相信广播大家都有用过,也知道安卓广播的一些基础知识,如静态广播、动态广播、粘性广播等等,但相信很多人都不知道系统层面是怎样实现这些广播特性的,这篇文章就让我们来聊一聊安卓广播机制的系统实现原理.
静态广播的注册
静态广播是通过PackageManagerService在启动的时候扫描已安装的应用去注册的.
在PackageManagerService的构造方法中,会去扫描应用安装目录,顺序是先扫描系统应用安装目录再扫描第三方应用安装目录.
PackageManagerService.scanDirLI就是用于扫描目录的方法,由于代码比较少,这里我们直接把它贴了上来:
private void scanDirLI(File dir, int flags, int scanMode, long currentTime) {
String[] files = dir.list();
if (files == null) {
return;
}
int i;
for (i=0; i<files.length; i++) {
File file = new File(dir, files[i]);
if (!isPackageFilename(files[i])) {
continue;
}
PackageParser.Package pkg = scanPackageLI(file,
flags|PackageParser.PARSE_MUST_BE_APK, scanMode, currentTime, null);
if (pkg == null && (flags & PackageParser.PARSE_IS_SYSTEM) == 0 &&
mLastScanError == PackageManager.INSTALL_FAILED_INVALID_APK) {
file.delete();
}
}
}
private static final boolean isPackageFilename(String name) {
return name != null && name.endsWith(".apk");
}
可以看到,它通过File.list方法列出目录下的所有后缀为”.apk”的文件传给scanPackageLI去处理.
而scanPackageLI(File scanFile,int parseFlags, int scanMode, long currentTime, UserHandle user)内部会调用它的重载方法scanPackageLI(PackageParser.Package pkg,int parseFlags, int scanMode, long currentTime, UserHandle user):
private PackageParser.Package scanPackageLI(File scanFile,int parseFlags, int scanMode, long currentTime, UserHandle user) {
...
final PackageParser.Package pkg = pp.parsePackage(scanFile,scanPath, mMetrics, parseFlags);
...
PackageParser.Package scannedPkg = scanPackageLI(pkg, parseFlags, scanMode | SCAN_UPDATE_SIGNATURE, currentTime, user);
...
}
在这个scanPackageLIl里面会解析Package并且将AndroidManifest.xml中注册的BroadcastReceiver保存下来:
...
N = pkg.receivers.size();
r = null;
for (i=0; i<N; i++) {
PackageParser.Activity a = pkg.receivers.get(i);
a.info.processName = fixProcessName(pkg.applicationInfo.processName,
a.info.processName, pkg.applicationInfo.uid);
mReceivers.addActivity(a, "receiver");
...
}
...
所以从上面获取静态广播的流程可以看出来:系统应用的广播先于第三方应用的广播注册,而安装在同一个目录下的应用的静态广播的注册顺序是按照File.list列出来的apk的顺序注册的.他们的注册顺序就决定了它们接收广播的顺序.
通过静态广播的注册流程,我们已经将静态广播注册到了PackageManagerService的mReceivers中,而我们可以使用PackageManagerService.queryIntentReceivers方法查询intent对应的静态广播
public List<ResolveInfo> queryIntentReceivers(Intent intent, String resolvedType, int flags, int userId) {
if (!sUserManager.exists(userId)) return Collections.emptyList();
ComponentName comp = intent.getComponent();
if (comp == null) {
if (intent.getSelector() != null) {
intent = intent.getSelector();
comp = intent.getComponent();
}
}
if (comp != null) {
List<ResolveInfo> list = new ArrayList<ResolveInfo>(1);
ActivityInfo ai = getReceiverInfo(comp, flags, userId);
if (ai != null) {
ResolveInfo ri = new ResolveInfo();
ri.activityInfo = ai;
list.add(ri);
}
return list;
}
synchronized (mPackages) {
String pkgName = intent.getPackage();
if (pkgName == null) {
return mReceivers.queryIntent(intent, resolvedType, flags, userId);
}
final PackageParser.Package pkg = mPackages.get(pkgName);
if (pkg != null) {
return mReceivers.queryIntentForPackage(intent, resolvedType, flags, pkg.receivers,
userId);
}
return null;
}
}
动态广播的注册
我们调用Context.registerReceiver最后会调到ActivityManagerService.registerReceiver:
public Intent registerReceiver(IApplicationThread caller, String callerPackage, IIntentReceiver receiver, IntentFilter filter, String permission, int userId) {
...
ReceiverList rl = (ReceiverList)mRegisteredReceivers.get(receiver.asBinder());
...
BroadcastFilter bf = new BroadcastFilter(filter, rl, callerPackage, permission, callingUid, userId);
...
mReceiverResolver.addFilter(bf);
...
}
所以通过mReceiverResolver.queryIntent就能获得intent对应的动态广播了.
发送广播
ContextImpl.sendBroadcast中会调用ActivityManagerNative.getDefault().broadcastIntent()
public void sendBroadcast(Intent intent) {
warnIfCallingFromSystemProcess();
String resolvedType = intent.resolveTypeIfNeeded(getContentResolver());
try {
intent.prepareToLeaveProcess();
ActivityManagerNative.getDefault().broadcastIntent(
mMainThread.getApplicationThread(), intent, resolvedType, null,
Activity.RESULT_OK, null, null, null, AppOpsManager.OP_NONE, false, false,getUserId());
} catch (RemoteException e) {
}
}
实际是调用ActivityManagerService.broadcastIntent:
public final int broadcastIntent(IApplicationThread caller,
Intent intent, String resolvedType, IIntentReceiver resultTo,
int resultCode, String resultData, Bundle map,
String requiredPermission, int appOp, boolean serialized, boolean sticky, int userId) {
enforceNotIsolatedCaller("broadcastIntent");
synchronized(this) {
intent = verifyBroadcastLocked(intent);
final ProcessRecord callerApp = getRecordForAppLocked(caller);
final int callingPid = Binder.getCallingPid();
final int callingUid = Binder.getCallingUid();
final long origId = Binder.clearCallingIdentity();
int res = broadcastIntentLocked(callerApp,
callerApp != null ? callerApp.info.packageName : null,
intent, resolvedType, resultTo,
resultCode, resultData, map, requiredPermission, appOp, serialized, sticky,
callingPid, callingUid, userId);
Binder.restoreCallingIdentity(origId);
return res;
}
}
ActivityManagerService.broadcastIntent中又会调用ActivityManagerService.broadcastIntentLocked,而broadcastIntentLocked中的关键代码如下:
// 静态广播
List receivers = null;
// 动态广播
List<BroadcastFilter> registeredReceivers = null;
if ((intent.getFlags()&Intent.FLAG_RECEIVER_REGISTERED_ONLY)
== 0) {
// 查询静态广播
receivers = collectReceiverComponents(intent, resolvedType, users);
}
if (intent.getComponent() == null) {
// 查询动态广播
registeredReceivers = mReceiverResolver.queryIntent(intent,
resolvedType, false, userId);
}
final boolean replacePending =
(intent.getFlags()&Intent.FLAG_RECEIVER_REPLACE_PENDING) != 0;
int NR = registeredReceivers != null ? registeredReceivers.size() : 0;
if (!ordered && NR > 0) {
final BroadcastQueue queue = broadcastQueueForIntent(intent);
BroadcastRecord r = new BroadcastRecord(queue, intent, callerApp,
callerPackage, callingPid, callingUid, resolvedType, requiredPermission,
appOp, registeredReceivers, resultTo, resultCode, resultData, map,
ordered, sticky, false, userId);
final boolean replaced = replacePending && queue.replaceParallelBroadcastLocked(r);
if (!replaced) {
// 发送动态广播
queue.enqueueParallelBroadcastLocked(r);
queue.scheduleBroadcastsLocked();
}
registeredReceivers = null;
NR = 0;
}
...
if ((receivers != null && receivers.size() > 0)
|| resultTo != null) {
BroadcastQueue queue = broadcastQueueForIntent(intent);
BroadcastRecord r = new BroadcastRecord(queue, intent, callerApp,
callerPackage, callingPid, callingUid, resolvedType,
requiredPermission, appOp, receivers, resultTo, resultCode,
resultData, map, ordered, sticky, false, userId);
boolean replaced = replacePending && queue.replaceOrderedBroadcastLocked(r);
if (!replaced) {
// 发送静态广播
queue.enqueueOrderedBroadcastLocked(r);
queue.scheduleBroadcastsLocked();
}
}
大家应该都有听说过动态广播会优先于静态广播,从上面的代码我们可以看到,这实际是因为安卓的源代码就是按这个顺序写的…
最后我们来看一下ActivityManagerService.collectReceiverComponents方法,实际上静态广播静态就是从PackageManagerService中查询的:
private List<ResolveInfo> collectReceiverComponents(Intent intent, String resolvedType,
int[] users) {
...
List<ResolveInfo> newReceivers = AppGlobals.getPackageManager()
.queryIntentReceivers(intent, resolvedType, STOCK_PM_FLAGS, user);
...
粘性广播的实现原理
ActivityManagerService.broadcastIntentLocked有下面这样一段代码,它将粘性广播存到了mStickyBroadcasts中。
if (sticky) {
...
ArrayMap<String, ArrayList<Intent>> stickies = mStickyBroadcasts.get(userId);
if (stickies == null) {
stickies = new ArrayMap<String, ArrayList<Intent>>();
mStickyBroadcasts.put(userId, stickies);
}
ArrayList<Intent> list = stickies.get(intent.getAction());
if (list == null) {
list = new ArrayList<Intent>();
stickies.put(intent.getAction(), list);
}
int N = list.size();
int i;
for (i=0; i<N; i++) {
if (intent.filterEquals(list.get(i))) {
// This sticky already exists, replace it.
list.set(i, new Intent(intent));
break;
}
}
if (i >= N) {
list.add(new Intent(intent));
}
}
而ManagerService.registerReceiver会获取之前发送的粘性广播,再次发送给刚刚注册的receiver:
...
List allSticky = null;
// 获取符合的粘性广播
Iterator actions = filter.actionsIterator();
if (actions != null) {
while (actions.hasNext()) {
String action = (String)actions.next();
allSticky = getStickiesLocked(action, filter, allSticky,
UserHandle.USER_ALL);
allSticky = getStickiesLocked(action, filter, allSticky,
UserHandle.getUserId(callingUid));
}
} else {
allSticky = getStickiesLocked(null, filter, allSticky,
UserHandle.USER_ALL);
allSticky = getStickiesLocked(null, filter, allSticky,
UserHandle.getUserId(callingUid));
}
...
//向新注册的receiver发送粘性广播
if (allSticky != null) {
ArrayList receivers = new ArrayList();
receivers.add(bf);
int N = allSticky.size();
for (int i=0; i<N; i++) {
Intent intent = (Intent)allSticky.get(i);
BroadcastQueue queue = broadcastQueueForIntent(intent);
BroadcastRecord r = new BroadcastRecord(queue, intent, null,
null, -1, -1, null, null, AppOpsManager.OP_NONE, receivers, null, 0,
null, null, false, true, true, -1);
queue.enqueueParallelBroadcastLocked(r);
queue.scheduleBroadcastsLocked();
}
}
...
getStickiesLocked即从mStickyBroadcasts中查询之前发送过的粘性广播
private final List getStickiesLocked(String action, IntentFilter filter,
List cur, int userId) {
final ContentResolver resolver = mContext.getContentResolver();
ArrayMap<String, ArrayList<Intent>> stickies = mStickyBroadcasts.get(userId);
if (stickies == null) {
return cur;
}
final ArrayList<Intent> list = stickies.get(action);
if (list == null) {
return cur;
}
int N = list.size();
for (int i=0; i<N; i++) {
Intent intent = list.get(i);
if (filter.match(resolver, intent, true, TAG) >= 0) {
if (cur == null) {
cur = new ArrayList<Intent>();
}
cur.add(intent);
}
}
return cur;
}
广播队列
从ActivityManagerService.broadcastIntentLocked中我们可以看到,实际上它不是直接将广播发送到BroadcastReceiver中的.
而是将他包装到BroadcastRecord中,再放进BroadcastQueue:
BroadcastQueue queue = broadcastQueueForIntent(intent);
BroadcastRecord r = new BroadcastRecord(queue, intent, null,
null, -1, -1, null, null, AppOpsManager.OP_NONE, receivers, null, 0,
null, null, false, true, true, -1);
queue.enqueueParallelBroadcastLocked(r);
queue.scheduleBroadcastsLocked();
enqueueParallelBroadcastLocked方法用于并发执行广播的发送.它很简单,就是将BroadcastRecord放到了mParallelBroadcasts中:
public void enqueueParallelBroadcastLocked(BroadcastRecord r) {
mParallelBroadcasts.add(r);
}
scheduleBroadcastsLocked方法同样很简单,就是向mHandler发送了个BROADCAST_INTENT_MSG消息:
public void scheduleBroadcastsLocked() {
if (mBroadcastsScheduled) {
return;
}
mHandler.sendMessage(mHandler.obtainMessage(BROADCAST_INTENT_MSG, this));
mBroadcastsScheduled = true;
}
这个时候我们就需要再去看看mHandler在接收到BROADCAST_INTENT_MSG消息的时候会做些什么:
final Handler mHandler = new Handler() {
public void handleMessage(Message msg) {
switch (msg.what) {
case BROADCAST_INTENT_MSG: {
processNextBroadcast(true);
} break;
case BROADCAST_TIMEOUT_MSG: {
synchronized (mService) {
broadcastTimeoutLocked(true);
}
} break;
}
}
};
processNextBroadcast方法用于从队列中获取广播消息并发送给BroadcastReceiver,它内部有两个分支,并行处理和串行处理.
并行处理
例如动态注册的非有序广播等就是使用并行处理,我们先看看并行处理的分支:
final void processNextBroadcast(boolean fromMsg) {
synchronized(mService) {
BroadcastRecord r;
mService.updateCpuStats();
if (fromMsg) {
mBroadcastsScheduled = false;
}
while (mParallelBroadcasts.size() > 0) {
r = mParallelBroadcasts.remove(0);
r.dispatchTime = SystemClock.uptimeMillis();
r.dispatchClockTime = System.currentTimeMillis();
final int N = r.receivers.size();
for (int i=0; i<N; i++) {
Object target = r.receivers.get(i);
// 发送消息给Receiver
deliverToRegisteredReceiverLocked(r, (BroadcastFilter)target, false);
}
addBroadcastToHistoryLocked(r);
}
...
}
...
}
private final void deliverToRegisteredReceiverLocked(BroadcastRecord r,
BroadcastFilter filter, boolean ordered) {
...
// 获取BroadcastReceiver的Binder
r.receiver = filter.receiverList.receiver.asBinder();
...
// 使用Binder机制将消息传递给BroadcastReceiver
performReceiveLocked(filter.receiverList.app, filter.receiverList.receiver,
new Intent(r.intent), r.resultCode, r.resultData,
r.resultExtras, r.ordered, r.initialSticky, r.userId);
...
}
void performReceiveLocked(ProcessRecord app, IIntentReceiver receiver,
Intent intent, int resultCode, String data, Bundle extras,
boolean ordered, boolean sticky, int sendingUser) throws RemoteException {
......
//通过Binder将消息处理传到应用进程,应用进程内部再使用Handler机制,将消息处理放到主线程中
app.thread.scheduleRegisteredReceiver(receiver, intent, resultCode,
data, extras, ordered, sticky, sendingUser, app.repProcState);
......
}
}
串行处理
例如有序广播和静态广播等,会通过enqueueOrderedBroadcastLocked传给BroadcastQueue:
public void enqueueOrderedBroadcastLocked(BroadcastRecord r) {
mOrderedBroadcasts.add(r);
}
然后在processNextBroadcast里面会对mOrderedBroadcasts进行特殊处理,但是恕我愚钝,这部分代码比较复杂,我现在还没有搞懂它实际的怎么运行的.这块就留下来之后再讲了.
总结
广播队列传送广播给Receiver的原理其实就是将BroadcastReceiver和消息都放到BroadcastRecord里面,然后通过Handler机制遍历BroadcastQueue里面的BroadcastRecord,将消息发送给BroadcastReceiver:
1.png
所以整个广播的机制可以总结成下面这张图:
2.png
