/* * Copyright (C) 2013 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 android.hardware.camera2; import android.annotation.NonNull; import android.annotation.Nullable; import android.annotation.RequiresPermission; import android.annotation.SystemService; import android.content.Context; import android.hardware.CameraInfo; import android.hardware.CameraStatus; import android.hardware.ICameraService; import android.hardware.ICameraServiceListener; import android.hardware.camera2.impl.CameraMetadataNative; import android.hardware.camera2.legacy.CameraDeviceUserShim; import android.hardware.camera2.legacy.LegacyMetadataMapper; import android.os.Binder; import android.os.DeadObjectException; import android.os.Handler; import android.os.IBinder; import android.os.Looper; import android.os.RemoteException; import android.os.ServiceManager; import android.os.ServiceSpecificException; import android.os.SystemProperties; import android.util.ArrayMap; import android.util.Log; import java.util.ArrayList; /** *

A system service manager for detecting, characterizing, and connecting to * {@link CameraDevice CameraDevices}.

* *

For more details about communicating with camera devices, read the Camera * developer guide or the {@link android.hardware.camera2 camera2} * package documentation.

*/ @SystemService(Context.CAMERA_SERVICE) public final class CameraManager { private static final String TAG = "CameraManager"; private final boolean DEBUG = false; private static final int USE_CALLING_UID = -1; @SuppressWarnings("unused") private static final int API_VERSION_1 = 1; private static final int API_VERSION_2 = 2; private static final int CAMERA_TYPE_BACKWARD_COMPATIBLE = 0; private static final int CAMERA_TYPE_ALL = 1; private ArrayList mDeviceIdList; private final Context mContext; private final Object mLock = new Object(); /** * @hide */ public CameraManager(Context context) { synchronized(mLock) { mContext = context; } } /** * Return the list of currently connected camera devices by identifier, including * cameras that may be in use by other camera API clients. * *

Non-removable cameras use integers starting at 0 for their * identifiers, while removable cameras have a unique identifier for each * individual device, even if they are the same model.

* * @return The list of currently connected camera devices. */ @NonNull public String[] getCameraIdList() throws CameraAccessException { return CameraManagerGlobal.get().getCameraIdList(); } /** * Register a callback to be notified about camera device availability. * *

Registering the same callback again will replace the handler with the * new one provided.

* *

The first time a callback is registered, it is immediately called * with the availability status of all currently known camera devices.

* *

{@link AvailabilityCallback#onCameraUnavailable(String)} will be called whenever a camera * device is opened by any camera API client. As of API level 23, other camera API clients may * still be able to open such a camera device, evicting the existing client if they have higher * priority than the existing client of a camera device. See open() for more details.

* *

Since this callback will be registered with the camera service, remember to unregister it * once it is no longer needed; otherwise the callback will continue to receive events * indefinitely and it may prevent other resources from being released. Specifically, the * callbacks will be invoked independently of the general activity lifecycle and independently * of the state of individual CameraManager instances.

* * @param callback the new callback to send camera availability notices to * @param handler The handler on which the callback should be invoked, or {@code null} to use * the current thread's {@link android.os.Looper looper}. * * @throws IllegalArgumentException if the handler is {@code null} but the current thread has * no looper. */ public void registerAvailabilityCallback(@NonNull AvailabilityCallback callback, @Nullable Handler handler) { if (handler == null) { Looper looper = Looper.myLooper(); if (looper == null) { throw new IllegalArgumentException( "No handler given, and current thread has no looper!"); } handler = new Handler(looper); } CameraManagerGlobal.get().registerAvailabilityCallback(callback, handler); } /** * Remove a previously-added callback; the callback will no longer receive connection and * disconnection callbacks. * *

Removing a callback that isn't registered has no effect.

* * @param callback The callback to remove from the notification list */ public void unregisterAvailabilityCallback(@NonNull AvailabilityCallback callback) { CameraManagerGlobal.get().unregisterAvailabilityCallback(callback); } /** * Register a callback to be notified about torch mode status. * *

Registering the same callback again will replace the handler with the * new one provided.

* *

The first time a callback is registered, it is immediately called * with the torch mode status of all currently known camera devices with a flash unit.

* *

Since this callback will be registered with the camera service, remember to unregister it * once it is no longer needed; otherwise the callback will continue to receive events * indefinitely and it may prevent other resources from being released. Specifically, the * callbacks will be invoked independently of the general activity lifecycle and independently * of the state of individual CameraManager instances.

* * @param callback The new callback to send torch mode status to * @param handler The handler on which the callback should be invoked, or {@code null} to use * the current thread's {@link android.os.Looper looper}. * * @throws IllegalArgumentException if the handler is {@code null} but the current thread has * no looper. */ public void registerTorchCallback(@NonNull TorchCallback callback, @Nullable Handler handler) { if (handler == null) { Looper looper = Looper.myLooper(); if (looper == null) { throw new IllegalArgumentException( "No handler given, and current thread has no looper!"); } handler = new Handler(looper); } CameraManagerGlobal.get().registerTorchCallback(callback, handler); } /** * Remove a previously-added callback; the callback will no longer receive torch mode status * callbacks. * *

Removing a callback that isn't registered has no effect.

* * @param callback The callback to remove from the notification list */ public void unregisterTorchCallback(@NonNull TorchCallback callback) { CameraManagerGlobal.get().unregisterTorchCallback(callback); } /** *

Query the capabilities of a camera device. These capabilities are * immutable for a given camera.

* * @param cameraId The id of the camera device to query * @return The properties of the given camera * * @throws IllegalArgumentException if the cameraId does not match any * known camera device. * @throws CameraAccessException if the camera device has been disconnected. * * @see #getCameraIdList * @see android.app.admin.DevicePolicyManager#setCameraDisabled */ @NonNull public CameraCharacteristics getCameraCharacteristics(@NonNull String cameraId) throws CameraAccessException { CameraCharacteristics characteristics = null; if (CameraManagerGlobal.sCameraServiceDisabled) { throw new IllegalArgumentException("No cameras available on device"); } synchronized (mLock) { /* * Get the camera characteristics from the camera service directly if it supports it, * otherwise get them from the legacy shim instead. */ ICameraService cameraService = CameraManagerGlobal.get().getCameraService(); if (cameraService == null) { throw new CameraAccessException(CameraAccessException.CAMERA_DISCONNECTED, "Camera service is currently unavailable"); } try { if (!supportsCamera2ApiLocked(cameraId)) { // Legacy backwards compatibility path; build static info from the camera // parameters int id = Integer.parseInt(cameraId); String parameters = cameraService.getLegacyParameters(id); CameraInfo info = cameraService.getCameraInfo(id); characteristics = LegacyMetadataMapper.createCharacteristics(parameters, info); } else { // Normal path: Get the camera characteristics directly from the camera service CameraMetadataNative info = cameraService.getCameraCharacteristics(cameraId); characteristics = new CameraCharacteristics(info); } } catch (ServiceSpecificException e) { throwAsPublicException(e); } catch (RemoteException e) { // Camera service died - act as if the camera was disconnected throw new CameraAccessException(CameraAccessException.CAMERA_DISCONNECTED, "Camera service is currently unavailable", e); } } return characteristics; } /** * Helper for opening a connection to a camera with the given ID. * * @param cameraId The unique identifier of the camera device to open * @param callback The callback for the camera. Must not be null. * @param handler The handler to invoke the callback on. Must not be null. * @param uid The UID of the application actually opening the camera. * Must be USE_CALLING_UID unless the caller is a service * that is trusted to open the device on behalf of an * application and to forward the real UID. * * @throws CameraAccessException if the camera is disabled by device policy, * too many camera devices are already open, or the cameraId does not match * any currently available camera device. * * @throws SecurityException if the application does not have permission to * access the camera * @throws IllegalArgumentException if callback or handler is null. * @return A handle to the newly-created camera device. * * @see #getCameraIdList * @see android.app.admin.DevicePolicyManager#setCameraDisabled */ private CameraDevice openCameraDeviceUserAsync(String cameraId, CameraDevice.StateCallback callback, Handler handler, final int uid) throws CameraAccessException { CameraCharacteristics characteristics = getCameraCharacteristics(cameraId); CameraDevice device = null; synchronized (mLock) { ICameraDeviceUser cameraUser = null; android.hardware.camera2.impl.CameraDeviceImpl deviceImpl = new android.hardware.camera2.impl.CameraDeviceImpl( cameraId, callback, handler, characteristics, mContext.getApplicationInfo().targetSdkVersion); ICameraDeviceCallbacks callbacks = deviceImpl.getCallbacks(); try { if (supportsCamera2ApiLocked(cameraId)) { // Use cameraservice's cameradeviceclient implementation for HAL3.2+ devices ICameraService cameraService = CameraManagerGlobal.get().getCameraService(); if (cameraService == null) { throw new ServiceSpecificException( ICameraService.ERROR_DISCONNECTED, "Camera service is currently unavailable"); } cameraUser = cameraService.connectDevice(callbacks, cameraId, mContext.getOpPackageName(), uid); } else { // Use legacy camera implementation for HAL1 devices int id; try { id = Integer.parseInt(cameraId); } catch (NumberFormatException e) { throw new IllegalArgumentException("Expected cameraId to be numeric, but it was: " + cameraId); } Log.i(TAG, "Using legacy camera HAL."); cameraUser = CameraDeviceUserShim.connectBinderShim(callbacks, id); } } catch (ServiceSpecificException e) { if (e.errorCode == ICameraService.ERROR_DEPRECATED_HAL) { throw new AssertionError("Should've gone down the shim path"); } else if (e.errorCode == ICameraService.ERROR_CAMERA_IN_USE || e.errorCode == ICameraService.ERROR_MAX_CAMERAS_IN_USE || e.errorCode == ICameraService.ERROR_DISABLED || e.errorCode == ICameraService.ERROR_DISCONNECTED || e.errorCode == ICameraService.ERROR_INVALID_OPERATION) { // Received one of the known connection errors // The remote camera device cannot be connected to, so // set the local camera to the startup error state deviceImpl.setRemoteFailure(e); if (e.errorCode == ICameraService.ERROR_DISABLED || e.errorCode == ICameraService.ERROR_DISCONNECTED || e.errorCode == ICameraService.ERROR_CAMERA_IN_USE) { // Per API docs, these failures call onError and throw throwAsPublicException(e); } } else { // Unexpected failure - rethrow throwAsPublicException(e); } } catch (RemoteException e) { // Camera service died - act as if it's a CAMERA_DISCONNECTED case ServiceSpecificException sse = new ServiceSpecificException( ICameraService.ERROR_DISCONNECTED, "Camera service is currently unavailable"); deviceImpl.setRemoteFailure(sse); throwAsPublicException(sse); } // TODO: factor out callback to be non-nested, then move setter to constructor // For now, calling setRemoteDevice will fire initial // onOpened/onUnconfigured callbacks. // This function call may post onDisconnected and throw CAMERA_DISCONNECTED if // cameraUser dies during setup. deviceImpl.setRemoteDevice(cameraUser); device = deviceImpl; } return device; } /** * Open a connection to a camera with the given ID. * *

Use {@link #getCameraIdList} to get the list of available camera * devices. Note that even if an id is listed, open may fail if the device * is disconnected between the calls to {@link #getCameraIdList} and * {@link #openCamera}, or if a higher-priority camera API client begins using the * camera device.

* *

As of API level 23, devices for which the * {@link AvailabilityCallback#onCameraUnavailable(String)} callback has been called due to the * device being in use by a lower-priority, background camera API client can still potentially * be opened by calling this method when the calling camera API client has a higher priority * than the current camera API client using this device. In general, if the top, foreground * activity is running within your application process, your process will be given the highest * priority when accessing the camera, and this method will succeed even if the camera device is * in use by another camera API client. Any lower-priority application that loses control of the * camera in this way will receive an * {@link android.hardware.camera2.CameraDevice.StateCallback#onDisconnected} callback.

* *

Once the camera is successfully opened, {@link CameraDevice.StateCallback#onOpened} will * be invoked with the newly opened {@link CameraDevice}. The camera device can then be set up * for operation by calling {@link CameraDevice#createCaptureSession} and * {@link CameraDevice#createCaptureRequest}

* * *

If the camera becomes disconnected during initialization * after this function call returns, * {@link CameraDevice.StateCallback#onDisconnected} with a * {@link CameraDevice} in the disconnected state (and * {@link CameraDevice.StateCallback#onOpened} will be skipped).

* *

If opening the camera device fails, then the device callback's * {@link CameraDevice.StateCallback#onError onError} method will be called, and subsequent * calls on the camera device will throw a {@link CameraAccessException}.

* * @param cameraId * The unique identifier of the camera device to open * @param callback * The callback which is invoked once the camera is opened * @param handler * The handler on which the callback should be invoked, or * {@code null} to use the current thread's {@link android.os.Looper looper}. * * @throws CameraAccessException if the camera is disabled by device policy, * has been disconnected, or is being used by a higher-priority camera API client. * * @throws IllegalArgumentException if cameraId or the callback was null, * or the cameraId does not match any currently or previously available * camera device. * * @throws SecurityException if the application does not have permission to * access the camera * * @see #getCameraIdList * @see android.app.admin.DevicePolicyManager#setCameraDisabled */ @RequiresPermission(android.Manifest.permission.CAMERA) public void openCamera(@NonNull String cameraId, @NonNull final CameraDevice.StateCallback callback, @Nullable Handler handler) throws CameraAccessException { openCameraForUid(cameraId, callback, handler, USE_CALLING_UID); } /** * Open a connection to a camera with the given ID, on behalf of another application * specified by clientUid. * *

The behavior of this method matches that of {@link #openCamera}, except that it allows * the caller to specify the UID to use for permission/etc verification. This can only be * done by services trusted by the camera subsystem to act on behalf of applications and * to forward the real UID.

* * @param clientUid * The UID of the application on whose behalf the camera is being opened. * Must be USE_CALLING_UID unless the caller is a trusted service. * * @hide */ public void openCameraForUid(@NonNull String cameraId, @NonNull final CameraDevice.StateCallback callback, @Nullable Handler handler, int clientUid) throws CameraAccessException { if (cameraId == null) { throw new IllegalArgumentException("cameraId was null"); } else if (callback == null) { throw new IllegalArgumentException("callback was null"); } else if (handler == null) { if (Looper.myLooper() != null) { handler = new Handler(); } else { throw new IllegalArgumentException( "Handler argument is null, but no looper exists in the calling thread"); } } if (CameraManagerGlobal.sCameraServiceDisabled) { throw new IllegalArgumentException("No cameras available on device"); } openCameraDeviceUserAsync(cameraId, callback, handler, clientUid); } /** * Set the flash unit's torch mode of the camera of the given ID without opening the camera * device. * *

Use {@link #getCameraIdList} to get the list of available camera devices and use * {@link #getCameraCharacteristics} to check whether the camera device has a flash unit. * Note that even if a camera device has a flash unit, turning on the torch mode may fail * if the camera device or other camera resources needed to turn on the torch mode are in use. *

* *

If {@link #setTorchMode} is called to turn on or off the torch mode successfully, * {@link CameraManager.TorchCallback#onTorchModeChanged} will be invoked. * However, even if turning on the torch mode is successful, the application does not have the * exclusive ownership of the flash unit or the camera device. The torch mode will be turned * off and becomes unavailable when the camera device that the flash unit belongs to becomes * unavailable or when other camera resources to keep the torch on become unavailable ( * {@link CameraManager.TorchCallback#onTorchModeUnavailable} will be invoked). Also, * other applications are free to call {@link #setTorchMode} to turn off the torch mode ( * {@link CameraManager.TorchCallback#onTorchModeChanged} will be invoked). If the latest * application that turned on the torch mode exits, the torch mode will be turned off. * * @param cameraId * The unique identifier of the camera device that the flash unit belongs to. * @param enabled * The desired state of the torch mode for the target camera device. Set to * {@code true} to turn on the torch mode. Set to {@code false} to turn off the * torch mode. * * @throws CameraAccessException if it failed to access the flash unit. * {@link CameraAccessException#CAMERA_IN_USE} will be thrown if the camera device * is in use. {@link CameraAccessException#MAX_CAMERAS_IN_USE} will be thrown if * other camera resources needed to turn on the torch mode are in use. * {@link CameraAccessException#CAMERA_DISCONNECTED} will be thrown if camera * service is not available. * * @throws IllegalArgumentException if cameraId was null, cameraId doesn't match any currently * or previously available camera device, or the camera device doesn't have a * flash unit. */ public void setTorchMode(@NonNull String cameraId, boolean enabled) throws CameraAccessException { if (CameraManagerGlobal.sCameraServiceDisabled) { throw new IllegalArgumentException("No cameras available on device"); } CameraManagerGlobal.get().setTorchMode(cameraId, enabled); } /** * A callback for camera devices becoming available or unavailable to open. * *

Cameras become available when they are no longer in use, or when a new * removable camera is connected. They become unavailable when some * application or service starts using a camera, or when a removable camera * is disconnected.

* *

Extend this callback and pass an instance of the subclass to * {@link CameraManager#registerAvailabilityCallback} to be notified of such availability * changes.

* * @see #registerAvailabilityCallback */ public static abstract class AvailabilityCallback { /** * A new camera has become available to use. * *

The default implementation of this method does nothing.

* * @param cameraId The unique identifier of the new camera. */ public void onCameraAvailable(@NonNull String cameraId) { // default empty implementation } /** * A previously-available camera has become unavailable for use. * *

If an application had an active CameraDevice instance for the * now-disconnected camera, that application will receive a * {@link CameraDevice.StateCallback#onDisconnected disconnection error}.

* *

The default implementation of this method does nothing.

* * @param cameraId The unique identifier of the disconnected camera. */ public void onCameraUnavailable(@NonNull String cameraId) { // default empty implementation } } /** * A callback for camera flash torch modes becoming unavailable, disabled, or enabled. * *

The torch mode becomes unavailable when the camera device it belongs to becomes * unavailable or other camera resources it needs become busy due to other higher priority * camera activities. The torch mode becomes disabled when it was turned off or when the camera * device it belongs to is no longer in use and other camera resources it needs are no longer * busy. A camera's torch mode is turned off when an application calls {@link #setTorchMode} to * turn off the camera's torch mode, or when an application turns on another camera's torch mode * if keeping multiple torch modes on simultaneously is not supported. The torch mode becomes * enabled when it is turned on via {@link #setTorchMode}.

* *

The torch mode is available to set via {@link #setTorchMode} only when it's in a disabled * or enabled state.

* *

Extend this callback and pass an instance of the subclass to * {@link CameraManager#registerTorchCallback} to be notified of such status changes. *

* * @see #registerTorchCallback */ public static abstract class TorchCallback { /** * A camera's torch mode has become unavailable to set via {@link #setTorchMode}. * *

If torch mode was previously turned on by calling {@link #setTorchMode}, it will be * turned off before {@link CameraManager.TorchCallback#onTorchModeUnavailable} is * invoked. {@link #setTorchMode} will fail until the torch mode has entered a disabled or * enabled state again.

* *

The default implementation of this method does nothing.

* * @param cameraId The unique identifier of the camera whose torch mode has become * unavailable. */ public void onTorchModeUnavailable(@NonNull String cameraId) { // default empty implementation } /** * A camera's torch mode has become enabled or disabled and can be changed via * {@link #setTorchMode}. * *

The default implementation of this method does nothing.

* * @param cameraId The unique identifier of the camera whose torch mode has been changed. * * @param enabled The state that the torch mode of the camera has been changed to. * {@code true} when the torch mode has become on and available to be turned * off. {@code false} when the torch mode has becomes off and available to * be turned on. */ public void onTorchModeChanged(@NonNull String cameraId, boolean enabled) { // default empty implementation } } /** * Convert ServiceSpecificExceptions and Binder RemoteExceptions from camera binder interfaces * into the correct public exceptions. * * @hide */ public static void throwAsPublicException(Throwable t) throws CameraAccessException { if (t instanceof ServiceSpecificException) { ServiceSpecificException e = (ServiceSpecificException) t; int reason = CameraAccessException.CAMERA_ERROR; switch(e.errorCode) { case ICameraService.ERROR_DISCONNECTED: reason = CameraAccessException.CAMERA_DISCONNECTED; break; case ICameraService.ERROR_DISABLED: reason = CameraAccessException.CAMERA_DISABLED; break; case ICameraService.ERROR_CAMERA_IN_USE: reason = CameraAccessException.CAMERA_IN_USE; break; case ICameraService.ERROR_MAX_CAMERAS_IN_USE: reason = CameraAccessException.MAX_CAMERAS_IN_USE; break; case ICameraService.ERROR_DEPRECATED_HAL: reason = CameraAccessException.CAMERA_DEPRECATED_HAL; break; case ICameraService.ERROR_ILLEGAL_ARGUMENT: case ICameraService.ERROR_ALREADY_EXISTS: throw new IllegalArgumentException(e.getMessage(), e); case ICameraService.ERROR_PERMISSION_DENIED: throw new SecurityException(e.getMessage(), e); case ICameraService.ERROR_TIMED_OUT: case ICameraService.ERROR_INVALID_OPERATION: default: reason = CameraAccessException.CAMERA_ERROR; } throw new CameraAccessException(reason, e.getMessage(), e); } else if (t instanceof DeadObjectException) { throw new CameraAccessException(CameraAccessException.CAMERA_DISCONNECTED, "Camera service has died unexpectedly", t); } else if (t instanceof RemoteException) { throw new UnsupportedOperationException("An unknown RemoteException was thrown" + " which should never happen.", t); } else if (t instanceof RuntimeException) { RuntimeException e = (RuntimeException) t; throw e; } } /** * Queries the camera service if it supports the camera2 api directly, or needs a shim. * * @param cameraId a non-{@code null} camera identifier * @return {@code false} if the legacy shim needs to be used, {@code true} otherwise. */ private boolean supportsCamera2ApiLocked(String cameraId) { return supportsCameraApiLocked(cameraId, API_VERSION_2); } /** * Queries the camera service if it supports a camera api directly, or needs a shim. * * @param cameraId a non-{@code null} camera identifier * @param apiVersion the version, i.e. {@code API_VERSION_1} or {@code API_VERSION_2} * @return {@code true} if connecting will work for that device version. */ private boolean supportsCameraApiLocked(String cameraId, int apiVersion) { /* * Possible return values: * - NO_ERROR => CameraX API is supported * - CAMERA_DEPRECATED_HAL => CameraX API is *not* supported (thrown as an exception) * - Remote exception => If the camera service died * * Anything else is an unexpected error we don't want to recover from. */ try { ICameraService cameraService = CameraManagerGlobal.get().getCameraService(); // If no camera service, no support if (cameraService == null) return false; return cameraService.supportsCameraApi(cameraId, apiVersion); } catch (RemoteException e) { // Camera service is now down, no support for any API level } return false; } /** * A per-process global camera manager instance, to retain a connection to the camera service, * and to distribute camera availability notices to API-registered callbacks */ private static final class CameraManagerGlobal extends ICameraServiceListener.Stub implements IBinder.DeathRecipient { private static final String TAG = "CameraManagerGlobal"; private final boolean DEBUG = false; private final int CAMERA_SERVICE_RECONNECT_DELAY_MS = 1000; // Singleton instance private static final CameraManagerGlobal gCameraManager = new CameraManagerGlobal(); /** * This must match the ICameraService definition */ private static final String CAMERA_SERVICE_BINDER_NAME = "media.camera"; // Camera ID -> Status map private final ArrayMap mDeviceStatus = new ArrayMap(); // Registered availablility callbacks and their handlers private final ArrayMap mCallbackMap = new ArrayMap(); // torch client binder to set the torch mode with. private Binder mTorchClientBinder = new Binder(); // Camera ID -> Torch status map private final ArrayMap mTorchStatus = new ArrayMap(); // Registered torch callbacks and their handlers private final ArrayMap mTorchCallbackMap = new ArrayMap(); private final Object mLock = new Object(); // Access only through getCameraService to deal with binder death private ICameraService mCameraService; // Singleton, don't allow construction private CameraManagerGlobal() { } public static final boolean sCameraServiceDisabled = SystemProperties.getBoolean("config.disable_cameraservice", false); public static CameraManagerGlobal get() { return gCameraManager; } @Override public IBinder asBinder() { return this; } /** * Return a best-effort ICameraService. * *

This will be null if the camera service is not currently available. If the camera * service has died since the last use of the camera service, will try to reconnect to the * service.

*/ public ICameraService getCameraService() { synchronized(mLock) { connectCameraServiceLocked(); if (mCameraService == null && !sCameraServiceDisabled) { Log.e(TAG, "Camera service is unavailable"); } return mCameraService; } } /** * Connect to the camera service if it's available, and set up listeners. * If the service is already connected, do nothing. * *

Sets mCameraService to a valid pointer or null if the connection does not succeed.

*/ private void connectCameraServiceLocked() { // Only reconnect if necessary if (mCameraService != null || sCameraServiceDisabled) return; Log.i(TAG, "Connecting to camera service"); IBinder cameraServiceBinder = ServiceManager.getService(CAMERA_SERVICE_BINDER_NAME); if (cameraServiceBinder == null) { // Camera service is now down, leave mCameraService as null return; } try { cameraServiceBinder.linkToDeath(this, /*flags*/ 0); } catch (RemoteException e) { // Camera service is now down, leave mCameraService as null return; } ICameraService cameraService = ICameraService.Stub.asInterface(cameraServiceBinder); try { CameraMetadataNative.setupGlobalVendorTagDescriptor(); } catch (ServiceSpecificException e) { handleRecoverableSetupErrors(e); } try { CameraStatus[] cameraStatuses = cameraService.addListener(this); for (CameraStatus c : cameraStatuses) { onStatusChangedLocked(c.status, c.cameraId); } mCameraService = cameraService; } catch(ServiceSpecificException e) { // Unexpected failure throw new IllegalStateException("Failed to register a camera service listener", e); } catch (RemoteException e) { // Camera service is now down, leave mCameraService as null } } /** * Get a list of all camera IDs that are at least PRESENT; ignore devices that are * NOT_PRESENT or ENUMERATING, since they cannot be used by anyone. */ public String[] getCameraIdList() { String[] cameraIds = null; synchronized(mLock) { // Try to make sure we have an up-to-date list of camera devices. connectCameraServiceLocked(); int idCount = 0; for (int i = 0; i < mDeviceStatus.size(); i++) { int status = mDeviceStatus.valueAt(i); if (status == ICameraServiceListener.STATUS_NOT_PRESENT || status == ICameraServiceListener.STATUS_ENUMERATING) continue; idCount++; } cameraIds = new String[idCount]; idCount = 0; for (int i = 0; i < mDeviceStatus.size(); i++) { int status = mDeviceStatus.valueAt(i); if (status == ICameraServiceListener.STATUS_NOT_PRESENT || status == ICameraServiceListener.STATUS_ENUMERATING) continue; cameraIds[idCount] = mDeviceStatus.keyAt(i); idCount++; } } return cameraIds; } public void setTorchMode(String cameraId, boolean enabled) throws CameraAccessException { synchronized(mLock) { if (cameraId == null) { throw new IllegalArgumentException("cameraId was null"); } ICameraService cameraService = getCameraService(); if (cameraService == null) { throw new CameraAccessException(CameraAccessException.CAMERA_DISCONNECTED, "Camera service is currently unavailable"); } try { cameraService.setTorchMode(cameraId, enabled, mTorchClientBinder); } catch(ServiceSpecificException e) { throwAsPublicException(e); } catch (RemoteException e) { throw new CameraAccessException(CameraAccessException.CAMERA_DISCONNECTED, "Camera service is currently unavailable"); } } } private void handleRecoverableSetupErrors(ServiceSpecificException e) { switch (e.errorCode) { case ICameraService.ERROR_DISCONNECTED: Log.w(TAG, e.getMessage()); break; default: throw new IllegalStateException(e); } } private boolean isAvailable(int status) { switch (status) { case ICameraServiceListener.STATUS_PRESENT: return true; default: return false; } } private boolean validStatus(int status) { switch (status) { case ICameraServiceListener.STATUS_NOT_PRESENT: case ICameraServiceListener.STATUS_PRESENT: case ICameraServiceListener.STATUS_ENUMERATING: case ICameraServiceListener.STATUS_NOT_AVAILABLE: return true; default: return false; } } private boolean validTorchStatus(int status) { switch (status) { case ICameraServiceListener.TORCH_STATUS_NOT_AVAILABLE: case ICameraServiceListener.TORCH_STATUS_AVAILABLE_ON: case ICameraServiceListener.TORCH_STATUS_AVAILABLE_OFF: return true; default: return false; } } private void postSingleUpdate(final AvailabilityCallback callback, final Handler handler, final String id, final int status) { if (isAvailable(status)) { handler.post( new Runnable() { @Override public void run() { callback.onCameraAvailable(id); } }); } else { handler.post( new Runnable() { @Override public void run() { callback.onCameraUnavailable(id); } }); } } private void postSingleTorchUpdate(final TorchCallback callback, final Handler handler, final String id, final int status) { switch(status) { case ICameraServiceListener.TORCH_STATUS_AVAILABLE_ON: case ICameraServiceListener.TORCH_STATUS_AVAILABLE_OFF: handler.post( new Runnable() { @Override public void run() { callback.onTorchModeChanged(id, status == ICameraServiceListener.TORCH_STATUS_AVAILABLE_ON); } }); break; default: handler.post( new Runnable() { @Override public void run() { callback.onTorchModeUnavailable(id); } }); break; } } /** * Send the state of all known cameras to the provided listener, to initialize * the listener's knowledge of camera state. */ private void updateCallbackLocked(AvailabilityCallback callback, Handler handler) { for (int i = 0; i < mDeviceStatus.size(); i++) { String id = mDeviceStatus.keyAt(i); Integer status = mDeviceStatus.valueAt(i); postSingleUpdate(callback, handler, id, status); } } private void onStatusChangedLocked(int status, String id) { if (DEBUG) { Log.v(TAG, String.format("Camera id %s has status changed to 0x%x", id, status)); } if (!validStatus(status)) { Log.e(TAG, String.format("Ignoring invalid device %s status 0x%x", id, status)); return; } Integer oldStatus = mDeviceStatus.put(id, status); if (oldStatus != null && oldStatus == status) { if (DEBUG) { Log.v(TAG, String.format( "Device status changed to 0x%x, which is what it already was", status)); } return; } // TODO: consider abstracting out this state minimization + transition // into a separate // more easily testable class // i.e. (new State()).addState(STATE_AVAILABLE) // .addState(STATE_NOT_AVAILABLE) // .addTransition(STATUS_PRESENT, STATE_AVAILABLE), // .addTransition(STATUS_NOT_PRESENT, STATE_NOT_AVAILABLE) // .addTransition(STATUS_ENUMERATING, STATE_NOT_AVAILABLE); // .addTransition(STATUS_NOT_AVAILABLE, STATE_NOT_AVAILABLE); // Translate all the statuses to either 'available' or 'not available' // available -> available => no new update // not available -> not available => no new update if (oldStatus != null && isAvailable(status) == isAvailable(oldStatus)) { if (DEBUG) { Log.v(TAG, String.format( "Device status was previously available (%b), " + " and is now again available (%b)" + "so no new client visible update will be sent", isAvailable(oldStatus), isAvailable(status))); } return; } final int callbackCount = mCallbackMap.size(); for (int i = 0; i < callbackCount; i++) { Handler handler = mCallbackMap.valueAt(i); final AvailabilityCallback callback = mCallbackMap.keyAt(i); postSingleUpdate(callback, handler, id, status); } } // onStatusChangedLocked private void updateTorchCallbackLocked(TorchCallback callback, Handler handler) { for (int i = 0; i < mTorchStatus.size(); i++) { String id = mTorchStatus.keyAt(i); Integer status = mTorchStatus.valueAt(i); postSingleTorchUpdate(callback, handler, id, status); } } private void onTorchStatusChangedLocked(int status, String id) { if (DEBUG) { Log.v(TAG, String.format("Camera id %s has torch status changed to 0x%x", id, status)); } if (!validTorchStatus(status)) { Log.e(TAG, String.format("Ignoring invalid device %s torch status 0x%x", id, status)); return; } Integer oldStatus = mTorchStatus.put(id, status); if (oldStatus != null && oldStatus == status) { if (DEBUG) { Log.v(TAG, String.format( "Torch status changed to 0x%x, which is what it already was", status)); } return; } final int callbackCount = mTorchCallbackMap.size(); for (int i = 0; i < callbackCount; i++) { final Handler handler = mTorchCallbackMap.valueAt(i); final TorchCallback callback = mTorchCallbackMap.keyAt(i); postSingleTorchUpdate(callback, handler, id, status); } } // onTorchStatusChangedLocked /** * Register a callback to be notified about camera device availability with the * global listener singleton. * * @param callback the new callback to send camera availability notices to * @param handler The handler on which the callback should be invoked. May not be null. */ public void registerAvailabilityCallback(AvailabilityCallback callback, Handler handler) { synchronized (mLock) { connectCameraServiceLocked(); Handler oldHandler = mCallbackMap.put(callback, handler); // For new callbacks, provide initial availability information if (oldHandler == null) { updateCallbackLocked(callback, handler); } // If not connected to camera service, schedule a reconnect to camera service. if (mCameraService == null) { scheduleCameraServiceReconnectionLocked(); } } } /** * Remove a previously-added callback; the callback will no longer receive connection and * disconnection callbacks, and is no longer referenced by the global listener singleton. * * @param callback The callback to remove from the notification list */ public void unregisterAvailabilityCallback(AvailabilityCallback callback) { synchronized (mLock) { mCallbackMap.remove(callback); } } public void registerTorchCallback(TorchCallback callback, Handler handler) { synchronized(mLock) { connectCameraServiceLocked(); Handler oldHandler = mTorchCallbackMap.put(callback, handler); // For new callbacks, provide initial torch information if (oldHandler == null) { updateTorchCallbackLocked(callback, handler); } // If not connected to camera service, schedule a reconnect to camera service. if (mCameraService == null) { scheduleCameraServiceReconnectionLocked(); } } } public void unregisterTorchCallback(TorchCallback callback) { synchronized(mLock) { mTorchCallbackMap.remove(callback); } } /** * Callback from camera service notifying the process about camera availability changes */ @Override public void onStatusChanged(int status, String cameraId) throws RemoteException { synchronized(mLock) { onStatusChangedLocked(status, cameraId); } } @Override public void onTorchStatusChanged(int status, String cameraId) throws RemoteException { synchronized (mLock) { onTorchStatusChangedLocked(status, cameraId); } } /** * Try to connect to camera service after some delay if any client registered camera * availability callback or torch status callback. */ private void scheduleCameraServiceReconnectionLocked() { final Handler handler; if (mCallbackMap.size() > 0) { handler = mCallbackMap.valueAt(0); } else if (mTorchCallbackMap.size() > 0) { handler = mTorchCallbackMap.valueAt(0); } else { // Not necessary to reconnect camera service if no client registers a callback. return; } if (DEBUG) { Log.v(TAG, "Reconnecting Camera Service in " + CAMERA_SERVICE_RECONNECT_DELAY_MS + " ms"); } handler.postDelayed( new Runnable() { @Override public void run() { ICameraService cameraService = getCameraService(); if (cameraService == null) { synchronized(mLock) { if (DEBUG) { Log.v(TAG, "Reconnecting Camera Service failed."); } scheduleCameraServiceReconnectionLocked(); } } } }, CAMERA_SERVICE_RECONNECT_DELAY_MS); } /** * Listener for camera service death. * *

The camera service isn't supposed to die under any normal circumstances, but can be * turned off during debug, or crash due to bugs. So detect that and null out the interface * object, so that the next calls to the manager can try to reconnect.

*/ public void binderDied() { synchronized(mLock) { // Only do this once per service death if (mCameraService == null) return; mCameraService = null; // Tell listeners that the cameras and torch modes are unavailable and schedule a // reconnection to camera service. When camera service is reconnected, the camera // and torch statuses will be updated. for (int i = 0; i < mDeviceStatus.size(); i++) { String cameraId = mDeviceStatus.keyAt(i); onStatusChangedLocked(ICameraServiceListener.STATUS_NOT_PRESENT, cameraId); } for (int i = 0; i < mTorchStatus.size(); i++) { String cameraId = mTorchStatus.keyAt(i); onTorchStatusChangedLocked(ICameraServiceListener.TORCH_STATUS_NOT_AVAILABLE, cameraId); } scheduleCameraServiceReconnectionLocked(); } } } // CameraManagerGlobal } // CameraManager