Android 中要禁用 APP 或四大组件,可使用PackageManager提供的方法:
/**
* Set the enabled setting for an application
* This setting will override any enabled state which may have been set by the application in
* its manifest. It also overrides the enabled state set in the manifest for any of the
* application's components. It does not override any enabled state set by
* {@link #setComponentEnabledSetting} for any of the application's components.
*
* @param packageName The package name of the application to enable
* @param newState The new enabled state for the application.
* @param flags Optional behavior flags.
*/
public abstract void setApplicationEnabledSetting(String packageName,
@EnabledState int newState, @EnabledFlags int flags);
/**
* Set the enabled setting for a package component (activity, receiver, service, provider).
* This setting will override any enabled state which may have been set by the component in its
* manifest.
*
* @param componentName The component to enable
* @param newState The new enabled state for the component.
* @param flags Optional behavior flags.
*/
public abstract void setComponentEnabledSetting(ComponentName componentName,
@EnabledState int newState, @EnabledFlags int flags);
要想使用这两个 API 得先获取权限。
权限获取
获取权限又有几种情况几个步骤,如下:
1、在 Manifest 里面声明权限:
<uses-permission android:name="android.permission.CHANGE_COMPONENT_ENABLED_STATE" />
2、使用系统签名
在申明上面的权限时,AS 会提示:
Permission is only granted to system apps less... (Ctrl+F1)
Permissions with the protection level signature, privileged or signatureOrSystem are only granted to system apps. If an app is a regular non-system app, it will never be able to use these permissions.
这就是说,这个权限只有系统 APP 可以获取到,这时就需要使用系统签名来签名 APP 了。
如何给 APP 系统签名,方法有多种,比如:
1、APP 源码放在系统源码中编译;
2、APK 文件放在系统源码中重签名;
3、导出系统签名文件,给 APK 签名;
4、使用系统签名,制作 keystore,放入 AS 使用。
相关方法,网上文章很多,我也在公众号推送过我自己的方法,有兴趣可以去查阅。
3、添加 sharedUserId
如果你还想在当前 APP 中去操作其他 APP,在上面都配置好的前提下,还可能会出现类似如下的错误信息:
java.lang.SecurityException: Permission Denial: attempt to change component state from pid=27978, uid=10111, package uid=10087
这时,就需要再给 APP 添加 sharedUserId,让 APP 运行在 system 进程中:
<manifest xmlns:android="http://schemas.android.com/apk/res/android"
android:sharedUserId="android.uid.system">
实际添加了 “
android.uid.system” 后,上一步的uses-permission可以省略,因为 system 进程默认有这个权限。
添加好权限后,接下来就是使用了。
既然是 PackageManager 的方法,而且这两个方法也不是静态的,那就要先获取 PackageManager 的实例了。这两个方法还是 abstract 的,那就说明 PackageManager 也是 abstract 的,不能 new ,那如何获取实例呢?
我们知道系统很多 Manager 都是单实例不能 new 的,PackageManager 也一样,那是不是也是通过 getSystemService 获取呢?并不是,注释给出来了:
/**
* Class for retrieving various kinds of information related to the application
* packages that are currently installed on the device.
*
* You can find this class through {@link Context#getPackageManager}.
*/
public abstract class PackageManager {
知道如何获取实例之后,我们就可以开始调用了,先看如何禁用 APP。
禁用 APP
在开始操作前,我们应该先了解下这个方法及其参数定义和作用:
setApplicationEnabledSetting(String packageName,
@EnabledState int newState, @EnabledFlags int flags)
1、packageName,要禁用的 APP 的包名。
2、newState,就是要设置成的状态,它的取值通过注解@EnabledState进行限制,有如下几种:
/** @hide */
@IntDef(prefix = { "COMPONENT_ENABLED_STATE_" }, value = {
//将APP或组件设置为manifest定义的状态。
COMPONENT_ENABLED_STATE_DEFAULT,
//启用APP或组件,忽略manifest的定义。
COMPONENT_ENABLED_STATE_ENABLED,
//禁用APP或组件,忽略manifest的定义。
COMPONENT_ENABLED_STATE_DISABLED,
//以用户身份禁用APP,忽略manifest的定义。不能用于组件操作。
COMPONENT_ENABLED_STATE_DISABLED_USER,
//禁用APP直到用户想用才出现。也就是说,正常情况下,用户看不到(比如在Launcher上);但是特殊情况下,用户还是能看到并选择到(比如输入法APP)。不能用于组件操作。
COMPONENT_ENABLED_STATE_DISABLED_UNTIL_USED,
})
@Retention(RetentionPolicy.SOURCE)
public @interface EnabledState {}
3、flags,是 Optional behavior flags,它的取值由注解@EnabledFlags限制:
/** @hide */
@IntDef(flag = true, prefix = { "DONT_KILL_APP" }, value = {
//仅对组件的操作起作用,用于指示禁用组件时,不 kill 组件所在的 APP。
DONT_KILL_APP
})
@Retention(RetentionPolicy.SOURCE)
public @interface EnabledFlags {}
因此,这里我们禁用 APP 时不需要关注第三个参数,置 0 即可,代码如下:
PackageManager pm = context.getPackageManager();
pm.setApplicationEnabledSetting(
pkgName,
PackageManager.COMPONENT_ENABLED_STATE_DISABLED,
0
);
如果要重新启用APP,只需按前面的限制修改第二个参数即可。
PS:
这里禁用 APP 之后,APP 图标会从 Launcher 上消失,在Settings > APP List 中可看到 APP 变为 disable 状态,用户无法使用。
如果只是想让用户无法使用,不让图标消失,可参考如下文章:
https://blog.csdn.net/qq_25815655/article/details/78355259
禁用组件
与禁用 APP,只需要 APP 包名不同,禁用组件时,还需要知道组件的名字,也就是这两个方法第一个参数不一样的原因。
setComponentEnabledSetting(ComponentName componentName,
@EnabledState int newState, @EnabledFlags int flags)
这里四大组件(activity, receiver, service, provider)都可以禁用,具体的参数说明就不再提了。
最后,禁用代码如下:
PackageManager pm = context.getPackageManager();
ComponentName name = new ComponentName(pkg, clazz);
pm.setComponentEnabledSetting(name,
PackageManager.COMPONENT_ENABLED_STATE_DISABLED,
PackageManager.DONT_KILL_APP);
补充
前面说了,PackageManager 是抽象类,它通过AIDL类 IPackageManager 与 PackageManagerService 通信,上面两个方法的具体实现,也在 Service 中。
PackageManagerService 的路径如下:
frameworks\base\services\core\java\com\android\server\pm\PackageManagerService.java
两个方法的实现如下:
public void setApplicationEnabledSetting(String appPackageName,
int newState, int flags, int userId, String callingPackage) {
if (!sUserManager.exists(userId)) return;
if (callingPackage == null) {
callingPackage = Integer.toString(Binder.getCallingUid());
}
setEnabledSetting(appPackageName, null, newState, flags, userId, callingPackage);
}
@Override
public void setComponentEnabledSetting(ComponentName componentName,
int newState, int flags, int userId) {
if (!sUserManager.exists(userId)) return;
setEnabledSetting(componentName.getPackageName(),
componentName.getClassName(), newState, flags, userId, null);
}
我们可以看到它们最后都是调用了 setEnabledSetting 方法,这个方法的实现代码很多,这里我将它贴出来就不一一分析了,有兴许可以自己研究下。
private void setEnabledSetting(final String packageName, String className, int newState,
final int flags, int userId, String callingPackage) {
if (!(newState == COMPONENT_ENABLED_STATE_DEFAULT
|| newState == COMPONENT_ENABLED_STATE_ENABLED
|| newState == COMPONENT_ENABLED_STATE_DISABLED
|| newState == COMPONENT_ENABLED_STATE_DISABLED_USER
|| newState == COMPONENT_ENABLED_STATE_DISABLED_UNTIL_USED)) {
throw new IllegalArgumentException("Invalid new component state: "
+ newState);
}
PackageSetting pkgSetting;
final int callingUid = Binder.getCallingUid();
final int permission;
if (callingUid == Process.SYSTEM_UID) {
permission = PackageManager.PERMISSION_GRANTED;
} else {
permission = mContext.checkCallingOrSelfPermission(
android.Manifest.permission.CHANGE_COMPONENT_ENABLED_STATE);
}
enforceCrossUserPermission(callingUid, userId,
false /* requireFullPermission */, true /* checkShell */, "set enabled");
final boolean allowedByPermission = (permission == PackageManager.PERMISSION_GRANTED);
boolean sendNow = false;
boolean isApp = (className == null);
final boolean isCallerInstantApp = (getInstantAppPackageName(callingUid) != null);
String componentName = isApp ? packageName : className;
int packageUid = -1;
ArrayList<String> components;
// reader
synchronized (mPackages) {
pkgSetting = mSettings.mPackages.get(packageName);
if (pkgSetting == null) {
if (!isCallerInstantApp) {
if (className == null) {
throw new IllegalArgumentException("Unknown package: " + packageName);
}
throw new IllegalArgumentException(
"Unknown component: " + packageName + "/" + className);
} else {
// throw SecurityException to prevent leaking package information
throw new SecurityException(
"Attempt to change component state; "
+ "pid=" + Binder.getCallingPid()
+ ", uid=" + callingUid
+ (className == null
? ", package=" + packageName
: ", component=" + packageName + "/" + className));
}
}
}
// Limit who can change which apps
if (!UserHandle.isSameApp(callingUid, pkgSetting.appId)) {
// Don't allow apps that don't have permission to modify other apps
if (!allowedByPermission
|| filterAppAccessLPr(pkgSetting, callingUid, userId)) {
throw new SecurityException(
"Attempt to change component state; "
+ "pid=" + Binder.getCallingPid()
+ ", uid=" + callingUid
+ (className == null
? ", package=" + packageName
: ", component=" + packageName + "/" + className));
}
// Don't allow changing protected packages.
if (mProtectedPackages.isPackageStateProtected(userId, packageName)) {
throw new SecurityException("Cannot disable a protected package: " + packageName);
}
}
synchronized (mPackages) {
if (callingUid == Process.SHELL_UID
&& (pkgSetting.pkgFlags & ApplicationInfo.FLAG_TEST_ONLY) == 0) {
// Shell can only change whole packages between ENABLED and DISABLED_USER states
// unless it is a test package.
int oldState = pkgSetting.getEnabled(userId);
if (className == null
&&
(oldState == COMPONENT_ENABLED_STATE_DISABLED_USER
|| oldState == COMPONENT_ENABLED_STATE_DEFAULT
|| oldState == COMPONENT_ENABLED_STATE_ENABLED)
&&
(newState == COMPONENT_ENABLED_STATE_DISABLED_USER
|| newState == COMPONENT_ENABLED_STATE_DEFAULT
|| newState == COMPONENT_ENABLED_STATE_ENABLED)) {
// ok
} else {
throw new SecurityException(
"Shell cannot change component state for " + packageName + "/"
+ className + " to " + newState);
}
}
}
if (className == null) {
// We're dealing with an application/package level state change
synchronized (mPackages) {
if (pkgSetting.getEnabled(userId) == newState) {
// Nothing to do
return;
}
}
// If we're enabling a system stub, there's a little more work to do.
// Prior to enabling the package, we need to decompress the APK(s) to the
// data partition and then replace the version on the system partition.
final PackageParser.Package deletedPkg = pkgSetting.pkg;
final boolean isSystemStub = deletedPkg.isStub
&& deletedPkg.isSystemApp();
if (isSystemStub
&& (newState == PackageManager.COMPONENT_ENABLED_STATE_DEFAULT
|| newState == PackageManager.COMPONENT_ENABLED_STATE_ENABLED)) {
final File codePath = decompressPackage(deletedPkg);
if (codePath == null) {
Slog.e(TAG, "couldn't decompress pkg: " + pkgSetting.name);
return;
}
// TODO remove direct parsing of the package object during internal cleanup
// of scan package
// We need to call parse directly here for no other reason than we need
// the new package in order to disable the old one [we use the information
// for some internal optimization to optionally create a new package setting
// object on replace]. However, we can't get the package from the scan
// because the scan modifies live structures and we need to remove the
// old [system] package from the system before a scan can be attempted.
// Once scan is indempotent we can remove this parse and use the package
// object we scanned, prior to adding it to package settings.
final PackageParser pp = new PackageParser();
pp.setSeparateProcesses(mSeparateProcesses);
pp.setDisplayMetrics(mMetrics);
pp.setCallback(mPackageParserCallback);
final PackageParser.Package tmpPkg;
try {
final int parseFlags = mDefParseFlags
| PackageParser.PARSE_MUST_BE_APK
| PackageParser.PARSE_IS_SYSTEM
| PackageParser.PARSE_IS_SYSTEM_DIR;
tmpPkg = pp.parsePackage(codePath, parseFlags);
} catch (PackageParserException e) {
Slog.w(TAG, "Failed to parse compressed system package:" + pkgSetting.name, e);
return;
}
synchronized (mInstallLock) {
// Disable the stub and remove any package entries
removePackageLI(deletedPkg, true);
synchronized (mPackages) {
disableSystemPackageLPw(deletedPkg, tmpPkg);
}
final PackageParser.Package newPkg;
try (PackageFreezer freezer =
freezePackage(deletedPkg.packageName, "setEnabledSetting")) {
final int parseFlags = mDefParseFlags | PackageParser.PARSE_CHATTY
| PackageParser.PARSE_ENFORCE_CODE;
newPkg = scanPackageTracedLI(codePath, parseFlags, 0 /*scanFlags*/,
0 /*currentTime*/, null /*user*/);
prepareAppDataAfterInstallLIF(newPkg);
synchronized (mPackages) {
try {
updateSharedLibrariesLPr(newPkg, null);
} catch (PackageManagerException e) {
Slog.e(TAG, "updateAllSharedLibrariesLPw failed: ", e);
}
updatePermissionsLPw(newPkg.packageName, newPkg,
UPDATE_PERMISSIONS_ALL | UPDATE_PERMISSIONS_REPLACE_PKG);
mSettings.writeLPr();
}
} catch (PackageManagerException e) {
// Whoops! Something went wrong; try to roll back to the stub
Slog.w(TAG, "Failed to install compressed system package:"
+ pkgSetting.name, e);
// Remove the failed install
removeCodePathLI(codePath);
// Install the system package
try (PackageFreezer freezer =
freezePackage(deletedPkg.packageName, "setEnabledSetting")) {
synchronized (mPackages) {
// NOTE: The system package always needs to be enabled; even
// if it's for a compressed stub. If we don't, installing the
// system package fails during scan [scanning checks the disabled
// packages]. We will reverse this later, after we've "installed"
// the stub.
// This leaves us in a fragile state; the stub should never be
// enabled, so, cross your fingers and hope nothing goes wrong
// until we can disable the package later.
enableSystemPackageLPw(deletedPkg);
}
installPackageFromSystemLIF(new File(deletedPkg.codePath),
false /*isPrivileged*/, null /*allUserHandles*/,
null /*origUserHandles*/, null /*origPermissionsState*/,
true /*writeSettings*/);
} catch (PackageManagerException pme) {
Slog.w(TAG, "Failed to restore system package:"
+ deletedPkg.packageName, pme);
} finally {
synchronized (mPackages) {
mSettings.disableSystemPackageLPw(
deletedPkg.packageName, true /*replaced*/);
mSettings.writeLPr();
}
}
return;
}
clearAppDataLIF(newPkg, UserHandle.USER_ALL, FLAG_STORAGE_DE
| FLAG_STORAGE_CE | Installer.FLAG_CLEAR_CODE_CACHE_ONLY);
clearAppProfilesLIF(newPkg, UserHandle.USER_ALL);
mDexManager.notifyPackageUpdated(newPkg.packageName,
newPkg.baseCodePath, newPkg.splitCodePaths);
}
}
if (newState == PackageManager.COMPONENT_ENABLED_STATE_DEFAULT
|| newState == PackageManager.COMPONENT_ENABLED_STATE_ENABLED) {
// Don't care about who enables an app.
callingPackage = null;
}
synchronized (mPackages) {
pkgSetting.setEnabled(newState, userId, callingPackage);
}
} else {
synchronized (mPackages) {
// We're dealing with a component level state change
// First, verify that this is a valid class name.
PackageParser.Package pkg = pkgSetting.pkg;
if (pkg == null || !pkg.hasComponentClassName(className)) {
if (pkg != null &&
pkg.applicationInfo.targetSdkVersion >=
Build.VERSION_CODES.JELLY_BEAN) {
throw new IllegalArgumentException("Component class " + className
+ " does not exist in " + packageName);
} else {
Slog.w(TAG, "Failed setComponentEnabledSetting: component class "
+ className + " does not exist in " + packageName);
}
}
switch (newState) {
case COMPONENT_ENABLED_STATE_ENABLED:
if (!pkgSetting.enableComponentLPw(className, userId)) {
return;
}
break;
case COMPONENT_ENABLED_STATE_DISABLED:
if (!pkgSetting.disableComponentLPw(className, userId)) {
return;
}
break;
case COMPONENT_ENABLED_STATE_DEFAULT:
if (!pkgSetting.restoreComponentLPw(className, userId)) {
return;
}
break;
default:
Slog.e(TAG, "Invalid new component state: " + newState);
return;
}
}
}
synchronized (mPackages) {
scheduleWritePackageRestrictionsLocked(userId);
updateSequenceNumberLP(pkgSetting, new int[] { userId });
final long callingId = Binder.clearCallingIdentity();
try {
updateInstantAppInstallerLocked(packageName);
} finally {
Binder.restoreCallingIdentity(callingId);
}
components = mPendingBroadcasts.get(userId, packageName);
final boolean newPackage = components == null;
if (newPackage) {
components = new ArrayList<String>();
}
if (!components.contains(componentName)) {
components.add(componentName);
}
if ((flags&PackageManager.DONT_KILL_APP) == 0) {
sendNow = true;
// Purge entry from pending broadcast list if another one exists already
// since we are sending one right away.
mPendingBroadcasts.remove(userId, packageName);
} else {
if (newPackage) {
mPendingBroadcasts.put(userId, packageName, components);
}
if (!mHandler.hasMessages(SEND_PENDING_BROADCAST)) {
// Schedule a message
mHandler.sendEmptyMessageDelayed(SEND_PENDING_BROADCAST, BROADCAST_DELAY);
}
}
}
long callingId = Binder.clearCallingIdentity();
try {
if (sendNow) {
packageUid = UserHandle.getUid(userId, pkgSetting.appId);
sendPackageChangedBroadcast(packageName,
(flags&PackageManager.DONT_KILL_APP) != 0, components, packageUid);
}
} finally {
Binder.restoreCallingIdentity(callingId);
}
}
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