)&OFFSET_TYPE_MASK;
long time = proc.mState.getLong(off, 0);
if (proc.mCurState == type) {
didCurState = true;
time += now - proc.mStartTime;
}
printProcStateTagAndValue(pw, type, time);
}
if (!didCurState) {
printProcStateTagAndValue(pw, proc.mCurState, now - proc.mStartTime);
}
}
void dumpAllProcessPssCheckin(PrintWriter pw, ProcessState proc, long now) {
for (int i=0; i<proc.mPssTableSize; i++) {
int off = proc.mPssTable[i];
int type = (off>>OFFSET_TYPE_SHIFT)&OFFSET_TYPE_MASK;
long count = proc.mState.getLong(off, PSS_SAMPLE_COUNT);
long min = proc.mState.getLong(off, PSS_MINIMUM);
long avg = proc.mState.getLong(off, PSS_AVERAGE);
long max = proc.mState.getLong(off, PSS_MAXIMUM);
pw.print(',');
printProcStateTag(pw, type);
pw.print(':');
pw.print(count);
pw.print(':');
pw.print(min);
pw.print(':');
pw.print(avg);
pw.print(':');
pw.print(max);
}
}
static int[] parseStateList(String[] states, int mult, String arg, boolean[] outSep,
String[] outError) {
ArrayList<Integer> res = new ArrayList<Integer>();
int lastPos = 0;
for (int i=0; i<=arg.length(); i++) {
char c = i < arg.length() ? arg.charAt(i) : 0;
if (c != ',' && c != '+' && c != ' ' && c != 0) {
continue;
}
boolean isSep = c == ',';
if (lastPos == 0) {
// We now know the type of op.
outSep[0] = isSep;
} else if (c != 0 && outSep[0] != isSep) {
outError[0] = "inconsistent separators (can't mix ',' with '+')";
return null;
}
if (lastPos < (i-1)) {
String str = arg.substring(lastPos, i);
for (int j=0; j<states.length; j++) {
if (str.equals(states[j])) {
res.add(j);
str = null;
break;
}
}
if (str != null) {
outError[0] = "invalid word \"" + str + "\"";
return null;
}
}
lastPos = i + 1;
}
int[] finalRes = new int[res.size()];
for (int i=0; i<res.size(); i++) {
finalRes[i] = res.get(i) * mult;
}
return finalRes;
}
private void dumpHelp(PrintWriter pw) {
pw.println("Process stats (procstats) dump options:");
pw.println(" [--checkin|--csv] [csv-screen] [csv-proc] [csv-mem]");
pw.println(" [--reset] [-h] [<package.name>]");
pw.println(" --checkin: format output for a checkin report.");
pw.println(" --csv: output data suitable for putting in a spreadsheet.");
pw.println(" --csv-screen: on, off.");
pw.println(" --csv-mem: norm, mod, low, crit.");
pw.println(" --csv-proc: pers, top, fore, vis, precept, backup,");
pw.println(" service, home, prev, cached");
pw.println(" --reset: reset the stats, clearing all current data.");
pw.println(" -h: print this help text.");
pw.println(" <package.name>: optional name of package to filter output by.");
}
public void dumpLocked(FileDescriptor fd, PrintWriter pw, String[] args) {
final long now = SystemClock.uptimeMillis();
boolean isCheckin = false;
boolean isCsv = false;
String reqPackage = null;
boolean csvSepScreenStats = false;
int[] csvScreenStats = new int[] {ADJ_SCREEN_OFF, ADJ_SCREEN_ON};
boolean csvSepMemStats = false;
int[] csvMemStats = new int[] {ADJ_MEM_FACTOR_CRITICAL};
boolean csvSepProcStats = true;
int[] csvProcStats = new int[] {
STATE_PERSISTENT, STATE_TOP, STATE_FOREGROUND, STATE_VISIBLE,
STATE_PERCEPTIBLE, STATE_BACKUP, STATE_SERVICE, STATE_HOME,
STATE_PREVIOUS, STATE_CACHED };
if (args != null) {
for (int i=0; i<args.length; i++) {
String arg = args[i];
if ("--checkin".equals(arg)) {
isCheckin = true;
} else if ("--csv".equals(arg)) {
isCsv = true;
} else if ("--csv-screen".equals(arg)) {
i++;
if (i >= args.length) {
pw.println("Error: argument required for --csv-screen");
dumpHelp(pw);
return;
}
boolean[] sep = new boolean[1];
String[] error = new String[1];
csvScreenStats = parseStateList(ADJ_SCREEN_NAMES_CSV, ADJ_SCREEN_MOD,
args[i], sep, error);
if (csvScreenStats == null) {
pw.println("Error in \"" + args[i] + "\": " + error[0]);
dumpHelp(pw);
return;
}
csvSepScreenStats = sep[0];
} else if ("--csv-mem".equals(arg)) {
i++;
if (i >= args.length) {
pw.println("Error: argument required for --csv-mem");
dumpHelp(pw);
return;
}
boolean[] sep = new boolean[1];
String[] error = new String[1];
csvMemStats = parseStateList(ADJ_MEM_NAMES_CSV, 1, args[i], sep, error);
if (csvMemStats == null) {
pw.println("Error in \"" + args[i] + "\": " + error[0]);
dumpHelp(pw);
return;
}
csvSepMemStats = sep[0];
} else if ("--csv-proc".equals(arg)) {
i++;
if (i >= args.length) {
pw.println("Error: argument required for --csv-proc");
dumpHelp(pw);
return;
}
boolean[] sep = new boolean[1];
String[] error = new String[1];
csvProcStats = parseStateList(STATE_NAMES_CSV, 1, args[i], sep, error);
if (csvProcStats == null) {
pw.println("Error in \"" + args[i] + "\": " + error[0]);
dumpHelp(pw);
return;
}
csvSepProcStats = sep[0];
} else if ("--reset".equals(arg)) {
mState.reset();
pw.println("Process stats reset.");
return;
} else if ("-h".equals(arg)) {
dumpHelp(pw);
return;
} else if ("-a".equals(arg)) {
// ignore
} else if (arg.length() > 0 && arg.charAt(0) == '-'){
pw.println("Unknown option: " + arg);
dumpHelp(pw);
return;
} else {
// Not an option, last argument must be a package name.
try {
mContext.getPackageManager().getPackageUid(arg,
UserHandle.getCallingUserId());
reqPackage = arg;
} catch (PackageManager.NameNotFoundException e) {
pw.println("Unknown package: " + arg);
dumpHelp(pw);
return;
}
}
}
}
if (isCsv) {
pw.print("Processes running summed over");
if (!csvSepScreenStats) {
for (int i=0; i<csvScreenStats.length; i++) {
pw.print(" ");
printScreenLabelCsv(pw, csvScreenStats[i]);
}
}
if (!csvSepMemStats) {
for (int i=0; i<csvMemStats.length; i++) {
pw.print(" ");
printMemLabelCsv(pw, csvMemStats[i]);
}
}
if (!csvSepProcStats) {
for (int i=0; i<csvProcStats.length; i++) {
pw.print(" ");
pw.print(STATE_NAMES_CSV[csvProcStats[i]]);
}
}
pw.println();
dumpFilteredProcessesCsv(pw, null,
csvSepScreenStats, csvScreenStats, csvSepMemStats, csvMemStats,
csvSepProcStats, csvProcStats, now, reqPackage);
/*
dumpFilteredProcessesCsv(pw, "Processes running while critical mem:",
false, new int[] {ADJ_SCREEN_OFF, ADJ_SCREEN_ON},
true, new int[] {ADJ_MEM_FACTOR_CRITICAL},
true, new int[] {STATE_PERSISTENT, STATE_TOP, STATE_FOREGROUND, STATE_VISIBLE,
STATE_PERCEPTIBLE, STATE_BACKUP, STATE_SERVICE, STATE_HOME,
STATE_PREVIOUS, STATE_CACHED},
now, reqPackage);
dumpFilteredProcessesCsv(pw, "Processes running over all mem:",
false, new int[] {ADJ_SCREEN_OFF, ADJ_SCREEN_ON},
false, new int[] {ADJ_MEM_FACTOR_CRITICAL, ADJ_MEM_FACTOR_LOW,
ADJ_MEM_FACTOR_MODERATE, ADJ_MEM_FACTOR_MODERATE},
true, new int[] {STATE_PERSISTENT, STATE_TOP, STATE_FOREGROUND, STATE_VISIBLE,
STATE_PERCEPTIBLE, STATE_BACKUP, STATE_SERVICE, STATE_HOME,
STATE_PREVIOUS, STATE_CACHED},
now, reqPackage);
*/
return;
}
ArrayMap<String, SparseArray<PackageState>> pkgMap = mState.mPackages.getMap();
boolean printedHeader = false;
if (isCheckin) {
pw.println("vers,1");
}
for (int ip=0; ip<pkgMap.size(); ip++) {
String pkgName = pkgMap.keyAt(ip);
if (reqPackage != null && !reqPackage.equals(pkgName)) {
continue;
}
SparseArray<PackageState> uids = pkgMap.valueAt(ip);
for (int iu=0; iu<uids.size(); iu++) {
int uid = uids.keyAt(iu);
PackageState state = uids.valueAt(iu);
final int NPROCS = state.mProcesses.size();
final int NSRVS = state.mServices.size();
if (!isCheckin) {
if (NPROCS > 0 || NSRVS > 0) {
if (!printedHeader) {
pw.println("Per-Package Process Stats:");
pw.print(" Num long arrays: "); pw.println(mState.mLongs.size());
pw.print(" Next long entry: "); pw.println(mState.mNextLong);
printedHeader = true;
}
pw.print(" * "); pw.print(pkgName); pw.print(" / ");
UserHandle.formatUid(pw, uid); pw.println(":");
}
}
for (int iproc=0; iproc<NPROCS; iproc++) {
ProcessState proc = state.mProcesses.valueAt(iproc);
if (!isCheckin) {
pw.print(" Process ");
pw.print(state.mProcesses.keyAt(iproc));
pw.print(" (");
pw.print(proc.mDurationsTableSize);
pw.print(" entries)");
pw.println(":");
dumpAllProcessState(pw, " ", proc, now);
} else {
pw.print("pkgproc,");
pw.print(pkgName);
pw.print(",");
pw.print(uid);
pw.print(",");
pw.print(state.mProcesses.keyAt(iproc));
dumpAllProcessStateCheckin(pw, proc, now);
pw.println();
}
}
for (int isvc=0; isvc<NSRVS; isvc++) {
if (!isCheckin) {
pw.print(" Service ");
pw.print(state.mServices.keyAt(isvc));
pw.println(":");
ServiceState svc = state.mServices.valueAt(isvc);
if (svc.mStartedCount != 0) {
pw.print(" Started op count "); pw.print(svc.mStartedCount);
pw.println(":");
dumpSingleTime(pw, " ", svc.mStartedDurations, svc.mStartedState,
svc.mStartedStartTime, now);
}
if (svc.mBoundCount != 0) {
pw.print(" Bound op count "); pw.print(svc.mBoundCount);
pw.println(":");
dumpSingleTime(pw, " ", svc.mBoundDurations, svc.mBoundState,
svc.mBoundStartTime, now);
}
if (svc.mExecCount != 0) {
pw.print(" Executing op count "); pw.print(svc.mExecCount);
pw.println(":");
dumpSingleTime(pw, " ", svc.mExecDurations, svc.mExecState,
svc.mExecStartTime, now);
}
} else {
String serviceName = state.mServices.keyAt(isvc);
ServiceState svc = state.mServices.valueAt(isvc);
dumpServiceTimeCheckin(pw, "pkgsvc-start", pkgName, uid, serviceName,
svc, svc.mStartedCount, svc.mStartedDurations, svc.mStartedState,
svc.mStartedStartTime, now);
dumpServiceTimeCheckin(pw, "pkgsvc-bound", pkgName, uid, serviceName,
svc, svc.mBoundCount, svc.mBoundDurations, svc.mBoundState,
svc.mBoundStartTime, now);
dumpServiceTimeCheckin(pw, "pkgsvc-exec", pkgName, uid, serviceName,
svc, svc.mExecCount, svc.mExecDurations, svc.mExecState,
svc.mExecStartTime, now);
}
}
}
}
if (!isCheckin) {
dumpFilteredProcesses(pw, "Processes running while critical mem:", " ",
new int[] {ADJ_SCREEN_OFF, ADJ_SCREEN_ON},
new int[] {ADJ_MEM_FACTOR_CRITICAL},
new int[] {STATE_PERSISTENT, STATE_TOP, STATE_FOREGROUND, STATE_VISIBLE,
STATE_PERCEPTIBLE, STATE_BACKUP, STATE_SERVICE, STATE_HOME, STATE_PREVIOUS},
now, reqPackage);
dumpFilteredProcesses(pw, "Processes running while low mem:", " ",
new int[] {ADJ_SCREEN_OFF, ADJ_SCREEN_ON},
new int[] {ADJ_MEM_FACTOR_LOW},
new int[] {STATE_PERSISTENT, STATE_TOP, STATE_FOREGROUND, STATE_VISIBLE,
STATE_PERCEPTIBLE, STATE_BACKUP, STATE_SERVICE, STATE_HOME, STATE_PREVIOUS},
now, reqPackage);
dumpFilteredProcesses(pw, "Processes running while moderate mem:", " ",
new int[] {ADJ_SCREEN_OFF, ADJ_SCREEN_ON},
new int[] {ADJ_MEM_FACTOR_MODERATE},
new int[] {STATE_PERSISTENT, STATE_TOP, STATE_FOREGROUND, STATE_VISIBLE,
STATE_PERCEPTIBLE, STATE_BACKUP, STATE_SERVICE, STATE_HOME, STATE_PREVIOUS},
now, reqPackage);
dumpFilteredProcesses(pw, "Processes running while normal mem:", " ",
new int[] {ADJ_SCREEN_OFF, ADJ_SCREEN_ON},
new int[] {ADJ_MEM_FACTOR_NORMAL},
new int[] {STATE_PERSISTENT, STATE_TOP, STATE_FOREGROUND, STATE_VISIBLE,
STATE_PERCEPTIBLE, STATE_BACKUP, STATE_SERVICE, STATE_HOME, STATE_PREVIOUS},
now, reqPackage);
pw.println();
pw.println("Run time Stats:");
dumpSingleTime(pw, " ", mState.mMemFactorDurations, mState.mMemFactor,
mState.mStartTime, now);
} else {
ArrayMap<String, SparseArray<ProcessState>> procMap = mState.mProcesses.getMap();
for (int ip=0; ip<procMap.size(); ip++) {
String procName = procMap.keyAt(ip);
SparseArray<ProcessState> uids = procMap.valueAt(ip);
for (int iu=0; iu<uids.size(); iu++) {
int uid = uids.keyAt(iu);
ProcessState state = uids.valueAt(iu);
if (state.mDurationsTableSize > 0) {
pw.print("proc,");
pw.print(procName);
pw.print(",");
pw.print(uid);
dumpAllProcessStateCheckin(pw, state, now);
pw.println();
}
if (state.mPssTableSize > 0) {
pw.print("pss,");
pw.print(procName);
pw.print(",");
pw.print(uid);
dumpAllProcessPssCheckin(pw, state, now);
pw.println();
}
}
}
pw.print("total");
dumpSingleTimeCsv(pw, ",", mState.mMemFactorDurations, mState.mMemFactor,
mState.mStartTime, now);
pw.println();
}
}
}
Reference in New Issue View Git Blame Copy Permalink