需求是这样的,一个 Android 应用要求弹出一个通知,同时通知上还有两个按钮,通知本身点击和按钮点击都对应不同的响应,但是在实现后发现不管点哪个按钮最后都响应同一个事件, 既返回的参数都是同一个。
我的实现方式是这样的,BroadcastReceiver 接收到通知后根据 key 作出不同的响应:
val pendingIntent1 = PendingIntent.getBroadcast(context, 0, Intent(BROADCAST_ACTION).apply {
setClass(context, BroadcastReceiver::class.java)
putExtra(key, value1)
}, PendingIntent.FLAG_UPDATE_CURRENT)
val pendingIntent2 = PendingIntent.getBroadcast(context, 0, Intent(BROADCAST_ACTION).apply {
setClass(context, BroadcastReceiver::class.java)
putExtra(key, value2)
}, PendingIntent.FLAG_UPDATE_CURRENT)
val pendingIntent3 = PendingIntent.getBroadcast(context, 0, Intent(BROADCAST_ACTION).apply {
setClass(context, BroadcastReceiver::class.java)
putExtra(key, value3)
}, PendingIntent.FLAG_UPDATE_CURRENT)
一开始每个响应PendingIntent都是全局变量,只实例化一次,我怀疑是因为后续更新通知导致,所以改成每次更改通知时都新建 一个 PendingIntent,结果还是不行。
后来我把每个 PendingIntent 打印出来如下:
PendingIntent{2fd4457: android.os.BinderProxy@2f2cb44}
PendingIntent{5e7742d: android.os.BinderProxy@2f2cb44}
PendingIntent{c05d62: android.os.BinderProxy@2f2cb44}
而PendingIntent对象都toString() 方法是这样的:
@Override
public String toString() {
StringBuilder sb = new StringBuilder(128);
sb.append("PendingIntent{");
sb.append(Integer.toHexString(System.identityHashCode(this)));
sb.append(": ");
sb.append(mTarget != null ? mTarget.asBinder() : null);
sb.append('}');
return sb.toString();
}
从上面两张图可以得出结论,虽然 PendingIntent 每次都是一个新的对象,但是他们都指向一个 IIntentSender,呐泥,why?
首先, 我们看看 PendingIntent 是如何创建的?
PendingIntent 提供几个静态方法来实例化自己:
PendingIntent.getActivity()
PendingIntent.getBroadcast()
PendingIntent.getService()
...
以 getBroadcast() 为例
public static PendingIntent getBroadcast(Context context, int requestCode,
Intent intent, @Flags int flags) {
return getBroadcastAsUser(context, requestCode, intent, flags, context.getUser());
}
/**
* @hide
* Note that UserHandle.CURRENT will be interpreted at the time the
* broadcast is sent, not when the pending intent is created.
*/
public static PendingIntent getBroadcastAsUser(Context context, int requestCode,
Intent intent, int flags, UserHandle userHandle) {
String packageName = context.getPackageName();
String resolvedType = intent != null ? intent.resolveTypeIfNeeded(
context.getContentResolver()) : null;
try {
intent.prepareToLeaveProcess(context);
IIntentSender target =
ActivityManager.getService().getIntentSender(
ActivityManager.INTENT_SENDER_BROADCAST, packageName,
null, null, requestCode, new Intent[] { intent },
resolvedType != null ? new String[] { resolvedType } : null,
flags, null, userHandle.getIdentifier());
return target != null ? new PendingIntent(target) : null;
} catch (RemoteException e) {
throw e.rethrowFromSystemServer();
}
}
而上面打印出来的不同的 PendingIntent 对应同一个 target 就是上面通过 ActivityManager.getService().getIntentSender(…) 创建的,这里 ActivityManager.getService 返回的是 ActivityManagerService,我们去看看这个方法:
@Override
public IIntentSender getIntentSender(int type,
String packageName, IBinder token, String resultWho,
int requestCode, Intent[] intents, String[] resolvedTypes,
int flags, Bundle bOptions, int userId) {
//...删掉部分不重要的代码
synchronized(this) {
int callingUid = Binder.getCallingUid();
int origUserId = userId;
userId = mUserController.handleIncomingUser(Binder.getCallingPid(), callingUid, userId,
type == ActivityManager.INTENT_SENDER_BROADCAST,
ALLOW_NON_FULL, "getIntentSender", null);
if (origUserId == UserHandle.USER_CURRENT) {
// We don't want to evaluate this until the pending intent is
// actually executed. However, we do want to always do the
// security checking for it above.
userId = UserHandle.USER_CURRENT;
}
try {
if (callingUid != 0 && callingUid != SYSTEM_UID) {
final int uid = AppGlobals.getPackageManager().getPackageUid(packageName,
MATCH_DEBUG_TRIAGED_MISSING, UserHandle.getUserId(callingUid));
if (!UserHandle.isSameApp(callingUid, uid)) {
String msg = "Permission Denial: getIntentSender() from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid()
+ ", (need uid=" + uid + ")"
+ " is not allowed to send as package " + packageName;
Slog.w(TAG, msg);
throw new SecurityException(msg);
}
}
// ... 最终会调用和返回这个方法, 继续往下看看
return getIntentSenderLocked(type, packageName, callingUid, userId,
token, resultWho, requestCode, intents, resolvedTypes, flags, bOptions);
} catch (RemoteException e) {
throw new SecurityException(e);
}
}
}
IIntentSender getIntentSenderLocked(int type, String packageName,
int callingUid, int userId, IBinder token, String resultWho,
int requestCode, Intent[] intents, String[] resolvedTypes, int flags,
Bundle bOptions) {
// 删掉部分不重要的代码
final boolean noCreate = (flags&PendingIntent.FLAG_NO_CREATE) != 0;
final boolean cancelCurrent = (flags&PendingIntent.FLAG_CANCEL_CURRENT) != 0;
final boolean updateCurrent = (flags&PendingIntent.FLAG_UPDATE_CURRENT) != 0;
flags &= ~(PendingIntent.FLAG_NO_CREATE|PendingIntent.FLAG_CANCEL_CURRENT
|PendingIntent.FLAG_UPDATE_CURRENT);
// 这里根据传经来的一些参数构建来一个 key, 这个里很关键
PendingIntentRecord.Key key = new PendingIntentRecord.Key(type, packageName, activity,
resultWho, requestCode, intents, resolvedTypes, flags,
SafeActivityOptions.fromBundle(bOptions), userId);
WeakReference<PendingIntentRecord> ref;
ref = mIntentSenderRecords.get(key);
PendingIntentRecord rec = ref != null ? ref.get() : null;
if (rec != null) {
if (!cancelCurrent) {
if (updateCurrent) {
if (rec.key.requestIntent != null) {
rec.key.requestIntent.replaceExtras(intents != null ?
intents[intents.length - 1] : null);
}
if (intents != null) {
intents[intents.length-1] = rec.key.requestIntent;
rec.key.allIntents = intents;
rec.key.allResolvedTypes = resolvedTypes;
} else {
rec.key.allIntents = null;
rec.key.allResolvedTypes = null;
}
}
return rec;
}
makeIntentSenderCanceledLocked(rec);
mIntentSenderRecords.remove(key);
}
if (noCreate) {
return rec;
}
rec = new PendingIntentRecord(this, key, callingUid);
mIntentSenderRecords.put(key, rec.ref);
if (type == ActivityManager.INTENT_SENDER_ACTIVITY_RESULT) {
if (activity.pendingResults == null) {
activity.pendingResults
= new HashSet<WeakReference<PendingIntentRecord>>();
}
activity.pendingResults.add(rec.ref);
}
return rec;
}
上面的代码中可以看到最终返回的是PendingIntentRecord对象(既target = PendingIntentRecord),它是 IIntentSender.IIntentSender 的子类,调用者传入的参数会构建成一个对象 PendingIntentRecord.Key,而 mIntentSenderRecords 则是一个 HashMap 缓存所有的 PendingIntentRecord。
上面用新建的 key 去 mIntentSenderRecords 查询是否已经存在对应的 PendingIntentRecord,如存在则直接返回,否则新建一个 PendingIntentRecord 塞入 mIntentSenderRecords 并返回。
到这里稍微有一点豁然开朗,但是别急,还有一点点迷雾等待我们去拨开。
既然 HashMap 觉得 PendingIntentRecord 已经存在,那肯定是 PendingIntentRecord.Key 存在,那我们看看这个对象,它是 PendingIntentRecord 的内部类:
final static class Key {
final int type;
final String packageName;
final ActivityRecord activity;
final String who;
final int requestCode;
final Intent requestIntent;
final String requestResolvedType;
final SafeActivityOptions options;
Intent[] allIntents;
String[] allResolvedTypes;
final int flags;
final int hashCode;
final int userId;
private static final int ODD_PRIME_NUMBER = 37;
Key(int _t, String _p, ActivityRecord _a, String _w,
int _r, Intent[] _i, String[] _it, int _f, SafeActivityOptions _o, int _userId) {
// 删掉部分无用代码
requestIntent = _i != null ? _i[_i.length-1] : null; // 最后一个Intent
requestResolvedType = _it != null ? _it[_it.length-1] : null;
// 着重看一下 hash 生成的部分
int hash = 23;
// _f 是在 PendingIntent.getBroadcast 时传入的 flags
hash = (ODD_PRIME_NUMBER*hash) + _f;
// _r 是在 PendingIntent.getBroadcast 时传入的 requestCode
hash = (ODD_PRIME_NUMBER*hash) + _r;
hash = (ODD_PRIME_NUMBER*hash) + _userId;
if (_w != null) {
hash = (ODD_PRIME_NUMBER*hash) + _w.hashCode();
}
if (_a != null) {
hash = (ODD_PRIME_NUMBER*hash) + _a.hashCode();
}
// requestIntent 就是你传入的 Intent 数组里的最后一个 Intent,
// 一般使用的时候只有一个 Intent
// 这里为里生成 hashcode, 调用里 Intent.filterHashCode()
if (requestIntent != null) {
hash = (ODD_PRIME_NUMBER*hash) + requestIntent.filterHashCode();
}
if (requestResolvedType != null) {
hash = (ODD_PRIME_NUMBER*hash) + requestResolvedType.hashCode();
}
hash = (ODD_PRIME_NUMBER*hash) + (_p != null ? _p.hashCode() : 0);
hash = (ODD_PRIME_NUMBER*hash) + _t;
hashCode = hash;
}
public int hashCode() {
return hashCode;
}
}
接着看一下 Intent.filterHashCode 的生成算法
public int filterHashCode() {
int code = 0;
if (mAction != null) {
code += mAction.hashCode();
}
if (mData != null) {
code += mData.hashCode();
}
if (mType != null) {
code += mType.hashCode();
}
if (mPackage != null) {
code += mPackage.hashCode();
}
if (mComponent != null) {
code += mComponent.hashCode();
}
if (mCategories != null) {
code += mCategories.hashCode();
}
return code;
}
那我们捋一下 PendingIntentRecord.key 的 hashcode 和我们传入的哪些参数有关系:
记得我们上面是如何创建 PendingIntent 的吗?
val pendingIntent1 = PendingIntent.getBroadcast(context, 0, Intent(BROADCAST_ACTION).apply {
setClass(context, BroadcastReceiver::class.java)
putExtra(key, value1)
}, PendingIntent.FLAG_UPDATE_CURRENT)
我们传入的参数是:
context, requestCode, Intent, flags
而 Intent 又包含哪些参数呢?
private String mAction;
private Uri mData;
private String mType;
private String mPackage;
private ComponentName mComponent;
private int mFlags;
private ArraySet<String> mCategories;
private Bundle mExtras;
private Rect mSourceBounds;
private Intent mSelector;
private ClipData mClipData;
private int mContentUserHint = UserHandle.USER_CURRENT;
private String mLaunchToken;
大概是上面这些, 其中参与了生成 hashcode 就是上面提到的 filterHashCode 这个方法里的参数 所以总共参与生成 hashcode 的和调用中有关的参数是:
context, requestCode, flags, Intent.action, Intent.data, Intent.package, Intent.component, Intent.categories
再回过头来看我是如何创建 PendingIntent 的
val pendingIntent1 = PendingIntent.getBroadcast(context, 0, Intent(BROADCAST_ACTION).apply {
setClass(context, BroadcastReceiver::class.java)
putExtra(key, value1)
}, PendingIntent.FLAG_UPDATE_CURRENT)
val pendingIntent2 = PendingIntent.getBroadcast(context, 0, Intent(BROADCAST_ACTION).apply {
setClass(context, BroadcastReceiver::class.java)
putExtra(key, value2)
}, PendingIntent.FLAG_UPDATE_CURRENT)
val pendingIntent3 = PendingIntent.getBroadcast(context, 0, Intent(BROADCAST_ACTION).apply {
setClass(context, BroadcastReceiver::class.java)
putExtra(key, value3)
}, PendingIntent.FLAG_UPDATE_CURRENT)
😭 唯一不同的是 Intent.extras,却没有参与 hashcode 计算,不知道是 google 故意为止还是一个小 bug 😄。
总结:
- PendingIntent 中 的 target 是 PendingIntentRecord,它们都被缓存到 ActivityManagerService 中的一个HashMap中,是弱引用类型;
- 影响 PendingIntent 复用的参数主要是: requestCode, flags, Intent.action, Intent.data, Intent.package, Intent.component, Intent.categories
所以在我的做法基础上,只要修改一下 requestCode 为不同的值就解决了。
