Java程序
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1449行
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64.75 KB
/*
* Copyright (C) 2012 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 java.io.FileDescriptor;
import java.io.PrintWriter;
import java.text.SimpleDateFormat;
import java.util.ArrayList;
import java.util.Date;
import java.util.Set;
import android.app.ActivityManager;
import android.app.AppGlobals;
import android.app.AppOpsManager;
import android.app.BroadcastOptions;
import android.content.ComponentName;
import android.content.IIntentReceiver;
import android.content.Intent;
import android.content.pm.ActivityInfo;
import android.content.pm.PackageManager;
import android.content.pm.ResolveInfo;
import android.os.Bundle;
import android.os.Handler;
import android.os.IBinder;
import android.os.Looper;
import android.os.Message;
import android.os.Process;
import android.os.RemoteException;
import android.os.SystemClock;
import android.os.UserHandle;
import android.util.EventLog;
import android.util.Slog;
import android.util.TimeUtils;
import com.android.server.DeviceIdleController;
import static com.android.server.am.ActivityManagerDebugConfig.*;
/**
* BROADCASTS
*
* We keep two broadcast queues and associated bookkeeping, one for those at
* foreground priority, and one for normal (background-priority) broadcasts.
*/
public final class BroadcastQueue {
private static final String TAG = "BroadcastQueue";
private static final String TAG_MU = TAG + POSTFIX_MU;
private static final String TAG_BROADCAST = TAG + POSTFIX_BROADCAST;
static final int MAX_BROADCAST_HISTORY = ActivityManager.isLowRamDeviceStatic() ? 10 : 50;
static final int MAX_BROADCAST_SUMMARY_HISTORY
= ActivityManager.isLowRamDeviceStatic() ? 25 : 300;
final ActivityManagerService mService;
/**
* Recognizable moniker for this queue
*/
final String mQueueName;
/**
* Timeout period for this queue's broadcasts
*/
final long mTimeoutPeriod;
/**
* If true, we can delay broadcasts while waiting services to finish in the previous
* receiver's process.
*/
final boolean mDelayBehindServices;
/**
* Lists of all active broadcasts that are to be executed immediately
* (without waiting for another broadcast to finish). Currently this only
* contains broadcasts to registered receivers, to avoid spinning up
* a bunch of processes to execute IntentReceiver components. Background-
* and foreground-priority broadcasts are queued separately.
*/
final ArrayList<BroadcastRecord> mParallelBroadcasts = new ArrayList<>();
/**
* List of all active broadcasts that are to be executed one at a time.
* The object at the top of the list is the currently activity broadcasts;
* those after it are waiting for the top to finish. As with parallel
* broadcasts, separate background- and foreground-priority queues are
* maintained.
*/
final ArrayList<BroadcastRecord> mOrderedBroadcasts = new ArrayList<>();
/**
* Historical data of past broadcasts, for debugging. This is a ring buffer
* whose last element is at mHistoryNext.
*/
final BroadcastRecord[] mBroadcastHistory = new BroadcastRecord[MAX_BROADCAST_HISTORY];
int mHistoryNext = 0;
/**
* Summary of historical data of past broadcasts, for debugging. This is a
* ring buffer whose last element is at mSummaryHistoryNext.
*/
final Intent[] mBroadcastSummaryHistory = new Intent[MAX_BROADCAST_SUMMARY_HISTORY];
int mSummaryHistoryNext = 0;
/**
* Various milestone timestamps of entries in the mBroadcastSummaryHistory ring
* buffer, also tracked via the mSummaryHistoryNext index. These are all in wall
* clock time, not elapsed.
*/
final long[] mSummaryHistoryEnqueueTime = new long[MAX_BROADCAST_SUMMARY_HISTORY];
final long[] mSummaryHistoryDispatchTime = new long[MAX_BROADCAST_SUMMARY_HISTORY];
final long[] mSummaryHistoryFinishTime = new long[MAX_BROADCAST_SUMMARY_HISTORY];
/**
* Set when we current have a BROADCAST_INTENT_MSG in flight.
*/
boolean mBroadcastsScheduled = false;
/**
* True if we have a pending unexpired BROADCAST_TIMEOUT_MSG posted to our handler.
*/
boolean mPendingBroadcastTimeoutMessage;
/**
* Intent broadcasts that we have tried to start, but are
* waiting for the application's process to be created. We only
* need one per scheduling class (instead of a list) because we always
* process broadcasts one at a time, so no others can be started while
* waiting for this one.
*/
BroadcastRecord mPendingBroadcast = null;
/**
* The receiver index that is pending, to restart the broadcast if needed.
*/
int mPendingBroadcastRecvIndex;
static final int BROADCAST_INTENT_MSG = ActivityManagerService.FIRST_BROADCAST_QUEUE_MSG;
static final int BROADCAST_TIMEOUT_MSG = ActivityManagerService.FIRST_BROADCAST_QUEUE_MSG + 1;
static final int SCHEDULE_TEMP_WHITELIST_MSG
= ActivityManagerService.FIRST_BROADCAST_QUEUE_MSG + 2;
final BroadcastHandler mHandler;
private final class BroadcastHandler extends Handler {
public BroadcastHandler(Looper looper) {
super(looper, null, true);
}
@Override
public void handleMessage(Message msg) {
switch (msg.what) {
case BROADCAST_INTENT_MSG: {
if (DEBUG_BROADCAST) Slog.v(
TAG_BROADCAST, "Received BROADCAST_INTENT_MSG");
processNextBroadcast(true);
} break;
case BROADCAST_TIMEOUT_MSG: {
synchronized (mService) {
broadcastTimeoutLocked(true);
}
} break;
case SCHEDULE_TEMP_WHITELIST_MSG: {
DeviceIdleController.LocalService dic = mService.mLocalDeviceIdleController;
if (dic != null) {
dic.addPowerSaveTempWhitelistAppDirect(UserHandle.getAppId(msg.arg1),
msg.arg2, true, (String)msg.obj);
}
} break;
}
}
};
private final class AppNotResponding implements Runnable {
private final ProcessRecord mApp;
private final String mAnnotation;
public AppNotResponding(ProcessRecord app, String annotation) {
mApp = app;
mAnnotation = annotation;
}
@Override
public void run() {
mService.appNotResponding(mApp, null, null, false, mAnnotation);
}
}
BroadcastQueue(ActivityManagerService service, Handler handler,
String name, long timeoutPeriod, boolean allowDelayBehindServices) {
mService = service;
mHandler = new BroadcastHandler(handler.getLooper());
mQueueName = name;
mTimeoutPeriod = timeoutPeriod;
mDelayBehindServices = allowDelayBehindServices;
}
public boolean isPendingBroadcastProcessLocked(int pid) {
return mPendingBroadcast != null && mPendingBroadcast.curApp.pid == pid;
}
public void enqueueParallelBroadcastLocked(BroadcastRecord r) {
mParallelBroadcasts.add(r);
r.enqueueClockTime = System.currentTimeMillis();
}
public void enqueueOrderedBroadcastLocked(BroadcastRecord r) {
mOrderedBroadcasts.add(r);
r.enqueueClockTime = System.currentTimeMillis();
}
public final boolean replaceParallelBroadcastLocked(BroadcastRecord r) {
for (int i = mParallelBroadcasts.size() - 1; i >= 0; i--) {
if (r.intent.filterEquals(mParallelBroadcasts.get(i).intent)) {
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"***** DROPPING PARALLEL ["
+ mQueueName + "]: " + r.intent);
mParallelBroadcasts.set(i, r);
return true;
}
}
return false;
}
public final boolean replaceOrderedBroadcastLocked(BroadcastRecord r) {
for (int i = mOrderedBroadcasts.size() - 1; i > 0; i--) {
if (r.intent.filterEquals(mOrderedBroadcasts.get(i).intent)) {
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"***** DROPPING ORDERED ["
+ mQueueName + "]: " + r.intent);
mOrderedBroadcasts.set(i, r);
return true;
}
}
return false;
}
private final void processCurBroadcastLocked(BroadcastRecord r,
ProcessRecord app) throws RemoteException {
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"Process cur broadcast " + r + " for app " + app);
if (app.thread == null) {
throw new RemoteException();
}
r.receiver = app.thread.asBinder();
r.curApp = app;
app.curReceiver = r;
app.forceProcessStateUpTo(ActivityManager.PROCESS_STATE_RECEIVER);
mService.updateLruProcessLocked(app, false, null);
mService.updateOomAdjLocked();
// Tell the application to launch this receiver.
r.intent.setComponent(r.curComponent);
boolean started = false;
try {
if (DEBUG_BROADCAST_LIGHT) Slog.v(TAG_BROADCAST,
"Delivering to component " + r.curComponent
+ ": " + r);
mService.ensurePackageDexOpt(r.intent.getComponent().getPackageName());
app.thread.scheduleReceiver(new Intent(r.intent), r.curReceiver,
mService.compatibilityInfoForPackageLocked(r.curReceiver.applicationInfo),
r.resultCode, r.resultData, r.resultExtras, r.ordered, r.userId,
app.repProcState);
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"Process cur broadcast " + r + " DELIVERED for app " + app);
started = true;
} finally {
if (!started) {
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"Process cur broadcast " + r + ": NOT STARTED!");
r.receiver = null;
r.curApp = null;
app.curReceiver = null;
}
}
}
public boolean sendPendingBroadcastsLocked(ProcessRecord app) {
boolean didSomething = false;
final BroadcastRecord br = mPendingBroadcast;
if (br != null && br.curApp.pid == app.pid) {
try {
mPendingBroadcast = null;
processCurBroadcastLocked(br, app);
didSomething = true;
} catch (Exception e) {
Slog.w(TAG, "Exception in new application when starting receiver "
+ br.curComponent.flattenToShortString(), e);
logBroadcastReceiverDiscardLocked(br);
finishReceiverLocked(br, br.resultCode, br.resultData,
br.resultExtras, br.resultAbort, false);
scheduleBroadcastsLocked();
// We need to reset the state if we failed to start the receiver.
br.state = BroadcastRecord.IDLE;
throw new RuntimeException(e.getMessage());
}
}
return didSomething;
}
public void skipPendingBroadcastLocked(int pid) {
final BroadcastRecord br = mPendingBroadcast;
if (br != null && br.curApp.pid == pid) {
br.state = BroadcastRecord.IDLE;
br.nextReceiver = mPendingBroadcastRecvIndex;
mPendingBroadcast = null;
scheduleBroadcastsLocked();
}
}
public void skipCurrentReceiverLocked(ProcessRecord app) {
BroadcastRecord r = null;
if (mOrderedBroadcasts.size() > 0) {
BroadcastRecord br = mOrderedBroadcasts.get(0);
if (br.curApp == app) {
r = br;
}
}
if (r == null && mPendingBroadcast != null && mPendingBroadcast.curApp == app) {
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"[" + mQueueName + "] skip & discard pending app " + r);
r = mPendingBroadcast;
}
if (r != null) {
logBroadcastReceiverDiscardLocked(r);
finishReceiverLocked(r, r.resultCode, r.resultData,
r.resultExtras, r.resultAbort, false);
scheduleBroadcastsLocked();
}
}
public void scheduleBroadcastsLocked() {
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST, "Schedule broadcasts ["
+ mQueueName + "]: current="
+ mBroadcastsScheduled);
if (mBroadcastsScheduled) {
return;
}
mHandler.sendMessage(mHandler.obtainMessage(BROADCAST_INTENT_MSG, this));
mBroadcastsScheduled = true;
}
public BroadcastRecord getMatchingOrderedReceiver(IBinder receiver) {
if (mOrderedBroadcasts.size() > 0) {
final BroadcastRecord r = mOrderedBroadcasts.get(0);
if (r != null && r.receiver == receiver) {
return r;
}
}
return null;
}
public boolean finishReceiverLocked(BroadcastRecord r, int resultCode,
String resultData, Bundle resultExtras, boolean resultAbort, boolean waitForServices) {
final int state = r.state;
final ActivityInfo receiver = r.curReceiver;
r.state = BroadcastRecord.IDLE;
if (state == BroadcastRecord.IDLE) {
Slog.w(TAG, "finishReceiver [" + mQueueName + "] called but state is IDLE");
}
r.receiver = null;
r.intent.setComponent(null);
if (r.curApp != null && r.curApp.curReceiver == r) {
r.curApp.curReceiver = null;
}
if (r.curFilter != null) {
r.curFilter.receiverList.curBroadcast = null;
}
r.curFilter = null;
r.curReceiver = null;
r.curApp = null;
mPendingBroadcast = null;
r.resultCode = resultCode;
r.resultData = resultData;
r.resultExtras = resultExtras;
if (resultAbort && (r.intent.getFlags()&Intent.FLAG_RECEIVER_NO_ABORT) == 0) {
r.resultAbort = resultAbort;
} else {
r.resultAbort = false;
}
if (waitForServices && r.curComponent != null && r.queue.mDelayBehindServices
&& r.queue.mOrderedBroadcasts.size() > 0
&& r.queue.mOrderedBroadcasts.get(0) == r) {
ActivityInfo nextReceiver;
if (r.nextReceiver < r.receivers.size()) {
Object obj = r.receivers.get(r.nextReceiver);
nextReceiver = (obj instanceof ActivityInfo) ? (ActivityInfo)obj : null;
} else {
nextReceiver = null;
}
// Don't do this if the next receive is in the same process as the current one.
if (receiver == null || nextReceiver == null
|| receiver.applicationInfo.uid != nextReceiver.applicationInfo.uid
|| !receiver.processName.equals(nextReceiver.processName)) {
// In this case, we are ready to process the next receiver for the current broadcast,
// but are on a queue that would like to wait for services to finish before moving
// on. If there are background services currently starting, then we will go into a
// special state where we hold off on continuing this broadcast until they are done.
if (mService.mServices.hasBackgroundServices(r.userId)) {
Slog.i(TAG, "Delay finish: " + r.curComponent.flattenToShortString());
r.state = BroadcastRecord.WAITING_SERVICES;
return false;
}
}
}
r.curComponent = null;
// We will process the next receiver right now if this is finishing
// an app receiver (which is always asynchronous) or after we have
// come back from calling a receiver.
return state == BroadcastRecord.APP_RECEIVE
|| state == BroadcastRecord.CALL_DONE_RECEIVE;
}
public void backgroundServicesFinishedLocked(int userId) {
if (mOrderedBroadcasts.size() > 0) {
BroadcastRecord br = mOrderedBroadcasts.get(0);
if (br.userId == userId && br.state == BroadcastRecord.WAITING_SERVICES) {
Slog.i(TAG, "Resuming delayed broadcast");
br.curComponent = null;
br.state = BroadcastRecord.IDLE;
processNextBroadcast(false);
}
}
}
private static void performReceiveLocked(ProcessRecord app, IIntentReceiver receiver,
Intent intent, int resultCode, String data, Bundle extras,
boolean ordered, boolean sticky, int sendingUser) throws RemoteException {
// Send the intent to the receiver asynchronously using one-way binder calls.
if (app != null) {
if (app.thread != null) {
// If we have an app thread, do the call through that so it is
// correctly ordered with other one-way calls.
app.thread.scheduleRegisteredReceiver(receiver, intent, resultCode,
data, extras, ordered, sticky, sendingUser, app.repProcState);
} else {
// Application has died. Receiver doesn't exist.
throw new RemoteException("app.thread must not be null");
}
} else {
receiver.performReceive(intent, resultCode, data, extras, ordered,
sticky, sendingUser);
}
}
private void deliverToRegisteredReceiverLocked(BroadcastRecord r,
BroadcastFilter filter, boolean ordered) {
boolean skip = false;
if (filter.requiredPermission != null) {
int perm = mService.checkComponentPermission(filter.requiredPermission,
r.callingPid, r.callingUid, -1, true);
if (perm != PackageManager.PERMISSION_GRANTED) {
Slog.w(TAG, "Permission Denial: broadcasting "
+ r.intent.toString()
+ " from " + r.callerPackage + " (pid="
+ r.callingPid + ", uid=" + r.callingUid + ")"
+ " requires " + filter.requiredPermission
+ " due to registered receiver " + filter);
skip = true;
} else {
final int opCode = AppOpsManager.permissionToOpCode(filter.requiredPermission);
if (opCode != AppOpsManager.OP_NONE
&& mService.mAppOpsService.noteOperation(opCode, r.callingUid,
r.callerPackage) != AppOpsManager.MODE_ALLOWED) {
Slog.w(TAG, "Appop Denial: broadcasting "
+ r.intent.toString()
+ " from " + r.callerPackage + " (pid="
+ r.callingPid + ", uid=" + r.callingUid + ")"
+ " requires appop " + AppOpsManager.permissionToOp(
filter.requiredPermission)
+ " due to registered receiver " + filter);
skip = true;
}
}
}
if (!skip && r.requiredPermissions != null && r.requiredPermissions.length > 0) {
for (int i = 0; i < r.requiredPermissions.length; i++) {
String requiredPermission = r.requiredPermissions[i];
int perm = mService.checkComponentPermission(requiredPermission,
filter.receiverList.pid, filter.receiverList.uid, -1, true);
if (perm != PackageManager.PERMISSION_GRANTED) {
Slog.w(TAG, "Permission Denial: receiving "
+ r.intent.toString()
+ " to " + filter.receiverList.app
+ " (pid=" + filter.receiverList.pid
+ ", uid=" + filter.receiverList.uid + ")"
+ " requires " + requiredPermission
+ " due to sender " + r.callerPackage
+ " (uid " + r.callingUid + ")");
skip = true;
break;
}
int appOp = AppOpsManager.permissionToOpCode(requiredPermission);
if (appOp != AppOpsManager.OP_NONE && appOp != r.appOp
&& mService.mAppOpsService.noteOperation(appOp,
filter.receiverList.uid, filter.packageName)
!= AppOpsManager.MODE_ALLOWED) {
Slog.w(TAG, "Appop Denial: receiving "
+ r.intent.toString()
+ " to " + filter.receiverList.app
+ " (pid=" + filter.receiverList.pid
+ ", uid=" + filter.receiverList.uid + ")"
+ " requires appop " + AppOpsManager.permissionToOp(
requiredPermission)
+ " due to sender " + r.callerPackage
+ " (uid " + r.callingUid + ")");
skip = true;
break;
}
}
}
if (!skip && (r.requiredPermissions == null || r.requiredPermissions.length == 0)) {
int perm = mService.checkComponentPermission(null,
filter.receiverList.pid, filter.receiverList.uid, -1, true);
if (perm != PackageManager.PERMISSION_GRANTED) {
Slog.w(TAG, "Permission Denial: security check failed when receiving "
+ r.intent.toString()
+ " to " + filter.receiverList.app
+ " (pid=" + filter.receiverList.pid
+ ", uid=" + filter.receiverList.uid + ")"
+ " due to sender " + r.callerPackage
+ " (uid " + r.callingUid + ")");
skip = true;
}
}
if (!skip && r.appOp != AppOpsManager.OP_NONE
&& mService.mAppOpsService.noteOperation(r.appOp,
filter.receiverList.uid, filter.packageName)
!= AppOpsManager.MODE_ALLOWED) {
Slog.w(TAG, "Appop Denial: receiving "
+ r.intent.toString()
+ " to " + filter.receiverList.app
+ " (pid=" + filter.receiverList.pid
+ ", uid=" + filter.receiverList.uid + ")"
+ " requires appop " + AppOpsManager.opToName(r.appOp)
+ " due to sender " + r.callerPackage
+ " (uid " + r.callingUid + ")");
skip = true;
}
if (!mService.mIntentFirewall.checkBroadcast(r.intent, r.callingUid,
r.callingPid, r.resolvedType, filter.receiverList.uid)) {
return;
}
if (filter.receiverList.app == null || filter.receiverList.app.crashing) {
Slog.w(TAG, "Skipping deliver [" + mQueueName + "] " + r
+ " to " + filter.receiverList + ": process crashing");
skip = true;
}
if (!skip) {
// If this is not being sent as an ordered broadcast, then we
// don't want to touch the fields that keep track of the current
// state of ordered broadcasts.
if (ordered) {
r.receiver = filter.receiverList.receiver.asBinder();
r.curFilter = filter;
filter.receiverList.curBroadcast = r;
r.state = BroadcastRecord.CALL_IN_RECEIVE;
if (filter.receiverList.app != null) {
// Bump hosting application to no longer be in background
// scheduling class. Note that we can't do that if there
// isn't an app... but we can only be in that case for
// things that directly call the IActivityManager API, which
// are already core system stuff so don't matter for this.
r.curApp = filter.receiverList.app;
filter.receiverList.app.curReceiver = r;
mService.updateOomAdjLocked(r.curApp);
}
}
try {
if (DEBUG_BROADCAST_LIGHT) Slog.i(TAG_BROADCAST,
"Delivering to " + filter + " : " + r);
performReceiveLocked(filter.receiverList.app, filter.receiverList.receiver,
new Intent(r.intent), r.resultCode, r.resultData,
r.resultExtras, r.ordered, r.initialSticky, r.userId);
if (ordered) {
r.state = BroadcastRecord.CALL_DONE_RECEIVE;
}
} catch (RemoteException e) {
Slog.w(TAG, "Failure sending broadcast " + r.intent, e);
if (ordered) {
r.receiver = null;
r.curFilter = null;
filter.receiverList.curBroadcast = null;
if (filter.receiverList.app != null) {
filter.receiverList.app.curReceiver = null;
}
}
}
}
}
final void scheduleTempWhitelistLocked(int uid, long duration, BroadcastRecord r) {
if (duration > Integer.MAX_VALUE) {
duration = Integer.MAX_VALUE;
}
// XXX ideally we should pause the broadcast until everything behind this is done,
// or else we will likely start dispatching the broadcast before we have opened
// access to the app (there is a lot of asynchronicity behind this). It is probably
// not that big a deal, however, because the main purpose here is to allow apps
// to hold wake locks, and they will be able to acquire their wake lock immediately
// it just won't be enabled until we get through this work.
StringBuilder b = new StringBuilder();
b.append("broadcast:");
UserHandle.formatUid(b, r.callingUid);
b.append(":");
if (r.intent.getAction() != null) {
b.append(r.intent.getAction());
} else if (r.intent.getComponent() != null) {
b.append(r.intent.getComponent().flattenToShortString());
} else if (r.intent.getData() != null) {
b.append(r.intent.getData());
}
mHandler.obtainMessage(SCHEDULE_TEMP_WHITELIST_MSG, uid, (int)duration, b.toString())
.sendToTarget();
}
final void processNextBroadcast(boolean fromMsg) {
synchronized(mService) {
BroadcastRecord r;
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST, "processNextBroadcast ["
+ mQueueName + "]: "
+ mParallelBroadcasts.size() + " broadcasts, "
+ mOrderedBroadcasts.size() + " ordered broadcasts");
mService.updateCpuStats();
if (fromMsg) {
mBroadcastsScheduled = false;
}
// First, deliver any non-serialized broadcasts right away.
while (mParallelBroadcasts.size() > 0) {
r = mParallelBroadcasts.remove(0);
r.dispatchTime = SystemClock.uptimeMillis();
r.dispatchClockTime = System.currentTimeMillis();
final int N = r.receivers.size();
if (DEBUG_BROADCAST_LIGHT) Slog.v(TAG_BROADCAST, "Processing parallel broadcast ["
+ mQueueName + "] " + r);
for (int i=0; i<N; i++) {
Object target = r.receivers.get(i);
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"Delivering non-ordered on [" + mQueueName + "] to registered "
+ target + ": " + r);
deliverToRegisteredReceiverLocked(r, (BroadcastFilter)target, false);
}
addBroadcastToHistoryLocked(r);
if (DEBUG_BROADCAST_LIGHT) Slog.v(TAG_BROADCAST, "Done with parallel broadcast ["
+ mQueueName + "] " + r);
}
// Now take care of the next serialized one...
// If we are waiting for a process to come up to handle the next
// broadcast, then do nothing at this point. Just in case, we
// check that the process we're waiting for still exists.
if (mPendingBroadcast != null) {
if (DEBUG_BROADCAST_LIGHT) Slog.v(TAG_BROADCAST,
"processNextBroadcast [" + mQueueName + "]: waiting for "
+ mPendingBroadcast.curApp);
boolean isDead;
synchronized (mService.mPidsSelfLocked) {
ProcessRecord proc = mService.mPidsSelfLocked.get(mPendingBroadcast.curApp.pid);
isDead = proc == null || proc.crashing;
}
if (!isDead) {
// It's still alive, so keep waiting
return;
} else {
Slog.w(TAG, "pending app ["
+ mQueueName + "]" + mPendingBroadcast.curApp
+ " died before responding to broadcast");
mPendingBroadcast.state = BroadcastRecord.IDLE;
mPendingBroadcast.nextReceiver = mPendingBroadcastRecvIndex;
mPendingBroadcast = null;
}
}
boolean looped = false;
do {
if (mOrderedBroadcasts.size() == 0) {
// No more broadcasts pending, so all done!
mService.scheduleAppGcsLocked();
if (looped) {
// If we had finished the last ordered broadcast, then
// make sure all processes have correct oom and sched
// adjustments.
mService.updateOomAdjLocked();
}
return;
}
r = mOrderedBroadcasts.get(0);
boolean forceReceive = false;
// Ensure that even if something goes awry with the timeout
// detection, we catch "hung" broadcasts here, discard them,
// and continue to make progress.
//
// This is only done if the system is ready so that PRE_BOOT_COMPLETED
// receivers don't get executed with timeouts. They're intended for
// one time heavy lifting after system upgrades and can take
// significant amounts of time.
int numReceivers = (r.receivers != null) ? r.receivers.size() : 0;
if (mService.mProcessesReady && r.dispatchTime > 0) {
long now = SystemClock.uptimeMillis();
if ((numReceivers > 0) &&
(now > r.dispatchTime + (2*mTimeoutPeriod*numReceivers))) {
Slog.w(TAG, "Hung broadcast ["
+ mQueueName + "] discarded after timeout failure:"
+ " now=" + now
+ " dispatchTime=" + r.dispatchTime
+ " startTime=" + r.receiverTime
+ " intent=" + r.intent
+ " numReceivers=" + numReceivers
+ " nextReceiver=" + r.nextReceiver
+ " state=" + r.state);
broadcastTimeoutLocked(false); // forcibly finish this broadcast
forceReceive = true;
r.state = BroadcastRecord.IDLE;
}
}
if (r.state != BroadcastRecord.IDLE) {
if (DEBUG_BROADCAST) Slog.d(TAG_BROADCAST,
"processNextBroadcast("
+ mQueueName + ") called when not idle (state="
+ r.state + ")");
return;
}
if (r.receivers == null || r.nextReceiver >= numReceivers
|| r.resultAbort || forceReceive) {
// No more receivers for this broadcast! Send the final
// result if requested...
if (r.resultTo != null) {
try {
if (DEBUG_BROADCAST) Slog.i(TAG_BROADCAST,
"Finishing broadcast [" + mQueueName + "] "
+ r.intent.getAction() + " app=" + r.callerApp);
performReceiveLocked(r.callerApp, r.resultTo,
new Intent(r.intent), r.resultCode,
r.resultData, r.resultExtras, false, false, r.userId);
// Set this to null so that the reference
// (local and remote) isn't kept in the mBroadcastHistory.
r.resultTo = null;
} catch (RemoteException e) {
r.resultTo = null;
Slog.w(TAG, "Failure ["
+ mQueueName + "] sending broadcast result of "
+ r.intent, e);
}
}
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST, "Cancelling BROADCAST_TIMEOUT_MSG");
cancelBroadcastTimeoutLocked();
if (DEBUG_BROADCAST_LIGHT) Slog.v(TAG_BROADCAST,
"Finished with ordered broadcast " + r);
// ... and on to the next...
addBroadcastToHistoryLocked(r);
mOrderedBroadcasts.remove(0);
r = null;
looped = true;
continue;
}
} while (r == null);
// Get the next receiver...
int recIdx = r.nextReceiver++;
// Keep track of when this receiver started, and make sure there
// is a timeout message pending to kill it if need be.
r.receiverTime = SystemClock.uptimeMillis();
if (recIdx == 0) {
r.dispatchTime = r.receiverTime;
r.dispatchClockTime = System.currentTimeMillis();
if (DEBUG_BROADCAST_LIGHT) Slog.v(TAG_BROADCAST, "Processing ordered broadcast ["
+ mQueueName + "] " + r);
}
if (! mPendingBroadcastTimeoutMessage) {
long timeoutTime = r.receiverTime + mTimeoutPeriod;
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"Submitting BROADCAST_TIMEOUT_MSG ["
+ mQueueName + "] for " + r + " at " + timeoutTime);
setBroadcastTimeoutLocked(timeoutTime);
}
final BroadcastOptions brOptions = r.options;
final Object nextReceiver = r.receivers.get(recIdx);
if (nextReceiver instanceof BroadcastFilter) {
// Simple case: this is a registered receiver who gets
// a direct call.
BroadcastFilter filter = (BroadcastFilter)nextReceiver;
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"Delivering ordered ["
+ mQueueName + "] to registered "
+ filter + ": " + r);
deliverToRegisteredReceiverLocked(r, filter, r.ordered);
if (r.receiver == null || !r.ordered) {
// The receiver has already finished, so schedule to
// process the next one.
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST, "Quick finishing ["
+ mQueueName + "]: ordered="
+ r.ordered + " receiver=" + r.receiver);
r.state = BroadcastRecord.IDLE;
scheduleBroadcastsLocked();
} else {
if (brOptions != null && brOptions.getTemporaryAppWhitelistDuration() > 0) {
scheduleTempWhitelistLocked(filter.owningUid,
brOptions.getTemporaryAppWhitelistDuration(), r);
}
}
return;
}
// Hard case: need to instantiate the receiver, possibly
// starting its application process to host it.
ResolveInfo info =
(ResolveInfo)nextReceiver;
ComponentName component = new ComponentName(
info.activityInfo.applicationInfo.packageName,
info.activityInfo.name);
boolean skip = false;
int perm = mService.checkComponentPermission(info.activityInfo.permission,
r.callingPid, r.callingUid, info.activityInfo.applicationInfo.uid,
info.activityInfo.exported);
if (perm != PackageManager.PERMISSION_GRANTED) {
if (!info.activityInfo.exported) {
Slog.w(TAG, "Permission Denial: broadcasting "
+ r.intent.toString()
+ " from " + r.callerPackage + " (pid=" + r.callingPid
+ ", uid=" + r.callingUid + ")"
+ " is not exported from uid " + info.activityInfo.applicationInfo.uid
+ " due to receiver " + component.flattenToShortString());
} else {
Slog.w(TAG, "Permission Denial: broadcasting "
+ r.intent.toString()
+ " from " + r.callerPackage + " (pid=" + r.callingPid
+ ", uid=" + r.callingUid + ")"
+ " requires " + info.activityInfo.permission
+ " due to receiver " + component.flattenToShortString());
}
skip = true;
} else if (info.activityInfo.permission != null) {
final int opCode = AppOpsManager.permissionToOpCode(info.activityInfo.permission);
if (opCode != AppOpsManager.OP_NONE
&& mService.mAppOpsService.noteOperation(opCode, r.callingUid,
r.callerPackage) != AppOpsManager.MODE_ALLOWED) {
Slog.w(TAG, "Appop Denial: broadcasting "
+ r.intent.toString()
+ " from " + r.callerPackage + " (pid="
+ r.callingPid + ", uid=" + r.callingUid + ")"
+ " requires appop " + AppOpsManager.permissionToOp(
info.activityInfo.permission)
+ " due to registered receiver "
+ component.flattenToShortString());
skip = true;
}
}
if (!skip && info.activityInfo.applicationInfo.uid != Process.SYSTEM_UID &&
r.requiredPermissions != null && r.requiredPermissions.length > 0) {
for (int i = 0; i < r.requiredPermissions.length; i++) {
String requiredPermission = r.requiredPermissions[i];
try {
perm = AppGlobals.getPackageManager().
checkPermission(requiredPermission,
info.activityInfo.applicationInfo.packageName,
UserHandle
.getUserId(info.activityInfo.applicationInfo.uid));
} catch (RemoteException e) {
perm = PackageManager.PERMISSION_DENIED;
}
if (perm != PackageManager.PERMISSION_GRANTED) {
Slog.w(TAG, "Permission Denial: receiving "
+ r.intent + " to "
+ component.flattenToShortString()
+ " requires " + requiredPermission
+ " due to sender " + r.callerPackage
+ " (uid " + r.callingUid + ")");
skip = true;
break;
}
int appOp = AppOpsManager.permissionToOpCode(requiredPermission);
if (appOp != AppOpsManager.OP_NONE && appOp != r.appOp
&& mService.mAppOpsService.noteOperation(appOp,
info.activityInfo.applicationInfo.uid, info.activityInfo.packageName)
!= AppOpsManager.MODE_ALLOWED) {
Slog.w(TAG, "Appop Denial: receiving "
+ r.intent + " to "
+ component.flattenToShortString()
+ " requires appop " + AppOpsManager.permissionToOp(
requiredPermission)
+ " due to sender " + r.callerPackage
+ " (uid " + r.callingUid + ")");
skip = true;
break;
}
}
}
if (!skip && r.appOp != AppOpsManager.OP_NONE
&& mService.mAppOpsService.noteOperation(r.appOp,
info.activityInfo.applicationInfo.uid, info.activityInfo.packageName)
!= AppOpsManager.MODE_ALLOWED) {
Slog.w(TAG, "Appop Denial: receiving "
+ r.intent + " to "
+ component.flattenToShortString()
+ " requires appop " + AppOpsManager.opToName(r.appOp)
+ " due to sender " + r.callerPackage
+ " (uid " + r.callingUid + ")");
skip = true;
}
if (!skip) {
skip = !mService.mIntentFirewall.checkBroadcast(r.intent, r.callingUid,
r.callingPid, r.resolvedType, info.activityInfo.applicationInfo.uid);
}
boolean isSingleton = false;
try {
isSingleton = mService.isSingleton(info.activityInfo.processName,
info.activityInfo.applicationInfo,
info.activityInfo.name, info.activityInfo.flags);
} catch (SecurityException e) {
Slog.w(TAG, e.getMessage());
skip = true;
}
if ((info.activityInfo.flags&ActivityInfo.FLAG_SINGLE_USER) != 0) {
if (ActivityManager.checkUidPermission(
android.Manifest.permission.INTERACT_ACROSS_USERS,
info.activityInfo.applicationInfo.uid)
!= PackageManager.PERMISSION_GRANTED) {
Slog.w(TAG, "Permission Denial: Receiver " + component.flattenToShortString()
+ " requests FLAG_SINGLE_USER, but app does not hold "
+ android.Manifest.permission.INTERACT_ACROSS_USERS);
skip = true;
}
}
if (r.curApp != null && r.curApp.crashing) {
// If the target process is crashing, just skip it.
Slog.w(TAG, "Skipping deliver ordered [" + mQueueName + "] " + r
+ " to " + r.curApp + ": process crashing");
skip = true;
}
if (!skip) {
boolean isAvailable = false;
try {
isAvailable = AppGlobals.getPackageManager().isPackageAvailable(
info.activityInfo.packageName,
UserHandle.getUserId(info.activityInfo.applicationInfo.uid));
} catch (Exception e) {
// all such failures mean we skip this receiver
Slog.w(TAG, "Exception getting recipient info for "
+ info.activityInfo.packageName, e);
}
if (!isAvailable) {
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"Skipping delivery to " + info.activityInfo.packageName + " / "
+ info.activityInfo.applicationInfo.uid
+ " : package no longer available");
skip = true;
}
}
if (skip) {
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"Skipping delivery of ordered [" + mQueueName + "] "
+ r + " for whatever reason");
r.receiver = null;
r.curFilter = null;
r.state = BroadcastRecord.IDLE;
scheduleBroadcastsLocked();
return;
}
r.state = BroadcastRecord.APP_RECEIVE;
String targetProcess = info.activityInfo.processName;
r.curComponent = component;
final int receiverUid = info.activityInfo.applicationInfo.uid;
// If it's a singleton, it needs to be the same app or a special app
if (r.callingUid != Process.SYSTEM_UID && isSingleton
&& mService.isValidSingletonCall(r.callingUid, receiverUid)) {
info.activityInfo = mService.getActivityInfoForUser(info.activityInfo, 0);
}
r.curReceiver = info.activityInfo;
if (DEBUG_MU && r.callingUid > UserHandle.PER_USER_RANGE) {
Slog.v(TAG_MU, "Updated broadcast record activity info for secondary user, "
+ info.activityInfo + ", callingUid = " + r.callingUid + ", uid = "
+ info.activityInfo.applicationInfo.uid);
}
if (brOptions != null && brOptions.getTemporaryAppWhitelistDuration() > 0) {
scheduleTempWhitelistLocked(receiverUid,
brOptions.getTemporaryAppWhitelistDuration(), r);
}
// Broadcast is being executed, its package can't be stopped.
try {
AppGlobals.getPackageManager().setPackageStoppedState(
r.curComponent.getPackageName(), false, UserHandle.getUserId(r.callingUid));
} catch (RemoteException e) {
} catch (IllegalArgumentException e) {
Slog.w(TAG, "Failed trying to unstop package "
+ r.curComponent.getPackageName() + ": " + e);
}
// Is this receiver's application already running?
ProcessRecord app = mService.getProcessRecordLocked(targetProcess,
info.activityInfo.applicationInfo.uid, false);
if (app != null && app.thread != null) {
try {
app.addPackage(info.activityInfo.packageName,
info.activityInfo.applicationInfo.versionCode, mService.mProcessStats);
processCurBroadcastLocked(r, app);
return;
} catch (RemoteException e) {
Slog.w(TAG, "Exception when sending broadcast to "
+ r.curComponent, e);
} catch (RuntimeException e) {
Slog.wtf(TAG, "Failed sending broadcast to "
+ r.curComponent + " with " + r.intent, e);
// If some unexpected exception happened, just skip
// this broadcast. At this point we are not in the call
// from a client, so throwing an exception out from here
// will crash the entire system instead of just whoever
// sent the broadcast.
logBroadcastReceiverDiscardLocked(r);
finishReceiverLocked(r, r.resultCode, r.resultData,
r.resultExtras, r.resultAbort, false);
scheduleBroadcastsLocked();
// We need to reset the state if we failed to start the receiver.
r.state = BroadcastRecord.IDLE;
return;
}
// If a dead object exception was thrown -- fall through to
// restart the application.
}
// Not running -- get it started, to be executed when the app comes up.
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"Need to start app ["
+ mQueueName + "] " + targetProcess + " for broadcast " + r);
if ((r.curApp=mService.startProcessLocked(targetProcess,
info.activityInfo.applicationInfo, true,
r.intent.getFlags() | Intent.FLAG_FROM_BACKGROUND,
"broadcast", r.curComponent,
(r.intent.getFlags()&Intent.FLAG_RECEIVER_BOOT_UPGRADE) != 0, false, false))
== null) {
// Ah, this recipient is unavailable. Finish it if necessary,
// and mark the broadcast record as ready for the next.
Slog.w(TAG, "Unable to launch app "
+ info.activityInfo.applicationInfo.packageName + "/"
+ info.activityInfo.applicationInfo.uid + " for broadcast "
+ r.intent + ": process is bad");
logBroadcastReceiverDiscardLocked(r);
finishReceiverLocked(r, r.resultCode, r.resultData,
r.resultExtras, r.resultAbort, false);
scheduleBroadcastsLocked();
r.state = BroadcastRecord.IDLE;
return;
}
mPendingBroadcast = r;
mPendingBroadcastRecvIndex = recIdx;
}
}
final void setBroadcastTimeoutLocked(long timeoutTime) {
if (! mPendingBroadcastTimeoutMessage) {
Message msg = mHandler.obtainMessage(BROADCAST_TIMEOUT_MSG, this);
mHandler.sendMessageAtTime(msg, timeoutTime);
mPendingBroadcastTimeoutMessage = true;
}
}
final void cancelBroadcastTimeoutLocked() {
if (mPendingBroadcastTimeoutMessage) {
mHandler.removeMessages(BROADCAST_TIMEOUT_MSG, this);
mPendingBroadcastTimeoutMessage = false;
}
}
final void broadcastTimeoutLocked(boolean fromMsg) {
if (fromMsg) {
mPendingBroadcastTimeoutMessage = false;
}
if (mOrderedBroadcasts.size() == 0) {
return;
}
long now = SystemClock.uptimeMillis();
BroadcastRecord r = mOrderedBroadcasts.get(0);
if (fromMsg) {
if (mService.mDidDexOpt) {
// Delay timeouts until dexopt finishes.
mService.mDidDexOpt = false;
long timeoutTime = SystemClock.uptimeMillis() + mTimeoutPeriod;
setBroadcastTimeoutLocked(timeoutTime);
return;
}
if (!mService.mProcessesReady) {
// Only process broadcast timeouts if the system is ready. That way
// PRE_BOOT_COMPLETED broadcasts can't timeout as they are intended
// to do heavy lifting for system up.
return;
}
long timeoutTime = r.receiverTime + mTimeoutPeriod;
if (timeoutTime > now) {
// We can observe premature timeouts because we do not cancel and reset the
// broadcast timeout message after each receiver finishes. Instead, we set up
// an initial timeout then kick it down the road a little further as needed
// when it expires.
if (DEBUG_BROADCAST) Slog.v(TAG_BROADCAST,
"Premature timeout ["
+ mQueueName + "] @ " + now + ": resetting BROADCAST_TIMEOUT_MSG for "
+ timeoutTime);
setBroadcastTimeoutLocked(timeoutTime);
return;
}
}
BroadcastRecord br = mOrderedBroadcasts.get(0);
if (br.state == BroadcastRecord.WAITING_SERVICES) {
// In this case the broadcast had already finished, but we had decided to wait
// for started services to finish as well before going on. So if we have actually
// waited long enough time timeout the broadcast, let's give up on the whole thing
// and just move on to the next.
Slog.i(TAG, "Waited long enough for: " + (br.curComponent != null
? br.curComponent.flattenToShortString() : "(null)"));
br.curComponent = null;
br.state = BroadcastRecord.IDLE;
processNextBroadcast(false);
return;
}
Slog.w(TAG, "Timeout of broadcast " + r + " - receiver=" + r. receiver
+ ", started " + (now - r.receiverTime) + "ms ago");
r.receiverTime = now;
r.anrCount++;
// Current receiver has passed its expiration date.
if (r.nextReceiver <= 0) {
Slog.w(TAG, "Timeout on receiver with nextReceiver <= 0");
return;
}
ProcessRecord app = null;
String anrMessage = null;
Object curReceiver = r.receivers.get(r.nextReceiver-1);
Slog.w(TAG, "Receiver during timeout: " + curReceiver);
logBroadcastReceiverDiscardLocked(r);
if (curReceiver instanceof BroadcastFilter) {
BroadcastFilter bf = (BroadcastFilter)curReceiver;
if (bf.receiverList.pid != 0
&& bf.receiverList.pid != ActivityManagerService.MY_PID) {
synchronized (mService.mPidsSelfLocked) {
app = mService.mPidsSelfLocked.get(
bf.receiverList.pid);
}
}
} else {
app = r.curApp;
}
if (app != null) {
anrMessage = "Broadcast of " + r.intent.toString();
}
if (mPendingBroadcast == r) {
mPendingBroadcast = null;
}
// Move on to the next receiver.
finishReceiverLocked(r, r.resultCode, r.resultData,
r.resultExtras, r.resultAbort, false);
scheduleBroadcastsLocked();
if (anrMessage != null) {
// Post the ANR to the handler since we do not want to process ANRs while
// potentially holding our lock.
mHandler.post(new AppNotResponding(app, anrMessage));
}
}
private final int ringAdvance(int x, final int increment, final int ringSize) {
x += increment;
if (x < 0) return (ringSize - 1);
else if (x >= ringSize) return 0;
else return x;
}
private final void addBroadcastToHistoryLocked(BroadcastRecord r) {
if (r.callingUid < 0) {
// This was from a registerReceiver() call; ignore it.
return;
}
r.finishTime = SystemClock.uptimeMillis();
mBroadcastHistory[mHistoryNext] = r;
mHistoryNext = ringAdvance(mHistoryNext, 1, MAX_BROADCAST_HISTORY);
mBroadcastSummaryHistory[mSummaryHistoryNext] = r.intent;
mSummaryHistoryEnqueueTime[mSummaryHistoryNext] = r.enqueueClockTime;
mSummaryHistoryDispatchTime[mSummaryHistoryNext] = r.dispatchClockTime;
mSummaryHistoryFinishTime[mSummaryHistoryNext] = System.currentTimeMillis();
mSummaryHistoryNext = ringAdvance(mSummaryHistoryNext, 1, MAX_BROADCAST_SUMMARY_HISTORY);
}
boolean cleanupDisabledPackageReceiversLocked(
String packageName, Set<String> filterByClasses, int userId, boolean doit) {
boolean didSomething = false;
for (int i = mParallelBroadcasts.size() - 1; i >= 0; i--) {
didSomething |= mParallelBroadcasts.get(i).cleanupDisabledPackageReceiversLocked(
packageName, filterByClasses, userId, doit);
if (!doit && didSomething) {
return true;
}
}
for (int i = mOrderedBroadcasts.size() - 1; i >= 0; i--) {
didSomething |= mOrderedBroadcasts.get(i).cleanupDisabledPackageReceiversLocked(
packageName, filterByClasses, userId, doit);
if (!doit && didSomething) {
return true;
}
}
return didSomething;
}
final void logBroadcastReceiverDiscardLocked(BroadcastRecord r) {
final int logIndex = r.nextReceiver - 1;
if (logIndex >= 0 && logIndex < r.receivers.size()) {
Object curReceiver = r.receivers.get(logIndex);
if (curReceiver instanceof BroadcastFilter) {
BroadcastFilter bf = (BroadcastFilter) curReceiver;
EventLog.writeEvent(EventLogTags.AM_BROADCAST_DISCARD_FILTER,
bf.owningUserId, System.identityHashCode(r),
r.intent.getAction(), logIndex, System.identityHashCode(bf));
} else {
ResolveInfo ri = (ResolveInfo) curReceiver;
EventLog.writeEvent(EventLogTags.AM_BROADCAST_DISCARD_APP,
UserHandle.getUserId(ri.activityInfo.applicationInfo.uid),
System.identityHashCode(r), r.intent.getAction(), logIndex, ri.toString());
}
} else {
if (logIndex < 0) Slog.w(TAG,
"Discarding broadcast before first receiver is invoked: " + r);
EventLog.writeEvent(EventLogTags.AM_BROADCAST_DISCARD_APP,
-1, System.identityHashCode(r),
r.intent.getAction(),
r.nextReceiver,
"NONE");
}
}
final boolean dumpLocked(FileDescriptor fd, PrintWriter pw, String[] args,
int opti, boolean dumpAll, String dumpPackage, boolean needSep) {
SimpleDateFormat sdf = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
if (mParallelBroadcasts.size() > 0 || mOrderedBroadcasts.size() > 0
|| mPendingBroadcast != null) {
boolean printed = false;
for (int i = mParallelBroadcasts.size() - 1; i >= 0; i--) {
BroadcastRecord br = mParallelBroadcasts.get(i);
if (dumpPackage != null && !dumpPackage.equals(br.callerPackage)) {
continue;
}
if (!printed) {
if (needSep) {
pw.println();
}
needSep = true;
printed = true;
pw.println(" Active broadcasts [" + mQueueName + "]:");
}
pw.println(" Active Broadcast " + mQueueName + " #" + i + ":");
br.dump(pw, " ", sdf);
}
printed = false;
needSep = true;
for (int i = mOrderedBroadcasts.size() - 1; i >= 0; i--) {
BroadcastRecord br = mOrderedBroadcasts.get(i);
if (dumpPackage != null && !dumpPackage.equals(br.callerPackage)) {
continue;
}
if (!printed) {
if (needSep) {
pw.println();
}
needSep = true;
printed = true;
pw.println(" Active ordered broadcasts [" + mQueueName + "]:");
}
pw.println(" Active Ordered Broadcast " + mQueueName + " #" + i + ":");
mOrderedBroadcasts.get(i).dump(pw, " ", sdf);
}
if (dumpPackage == null || (mPendingBroadcast != null
&& dumpPackage.equals(mPendingBroadcast.callerPackage))) {
if (needSep) {
pw.println();
}
pw.println(" Pending broadcast [" + mQueueName + "]:");
if (mPendingBroadcast != null) {
mPendingBroadcast.dump(pw, " ", sdf);
} else {
pw.println(" (null)");
}
needSep = true;
}
}
int i;
boolean printed = false;
i = -1;
int lastIndex = mHistoryNext;
int ringIndex = lastIndex;
do {
// increasing index = more recent entry, and we want to print the most
// recent first and work backwards, so we roll through the ring backwards.
ringIndex = ringAdvance(ringIndex, -1, MAX_BROADCAST_HISTORY);
BroadcastRecord r = mBroadcastHistory[ringIndex];
if (r == null) {
continue;
}
i++; // genuine record of some sort even if we're filtering it out
if (dumpPackage != null && !dumpPackage.equals(r.callerPackage)) {
continue;
}
if (!printed) {
if (needSep) {
pw.println();
}
needSep = true;
pw.println(" Historical broadcasts [" + mQueueName + "]:");
printed = true;
}
if (dumpAll) {
pw.print(" Historical Broadcast " + mQueueName + " #");
pw.print(i); pw.println(":");
r.dump(pw, " ", sdf);
} else {
pw.print(" #"); pw.print(i); pw.print(": "); pw.println(r);
pw.print(" ");
pw.println(r.intent.toShortString(false, true, true, false));
if (r.targetComp != null && r.targetComp != r.intent.getComponent()) {
pw.print(" targetComp: "); pw.println(r.targetComp.toShortString());
}
Bundle bundle = r.intent.getExtras();
if (bundle != null) {
pw.print(" extras: "); pw.println(bundle.toString());
}
}
} while (ringIndex != lastIndex);
if (dumpPackage == null) {
lastIndex = ringIndex = mSummaryHistoryNext;
if (dumpAll) {
printed = false;
i = -1;
} else {
// roll over the 'i' full dumps that have already been issued
for (int j = i;
j > 0 && ringIndex != lastIndex;) {
ringIndex = ringAdvance(ringIndex, -1, MAX_BROADCAST_SUMMARY_HISTORY);
BroadcastRecord r = mBroadcastHistory[ringIndex];
if (r == null) {
continue;
}
j--;
}
}
// done skipping; dump the remainder of the ring. 'i' is still the ordinal within
// the overall broadcast history.
do {
ringIndex = ringAdvance(ringIndex, -1, MAX_BROADCAST_SUMMARY_HISTORY);
Intent intent = mBroadcastSummaryHistory[ringIndex];
if (intent == null) {
continue;
}
if (!printed) {
if (needSep) {
pw.println();
}
needSep = true;
pw.println(" Historical broadcasts summary [" + mQueueName + "]:");
printed = true;
}
if (!dumpAll && i >= 50) {
pw.println(" ...");
break;
}
i++;
pw.print(" #"); pw.print(i); pw.print(": ");
pw.println(intent.toShortString(false, true, true, false));
pw.print(" ");
TimeUtils.formatDuration(mSummaryHistoryDispatchTime[ringIndex]
- mSummaryHistoryEnqueueTime[ringIndex], pw);
pw.print(" dispatch ");
TimeUtils.formatDuration(mSummaryHistoryFinishTime[ringIndex]
- mSummaryHistoryDispatchTime[ringIndex], pw);
pw.println(" finish");
pw.print(" enq=");
pw.print(sdf.format(new Date(mSummaryHistoryEnqueueTime[ringIndex])));
pw.print(" disp=");
pw.print(sdf.format(new Date(mSummaryHistoryDispatchTime[ringIndex])));
pw.print(" fin=");
pw.println(sdf.format(new Date(mSummaryHistoryFinishTime[ringIndex])));
Bundle bundle = intent.getExtras();
if (bundle != null) {
pw.print(" extras: "); pw.println(bundle.toString());
}
} while (ringIndex != lastIndex);
}
return needSep;
}
}