/* * Copyright (C) 2014 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.legacy; import android.hardware.camera2.impl.CameraDeviceImpl; import android.hardware.camera2.impl.CameraMetadataNative; import android.os.Handler; import android.util.Log; /** * Emulates a the state of a single Camera2 device. * *

* This class acts as the state machine for a camera device. Valid state transitions are given * in the table below: *

* *

{@code UNCONFIGURED -> CONFIGURING}
{@code CONFIGURING -> IDLE}
{@code IDLE -> CONFIGURING}
{@code IDLE -> CAPTURING}
{@code IDLE -> IDLE}
{@code CAPTURING -> IDLE}
{@code ANY -> ERROR}

*/ public class CameraDeviceState { private static final String TAG = "CameraDeviceState"; private static final boolean DEBUG = false; private static final int STATE_ERROR = 0; private static final int STATE_UNCONFIGURED = 1; private static final int STATE_CONFIGURING = 2; private static final int STATE_IDLE = 3; private static final int STATE_CAPTURING = 4; private static final String[] sStateNames = { "ERROR", "UNCONFIGURED", "CONFIGURING", "IDLE", "CAPTURING"}; private int mCurrentState = STATE_UNCONFIGURED; private int mCurrentError = NO_CAPTURE_ERROR; private RequestHolder mCurrentRequest = null; private Handler mCurrentHandler = null; private CameraDeviceStateListener mCurrentListener = null; /** * Error code used by {@link #setCaptureStart} and {@link #setCaptureResult} to indicate that no * error has occurred. */ public static final int NO_CAPTURE_ERROR = -1; /** * CameraDeviceStateListener callbacks to be called after state transitions. */ public interface CameraDeviceStateListener { void onError(int errorCode, Object errorArg, RequestHolder holder); void onConfiguring(); void onIdle(); void onBusy(); void onCaptureStarted(RequestHolder holder, long timestamp); void onCaptureResult(CameraMetadataNative result, RequestHolder holder); void onRepeatingRequestError(long lastFrameNumber); } /** * Transition to the {@code ERROR} state. * *

* The device cannot exit the {@code ERROR} state. If the device was not already in the * {@code ERROR} state, {@link CameraDeviceStateListener#onError(int, RequestHolder)} will be * called. *

* * @param error the error to set. Should be one of the error codes defined in * {@link CameraDeviceImpl.CameraDeviceCallbacks}. */ public synchronized void setError(int error) { mCurrentError = error; doStateTransition(STATE_ERROR); } /** * Transition to the {@code CONFIGURING} state, or {@code ERROR} if in an invalid state. * *

* If the device was not already in the {@code CONFIGURING} state, * {@link CameraDeviceStateListener#onConfiguring()} will be called. *

* * @return {@code false} if an error has occurred. */ public synchronized boolean setConfiguring() { doStateTransition(STATE_CONFIGURING); return mCurrentError == NO_CAPTURE_ERROR; } /** * Transition to the {@code IDLE} state, or {@code ERROR} if in an invalid state. * *

* If the device was not already in the {@code IDLE} state, * {@link CameraDeviceStateListener#onIdle()} will be called. *

* * @return {@code false} if an error has occurred. */ public synchronized boolean setIdle() { doStateTransition(STATE_IDLE); return mCurrentError == NO_CAPTURE_ERROR; } /** * Transition to the {@code CAPTURING} state, or {@code ERROR} if in an invalid state. * *

* If the device was not already in the {@code CAPTURING} state, * {@link CameraDeviceStateListener#onCaptureStarted(RequestHolder)} will be called. *

* * @param request A {@link RequestHolder} containing the request for the current capture. * @param timestamp The timestamp of the capture start in nanoseconds. * @param captureError Report a recoverable error for a single request using a valid * error code for {@code ICameraDeviceCallbacks}, or * {@link #NO_CAPTURE_ERROR} * @return {@code false} if an error has occurred. */ public synchronized boolean setCaptureStart(final RequestHolder request, long timestamp, int captureError) { mCurrentRequest = request; doStateTransition(STATE_CAPTURING, timestamp, captureError); return mCurrentError == NO_CAPTURE_ERROR; } /** * Set the result for a capture. * *

* If the device was in the {@code CAPTURING} state, * {@link CameraDeviceStateListener#onCaptureResult(CameraMetadataNative, RequestHolder)} will * be called with the given result, otherwise this will result in the device transitioning to * the {@code ERROR} state, *

* * @param request The {@link RequestHolder} request that created this result. * @param result The {@link CameraMetadataNative} result to set. * @param captureError Report a recoverable error for a single buffer or result using a valid * error code for {@code ICameraDeviceCallbacks}, or * {@link #NO_CAPTURE_ERROR}. * @param captureErrorArg An argument for some error captureError codes. * @return {@code false} if an error has occurred. */ public synchronized boolean setCaptureResult(final RequestHolder request, final CameraMetadataNative result, final int captureError, final Object captureErrorArg) { if (mCurrentState != STATE_CAPTURING) { Log.e(TAG, "Cannot receive result while in state: " + mCurrentState); mCurrentError = CameraDeviceImpl.CameraDeviceCallbacks.ERROR_CAMERA_DEVICE; doStateTransition(STATE_ERROR); return mCurrentError == NO_CAPTURE_ERROR; } if (mCurrentHandler != null && mCurrentListener != null) { if (captureError != NO_CAPTURE_ERROR) { mCurrentHandler.post(new Runnable() { @Override public void run() { mCurrentListener.onError(captureError, captureErrorArg, request); } }); } else { mCurrentHandler.post(new Runnable() { @Override public void run() { mCurrentListener.onCaptureResult(result, request); } }); } } return mCurrentError == NO_CAPTURE_ERROR; } public synchronized boolean setCaptureResult(final RequestHolder request, final CameraMetadataNative result) { return setCaptureResult(request, result, NO_CAPTURE_ERROR, /*errorArg*/null); } /** * Set repeating request error. * *

Repeating request has been stopped due to an error such as abandoned output surfaces.

* * @param lastFrameNumber Frame number of the last repeating request before it is stopped. */ public synchronized void setRepeatingRequestError(final long lastFrameNumber) { mCurrentHandler.post(new Runnable() { @Override public void run() { mCurrentListener.onRepeatingRequestError(lastFrameNumber); } }); } /** * Set the listener for state transition callbacks. * * @param handler handler on which to call the callbacks. * @param listener the {@link CameraDeviceStateListener} callbacks to call. */ public synchronized void setCameraDeviceCallbacks(Handler handler, CameraDeviceStateListener listener) { mCurrentHandler = handler; mCurrentListener = listener; } private void doStateTransition(int newState) { doStateTransition(newState, /*timestamp*/0, NO_CAPTURE_ERROR); } private void doStateTransition(int newState, final long timestamp, final int error) { if (newState != mCurrentState) { String stateName = "UNKNOWN"; if (newState >= 0 && newState < sStateNames.length) { stateName = sStateNames[newState]; } Log.i(TAG, "Legacy camera service transitioning to state " + stateName); } // If we transitioned into a non-IDLE/non-ERROR state then mark the device as busy if(newState != STATE_ERROR && newState != STATE_IDLE) { if (mCurrentState != newState && mCurrentHandler != null && mCurrentListener != null) { mCurrentHandler.post(new Runnable() { @Override public void run() { mCurrentListener.onBusy(); } }); } } switch(newState) { case STATE_ERROR: if (mCurrentState != STATE_ERROR && mCurrentHandler != null && mCurrentListener != null) { mCurrentHandler.post(new Runnable() { @Override public void run() { mCurrentListener.onError(mCurrentError, /*errorArg*/null, mCurrentRequest); } }); } mCurrentState = STATE_ERROR; break; case STATE_CONFIGURING: if (mCurrentState != STATE_UNCONFIGURED && mCurrentState != STATE_IDLE) { Log.e(TAG, "Cannot call configure while in state: " + mCurrentState); mCurrentError = CameraDeviceImpl.CameraDeviceCallbacks.ERROR_CAMERA_DEVICE; doStateTransition(STATE_ERROR); break; } if (mCurrentState != STATE_CONFIGURING && mCurrentHandler != null && mCurrentListener != null) { mCurrentHandler.post(new Runnable() { @Override public void run() { mCurrentListener.onConfiguring(); } }); } mCurrentState = STATE_CONFIGURING; break; case STATE_IDLE: if (mCurrentState == STATE_IDLE) { break; } if (mCurrentState != STATE_CONFIGURING && mCurrentState != STATE_CAPTURING) { Log.e(TAG, "Cannot call idle while in state: " + mCurrentState); mCurrentError = CameraDeviceImpl.CameraDeviceCallbacks.ERROR_CAMERA_DEVICE; doStateTransition(STATE_ERROR); break; } if (mCurrentState != STATE_IDLE && mCurrentHandler != null && mCurrentListener != null) { mCurrentHandler.post(new Runnable() { @Override public void run() { mCurrentListener.onIdle(); } }); } mCurrentState = STATE_IDLE; break; case STATE_CAPTURING: if (mCurrentState != STATE_IDLE && mCurrentState != STATE_CAPTURING) { Log.e(TAG, "Cannot call capture while in state: " + mCurrentState); mCurrentError = CameraDeviceImpl.CameraDeviceCallbacks.ERROR_CAMERA_DEVICE; doStateTransition(STATE_ERROR); break; } if (mCurrentHandler != null && mCurrentListener != null) { if (error != NO_CAPTURE_ERROR) { mCurrentHandler.post(new Runnable() { @Override public void run() { mCurrentListener.onError(error, /*errorArg*/null, mCurrentRequest); } }); } else { mCurrentHandler.post(new Runnable() { @Override public void run() { mCurrentListener.onCaptureStarted(mCurrentRequest, timestamp); } }); } } mCurrentState = STATE_CAPTURING; break; default: throw new IllegalStateException("Transition to unknown state: " + newState); } } }