/* * 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.internal.os; import android.annotation.Nullable; import android.os.SystemClock; import android.text.TextUtils; import android.util.Slog; import android.util.SparseLongArray; import android.util.TimeUtils; import java.io.BufferedReader; import java.io.FileReader; import java.io.FileWriter; import java.io.IOException; /** * Reads /proc/uid_cputime/show_uid_stat which has the line format: * * uid: user_time_micro_seconds system_time_micro_seconds power_in_milli-amp-micro_seconds * * This provides the time a UID's processes spent executing in user-space and kernel-space. * The file contains a monotonically increasing count of time for a single boot. This class * maintains the previous results of a call to {@link #readDelta} in order to provide a proper * delta. */ public class KernelUidCpuTimeReader { private static final String TAG = "KernelUidCpuTimeReader"; private static final String sProcFile = "/proc/uid_cputime/show_uid_stat"; private static final String sRemoveUidProcFile = "/proc/uid_cputime/remove_uid_range"; /** * Callback interface for processing each line of the proc file. */ public interface Callback { /** * @param uid UID of the app * @param userTimeUs time spent executing in user space in microseconds * @param systemTimeUs time spent executing in kernel space in microseconds * @param powerMaUs power consumed executing, in milli-ampere microseconds */ void onUidCpuTime(int uid, long userTimeUs, long systemTimeUs, long powerMaUs); } private SparseLongArray mLastUserTimeUs = new SparseLongArray(); private SparseLongArray mLastSystemTimeUs = new SparseLongArray(); private SparseLongArray mLastPowerMaUs = new SparseLongArray(); private long mLastTimeReadUs = 0; /** * Reads the proc file, calling into the callback with a delta of time for each UID. * @param callback The callback to invoke for each line of the proc file. If null, * the data is consumed and subsequent calls to readDelta will provide * a fresh delta. */ public void readDelta(@Nullable Callback callback) { long nowUs = SystemClock.elapsedRealtime() * 1000; try (BufferedReader reader = new BufferedReader(new FileReader(sProcFile))) { TextUtils.SimpleStringSplitter splitter = new TextUtils.SimpleStringSplitter(' '); String line; while ((line = reader.readLine()) != null) { splitter.setString(line); final String uidStr = splitter.next(); final int uid = Integer.parseInt(uidStr.substring(0, uidStr.length() - 1), 10); final long userTimeUs = Long.parseLong(splitter.next(), 10); final long systemTimeUs = Long.parseLong(splitter.next(), 10); final long powerMaUs; if (splitter.hasNext()) { powerMaUs = Long.parseLong(splitter.next(), 10) / 1000; } else { powerMaUs = 0; } // Only report if there is a callback and if this is not the first read. if (callback != null && mLastTimeReadUs != 0) { long userTimeDeltaUs = userTimeUs; long systemTimeDeltaUs = systemTimeUs; long powerDeltaMaUs = powerMaUs; int index = mLastUserTimeUs.indexOfKey(uid); if (index >= 0) { userTimeDeltaUs -= mLastUserTimeUs.valueAt(index); systemTimeDeltaUs -= mLastSystemTimeUs.valueAt(index); powerDeltaMaUs -= mLastPowerMaUs.valueAt(index); final long timeDiffUs = nowUs - mLastTimeReadUs; if (userTimeDeltaUs < 0 || systemTimeDeltaUs < 0 || powerDeltaMaUs < 0) { StringBuilder sb = new StringBuilder("Malformed cpu data for UID="); sb.append(uid).append("!\n"); sb.append("Time between reads: "); TimeUtils.formatDuration(timeDiffUs / 1000, sb); sb.append("\n"); sb.append("Previous times: u="); TimeUtils.formatDuration(mLastUserTimeUs.valueAt(index) / 1000, sb); sb.append(" s="); TimeUtils.formatDuration(mLastSystemTimeUs.valueAt(index) / 1000, sb); sb.append(" p=").append(mLastPowerMaUs.valueAt(index) / 1000); sb.append("mAms\n"); sb.append("Current times: u="); TimeUtils.formatDuration(userTimeUs / 1000, sb); sb.append(" s="); TimeUtils.formatDuration(systemTimeUs / 1000, sb); sb.append(" p=").append(powerMaUs / 1000); sb.append("mAms\n"); sb.append("Delta: u="); TimeUtils.formatDuration(userTimeDeltaUs / 1000, sb); sb.append(" s="); TimeUtils.formatDuration(systemTimeDeltaUs / 1000, sb); sb.append(" p=").append(powerDeltaMaUs / 1000).append("mAms"); Slog.wtf(TAG, sb.toString()); userTimeDeltaUs = 0; systemTimeDeltaUs = 0; powerDeltaMaUs = 0; } } if (userTimeDeltaUs != 0 || systemTimeDeltaUs != 0 || powerDeltaMaUs != 0) { callback.onUidCpuTime(uid, userTimeDeltaUs, systemTimeDeltaUs, powerDeltaMaUs); } } mLastUserTimeUs.put(uid, userTimeUs); mLastSystemTimeUs.put(uid, systemTimeUs); mLastPowerMaUs.put(uid, powerMaUs); } } catch (IOException e) { Slog.e(TAG, "Failed to read uid_cputime: " + e.getMessage()); } mLastTimeReadUs = nowUs; } /** * Removes the UID from the kernel module and from internal accounting data. * @param uid The UID to remove. */ public void removeUid(int uid) { int index = mLastUserTimeUs.indexOfKey(uid); if (index >= 0) { mLastUserTimeUs.removeAt(index); mLastSystemTimeUs.removeAt(index); mLastPowerMaUs.removeAt(index); } try (FileWriter writer = new FileWriter(sRemoveUidProcFile)) { writer.write(Integer.toString(uid) + "-" + Integer.toString(uid)); writer.flush(); } catch (IOException e) { Slog.e(TAG, "failed to remove uid from uid_cputime module", e); } } }